Note: Descriptions are shown in the official language in which they were submitted.
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HEATER-INSTALLED GRIP FOR VEHICLE, CONTROL DEVICE FOR HEATER
INSTALLED IN VEHICLE GRIP, AND ELECTRICAL CONNECTION STRUCTURE
FOR HEATER UNIT FOR GRIP IN VEHICLE
This is a division of our co-pending Canadian Patent
Application No. 2,235,968 dated 27 August 1997.
TECHNICAL FIELD
The present invention relates to a heater-installed
grip for a vehicle such as a motorcycle, a snowmobile, a buggy
vehicle and the like, a control device for a heater installed
in the vehicle grip, and an electrical connection structure for
a heater unit for the grip.
BACKGROUND ART
Such grips are conventionally known, for example,
from Japanese Utility Model Publication No. 7-48463 and the
like. As shown in Figs. 37 and 38, the grip is of a structure
in which a flexible printed wiring heater circuit 190 (which
will be referred to as an FPC heater hereinafter) is integrally
embedded, in a mode in which it has been wound around a semi-
cylindrical inner piece 33' made of a synthetic resin, in a
cylindrical grip body 35' made of a rubber and capable of being
fitted into a pipe-shaped steering handlebar 26. A feeder cord
(not shown) is soldered to a lead portion 190a of the FPC
heater 190 led out of the grip body 35'.
In producing the grip body 35', the following steps
are sequentially conducted as shown in Fig. 39: a step of
assembling
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the inner piece 33' having the FPC heater 190 wound therearound
to a core 191; a step of winding a sheet 192 of a raw rubber
around the FPC heater 190;a step of bringing dies 193 and 194
in a state in which the resulting sheet has been accommodated
therein, into close contact with each other to clamp them; a
step of pouring a molten rubber into the dies 193 and 194 at
a point when the temperature has reached a level at which the
raw rubber sheet 192 within the dies 193 and 194 is molten,
thereby forming the grip body 35' ; and a step of removing the
formed grip body 35' out of the dies 193 and 194 at a point when
the rubber within the dies 193 and 194 has been vulcanized, and
then cooling the removed grip body 35' by leaving it to stand
for a predetermined time.
In the above heater-installed grip, however, the inner
piece 33' made of the synthetic resin is formed at a
circumferentially constantand relatively large wallthickness.
For this reason, the flexibility of the grip body 35' is small,
and in press-fitting the steering handlebar 26 into the grip
body.35', the grip body 35' cannot follow the movement of the
steering handlebar 26 which is press-fitted and hence, it is
difficult to press-fit the steering handlebar 26 into the grip
body 35' . If the steering handlebar 26 is forcibly press-fitted
into the grip body 35', there is a possibility that the inner
piece 33' may be cracked, resulting in a very poor
assemblability of the grip body 35' to the steering handlebar
26.
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Therefore, if the inner piece 33' is formed at a
relatively small wall thickness, the flexibility of the grip
body 35' is increased, whereby the assemblability of the grip
body 35' to the steering handlebar 26 is enhanced and the
possibility of cracking of the inner piece 33' is eliminated.
However, during clamping of the dies in forming the grip body
35 ' , the inner piece 33 ' may be cracked in some cases , because
it cannot withstand the clamping.
The conventional inner piece .33' suffers from the
following problem: Since the conventional inner piece 33' is
semi-cylindrical, the rubber layer is cooled and shrunk in the
course of cooling of the grip body 35' after being removed from
the dies 193 and 194 , especially, a rubber layer region s~ opposed
to the inner piece 33' is shrunk, and the circumferentially
opposite ends ~, ~ of the inner piece 33' are deformed in a
direction to approach each other by such shrinking force and
as a result, the grip body 36' is warped.
An electric power for heating a heater in such a
heater-installed grip by a heater is supplied from a battery
mounted on a vehicle. The capacitor of the battery is limited
and hence, it is desirable that the grip is effectively warmed
by an electric power as small as possible . In the conventional
heater-installed grip, however, the FPC heater is disposed in
a uniformly dispersed manner in the grip body and is of a
construction to uniformly warm the entire grip. Therefore, to
warm the grip up to a comfort temperature, there is a possibility
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that the amount of power consumed may be increased to produce
the running-out of the battery. If the amount of power consumed
is suppressed, the rising of the temperature of the grip is
insufficient.
The conventional heater control device is of an
arrangement in which as shown in Fig . 40 , heaters 190 and 1908
mounted respectively in the left and right handlebar grips of
the steering handlebar in the motorcycle are connected in
series; a switch 195 is mounted between one of the heaters 190L
and the battery 90, and a variable resistor 196 is connected
in series to the other heater 1908, so that the electric current
flowing through the heaters 190 and 1908 is regulated and the
power consumed in the heaters 190L and 1908 is controlled by
varying the resistance value of the variable resistor 196,
thereby maintaining the handlebar grips at a suitable
temperature.
However, there is a problem that the power consumed in
the variable resistor 196 is relatively large, and the battery
90 cannot be utilized efficiently. Especially, in a case of
the grip heater mounted in the handlebar in the motorcycle or
the like , the power consumed in the heaters is large , because
it is in direct contact with the open air, and the power consumed
in the variable resistor is increased because of a large range
of variation in temperature of the open air. This makes it
difficult to utilize the battery efficiently.
The warming of the grip by the heaters installed in the
CA 02355986 2001-08-28
grip for the vehicle is attended on the traveling of the vehicle.
To have a preference of the traveling of the vehicle, it is
required that the supplying of the power from the battery to
the heaters should be stopped when the power source voltage of
the battery has been dropped down to a value equal to or lower
than a voltage required at a minimum for driving a starter motor.
Even in the above conventional heater-installed grip, the
control of the supplying of the power to the heater is carried
out in the above manner. However, if the timing to stop the
supplying of the power to the heaters is established so that
the supplying of the power is stopped at a voltage threshold
value larger than required to reliably ensure a minimum power
source voltage required in the battery, a state in which the
grip can be warmed by the heaters is extremely limited. If the
voltage threshold value is too small, the supplying of the power
to the heaters is conducted even if the voltage becomes equal
to or smaller than the minimum power source voltage required
in the battery due to an error of detection of the voltage or
a drop of the voltage from the battery to a detected portion,
whereby it may be difficult to start the vehicle. Therefore,
it is desirable that the voltage threshold value for determining
the timing for stopping the supplying of the power to the heaters
is set at a necessary minimum value in consideration of the
voltage detection error and the voltage drop.
If the supplying of the power to the heaters is stopped,
the power source voltage of the battery is slightly risen . If
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the supplying of the power to the heaters is controlled in an
ON/OFF manner at a constant voltage threshold value,
turning-ON/OFF of the supplying of the power to the heater is
frequently repeated to produce a control hunching. Therefore,
the grip cannot be stably warmed, and a good warm-feeling is
not obtained.
In mounting of the grip heater unit comprised of a heater
installed in a grip of a steering handlebar and a control device
for controlling the heater to a vehicle such as a motorcycle,
if the grip heater unit is assembled exclusively for the vehicle
as manufactured, then a plus-side connecting wire is connected
directly ,to a plus side of the battery, and minus-side
connecting wire is connected directly to a minus side of the
battery. In this case, there is particularly not a problem
arisen. However, if the grip heater unit is applied to a
commercially available vehicle, or the application thereof to
a large number of types of vehicles is considered, it is
desirable that the connection of the plus-side connecting wire
and the minus-side connecting wire extended from the grip heater
unit to the plus side and the minus side of the battery can be
easily performed for any type of the vehicles . Moreover, the
heater is installed in the grip of the turnable steering
handlebar, and it is necessary to avoid the arising of problems
in the reliability and the durability of the connection
structure as a result of twisting of the connecting wires due
to the connection of the plus-side and minus-side connecting
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vrires .
SU1~IARY OF THE INVENTION
=t is an ob~eat of the present iav~eation to provides
a control device for a heater installed ire a grip for a
vehicles, wherein a battery can be efficiently utilised.
=t is a further ob~eot of the present invention to
provide a control daviae for a heater installed is a
grip fox' a vehicle, ~lhereia~the zunaiag-out of the
battery oaa be xeliabiy prevented, and the grip oan be
stabiy warmed, thereby pravidiag a good waxen-feeling.
Us 4,838,113 diealosea a oontrol device for a
heater installed in a grip for a vehicles, comprising a
switching mesas for ODT/OFF-controlling a power supplied
from a battery to a heater installed is a grip mounted
on a steering handlebar, cad a drivit~-signal outputting
maau~a for outputting a driving signal for turning the
switohing maaaa o~ir.
The present invention is characterised over US
4,838,113 is that said control devise further includes a
battery voltage monitoring means which ~.s operable to
provides a state to prohibit the outputting of the
drive signal from said driving-siq~ual outputting
means, whey a voltage corresponding to a power a~ourae
voltage outputted froua said battery is smaller than a
f ~.r~t voltege threshold value, arid to prov3.de a stars to
per~ait the outputting of the drivfag signal front the
driving-signal outputting taeaas, when the voltage
corresponding to said power aourae voltage is equal to
or larger tlxaa a second voltage threshold vale set
higher than said first voltage threshold value by a
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predetermined value or more, said first voltage threshold
value being set as being, (VM - aVl + pV2) , wherein VM
represents a necessary minimum power source voltage required
in said battery; OV1 represents a decrement of voltage dropped
from said battery to said battery voltage monitoring means;
and OV2 represents a maximum voltage detection error on the
plus side presumed in said battery voltage monitoring means.
With the invention claimed, the voltage threshold
value (the first voltage threshold value) serving to stop the
supplying of the power to the heater is determined at an
extremely small level in consideration of the decrement of
voltage dropped from the battery to the power source voltage
monitoring means and the voltage detection error presumed in
the power source voltage monitoring means. Thus, even if the
voltage threshold value becomes equal to or lower than the
minimum power source voltage required in the battery, chances
to be able to warm the grip by the heater can be increased to
the utmost, while avoiding the supplying of the power to the
heater. In addition, by permitting the supplying of the power
from the battery to the heater at the second voltage threshold
value higher than the first voltage threshold value by the
predetermined value or more, the switching-ON and OFF of the
supplying of the power to the heater can be prevented from
being frequently repeated, thereby stably warming the grip.
The control device preferably further comprises a
periodic voltage generating means for generating a periodic
voltage whose value is periodically varied, a comparative
voltage outputting means for outputting a
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predeter~niaed comparative voltage depending upon a
te~n~aratztra regulating operation far the hsatet, a
rectangular-wow signal outputting mea~xe for outputting
a reatangulax-wave signsl having a duty ratio depending
upon said te~erature regulating apexatioa by comparing
the periodic voltage outputted from said periodic
voltage generating tseatu; with the campatatiw vo~.tage
outputted from said cos~rarative voltage outputtiriy
menus, wherein said switching mesas is for p1~/OFF-
aoutroiii~ng the power supplied from the battery to said
heater in re~rponse to the reatsagular-wave signal
outputted from said xectaagular-wave signal outputting
means.
Witb these preferred features of the inventiox~,
there is no wasteful consumption of the power at the
ve~xieb7.e resistor, as compared with the conventional
device in which the resiatauGe valve of the variable
resistor connected in ~3exies to the heatet~ is varied.
Therefore, the battery rsan be efficiently utilised.
=t is a further object of the present invet~tion at
least in its preferred embodimeata to provide a heater-
installed grip for a vehicle, wherein the asssmblribility
of a grip body to a pipe-shaped steering handlebar ox a
throttle pipe is enhanced, while eppuring the clamping
strength at a step of forming the grip body, by varying
the plate thiokaess of an inner piece in e,
cirautaferential direction thereof.
Preferabljr therefore, a system for a vehicle having
a heater-ixiata.l~.ed grip is provided, the eysteta
cotqprising a grip having a heater cad a control device
aaCording to the iaverit3.on, said grip further adt~ris3x~g
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eubsta~atially semi-cylindrical eases pieces of a
synthetic resin ~rhich bave a plaasar beater v~~ouad aromsd
as outer periphery thereof and which ire integrally
embedded is a cylixidrical grip body of a rubber
assewbied to a pipe-shaped steerixtg baudlebar or a
throttle pipe, wheraia a circumferentially central
portion of each of the inner pisses is formed w~.th a
wall thiclCaese larger thaw those of oiroutnfereatially
opposite ends thereof.
preferably, the system comprises subst:ntiallx
same-cylindrical saner pieces of a synthetio resist which
haven a planar heater wound around as outer periphery
tbex~eof and which are integrally e~abedded in a
cylindrical grip body of a rubber assembled to a pipa-
shaped steering handlebar or a throttle pipo, 'dhereisx
grooves arcuate ih arose section, into which a kltea.
rubber flows in the formation of the grip body, are
defined is saner peripheral surfaces of the saner piaoes,
preferably the system ooropriees substantially semi-
oylindriaal inner pieoes of a Synthetic resin which have
a planar heater wound around au outer periphery thereof
and which are integrally embedded j.u ~t cylindrica~7. grip
body of a rubber asseanbled to a pipe-shaped steering
haadlabar or a throttle pipe, t~hereia an axially
extending projection is forced at a airvumfereutially
cent~tal portion of as inner surface of each of said
saner Qieces.
pith the Brat teatute, by the fact that the
cirQUmferentislly opposite each of the saner pieee havQ
a relat~.vely small wall thickness, the flexibility of
the saner piece and thus of the grip body is ehhaticed,
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so that tha grip body aatt follow the movement o:~ the
steeritLg b~aadlebar or the throttle pips t~ltirh is pross-
~itted. Moreover, is the alampin~g of dial, t~ large
external force acts os the eirCtunferentiaily aeatxal
portion of the inner pisae, but by the fact that the
ciroumferenti$lly central portion of the inner piece is
formed at the relatively large wall thiakaesp, the inner
piece aanaot be deformed.
atith the second feature, by the f~tet that the
groove is defined is the inner peripheral surface of the
inner piece, the fle:ibility of the latter piece cad thus
of the grip body is sahaaaed, eo that the grip body can
follow the tnovemeat of the steering handlebar or the
throttle pipe which is press-fitted. Moreover, the
rigidity of a portion is the viaiaity of the groove can
be enhanced by forming the section of the groovy ~xtto as
arcuste shape, thereby eahaaC3.ag the rigidity of the
entire ~aaer piece. Therefore, even if a large external
force acts on the oirGumfereatially central portion o!
the inner piece is the clamping of dies, the inner piece
cannot ba dsgormed.
with the third feature, by the fact that the'
a:iaily eacteading project~,~aa is fornwd at the
circumfereatialxy central portion of the inner surface
o! the inner piece, the cixcumfereatially central
portion of the inner piece is formed at a large wail
thiclcaees, 2~s co~ared with the circumfaxeatially .
opposite ends. and the oiraunfexeatially opposite ends.
of the inabr pieoe axe formed at a relatively small mall
thickaeas. Thus, the fhdbiZity of the iaa~er piece and
thuat of Ghe grip body is eaharired, so that the grip body
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can follow the movement of the steering handlebar or the
throttle pipe which is prsss~fitted. 8ven it a large
esterx~al force acts on the c~4rauanferentiaily eentrai
portion of the inner piece in the cling of diva, the
inner piece Cannot be deformed since the
aircumferentially central portion of the inner piece is
foraged at a relatively large stall thic~ss.
It ie a still further object of the present
invention at least in its preferred embodiments to
prorride a heater-installed grip for a vehicle, wherein
the rigidity and strength of an inner piece are
enhanced, so that a grip body cannot be deformed after
being foro~ed.
The present inventioxt therefore preferably provides
a system for a vehicle having a heater-installed grip
the system cotsprisitig a grip having a heater and a
control device according to the invention, and further
comprising a substantially senni-cyliadrioal annex piece
of a synthetic resin which has a planar heater wound
arQUx~.d as autex periphery thereof and wbioh is
integrally embedded in a cylindrical grip body of a
rubber aBaembled to a pipe-shaped atsering handlebar or
a throttle pipe, wherein said inner piece ie integrally
provided, at axially predeteraniaed locations thexean,
with annular portionre Which are intended to prevent the
deformation of the inner pieces attendant on the
shrinkage of a rubber layer after for~aation of the grip
body. and each of which fuaationg as a guide for
insertion of the steering handlebar or the throttle
pipe.
A shriaki.ug forc8 produced in the cooling and
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solidification of the rubber layer acts ou the grip body
reproved from the dies, thereby shrinking cad deforaling
th: rubber layer in the ciraumfereatial and axial
direction~, particularly in a rubber layer region
opposed to the inner piece, and deforming the
ciroumferentially opposite ends of the inner pieco eo
that the opposite ends are adjt~ceat to each other.
8owaver, according to the fourth feature, the annular
portion integrally included in the inner piece receives
the shrinking force acting on the rubber layer.
Therefore, it is possible to provide the inner pisee
with a rigidity and strength es~,ough to ~rsveat the
deformation of they inner piece, and it 3s possible to
prevent the produced grip body from warping to reduce
the rate of generation of a defeativ~e product.
Moreover, by the fact that the ~aular portion is
provided at a portion of the axially predetermined
locatiost of the inner piece, the flexibility of the grip
body at the time when tha steering handlebar or the
throttle pipe is press-fitted into the gzip body cannot
be remarkably injured at the atinulax portion.
Furthermore, since the annular portion furictioas as a
guide for insertion of the steering handlebar or the
throttle pipe, the aseemblability of the grip body to
the steering handlebar or the throttle pipe can be
enhanced. It is another object of the present invention
at least iu its preferred embodiment$ to provide a
heater-installed grip for a vehie~,e, wherein the grip
can be effectively warmed with a small amount of power'
oonsumed.
The invention preferably provide~ a system for a
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vehiala having a heater-installed gr~.p, the system
comprising a grip havinrg a heater sad a aotitrol devise
according to the invention and further congrrisiag a heat
geaeratirag elameat integrally embedded in substantially
as entire periphery of a grip body made of a rubber,
wherein said heat generating elecnerit ie disposed is a
dispere~ed manlier is the grip body 3.a such a manner thst
the density of the heat generating element dispersed at
a front portion of said grip body is the direction of
movement of the vehicle ie higher than that at a reax
portion o! said grip body.
The ~systeo4 preferably cot~prlsee a heat generating
sletnent integxally embedded in eubataatially :a entire
periphery of a grip body made of a rubbex, wherein said
heat generating element is disposed is a dispersed
manner is said grip body in such a manner that the
density of sa3.d heat gaaeratiag element dispersed at as
end portior~ of said grip body located oa an inner side
when assetubled on said vehicle, is higher than that at
an opposite end portion of said grip body located oa an
outer side when assembled on said vehicle.
fhe system preferably comprises a heat geaer~ttiag
element integrally embedded-in substantially half of a
periphery of a grip body made of a rubber, whexein Staid
heat generating element ie disposed in the grip body at
a portiox~ located at the front of said grip body in a
dlraction of movement of the veh~,cle whau aasemblad oa
the vehicle.
fhe system preferably comprises a heat generating
element integrally embedded is substantially half of a
periphery in a grip body made of a rubber, wherein said
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heat generating eleaa~snt ie disposed in a dispersed
Manner ix~ said gr~.p body in such a manner that the
density of said heat generating element dispersed at as
end portion of said grip body located oa as inner aide
when assembled on the vehicle i8 higher than that at as
opposite end portion o! said grip body loeatad on as
.outer aids when assembled oa the vehicle.
The front portion of the grip body iti the direetioa
of movement of the vehicle is a portion touched by
fingertips of a hand grasping the grip. Hy the fast
that the daasity of heat generating eleme~at dispersed at
such portion is higher than that at the rear portion of
the grip body, or the heat generating element is
disposed only at the front port3ot~ of the grip body, the
fingertips sensitively feeling the sold eau be
effectively warsaad, thereby providing as excellent v~rarm-
feeliag~With a relatively reduced amount of power
aonsu~ued. particularly, the att~unt of power eonsmaned
can be rslativaly reduced ale waxming the entire grip
by the heat generating elemQat dispersed over the entire
periphery of the gxip, thereby providing as e~ccelleat
warm-feeling. to additioxz, the inner sad portion of the
grip body is a poxtion relatively strongly touahod by a
head when grasping the grip, ey the fact that the
density of heat generating element dispersed at auCh
portion is larger than that at the outer sad portion, ox
the heat generntiag element iB disposed only at the
inner end portion, a hand osa be effeotively warmed,
thereby providing as excellent wat~a-fweliag with a
relatively reduced amount of power eoaaumed.
particularly, the amount of power Cotuumed Csa be
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relatively reduoed while warm3ag the vatire grip by the
heat generating ele~aeat diaper'sed over the satire
periphery of the grip, thereby providing an excellent
wart- f eelfug .
=t is a still Further objsat a~ the pxessat
inventi.oa, at least is its preferred embodiments, to
provide an electrical connection structure for a heater
unit for a grip is a vehicle, v~herei=s the heater unit
for the grip can be easily mounted to any type of
vehicles to provide a general-purpose utilisaatioa of a
aonaeetioti, sad the arising of problems is reliability
sad durability of the connection structure csa be
avoided in the general-,purpose utilization of the
connection.
To achieve this object, there is preferably
provided a system for a vehicle having a heater-
installed grip, the system comprising s. grip having a
heater sad a control device according to the iaven~tioa,
the system further comprising au electrical connection
structure for a heater unit, the heater unit Comprising
the $eater anal the control device, the grip baia~
mounted oa a steering hsudl8bar of the vehicle its, use,
sad wherein is use plus-side and minus-Bide connecting
wires led out of said heater unit for the grip are
interruptively connected to a plus wire of one of first
and second electric parts of the vehicle and to a minus
wire of the other eleotrie part at locations Gear said
electric parts which are disposed on said steering
handlebar or a member turned is unison with said
steering handlebar sad to which a power is supplied from
the battery is use.
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=a an alternative preferred embodiment of the
invention, a systeta for a vehicle having a haater-
installed grip is provided, the system eoa~priaing a grip
having a heater and a control device according to the
~ventioa, the system further comprising an electrical
connection atruature for a heatex unit, the heater unit
comprising the heater sad the control device, the grip
being mounted on a Steering handlebar of the vehicle in
use, and wherein in use an earth ware connected to s
grounding portion of said battery is coupled to the
Steering handlebar or a membex which is turned is unison
with the steering handlebar, wherein in use a first
coaneatiag wire led out of said heater unit for the grip
is interruptively aoaneated between the battery and as
electric part of the vehicle at a location near said
electric part ovhich is disposed on the steering
handlebar or the member turned is ur~isoa with the
steering handlebar and to r~hiah an electric power is
supplied fxom the battexy in use, and a secoa8
connecting wire led out of said heater unit for the grip
is aormeeted in use to said ~teeriug handlebar or said
utetnber turned is unison t~ith the eteer~.ng handlebar.
By the fact that the plus-Bide sad minus-Side
connecting wires are interruptively aouaected to the
plus wire of one of the first and second electric parts
axed to the minus wits of the other eleatrio part which
are disposed on the steering handlebar or the member
tarried is unison with the Steering handlebar, the
connectiox~ of thQ heater unit for the grip to the power
Source is achieved. Thus, the general-purpose
utf.lization of the connection to auy type of various
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vehicles can be aahievsd, while avoiding the oavurreaoa
of the ntis-operation of the elsatx~ic parts eves it the
heater is operated. Moreover, by the fact that the
electric parts are disposed on the steering handlebar or
the member turned in uaievn with the steering handlsbax,
wiring portions aonaectad to the eisetric pa~tta are
wired so that they are not twisted even due to the
turning of the steering handlebar. Thus, the aonaection
structure interruptively connected tv such wiri.ag
portions in the vicinity of the steering handlebar
offers no problem in durability and reliability thereof.
In the alternative preferred embodiment, ae the
first connecting wire is interruptively connected
between the power source and the electric part disposed
on the steering handlebar or the member turned in unison
with the steering handlebar, and the second Connecting
wire is Gorinected to the steering handlebar or the
member turned in unison with the steering handlebar to
which the earth wire is connected. Therefore, the
conneatioa of the heater unit fvr the grip to the power
source is atChieved sad thus, the general-purpose
utilisation of the connection to any. type of various
vehicles can be achieved, while avoiding the occurraace
of the mis-operation of the electric parts even if the
heater is operated. Moreover, since the eleetria part
ie disposed on the steering handlebar or the member
operated in unison with the eteexing handlebar, airing
portions connected to the electric part are wired so
that they are not twisted even due to the turning of the
steering handlebar. Thus, the coaaectioa structure
connected to such wiring portions in the vieit~ity of the
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steerix~ handlebar offers no problem fa durability cad
reliability thereof, =n additiotx, the ssoo~id oorineat~
wire Conaseted to the steering haadlebe~r or the a:em~r
tutt=ed 3.n unison with the steering handlebar to wrhiCh
the earth wire is connected, cannot also be twisted eves
due to the turning of the steexiag haadleber.
prefet~red embodiments of the invention will now beg
deporibed, by way of exatapla oily, and with r~fereace to
the acvompanyixsg drawings iu Which:
Figs. 1 to ai illustrate a first embodiment,
wherein
Fig. i is a perspective view of a front portion of
a tnotoreycle;
Fig. z is a perspeGtivs view of a left grip as
viewed from the front thereof;
Fig. 3 ie a partially-omitted perspective view of
the~left grip itx a state in which it has been turned
through 90 degree from a state shown is dig.
Fig. 4 ie a longitudit~al sectional view of the left
grip with a steering handlebar omitted;
Fig. 5 is a sectional view taken along a line 5-5
is Fig. 4;
Fig. G is a sectional view taken along a luxe 6-6
is 81g. 4.
Fig. 7 is as exploded perspective view of as inner
piece assembly and a heater;
Fig. 8 is a partially-omitted perspective view of the
left grip as viewed from the rear thereof;
CA 02355986 2001-08-28
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Fig.9 is a front view of the inner piece assembly;
Fig.lO is an illustration for explaining the flow of a
molten resin in forming a second inner piece;
Fig. 11 is an illustration for explaining a step of forming
a grip body;
Fig. l2 is an enlarged perspective view of a feeder cord;
Fig. l3 is a sectional view similar to Fig.S, but showing
a right grip;
Fig.l4 is a partially enlarged view of a portion of
Fig. l3;
Fig.l5 is an electric circuit diagram showing the
arrangement of a heater unit for a grip;
Fig. l6 is a diagram showing the timing for outputting a
periodic voltage and a driving signal;
Fig. l7 is a diagram showing the timing for outputting a
proportional voltage and the driving signal;
Fig. l8 is a front view of a control box;
Fig.l9 is a sectional view taken along a line 19-19 in
Fig. l8;
Fig.20 is a circuit diagram showing a structure of
connection between a heater unit for a grip and a stop switch
- as well as left and right front winkers;
Fig. 21 is a perspective view showing a wiring state around
a front fork;
Fig.22 is a circuit diagram similar to Fig.20, but
according to a second embodiment;
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16
Figs.23 to 30 illustrate a third embodiment, wherein
Fig. 23 is a perspective view of a left grip as viewed from
the front thereof;
Fig.24 is a sectional view of the left grip grasped by
a left hand, taken along a line 24-24 in Fig.23;
Fig.25 is a sectional view taken along a line 25-25 in
Fig.23;
Fig.26 is a longitudinal sectional side view of the left
grip, ~ with only a grip body being omitted, taken along a line
26-26 in Fig.25;
Fig.27 is a sectional view taken along a line 27-27 in
Fig.25;
Fig.28 is an exploded perspective view of an inner piece
assembly;
Fig.29 is a plan view of a heater with an overlying film
being omitted;
Fig.30 is a sectional view similar to Fig.24, but showing
a right grip grasped by a right hand;
Fig.31 is a plan view similar to Fig.29, but showing a
heater according to a fourth embodiment;
Figs.32 and 33 illustrate a fifth embodiment, Fig.32
.. being a partially cross-sectional view of a grip, and Fig.33
being a graph illustrating variations in temperature of the grip
surface with the lapse of time;
Figs.34 to 36 illustrate a sixth embodiment, wherein
Fig . 34 is a plan view of a right grip in a buggy vehicle ;
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17
Fig.35 is a sectional view taken along a line 35-35 in
Fig.34;
Fig.36 is a plan view similar to Fig.34, but with the grip
being removed from a steering handlebar;
Fig.37 is a longitudinal sectional view of a conventional
heater-installed grip;
Fig.38 is a sectional view taken along a line 38-38 in
Fig.37;
Fig.39 is a sectional view for explaining a die clamping
step in the formation of a grip body; and
Fig.40 is a circuit diagram of a conventional heater
control device.
BEST MODE FOR CARRYING OUT THE INVENTION
A first embodiment of the present invention will now be
described with reference to Figs.l to 21. Referring first to
Fig.l, a front fork 21 for suspending the front wheel W is
rotatably carried at a front end of a vehicle body frame of a
motorcycle. A head lamp 22 and left and right front winker lamps
23~, and 23R are mounted at a longitudinally intermediate portion
of the front fork 21 , and a speedometer 24 and a tachometer 25
'- are mounted at an upper end of the front fork 21.
A laterally extending pipe-shaped steering handlebar 26
is mounted at the upper end of the front fork 21 to steer the
front wheel W. A left grip 27L1 and a clutch lever 28 operated
by a le.~t hand grasping the left grip 271 are disposed at a
CA 02355986 2001-08-28
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18
left end of the steering handlebar 26, and a right grip 2781
and a brake lever 29 operated by a right hand grasping the right
grip 2781 are disposed at a right end of the steering handlebar
26.
Referring to Figs.2 to 9, the left grip 27L1 is formed
into a cylindrical shape, so that the steering handlebar 26 in
the motorcycle is press-fitted into the left grip 271 to fix
the left grip 271,1 at the left end of the steering handlebar
26. . The left grip 271 has an outward protruding flange portion
32 provided at an inner end in a widthwise direction of the
motorcycle, i.e., at an inner end thereof. An opening at an
outer end of the left grip 27L1 is occluded by a cap (not shown)
detachably mounted therein.
The left grip 271,1 is comprised of an inner piece assembly
33 formed cylindrically and a sheet-shaped heater 341, wound
around the substantially entire periphery of an outer surface
of the inner piece assembly 33 , the assembly 33 and the heater
34~ being integrally embedded into a grip body 35 made of a
rubber.
The inner piece assembly 33 is formed into a cylindrical
shape with first and second inner pieces 331 and 332 abutted
... against each other. Each of the inner piece's 331 and 332 is
formed, for example, by an injection molding from a synthetic
resin, and it is desirable that each of the inner pieces 331
and 332 is formed from a glass fiber-incorporated polybutylene
terephthalate resin, a glass fiber-incorporated polyphenylene
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19
sulfide resin or the like, because each of these resins has an
excellent heat resistance and also has a high strength due to
a glass fiber dispersed therein.
Each of the inner pieces 331 and 332 is formed by the
injection molding. In forming the second inner piece 332 in
the injection molding, a molten resin is injected into a metal
mold in such a manner that a gate G1 is located on an outer
peripheral surface of the second inner piece 332 in the vicinity
of one corner- thereof , as shown in Fig. 10 . Thus , the flows of
the molten resin and the glass fiber are turned in a lengthwise
direction (an axial direction) of the second inner piece 332,
and as a result, the formed second inner piece 332 has an
increased strength. The first inner piece 331 is also formed
by the injection molding, as is the second inner piece 332,
whereby the first inner piece 331 has an increased strength.
The first inner piece 331 is formed semi-cylindrically
so as to basically have a substantially semi-circular shape in
cross section, so that when the first inner piece 331 has been
mounted in the steering handlebar 26, an annular portion 36
located at axially one end inner in the widthwise direction of
the motorcycle, i.e., at an inner end thereof and an annular
.. portion 37 located at the axially other end outer in the
widthwise direction, i.e. , at an outer end thereof are opposed
to each other at lengthwise opposite ends of the first inner
piece 331. The second inner piece 332 is formed semi-
cylindrically so as to have a substantially semi-circular shape
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in cross section, so that its circumferentially opposite ends
are abutted against circumferentially opposite ends of the
first inner piece 331 between both the annular portions 36 and
37.
Moreover, the second inner piece 33z is provided, at
- circumferentially central portions at its lengthwise opposite
ends, with engage projections 38 and 39 which protrude on
opposite sides in the lengthwise direction of the second inner
piece 33z. The inner pieces 331 and 33z are abutted against each
other in such a manner that the engage projections 38 and 39
are brought into engage recess 40 and 41 defined in the annular
portions 36 and 37 of the first inner piece 331, whereby both
the inner pieces 331 and 33z are integrally assembled as the
cylindrical inner piece assembly 33 . Thus . the i nnar .,; ~,....
assembly 33 comprised of the inner pieces 331 and 332 has an
increased assembly rigidity, and a disadvantage that the grip
body 35 made of the rubber is deformed due to the shrinkage of
the rubber layer after being removed from the metal mold, cannot
be produced.
More specifically, in forming the grip body 35, as shown
in Fig.ll, a primer and an adhesive are applied to inner and
outer peripheral surfaces of the cylindrical inner piece
assembly 33 comprised of the inner pieces 331 and 332, and the
primer and the adhesive are also applied to opposite surfaces
of the heater 34~. The inner piece assembly 33 with the heater
34L and a crude rubber sheet (not shown) covering the heater
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21
34~ being wound therearound is assembled to a core die 82 and
accommodated between an upper die ( not shown ) and a lower die
83. In this case, a cord 72 extends from the inner piece
assembly 33, and each of the upper die and the lower die 83 is
provided with an insertion bore 84 for drawing out the cord 72
to the outside. _
Then, in a state in which the upper die and the lower die
83 have been brought into close contact with each other and thus
clamped; a molten rubber is~~poured and filled through a gate
GZ into the upper die and the lower die 83 heated up to a melting
temperature of the rubber. During this time, the molten rubber
from the gate GZ pushes the annular portion 36 of the inner piece
assembly 33 against the upper die and the lower die 83.
Therefore, the position of the inner piece assembly 33 within
the upper die and the lower die 83 is stabilized, whereby the
filling of the molten rubber can be performed smoothly. At a
time point when the rubber has been vulcanized after a lapse
of a predetermined time from the filling of the molten rubber,
the upper die and the lower die 83 are opened, and the formed
grip body 35 is removed and cooled. The flange portion 32 is
also formed as a portion of the grip body 35 made of the rubber .
In the cooling course during such formation of the grip
body 35, the shrinking force produced in the rubber layer of
the grip body 35 acts in the circumferential and axial
directions of the inner pieces 331 and 33z. However, since the
annular,portions 36 and 37 are provided at the axially opposite
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22
ends of the first inner piece 331, a circumferentially
compressing force and an axially compressing force produced in
the rubber layer existing between both the annular portions 36
and 37 are received by the annular portions 36 and 37 and hence,
the circumferentially opposite ends of the first inner piece
331 are difficult to deform. In addition, the second inner
piece 332 is disposed between both the annular portions 36 and
37, and the cylindrical inner piece assembly 33 is comprised
of the inner ~ pieces 331 and ~ 332. Therefore, ~ the
circumferentially and axially compressing forces produced in
the rubber layer existing between both the annular portions 36
and 37 ( the rubber layer extending along the second inner piece
332) are all received by the second inner piece 332 and the
annular portions 36 and 37 and hence, the circumferentially
opposite ends of the inner pieces 331 and 332 are not deformed
at all.
The wall thickness of the circumferentially opposite ends
of the inner pieces 331 and 332 is smaller than that of the
circumferentially central portion. Thus, when the steering
handlebar 26 is press-fitted into the left grip 271, the left
grip 271,1 is easily elastically deformed according to the
. contour of the steering handlebar 26 to facilitate the
press-fitting of the steering handlebar 26 into the left grip
27L1 and to ensure the strength against the clamping of the dies
in the step of forming the grip body 35.
Specifically, by the fact that the circumferentially
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23
opposite ends of the inner pieces 331 and 332 are formed at a
smaller thickness, they are easy to flex, resulting in a
relatively increased flexibility of the grip body 35.
Therefore, when the steering handlebar 26 is press-fitted into
the left grip 271,1, the grip body 35 is elastically deformed,
while following the press-fitting of the steering handlebar 26 ,
and thus, the steering handlebar 26 can be smoothly press-fitted
into the left grip 271,1. In this case, the steering handlebar
26 is guided on the annular portion 36 existing at one end of
the inner piece assembly 33 and having a relatively high
rigidity and on the annular portion 37 existing at the other
end of the inner piece assembly 33 and having a relatively high
rigidity, leading to a further improved assemblability of the
left grip 271 to the steering handlebar 26.
At the clamping, a substantially vertical force acts on
the circumferentially central portions of the inner pieces 331
and 332. However, the inner pieces 331 and 332 are prevented
from being cracked or deformed, because the circumferentially
central portions of the inner pieces 331 and 332 are formed at
the larger wall thickness.
Further, when a driver grasps the left grip 271,1 to drive
the motorcycle, a grasping force provided by the palm of a hand
of the driver acts on the inner pieces 331 and 332, and places
on which the grasping force acts largest are portions
corresponding to the circumferentially central portions of the
inner pieces 331 and 332. However, because the inner pieces 331
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24
and, 332 are formed at the larger wall thickness at such portions ,
the grip body 35 , i . a . , the left grip 271 cannot be deformed
by the grasping force of the driver.
moreover, because the annular portions 36 and 37 are
provided at the axially opposite ends of the first inner piece
331 and the cylindrical inner piece assembly 33 is comprised
of the second inner piece 332 and the first inner piece 331
disposed between both the annular portions. 36 and 37, as
described above, it is sufficiently possible to oppose the
circumferentially compressing force of the inner pieces 331 and
332. Therefore, even if the circumferentially opposite ends
of the inner pieces 331 and 332 are formed at a smaller wall
thickness, the inner piece assembly 33 cannot be deformed in
the cooling course in the formation of the grip body 35.
Additionally, the inner surfaces of the annular portions 36 and
37 are formed into such shapes that they are connected flush
with the inner surface of the first inner piece 331 and hence,
the shapes of the inner surfaces of the annular portions 36 and
37 are not really circular, but the shapes of the outer surfaces
of the annular portions 36 and 37 are formed into a really
circular shape. Therefore, the annular portions 36 and 37 have
an increased strength, namely, the inner piece assembly 33 has
an increased strength.
A plurality of stripe-shaped support projections 42a1 and
42a2 are provided on the inner surfaces of the inner pieces 331
and 332, i.e. , on the inner surface of the inner piece assembly
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2S
33 at distances in the circumferential direction of the inner
piece assembly 33. These support projections 42a1 and 42a2
extend in the lengthwise direction of the inner piece assembly
33 and are integrally connected to the grip body 35 made of the
rubber. The support projections 42a1 and 42az resiliently bear
on the outer surface of the steering handlebar 26 press-fitted
into the left grip 271.
The inner surfaces of the inner pieces 331 and 33z are
provided with a plurality of shallow grooves 43 extending in.
the lengthwise direction of the inner pieces 331 and 332, and
a plurality of shallow grooves 44 extending in the
circumferential direction of the inner pieces 331 and 33z to
interconnect the grooves 43 . The grooves 43 and 44 are provided
in a lattice-shaped fashion. The support projections 42a1 and
42az are formed to fill the grooves 43 , and the grooves 43 are
formed into an arcuate shape in cross section. Therefore, the
resistance to the flowing of the molten rubber within the dies
can be suppressed to a smaller level, thereby enabling a smooth
filling of the molten rubber. The grooves 44 are also filled
with the rubber layers 42b, but the rubber layers 42b are flush
with the inner surface of the inner piece assembly 33.
By the fact that the shallow grooves 43 and 44 are provided
in the lattice-shaped fashion in the inner surfaces of the inner
pieces 331 and 332 in the above manner, the flexibility of the
inner pieces 331 and 332 can be further enhanced. Namely, the
flexibility of the grip body 35 is further enhanced by the
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26
formation of the lattice-shaped grooves 43 and 44 more than only
by the circumferential regulation of the wall thickness of the
inner pieces 331 and 332, thereby further facilitating the
press-fitting of the steering handlebar 26 into the left grip
271.
If each of the grooves 43 and 44 has a rectangular section,
the following problems are arisen: the bottom of each of the
grooves 43 and 44 is easily deformed, and each of the grooves
has a poor rigidity. However, by the. fact that the.cross-
sectional shape of each of the grooves 43 and 44 is arcuate,
the rigidity of the bottom of each of the grooves 43 and 44 is
increased, and the rigidity and strength of the inner pieces
331 and 332 and thus of the inner piece assembly 33 are increased
and hence, when the dies are clamped for the formation of the
grip body 35 , there is no possibility that the inner pieces 331
and 332 are deformed.
Moreover, those portions of the inner pieces 331 and 332
which are surrounded by the grooves 43 and 44 are formed into
a rectangular shape longer in the axially direction than in the
circumferential direction of the inner pieces 331 and 332,
thereby providing a structure in which the inner pieces 331 and
.. 332 are difficult to deform, during the formation of the grip
body 35.
Further, the inner surface of the circumferentially
central portion of each of the inner pieces 331 and 332 is of
a structure with the axially extending projections 33a, 33a
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'~7
formed thereon, because the grooves 43, 43 are defined on the
opposite sides . The rigidity and strength of the inner pieces
331 and 332 at their circumferentially central portions are
increased even by the projections 33a, 33a.
As best shown in Fig.S, the support projections 42a1 are
provided on the inner surface of the first inner piece 331 , while
the support projections 42a2 are provided on the inner surface
of the second inner piece 332. The cross-sectional shape of
each of the support projections 42a1 and 42a2 is trapezoidal,
so that the contact area with the steering handlebar 26 is
extremely small. Therefore, the amount of heat transmitted
from the inner pieces 331 and 332 to the steering handlebar 26
can be extremely decreased, and the strength of adhesion between
the inner pieces 331 and 332 and the support projections 42a1
and 42a~ can be extremely increased. Further, each of the
support projections 42a1 and 42a2 is formed to have a larger
width than the width of the grooves 43 , leading to a structure
in which the strength of adhesion between the inner pieces 331
and 332 and the support projections 42a1 and 42a2 is
correspondingly increased.
The width d2 of the support projections 42a2 of the second
inner piece 332 is formed larger than the width dl of the support
projections 42a1 of the first inner piece 331. Thus, the
strength of adhesion between the left grip 27L1 and the steering
handlebar 26 on the side of the second inner piece 332 can be
ensured , and the heat insulating property can be more enhanced
CA 02355986 2001-08-28
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28
on the side of the first inner piece 331. Both of the heat
insulating property and the adhesion strength are satisfied.
The area of contact between the steering handlebar 26 and
the left grip 27L1 is smaller on the side of the first inner
piece 331 than on the side of the second inner piece 332, because
the width d2 of the support projections 42az of the second inner
piece 33z is larger than the width dl of the support projections
42a1 of the first inner piece 331. Namely, the area of an air
heat-insulating layer formed between the steering handlebar 26
and the first inner piece 331 is larger than that of an air
heat-insulatinglayer formed between the steering and handlebar
26 and the. second inner piece 33Z, so that the first inner piece
331 touched by fingertips when the grip body 35 has been grasped
by a hand (in a state shown in Fig.6) is warmed without escaping
of the heat, more than the second inner piece 332.
A pair of notches 45, 45 are provided at circumferentially
opposite end edges of the first inner piece 331 at a distance
spaced apart from each other in the lengthwise direction of the
first inner piece 331, while notches 46, 46 are provided at
circumferentially opposite end edges of the second inner piece
332. The notches 46 define openings 47, 47 by cooperation with
the notches 45 , 45 of the first inner piece 331. In the formation
of the grip body 35 , the molten rubber flows through the openings
47, 47 into the grooves 43 and 44 in the inner piece assembly
33 to form the support projections 42a1 and 42a2 and the rubber
layers 42b integrally connected to the grip body 35. Moreover,
CA 02355986 2001-08-28
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29
the notches 45, 45 and 46, 46 are rectangular, but corners of
the notches 45, 45 and 46, 46 are curved and thus, each of
peripheral edges of the notches 45, 45 and 46, 46 has an increased
strength.
Openings 48 and 49 are also defined between the
longitudinally opposite ends of the second inner piece 332 and
the annular portions 36 and 37 of the first inner piece 331,
respectively. The molten rubber also flows through the
openings 48 and 49.into the grooves 43 and 44 in the inner piece
assembly 33 , whereby the molten rubber can be promptly filled
all inside and outside the inner piece assembly 33.
An inner surface of one 36 of the annular portions of the
first inner piece 331 is provided circumferentially at a
distance spaced apart from each other with a plurality of
positioning abutment projections 50 for abutment against an
outer surface of the core die 82 and alignment of the axes upon
mounting of the inner piece assembly to the core die 82, and
positioning notches 51 for achieving the circumferential
alignment within the forming mold by engagement with the core
die 82.
A rubber layer is formed in the inner surface of the
annular portion 36 excluding the positioning notch 51 to extend
to the entire periphery of the opened edge , as shown in Figs . 2
and 4 , thereby providing a structure in which the rubber layer
formed on the inner surface of the inner piece assembly 33 is
difficult to peel off, when the steering handlebar 26 is
CA 02355986 2001-08-28
70488-120D
press-fitted into the left grip 27c1.
A plurality of positioning projections 52 are provided
on the other annular portion 37 at locations circumferentially
spaced apart from one another to define recesses 53 between the
positioning projections 52, so that the axial positioning of
the inner piece assembly 33 within the forming mold can be
achieved by abutment of the projections 52 against the forming
mold. Each of the recesses 53 functions_as an opening for
flowing of the molten rubber into the inner piece assembly 33.
By the fact that the positioning abutment projections 50
and the positioning notches 51 are provided on the inner surface
of the annular portion 36 and the positioning projections 52
are provided on the annular portion 37 to define the recesses
53 each functions as the opening for flowing of the molten rubber
into the inner piece assembly 33 , as described above , the inner
pieces 331 and 332 can be positioned correctly within the mold
system including the core die 82 , the upper die and the lower
die 83, whereby the grip body 35 can be appropriately formed.
The heater 34~ is an FPC heater having a sectional
structure with a copper foil strip pattern sandwiched between
a base film and an overlying film. The heater 34~ is of a
substantially rectangular shape, as shown in Fig.7, when it is
in a developed state.
The heater 34~ includes a first heater region 34a having
a size corresponding to the first inner piece 331, a second
heater region 34b having a size corresponding to the second
CA 02355986 2001-08-28
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31
inner piece 332, and a connecting region 34c extending from the
first heater region 34a toward the annular portion 36 of the
first inner piece 331.
A pair of connecting lands 6l and 62 are formed in the
connecting region 34c by exposure of a copper foil, and
connecting wires 73 and 74 extending from the cord 72 are to
the connecting lands 61 and 62 by soldering portions 75 and 76 ,
respectively.
A first heater circuit pattern portion P1~, is formed in
the first heater region 34a and connected to the connecting land
61 by a connecting portion 63 disposed at a location near the
connecting region 34c. A second heater circuit pattern portion
P2A 1S formed in the second heater region 34b and connected to
the connecting land 62 by a connection portion 64 disposed at
a location near the connecting region 34c. Moreover, the strip
pattern of each of the heater circuit pattern portions P1A and
P2n is formed to extend mainly longer in the circumferential
direction of the inner piece assembly 33, when the heater 34~
is wound around the inner piece assembly 33. Thus, when the
heater 34~ is wound around the inner piece assembly 33, each
of the heater circuit pattern portions P1A and PzA is difficult
to wrinkle.
The first heater region 34a is formed sufficiently longer
in the lengthwise direction of the heater 34L, so that all the
fingers of a hand can be warmed. The second heater region 34b
is formed shorter than the first heater region 34a, so that the
CA 02355986 2001-08-28
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32
openings 48 and 49 for flowing-in of the molten rubber cannot
be occluded. When the heater 34~ has been positioned and wound
around the inner piece assembly 33 , the first heater region 34a
is disposed in correspondence to the first inner piece 331, and
the second heater region 34b is disposed in correspondence to
the second inner piece 33z.
The first and second heater circuit pattern portions P1A
and PZA are connected to each other by a connecting portion 65
adjacent the connecting portion 64. . Moreover, the connecting
portions 64 and 65 are disposed at a location on the side of
the axially inner end of the inner piece assembly 33 (at a
location in the vicinity of the thumb when the left grip 271
has been grasped) , which is a site most difficult to deform in
the assembling of the left grip 271 to the steering handlebar
26, thereby providing a structure in which the connecting
portions 64 and 65 are difficult to break by an external load.
Namely, a larger load is applied to the axially outer end of
the inner piece assembly 33 as a result of being pushed by the
outer end of the steering handlebar 26 which is press-fitted,
but a relatively small load is applied to the axially inner end
of the inner piece assembly 33 and hence, there is
... correspondingly not a possibility of a breaking.
Pluralities of larger and smaller copper foil land
portions 57 and 58 for reinforcing the heater 34~ are formed
in the first and second heater regions 34a and 34b, respectively,
and do not function as a heater circuit pattern . Bores 59 are
CA 02355986 2001-08-28
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33
defined at a plurality of points in each of the copper foil land
portions 57 and 58, so that when the heater 34L is wound around
the inner piece assembly 33 , the molten rubber is filled in the
bores 59 to achieve the reliable adhesion of the heater 34~ to
the inner piece assembly 33.
. Elongated bores 66, 66 corresponding to the openings 47,
47 of the inner piece assembly 33 are defined in the heater 34
between the first and second heater regions 34a.and 34b. The
elongated bores 66 , 66 are formed larger than the openings 47 ,
47, so that even if the relative positions of the inner piece
assembly 33 and the heater 34~ are slightly misaligned from each
other, the openings 47, 47 cannot be occluded by the heater 34~.
Band-shaped copper foil-non-formed regions 67 are formed in the
heater 34~ to connect the elongated bores 66 , 66 to each other,
and the flexibility of the heater 34L is enhanced by the copper
foil-non-formed regions 67.
A pair of flanges 80 and 81 are provided on the annular
portion 36 of the first inner piece 331 to define a mounting
groove 70 therebetween. Moreover, the axially inner flange 81
is formed with a height and a thickness smaller than those of
the axially outer flange 80, as shown in Fig.4, into a structure
in which when the inner piece assembly 33 has been embedded in
the rubber layer of the grip body 35, the radially outer end
of the Flange 81 is difficult to protrude onto a slant surface
of the flange portion 32.
A portion of the axially inner flange 81 is notched in
CA 02355986 2001-08-28
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34
correspondence to the circumferentially central portion of the
first inner piece 331, a pair of positioning pins 68, 68 are
projectingly provided on the first inner piece 331 in
correspondence to such notches. On the other hand, the heater
34~ is wound around the outer periphery of the inner piece
assembly 33 in such a manner that the connecting region 34c
extends toward the annular portion 36 at the circumferentially
central portion of the first inner piece 331, and the heater
34~ is positioned relative to the inner piece assembly 33 by
bringing the positioning pins 68 into engagement into the
positioning bores 69, 69 provided in the connecting lands 61
and 62 of .the heater 34~ . The notches of the flange 81 and tip
ends of the positioning pins 68 are rounded, so that the heater
34~ is not damaged when being wound around the inner piece
assembly 33.
Moreover, in a state in which the heater 34~ has been wound
around the inner piece assembly 33 , the soldering portions 75
and 76 are in positions in which they are sandwiched between
the axially outer flange 80 and the positioning pins 68, 68.
Thus, it is avoided to the utmost that other members strike the
soldering portions 75 and 76 to produce a connection failure.
In addition, when the left grip 271 has been grasped by a hand,
the soldering portions 75 and 76 are in positions in which a
grasping force is difficult to act on them. Further, by the
fact that the soldering portions 75 and 76 are disposed in a
downward turned attitude between the upper die and the lower
CA 02355986 2001-08-28
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' 35
die 83 in forming the grip body 35 in the mold, the load acting
on the soldering portions 75 and 76 by the clamping of the mold
is also decreased.
A cord support portion 71 is provided with the annular
portion 36 at circumferentially one end of the first inner piece
331 and formed to traverse the mounting groove 70. The
electrically feeding cord 72 is disposed in the mounting groove
70 ; wound around the annular portion 36 ; passed through the cord
support portion 71 and led out to the outside. . A cylindrical
portion 78 for guiding and supporting the led-out portion of
the cord 72 is projectingly provided on the flange portion 32
of the grip body 35 . Thus , the cord 72 is folded back at the
cord support portion 71 and led out to the outside, and an
external force acting on the cord 72 is received by the cord
support portion 71 and hence, the external force and load cannot
be applied to the soldering portions 75 and 76.
A portion of the axially inner flange 81 has the same
height in level as the axially outer flange 80, and the cord
support portion 71 is bridged between those portions of the
flanges 80 and 81 which have the same height. Moreover, a
contact surface 71a of the cord support portion 71 with the cord
72 is formed into an arcuate shape in a direction substantially
parallel to the axial direction of the inner piece assembly 33 ,
so that the cord 72 can be led out from the cord support portion
71 in a direction substantially perpendicular to the axial
direction of the inner piece assembly 33 without being tilting
CA 02355986 2001-08-28
70488-120D --
36
down and can be prevented to the utmost from being damaged at
the folded-back portion thereof.
The cord 72 is a silicon-coated cord and is excellent in
weatherability, heat resistance and flexibility, as compared
with the conventional vinyl-coated cord. Further, the cord 72
is of a cabtyre cable str-ucture, as shown in Fig.l2. If the
cord is of the cabtyre cable structure in the formation of the
grip body 35, there is a possibility that a soft silicon-coated
portion of the cord may be compressed by a pressure of the molten
rubber. However, the pressure acting on the cord 72 can be
escaped by the fact that a portion of the molten rubber in the
upper die, and the lower die 83 flows out through a gap between
the insertion bore 84 and the cord 72 . Thus , during formation
of the grip body 35, the cord 72 cannot be cut by the pressure
of the rubber.
Referring to Figs.l3 and 14, the right grip 2781 is
comprised of the inner piece assembly 33 formed cylindrically,
and a sheet-shaped heater 34R wound around the substantially
entire periphery of the outer surface of the inner piece
assembly 33 , the inner piece assembly 33 and the sheet-shaped
heater 34R being integrally embedded in a grip body 35 made of
a rubber. The right grip 2781 is mounted on a throttle pipe 79
which is turnably mounted at the right end of the steering
handlebar 26, and is formed with an inside diameter larger than
that of the left grip 271 directly mounted on the steering
handlebar 26.
CA 02355986 2001-08-28
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37
More specifically, in place of the pluralities of support
projections 42a1 and 42az provided on the inner periphery of
the left grip 271, sliced flat support portions 42' are formed
at a low height in the right grip 2781. Thus, the support
portions 42' are brought into contact with the throttle pipe
79 , so that the strength of adhesion of the right grip 2781 and
the throttle pipe 79 is increased, and a wider heat-insulating
air layer 85 is formed between the right grip 2781 and the
throttle pipe 79,.thereby suppressing the transmission of a.heat
to the throttle pipe 79.
Another arrangement of the right grip 2781 is similar to
that of the left grip 27L1-
Referring to Fig.lS, a grip heater unit 92 is constituted
by the heaters 34L and 34R installed in the left and right grips
271 and 2781 and connected in series to each other, and a control
device 91 for controlling the supplying of an electric power
to the heaters 34~ and 34R.
Led out of the grip heater unit 92 are a plus-side
connecting wire 94 connected to a plus side of a battery 90
serving as a power source mounted on the motorcycle, and a
minus-side connecting wire 95 connected to ( grounded to ) a minus
.- side of the battery 90. A serial circuit comprised of the
heaters 34~ and 34R is connected at one end thereof to the
plus-side connecting wire 94 and at the other end thereof to
the control device 91.
The control device 91 includes a switch 96 connected to
CA 02355986 2001-08-28
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38
the plus-side connecting wire 94, a surge absorber 97, a diode
98, a constant-voltage outputting means 99, a periodic voltage
generating means 100, a proportional voltage outputting means
101 , a fail-safe means 102 , a driving-signal outputting means
103 as a rectangular-wave signal outputting means, a battery
voltage monitoring means 104, a resistor 105, a field-effect
transistor 106 as a switching means, a surge absorber 107, and
a capacitor 108 for removing an electrostatic noise.
The surge absorber 97 and. the diode 98 are connected to
between the switch 96 and the constant-voltage outputting means
99. The field-effect transistor 106 is connected to the other
end of the serial circuit comprised of the heaters 34~ and 34R
and connected at one end thereof to the plus-side connecting
wire 94. The surge absorber 107 and the capacitor 108 are
connected between the serial circuit and the field-effect
transistor 106. Further, the resistor 105 is connected in
series between the driving-signal outputting means 103 and a
gate of the field-effect transistor 106.
The constant-voltage outputting means 99 is adapted to
output a predetermined constant voltage Vc based on a voltage
supplied from the battery 90 and inputted from the plus-side
. - connecting wire 94 through the surge absorber 97 and the diode
98 upon turning-on of the switch 96. The constant-voltage
outputting means 99 includes a resistor 110 and a Zener diode
111 which are connected in series between the diode 98 and a
ground potential, a smoothing capacitor 112 connected to
CA 02355986 2001-08-28
70488-120D '-
' 39
between the diode 98 and the resistor 110, and a smoothing
capacitor 113 connected in parallel to the Zener diode 111.
The periodic voltage generating means 100 is adapted to
output a triangular wave voltage Vt varied at a predetermined
cycle based on the constant voltage Vc outputted from the
constant-voltage outputting means 99. The periodic voltage
generating means 100 includes resistors 114 and 115 connected
to the constant-voltage outputting means 99, an operational
amplifier 116 having a non-inverted-input terminal connected
to a point of connection between the resistors 114 ands 115,
a capacitor 117 provided between an inverted input terminal of
the operational amplifier 116 and the ground potential, a
resistor 118 provided between an output terminal and the
inverted input terminal of the operational amplifier 116 , and
a chattering-preventing resistor 119 provided between the
output terminal and the non-inverted input terminal of the
operational amplifier 116. In the operational amplifier 116,
a reference voltage Vd obtained from the division of a voltage
at the resistors 114 and 115 is compared with a charging voltage
(a triangular-wave voltage Vt) in the capacitor 117, and the
triangular-wave voltage Vt is outputted by charging or
discharging of the capacitor 117 through the resistor 118 by
an output from the operational amplifier 116.
The proportional voltage outputting means 101 is adapted
to output a temperature adjusting comparative voltage Vp based
on the constant voltage Vc outputted from the constant-voltage
CA 02355986 2001-08-28
70488-120D --
outputting means 99. The proportional voltage outputting
means 101 includes a variable resistor 120 and a resistor 121
connected in series between the constant voltage Vc and the
ground potential, a resistor 122 connected in parallel to the
variable resistor 120, and a resistor 123 connected to a contact
which is in sliding contact with the variable resistor 120.
The driving-signal outputting means 103 is adapted to
output a driving signal V~. which is a rectangular wave, by
comparing the triangular wave voltage Vt'outputted from the.
periodic voltage generating means 100 with a comparative
voltage Vp outputted from the comparative voltage outputting
means 101. The driving-signal outputting means 103 includes
an operational amplifier 124 having a non-inverted input
terminal to which the proportional voltage Vp is inputted and
an inverted input terminal to which the triangular wave voltage
Vt is inputted, and a chattering-preventing resistor 125
provided between an output terminal and the non-inverted input
terminal of the operational amplifier 124 . The output terminal
of the operational amplifier 124 is connected to a gate of the
field-effect transistor 106 through the resistor 105. The
operational amplifier 124 is adapted to output a rectangular
. . driving signal Vo~T which is brought into a high level ( a level
corresponding to the constant voltage Vc) when the triangular
wave voltage Vt is lower than the comparative voltage Vp , and
into a low level ( a level corresponding to the ground potential )
when the triangular wave voltage Vt is higher than the
CA 02355986 2001-08-28
70488-120D
41
comparative voltage Vp. This causes the field-effect
transistor 106 to be turned ON or OFF, thereby controlling the
supplying of the electric power to the heaters 34~ and 34R.
More specifically, when the triangular wave voltage Vt
is outputted from the periodic voltage generating means 100,
as shown in Fig . 16 ( a ) , the rectangular driving signal VouT which
is brought into a high level as the triangular wave voltage Vt
becomes ~.arger than the comparative voltage Vp, is outputted
from the driving signal outputting. means 103 , as shown in
Fig.l6(b). By varying the comparative voltage Vp by the
comparative voltage outputting means 101, the ratio of the
ON-time to OFF-time of the heaters 34~ and 34R (a duty ratio)
can be varied, thereby controlling the biased amount of electric
power to the heaters 34~ and 34R.
The fail-safe means 102 includes a resistor 126 provided
between the non-inverted input terminal of the operational
amplifier 124 into which the comparative voltage Vp is inputted,
and the ground potential. The resistance value of the resistor
126 is set at a value sufficiently larger than that of the
variable resistor 120 in the comparative voltage outputting
means 101. Thus, when the comparative voltage Vp from the
comparative voltage outputting means 101 becomes unstable, the
output from the driving signal outputting means 103 is brought
into a low level in such a manner that the comparative voltage
Vp is brought into the ground potential, thereby stopping the
supplying of the electric power to the heaters 34~ and 34R.
CA 02355986 2001-08-28
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42
The battery voltage monitoring means 104 is adapted to
monitor the power source voltage Vb of the battery 90 obtained
between the diode 98 and the constant voltage outputting means
99 upon turning-on of the switch 96 to determine whether the
driving signal can be outputted from the driving signal
outputting means 103. The battery voltage monitoring means 104
includes resistors 127 and 128 connected in series between the
diode 98 and the ground potential to divide the power source
voltage Vb to provide a proportional voltage Vb', a noise.
removing capacitor 129 connected in parallel to the resistor
128, resistors 130 and 131 connected in series between the
constant voltage outputting means 99 and the ground potential
to divide the constant voltage Vc outputted from the constant
voltage outputting means 99 to provide a reference voltage (a
voltage threshold value ) , an operational amplifier 132 having
an inverted input terminal to which the proportional voltage
Vb' is inputted and a non-inverted input terminal to which the
reference voltage is inputted, a hysteresis setting resistor
133 connected between an output terminal and the non-inverted
input terminal of the operational amplifier 132 , an operational
amplifier 134 having an inverted input terminal to which the
.. output terminal of the operational amplifier 132 is connected
and a non-inverted input terminal to which the non-inverted
input terminal of the operational amplifier 132 is connected,
and a resistor 135 connected between the inverted input terminal
of the operational amplifier 134 and the-constant voltage
CA 02355986 2001-08-28
70488-120D
-4 3
outputting means 99. The output terminal of the operational
amplifier 134 is connected to the non-inverted input terminal
of the operational amplifier 124 in the driving signal
outputting means 103.
In such battery voltage monitoring means 104, when the
output from the operational amplifier 132 is brought into a low
level , the output from the operational amplifier 134 is brought
into a.high level, and the comparative voltage Vp inputted to
the non-inverted input terminal of the operational amplifier
124 in the driving signal outputting means 103 cannot be varied.
Thus, the supplying of the power to the heaters 34L and 34R is
controlled in an ON-OFF manner in accordance with the
comparative voltage Vp. Namely, the operational amplifier 134
outputs a permitting signal for permitting the outputting of
the driving signal from the driving signal outputting means 103
as a high level signal. On the other hand, when the output from
the operational amplifier 132 is brought into a high level, the
output from the operational amplifier 134 is brought into a low
level, and the output from the operational amplifier 124 is
forcibly reduced to a low level by drawing the comparative
voltage Vp inputted to the non-inverted input terminal of the
-- operational amplifier 124 in the driving signal outputting
means 103 to the operational amplifier 134, thereby stopping
the supplying of the power to the heaters 34~ and 34R. Namely,
the operational amplifier 134 outputs a prohibiting signal for
prohibiting the outputting of the driving signal from the
CA 02355986 2001-08-28
70488-120D
' 44
- driving signal outputting means 103 as a low level signal.
A positive feedback is provided to the operational
amplifier 132 in the battery voltage monitoring means 104 by
the resistor 133 , so that the proportional voltage Vb ' inputted
to the operational amplifier 132 is substantially decreased
when being dropped, and substantially increased when being
risen. Therefore, the hysteresis of the reference voltage,
i.e., the voltage threshold value is substantially established
- in the operational -amplifier 134. When the proportional
voltage Vb' is dropped, a first voltage threshold value VS1 is
compared with the proportional voltage Vb', and when the
proportional voltage Vb' becomes lower than the first voltage
threshold value VS1, a high level signal is outputted from the
operational amplifier 134. When the proportional voltage Vb'
is risen, a second voltage threshold value VSZ larger than the
first voltage threshold value VS1 by a predetermined value or
more is compared with the proportional voltage Vb', and when
the proportional voltage Vb' becomes equal to or larger than
the second voltage threshold value VSZ, a low level signal is
- outputted from the operational amplifier 134.
In other words, when the proportional voltage Vb' is
- - varied as shown in Fig . 17 ( a ) , a prohibiting signal of a low level
is outputted from the battery voltage monitoring means 104 , i . a . ,
from the operational amplifier 134 , as the proportional voltage
Vb' is dropped to become smaller than the first voltage
threshold value V51, and in response to this , the driving signal
CA 02355986 2001-08-28
70488-120D
from the driving signal outputting means 103 is forcibly brought
into a low level as shown in Fig.l7(b). In addition, the
high-level permitting signal is outputted from the battery
voltage monitoring means 104 , as the proportional voltage Vb'
is risen to become equal to or larger than the second voltage
threshold value VS2, and in response to this, the high-level
driving signal is outputted from the driving signal outputting
means 103, as shown in Fig.l7(b).
The first voltage threshold value VS1 is set according
to the following equation:
Vsl = VM - ~VL t OV
wherein VH represents a necessary minimum power source voltage
required in the battery 90 to allow the motorcycle to travel;
OVl represents a decrement of voltage dropped in the wire from
the battery 90 to the battery voltage monitoring means 104; and
OVZ represents a detected maximum voltage error presumed on the
plus side in the battery voltage monitoring means 104. When
the necessary minimum power source voltage VM is set at 12.5
V which required, for example, to operate a starter motor 144
(see Fig.20); the dropped-voltage decrement OVl is set at 0.5
V; and the detected maximum voltage error OVZ on the plus side
is set at 0.3 V, the first voltage threshold value VS1 is set
at 12 . 3 V . The second voltage threshold value VSZ is set larger
than the first voltage threshold value VS1, for example, by the
dropped-voltage decrement 4V1 ( 0 _ 5 V) or more, and when the first
CA 02355986 2001-08-28
70488-120D
' 46
voltage threshold value VS1 is 12.3 V, the second voltage
threshold value VSZ is equal to or more than 12.8V.
The control device 91 arranged as described above is
disposed on a base plate 139 installed in a control box 138 shown
in Figs . 18 and 19 . A knob 140 is disposed on a surface of the
control box 138 for turning ON and OFF the switch 96 in the
control device 91 and for performing the sliding of a contact
of the variable resistor 120. Thus, the switch 96 can be turned
OFF by bringing the knob 140 to an "OFF" position, and the
resistance value of the variable resistor 120 can be varied to
the regulate the temperature of the heaters 34~ and 34R by turning
the knob 140 between an "LO" position and an "HI" position.
Moreover, the control box 138 is disposed at a location near
the left grip 271 of the steering handlebar 26, as shown in
Fig. 1.
Referring to Fig.20, one end of a main switch 142 or a
combination switch having a main switch function is connected
to the plus side of the battery 90 through a main fuse 141, and
a starter motor 144 is also connected to the plus side of the
battery 90 through a relay switch 143. A charger 146 is
connected between the main fuse 141 and the main switch 142,
and adapted to rectify AC power obtained in an AC generator 145
to supply a charging power with the battery 90.
The minus side of the battery 90, the starter motor 144
and the charger 146 are grounded at grounding portions EA, EB
and E~ established at different points on an engine case in an
CA 02355986 2001-08-28
70488-120D '
' ~ 47
engine mounted on the motorcycle. An earth wire 147 connected
to the grounding portion E~ is connected to the steering
handlebar 26.
Fuses 148 , 149 and 150 are connected in parallel to the
other end of the main switch 142. The fuse 148 is connected
to the grounding portion E~ through a serial circuit comprised
of a starter switch 151 and a relay coil 152, and the fuse 149
is connected to the grounding portion E~ through a serial circuit
comprised of a head lamp switch 153 and the head lamp 22. The
starter switch 151 is disposed at the right end of the steering
handlebar 26 , so that the relay switch 143 is turned ON by exiting
the relay coil 152 by turning ON the starter switch 151 , thereby
supplying a power with the starter motor 144. The head lamp
switch 153 is disposed at the right end of the steering handlebar
26.
The fuse 150 is connected to one end of a winker relay
154. The left and right front winker lamps 23L and 23R disposed
on the front fork 21 are connected at one ends thereof to the
other end of the winker relay 154 through a winker switch 155
for selectively switching-over the lighting of the front winker
lamps 23~ and 23R, and are capable of being connected at the
.. other ends thereof to the grounding portion E~ through
connecting terminals 156a and 156b connected to each other.
Moreover, the winker switch 1SS is disposed at the left end of
the steering handlebar 26.
One end of a stop switch 158 is capable of being connected
CA 02355986 2001-08-28
70488-120D
' 48
between the fuse 150 and the winker relay 154 through connecting
terminals 157a and 157b connected to each other. The other end
of the stop switch 158 is connected to the grounding portion
E~ through a stop lamp 159. Moreover, the stop switch 158 is
disposed at the right end of the steering handlebar 26.
The plus-side and minus-side connecting wires 94 and 95
are led from the grip heater unit 92 which comprises the serial
circuit including the heaters 34~ and 34R and the control device
91 . The plus-side connecting wire 94 is connected. to one end
of an interruptive connecting wire 161 having a fuse 160 , and
the minus-side connecting wire 95 is connected to one end of
an interruptive connecting wire 163. Thus, the other end of
the interruptive connecting wire 161 is interruptively
connected, at a location near the stop switch 158, between the
main switch 142 for switching-over the connection and
disconnection with the plus side of the battery 90 and the stop
switch 158 as a first electric part disposed on the steering
handlebar 26 , a . g . , between the fuse 150 connected to the main
switch 142 and the stop switch 158 in this embodiment. In
addition, the other end of the interruptive connecting wire 163
is interruptively connected between the front winker lamps 23~
.. and 23R as second electric parts disposed on the front fork 21
which is a member turned in unison with the steering handlebar
26, and the minus side of the battery 90, i.e., the grounding
portion E~ at a location near the front winker lamps 23~ and
23R.
CA 02355986 2001-08-28
70488-120D
' 49
- Referring also to Fig.2l, the other end of the
interruptive connecting wire 161 connected to the plus-side
connecting wire 94 is interruptively connected between the fuse
150 and the stop switch 158, for example, through a three-forked
branch connecting wire 164. Namely, the branch connecting wire
164 is provided with connecting terminals 166a, 166b and 166c
which are connected respectively to a connecting terminal 165
- provided at the- other end of the interruptive connecting wire
161 and connecting terminals 157a and 157b for connecting the
fuse 150 to the stop switch 158.
The other end of the interruptive connecting wire 163
connected to the minus-side connecting wire 95 is also
interruptively connected between the left and right front
winker lamps 23~ and 23R and the grounding portion E~, for example,
through a three-forked branch connecting wire 168 . Namely, the
branch connecting wire 168 is provided with connecting
terminals 170a, 170b and 170c which are connected respectively
to a connecting terminal 169 provided at the other end of the
interruptive connecting wire 163 and the connecting terminals
156a and 156b for connecting the left and right front winker
lamps 23L and 23R to the grounding portion E~.
With such electrical connection structure, by the fact
that the plus-side connecting wire 94 and the minus-side
connecting wire 95 led from the grip heater unit 92 are
interruptively connected between the fuse 150 and the stop
switch 158 connected to the plus side of the battery 90 through
CA 02355986 2001-08-28
70488-120D
the main fuse 141 and the main switch 142 and between the left
and right front winker lamps 23L and 23R and the grounding portion
Ec, the grip heater unit 92 can be connected to the plus side
and the minus side of the battery 90 and mounted on the vehicle ,
while avoiding the mis-operation of the stop switch 155 and the
left and right front winker lamps 23~ and 23R, even if the heaters
34~ and 34R are operated.
Moreover, by the fact that the stop switch 155 is disposed
on the steering handlebar 26 and.the front winker lamps 23~ and.
23R are disposed on the front fork 21 operated in unison with
the steering handlebar 26, the wiring portions connected to the
stop switch 155 and the front winker lamps 23~ and 23R are
arranged, so that they are not twisted, even if the steering
handlebar 26 is turned. In such wire portions, particularly,
the connection structure interruptively connected to the
disposed portions in the vicinity of the steering handlebar 26 ,
no problems are arisen in its durability and reliability.
In a vehicle such as a motorcycle, a snowmobile and a
three-wheeled buggy, it is common that the wiring portion
between the stop switch 155 and the main switch 142 and the wiring
portions of the left and right front winker lamps 23~ and 23R
to the grounding portion E~ are located in vicinity of the
steering handlebar 26, and the general-purpose utilization of
the electric connection of the grip heater unit 92 to a common
vehicle can be easily achieved in such a manner to perform the
interruptive connection to such wiring portions.
CA 02355986 2001-08-28
70488-120D --
51
Further, in the battery voltage monitoring means 104 in
the control device 91, the first voltage threshold value Vsl
for stopping the supplying of the power to the heaters 34~ and
34R is determined according to the equation, Vsl = VM - QVl +
AVz, wherein VM represents a necessary minimum power source
voltage required in the battery 90 to allow the motorcycle to
travel; QV1 represents a decrement of voltage dropped in the
wire from the battery 90 to the battery voltage monitoring means
104; and QVZ represents a detected maximum voltage error
presumed on the plus side in the battery voltage monitoring
means 104. Therefore, the first voltage threshold value Vsl is
set at an extremely small level, while ensuring the necessary
minimum power source voltage required in the battery 90 to allow
the motorcycle to travel, after taking the dropped-voltage
decrement and the detected error of voltage in the battery
voltage monitoring means 104 into consideration. Thus, it is
avoided that the supplying of the power to the heaters 34~ and
34R is performed even if the first voltage threshold value Vsl
becomes equal to or smaller than the minimum power source
voltage required in the battery 90 , and the chances to be able
to warm the left and right grips 271 and 2781 by the heaters
34~ and 34R can be extremely increased. Further, by the fact
that the supplying of the power from the battery 90 to the heaters
34~ and 34R is permitted at the second voltage threshold value
Vsz higher than the first voltage threshold value Vsl by the
CA 02355986 2001-08-28
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52
predetermined value or more, the turning ON and OFF of the
supplying of the power to the heaters 34~ and 34R cannot be
frequently repeated, and the control of the supplying of the
power to the heaters 34~ and 34R can be stabilized to stably
warm the left and right grips 271 and 2781, thereby providing
a good warm-feeling.
Moreover, the voltage monitored in the battery voltage
monitoring means 104 is provided by the interruptive connecting
wire 161 interruptive.ly connected to the plus side of the stop .
switch 155, and the voltage dropped due to the passing through
the main fuse 141, the main switch 142 and the fuse 150 from
the battery 90 is monitored and as a result, no exclusive
resistor is required. When the voltage becomes lower than the
first voltage threshold value VS1 as a result of a voltage drop
produced in the interruptive connection point of the
interruptive connecting wire 161 due to the lighting of the stop
lamp 159 by the turning ON of the stop switch 155, the supplying
of the power to the heaters 34~ and 34R is immediately stopped,
and the lighting of the stop lamp 159 is preferentially
maintained.
Fig.22 illustrates a second embodiment of the present
invention, wherein portions or components corresponding to
those in the first embodiment are designated by like reference
characters.
In the first embodiment, the head lamp 22 and the left
and right front winker lamps 23~ and 23R have been mounted on
CA 02355986 2001-08-28
70488-120D
. 53
the front fork 21 turned in unison with the steering handlebar
26, but they may be mounted, for example, on a cowling on the
vehicle body frame. In this case, the minus-side connecting
wire 95 as the second connecting wire led from the grip heater
unit 92 is connected to the steering handlebar 26, for example,
- by co-clamping, along with the earth wire 147 connected to the
grounding portion E~. In addition, the plus-side connecting
wire 94 as the first connecting wire is interruptively connected
between the stop switch 155 and the fuse 150, as in the first
embodiment.
With the second embodiment, by the fact that the
minus-side connecting wire 95 is connected to the steering
handlebar 26, the minus-side connecting wire 95 cannot be
twisted even if the steering handlebar 26 is turned, thereby
providing an effect similar to that in the first embodiment.
In the above-described embodiments, the plus-side
connecting wire 94 of the grip heater unit 92 has been
interruptively connected between the stop switch 155 and the
fuse 150, but the plus-side connecting wire 94 may be
interruptively connected between the head lamp switch 153 and
the fuse 149. However, there is a vehicle in which a power
supplied to the head lamp 22 is an AC power and hence, when the
power is supplied from the battery 90 to the heaters 34~ and
34R, the interruptive connection of the plus-side connecting
wire 94 is impossible. To provide the general-purpose
utilization of the connection, it is desirable that the
CA 02355986 2001-08-28
70488-120D
~ ' 54
plus-side connecting wire 94 is interruptively connected
between the stop switch 155 and the main switch 142.
In addition, the power of the battery 90 has been used
as the power source in the above-described embodiments , but the
present invention is also applicable to a vehicle in which the
heaters 34~ and 34R are energized by an AC power from the AC
generator 145.
Figs . 23 to 30 illustrate a third embodiment of the present
invention, wherein portions or components corresponding to.
those in each of the above-described embodiments are designated
by like reference characters.
Referring to Figs.23 to 28, a left grip 272 is comprised
of an inner piece assembly 33 formed into a cylindrical shape,
and a sheet-shaped heater 174 wound around substantially the
entire periphery of an outer surface of the inner piece assembly
33. The inner piece assembly 33 and the sheet-shaped heater
174 are integrally embedded in a grip body 35 made of a rubber.
Support projections 42a are formed at a plurality of
circumferentially spaced-apart points on inner surfaces of
inner pieces 331 and 33z , i . a . , on an inner surface of the inner
piece assembly 33 to fill grooves 43 in the inner surface of
the inner piece assembly 33. The support projections 42a extend
in a lengthwise direction of the inner piece assembly 33 and
are integrally connected to the grip body 35. The support
projections 42a resiliently bear on an outer surface of the
steering handlebar 26 press-fitted into the left grip 27L2.
CA 02355986 2001-08-28
70488-120D '-
Moreover, the width of the support projections 42a in the
circumferential direction of the inner piece assembly 33 is
constant.
The structure of a section excluding the heater 174 and
the shapes of the support projections 42a is basically the same
- as the left grip 27L1 in the first embodiment and hence, the
portions corresponding to the structure of the left grip 27L1
in the first embodiment are only shown with the same reference
characters as in the first embodiment being affixed in Figs.
23 to 28, and the detailed description thereof is omitted.
Referring to Fig.29, the heater 174 is constituted as
an FPC heater and has a sectional structure in which a strip
pattern formed of a copper foil 55 as a heat generating element
is laminated between a base film 56a and an overlying film 56b
( see Fig. 26 and omitted and not shown in Fig. 29 ) . The heater
174 includes a first rectangular heater region 174a
substantially corresponding to the outer periphery of the first
inner piece 331 excluding the annular portions 36 and 37, a
second rectangular heater region 174b substantially
corresponding to the outer periphery of the second inner piece
332, and a connecting region 174c led from the first heater
region 174a toward the annular portion 36 of the first inner
piece 331.
First and second heater circuit pattern portions P1H and
P2H having different densities of the copper foil 55 dispersed
are formed on the first heater region 34a by the strip pattern
CA 02355986 2001-08-28
70488-120D
56
of the copper foil 55. The heater circuit pattern portions P18
and P28 are connected in series in such a manner that half of
the first heater circuit pattern portion P1H is connected to
one end of the second heater circuit pattern portions P2e, and
the other end of the second heater circuit pattern portions P28
is connected to remaining half of the first heater circuit
pattern portions P1H. Moreover, the first heater circuit
pattern portions PlB having the density of the copper foil 55
- dispersed higher than that of the second heater circuit. pattern
portions,P2B is disposed in a location inner in the widthwise
direction of the motorcycle , i . a . , adjacent an inner end of the
grip body 35, when a portion of the first heater region 174a
which is near the connecting region 174c and corresponds to the
annular portion 36, i.e. , the left grip 27L2, has been mounted
on the steering handlebar 26 . The second heater circuit pattern
portions PzB having the density of the copper foil 55 dispersed
lower than that of the first heater circuit pattern portions
Pls is disposed in a location outer in the widthwise direction
of the motorcycle, i.e. , adjacent an outer end of the grip body
35, when the left grip 27LZ has been mounted on the steering
handlebar 26.
Third and fourth heater circuit pattern portions P3B and
Pas having different densities of the copper foil 55 dispersed
are formed in the second heater region 174b by the strip pattern
of the copper foil 55. The third and fourth heater circuit
pattern portions P38 and P,8 are connected in series in such a
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57
manner that half of the third heater circuit pattern portion
P3H is connected to one end of the fourth heater circuit pattern
portion P4H, and the other end of the fourth heater circuit
pattern portion P,H is connected to remaining half of the third
heater circuit pattern portion P3H. Moreover, the density of
_ the copper foil 55 dispersed in all the third and fourth heater
circuit pattern portions P~e and P,H in the second heater region
174b is set lower than the density of the copper foil 55 dispersed
in all the first and second heater circuit pattern portions P1a
and P28 in the first heater region 174a. The third heater
circuit pattern portion P3B having the density of the copper
foil 55 dispersed higher than that of the fourth heater circuit
pattern portion P4g is disposed in a location inner in the
widthwise direction of the motorcycle, i.e. , adjacent the inner
end of the grip body 35, when a portion of the second heater
region 174a adjacent the connecting region 174c, i.e. , the left
grip 27LZ, has been mounted on the steering handlebar 26. The
fourth heater circuit pattern portion P48 having the density
of the copper foil 55 dispersed lower than that of the third
heater circuit pattern portion P3g is disposed in a location
outer in the widthwise direction of the motorcycle, i.e.,
adjacent the outer end of the grip body 35, when the left grip
272 has been mounted on the steering handlebar 26.
Moreover, the strip patterns of the heater circuit
pattern portions P1H to P4g are formed to extend longer in the
circumferential direction of the inner piece assembly 33 , when
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58
the heater 174 is wound around the inner piece assembly 33.
Thus, during winding the heater 174 around the inner piece
assembly 33 , wrinkles are difficult to be produced in each of
the heater circuit pattern portions P1B to Pqe.
A plurality of larger and smaller copper foil land
portions 57 and 58, which do not function as a heater circuit
pattern, but which are intended to reinforce the heater 174L,
are respectively formed in the first and second heater regions
174a and 174b, as best shown by oblique lines drawn in Fig.29.
Bores 59 are defined at a plurality of points in each of the
copper foil land portions 57 and 58 and adapted to be filled
with a molten rubber at the winding of the heater 174L around
the inner piece assembly 33 to ensure a reliable adhesion of
the heater 174 to the inner piece assembly 33.
The formation of the copper foil land portions 57 ensures
that regions having different dispersed densities of the copper
foil 55 are formed in the first and second heater circuit pattern
portions P1$ and PZH in the circumferential direction of the
heater 174 wound around the inner piece assembly 33, and
higher-density regions 174a1 and 174a3 are formed in the first
heater region 174a on opposite sides of a lower-density region
174a2 located in the middle in the circumferential direction .
The formation of the copper foil land portions 58 ensures that
regions having different dispersed densities of the copper foil
55 are formed in the third and fourth heater circuit pattern
portions P3B and P4B in the circumferential direction of the
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~ ° 59
heater 174 wound around the inner piece assembly 33, and
higher-density regions 174b1 and 174b3 are formed in the second
heater region 174b on opposite sides of a lower-density region
174b2 located in the middle in the circumferential direction.
In this way, the density of the copper foil 55 dispersed~s varied
in the circumferential direction of the heater 174 wound around
the inner piece assembly 33 due to the formation of the copper
land portions .57 and 58. However, the disposition of the
higher-density regions 174a1, 174a~, 174b1 and 174b3 and the
lower-density regions 174a2 and 174bz, i.e., the disposition
of the copper foil land portions 57 and 58 may be determined
depending upon the distribution of a pressure of contact of a
left hand with the left grip 27L2.
A pair of connecting lands 61 and 62 are formed in the
connecting region 174c by exposure of the copper foil 55. One
61 of the connecting lands is connected to the first heater
circuit pattern portion P1B by a connecting portion 63 disposed
near the connecting region 174c, and the other connecting land
62 is connected to the third heater circuit pattern portion PCB
by a connecting portion 64 disposed near the connecting region
174c. The first and third heater circuit pattern portions PlB
and P3B are connected to each other by a connecting portion 65
adjoining the connecting portion 64. Moreover, each of the
connecting portions 63, 64 and 65 is formed relatively widely,
so that a wasteful heat is not generated.
Elongated bores 66 , 66 corresponding to the openings 47 ,
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47 in the inner piece assembly 33 are defined in the heater 174
between the first and second heater regions 174a and 174b. The
elongated bores 66, 66 are formed larger than the openings 47,
47 , so that the openings 47 , 47 cannot be occluded by the heater
174L even if the relative positions of the inner piece assembly
33 and the heater 174L are misaligned slightly from each other.
A band-shaped copper foil-non-formed region 67 is formed in the
heater 174 in such a manner to connect the elongated bores 66 ,
-66 to each other. The flexibility of the heater 174 is enhanced
by the copper foil-non-formed region 67.
Such heater 174L is wound around the outer periphery of
the inner piece assembly 33 in such a manner that the connecting
region 174c extends toward the annular portion 36 at the
circumferential central portion of the first inner piece 331,
and the heater 174 is positioned relative to the inner piece
assembly 33 by bringing a pair of positioning pins 68 protruding
from the outer periphery of the first inner piece 331 at
locations near the annular portion 36 into engagement into
positioning pins 69, 69 provided in the connecting lands 61 and
62 in the heater 34.
Connecting wires 73 and 74 led from a cord 72 are connected
.. at soldering portions 75 and 76 to the connecting lands 61 and
62 of the heater 174L wound around the inner piece assembly 33.
The cord 72 and the connecting wires 73 and 74 are mounted in
a mounting groove 70 over a range of approximately 270 degree
in the annular portion 36 and led outwards through a cord
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' 61
supporting portion 71, as shown by an arrow 77 in Fig.28. A
cylindrical portion 78 for guiding and supporting the led-out
portion of the cord supporting portion 71 is projectingly
provided on the flange 32 of the grip body 35.
Such left grip 272 is mounted at the left end of the
steering handlebar 26 in such a manner that the cylindrical
portion 78 , i . a . , the cord 72 , is led out in a direction declined
forwards, for example, at 60 degree in a direction of movement
of the motorcycle, as shown in Fig.24. Thus, in the heater 174
installed in the left grip 27L2, the first heater region 174a
is disposed in an obliquely upper range A of approximately 180
degree on the front in the direction of movement of the
motorcycle, i.e., at the front portion of the left grip 27~z.
Referring to Fig.30, the right grip 2782 is mounted at
a throttle pipe 79 which is turnably mounted at the right end
of the steering handlebar 26. The right grip 2782 is mounted
at the throttle pipe 79 in such a manner that the cylindrical
portion 78 , i . a . , the cord 72 , is led out in a direction sloped
up forwards, for example, at 60 degree in the direction of
movement of the motorcycle. Thus, in the heater 1748 installed
in the right grip 2782, the first heater region 174a is disposed
in an obliquely lower range A' of approximately 180 degree on
the front in the direction of movement of the motorcycle, i.e. ,
at the front portion of the right grip 27RZ.
With the third embodiment, the heaters 174 and 1748 are
embedded in the left and right grips 27L2 and 2782, respectively,
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62
in such a manner that the first heater region 174a is disposed
in the grip body 35 on the front side in the direction of movement
of the motorcycle, while the second heater region 174b is
disposed in the grip body 35 on the rear side in the direction
of movement of the motorcycle. Moreover, the density of the
copper foil 55 dispersed throughout the first and second heater
circuit pattern portions P1g and PZB formed in the first heater
region 174a is higher than the density of the copper foil 55
dispersed throughout the third and fourth heater circuit
pattern portions P3H and P,H formed in the second heater region
174b. Thus, the front portion of the grip body 35 in the
direction of movement of the motorcycle is a portion touched
by fingertips of a hand grasping each of the grips 27~z and 2782.
By the fact that the density of the copper foil 55 dispersed
in the front portion of the grip body 35 is higher than that
in the rear portion of the grip body 35, as described above,
the fingertips sensitively perceiving the cold can effectively
be warmed, while warming the entire grip 272, 2782 by the copper
foil 55 dispersed over the substantially entire periphery of
the grip.27L2, 2782, thereby providing an excellent warm-feeling
with a relatively reduced amount of power consumed.
In the first and second heater regions 174a and 174b in
each of the heaters 174L and 1748, the density of the copper
foil 55 dispersed in the first and third heater circuit pattern
portions P1B and P3B disposed at the locations adjacent the flange
32 of each of the grips 272 and 2782, i.e. , at the inner end
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63
of.grip body 35 is higher than the density of the copper foil
55 dispersed in the second and fourth heater circuit pattern
portions P2B and P4B disposed at the location spaced apart from
the flange 32 of each of the grips 272 and 2782, i.e. , at the
outer end of grip body 35 . Thus , the inner end of the grip body
35 is a portion relatively strongly touched by a hand when
grasping each of the grips 27L2 and 2782. By the fact that the
density of the copper foil 55 dispersed in this portion is larger
than that at the outer end, the hand can effectively be warmed.
Thus, an excellent warm-feeling can be provided with a
relatively reduced amount of power consumed.
Moreover, the left and right grips 27L2 and 2782 are only
slightlj different in shapes of their inner surfaces.
Therefore, the density of the copper foil 55 dispersed at the
front portion of the grip body 35 can be set higher than that
at the rear portion only by leading-out of the cords 72 in
different directions, and the number of parts and the
manufacture cost can be reduced by the fact that most of the
arrangement of one of the grips 272 and 2782 is the same as most
of the arrangement of the other grip.
In each of the heaters 174 and 1748, the density of the
copper foil 55 dispersed is ununiform, but in a state in which
the grips 27L2 and 2782 are not grasped, the grips 272 and 2782
are uniformly warmed by heat transfer. Therefore, when the
grips 272 and 2782 has been grasped after heating of the heaters
174 and 1748 by supplying the power, the sense of
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64
incompatibility due to the ununiformity of the temperature
cannot be felt.
Fig.31 illustrates a fourth embodiment of the present
invention, wherein portions or components corresponding to
those in each of the above-described embodiments are designated
by like reference characters.
In place of the heaters 1741, and 1748 in the third
embodiment , a heater 184 corresponding to a substantially half
of a periphery of each of the grips 27L2 and 2782 may be integrally
embedded in the grip body 35 of each of the left and right grips
272 and 2782. This heater 184 is constructed as an FPC heater
and formed in correspondence to the first inner piece 331 which
is substantially half of the periphery of the inner piece
assembly 33 . Namely, the heater 184 is formed in correspondence
to the first heater region 174a of each of the heaters 174L and
1748 in the third embodiment.
First and second heater circuit pattern portions P1~ and
Pzc having different densities of the copper foil 55 dispersed
are formed in the heater 184 by a strip pattern of the copper
foil 55. When the grips 27L2 and 2782 have been mounted on the
steering handlebar 26 and the throttle pipe 79 , the density of
the copper foil 55 dispersed in the first heater circuit pattern
portion P1~ located on the inner side in the widthwise direction
of the motorcycle, i.e., at the inner end of the grip body 35
is set higher than that in the second heater circuit pattern
portion Pz~ located on the outer side in the widthwise direction,
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. - 65
i.e.., at the outer end of the grip body 35.
A plurality of large and small copper foil land portions
57 which do not function as a heater circuit pattern, but which
are intended to reinforce the heater 184, are formed in the
heater 184 , as clearly shown by oblique lines drawn in Fig. 31 .
The formation of the copper foil land portions 57 ensures that
higher-density regions 1841 and 1843 are formed in the first
and second heater circuit pattern portions P1~ and P2~ on opposite
sides. of a lower-density region 1842 located at the middle in
the circumferential direction of the heater 184 integrally
embedded in the grip body 35. The disposition of the
higher-density regions 1841 and 1843 and the lower-density
region 1842, i.e., the disposition of the copper foil land
portions 57 is determined depending upon the distribution of
a pressure of contact of a hand with each of the grips 272 and
2782 (see the third embodiment).
With the fourth embodiment, when the grips 27L2 and 2782
are mounted on the steering handlebar 26 and the throttle pipe
79, the heaters 184 are disposed in the ranges shown by A and
A' in Figs . 24 and 30 , i . a . , on the front side in the direction
of movement of the motorcycle. Thus, fingertips sensitively
feeling the cold can be effectively warmed, thereby providing
an excellent warm-feeling with a relatively reduced amount of
power consumed. In addition, by the fact that the density of
copper foil 55 dispersed in the first heater circuit pattern
portion P1~ disposed at the inner end of the grip body 35 is
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66
set higher than that in the second heater circuit pattern
portion P2~ disposed at the outer end of the grip body 35 , the
hand can be effectively warmed, thereby also providing an
excellent warm-feeling with a relatively reduced amount of
power consumed.
. Fig.32 illustrates a fifth embodiment of the present
invention. A substantially semi-cylindrical inner piece 173
made of a synthetic resin and having a heater 184 wound around
an outer periphery thereof is integrally embedded in a grip body
35 mounted at an end of the steering handlebar 26.
The inner piece 173 is formed so that the wall thickness
of its circumferential central portion is larger than that of
its circumferentialiy.opposite ends. Sandwiched between an
inner periphery of the heater 184 and an outer periphery of the
inner piece 173 are a sheet 176 made of an aluminum foil and
located on the side of the heater 184, and a heat insulating
material 177 located on the side of the inner piece 173.
The heat insulating material 177 is comprised of, for
example, VHB acrylfoam which is a trade name and is available
from Sumitomo 3M, Co . , Ltd . , or the like . The heat insulating
material 177 is bonded to an outer surface of the semi-
cylindrical inner piece 173 by a pressure sensitive adhesive
double coated tape or the like. The sheet 176 is also bonded
to an outer surface of the heat insulating material 177 by a
pressure sensitive adhesive double coated tape or the like, and
the heater 184 is bonded to an outer surface of the sheet 177.
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67
By the fact that the sheet 176 and the heat insulating
material 177 are mounted between the heater 184 and the inner
piece 173 in the above manner, a heat generated in the heater
184 can be inhibited to the utmost from being escaped toward
the steering handlebar 26. More specifically, when the heater
184 has been wound directly around the inner piece~173, the
rising of the temperature of the grip surface is late due to
the escaping of the heat toward the steering handlebar 26 and
moreover, the highest temperature is relatively low, as. shown
by a curve A in Fig.33. On the contrast, due to the addition
of the heat insulating material 177, the escaping of the heat
to the steering handlebar 26 can be reduced, as shown by a curve
B in Fig . 33 , whereby the rising of the temperature of the grip
surface can be hastened and moreover, the highest temperature
can be also relatively increased. Further, due to the addition
of the sheet 176 made of the aluminum foil, the rising of the
temperature of the grip surface can further be hastened by heat
reflection, as shown by a curve C in Fig.33, and the distribution
of the temperature of the grip surface can further be
uniformized by the heat transfer.
In the fifth embodiment, the sheet 176 and the heat
insulating material 177 are mounted between the heater 184 and
the inner piece 173, but the structure may be such that either
one of the sheet 176 and the heat insulating material 177 is
mounted between the heater 184 and the inner piece 173. In
addition, the fifth embodiment has been described with regard
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68
to the structure in which the semi-cylindrical inner piece 173
is embedded in the grip body 35, but it is of course that the
arrangement of the fifth embodiment is applicable to a structure
in which heaters 34~, 34R, 174, 1748 are wound around an inner
piece assembly 33 cylindrically formed of a pair of semi-
. cylindrical inner pieces 331 and 332.
Figs . 34 to 36 illustrate a sixth embodiment of the present
invention. Fig.34 is a plan view of a right grip in a buggy
vehicle; Fig.35 is a sectional view taken along.a line 35-35
in Fig.34; and Fig.36 is a plan view similar to Fig.34, but in
a state in which a grip has been removed from a steering
handlebar.
A grip 27 is mounted at a right end of a steering handlebar
26 in a buggy vehicle. A mounting member 178 is mounted on
substantially half of a periphery of the steering handlebar 26
inside the grip 27, and a case 179 mounted to a remaining half
of the periphery of the steering handlebar 26 is fastened to
the mounting member 178 by a pair of screw members 180, 180.
Moreover, a throttle lever 181 capable of being operated by a
right hand grasping the grip 27 is turnably supported on the
case 179 to extend toward the grip 27.
w The grip 27 is comprised of an inner piece assembly 33
which has, for example, a heater 34R or 1748 wound around an
outer periphery thereof and which is integrally embedded in a
grip body 35. A flat notch 36a for enabling the turning
operation of the throttle lever 181 is provided in an annular
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69
portion 36 which is provided at an axially inner end of the grip
27.
In a structure of the right end of the steering handlebar
26 of such buggy vehicle, when the grip 27 is turned about an
axis of the steering handlebar 26 , the turning of the throttle
lever 181 may be difficult in some cases due to catching of the
throttle lever 181 in the notch 36a. Therefore, in order to
. inhibit the turning of the grip 27 about the axis of the steering
handlebar 26, a limiting member 182 is integrally coupled to
the mounting member 178 by welding or the like.
The limiting member 182 is formed into an arcuate shape
in cross section to come into close contact with the outer
surface of the steering handlebar 26. A plurality of fitting
claws 182a, 182a are integrally formed at a tip end of the
limiting member 182 and adapted to be fitted into between a
plurality of support projections 42a, 42a which are formed at
circumferential distances on an inner peripheral surface of the
grip 27. Moreover, the distance between the support
projections 42a, 42a is not uniform and is set to be different
depending upon the circumferential point of the grip 27. The
width of the fitting claws 182a, 182a is set in correspondence
to such distance.
With the sixth embodiment , by the fact that the mounting
member 178 is fixed to the steering handlebar 26 and that the
plurality of fitting claws 182a, 182a included in the limiting
member 182 integrally coupled to the mounting member 178 are
CA 02355986 2001-08-28
70488-120D
fitted between the plurality of support projections 42a, 42a
around the inner periphery of the grip 27, the turning of the
grip 27 about the axis of the steering handlebar 26 is reliably
inhibited. Thus, even if the grip 27 is strongly grasped by
a right hand, the grip 27 cannot be turned, and the smooth
operation of the throttle lever 181 can be ensured.
Although the embodiments of the present invention have
been described. in detail , it will be. understood that the present
invention is not limited to the above-described embodiments,
and various modifications in design may be made without
departing from the spirit and scope of the invention defined
in claims.
For example, the present invention is applicable to a
structure in which a nichrome wire is used as a heat generating
element in place of the copper foil.
Industrial Applicability
The heater-installed grip for the vehicle, the control
device for the heater installed in the vehicle grip and the
electrical connection structure for the heater unit for the grip
in the vehicle according to the present invention can be
suitably used for the grip in a vehicle such as a motorcycle,
a snowmobile, a buggy vehicle and the like.
