Note: Descriptions are shown in the official language in which they were submitted.
73
-- 1 --
IGNITER UTILIZING PI~ZO-ELECTRIC ELEMENT
BACKGROUND ~F T~IE INVENTION:
This invention relates to an igniter which makes
use of a piezo-electric element, and more particularly
to a device for igniting gasoline or other combustible
gas by inducing spark discharge of a high voltage
c3enerated by giving an impact force to a piezo-electric
element by a gas pressure. More specifically, the
invention pertains to a device which i5 best suited as
an ignition means adapted in a nozzle assembly of
a gas burner used for cutting or welding of metals.
Piezo-electric ignition means for igniting a gas,
etc., by means of spark discharge of a high voltage
generated by giving a pressure to a piezo-electric
element are known, and such ignition means are widely
used for a variety of devices such as gas baths, gas
heaters, gas lighters for cigarettes, etc.
The hitherto known piezo-electric ignition means
were mostly o the type in which the energy accumulated
on a spring is given to a piezo-electric element by an
impact mechanism, and there has yet been unknown a
~,
73
plezo-electric ignition system where the pressure of a
gas is converted into an impact force and such impact
force is given to a piezo-electric element.
Generally, when lighting a gas burner used for
cuttiny or welding of metal, one has to first turn on
the yas and then ignite the spurting gas with a
lighter, match or other means. Thus, according to such
igniting means, the operator is obliged to perform
the troublesome wor~ of bringing the lighter or other
liyhtiny means close to the burner tip and then
igniting the gas, and further he must be careful about
the danger of explosion and resulting bodily injuries
as there is the possibility that the gas may explode
should the burner be lighted in a situation where the
air around the burner is impregnant with the gas
released from the gas burner due to failing to ignite
because of wet match or ill-timing of li~htin~ of the spurting
~0~73
-- 3 --
gas, or for other causes. There are also involved other
troubles such as looking for a lighter or other lighting
means. In view of these circ~lmstances, this inventor has
made extensive studies for solving these problems and finally
succeeded in achieving the present invention.
SUMMARY OF THE I NVENT I ON:
An object of this invention is to provide an igniter
making use of a piezo-electric element, said igniter being
best adaptable as an ignition means for gas burners used for
cutting or weldi.ng of metals~
Another object of the invention is to provide an igniter
characterized in tha-t a magnetic attraction is produced between
a stator and a movable piezo-electric unit so as to elevate
the impact force by gas pressure of the movable piezo-electric
unit against a conductor and the produced high voltage is
discharged to emit sparks.
Still another object of the invention is to provide
an igniter utiliz.ing a piezo-electric element, said
igniter being provided with a movable piezo-electric unit
having a piezo-electric element integrally incorporated
therein.
~ he igniter according to this invention comprises a
clyindr.ical body having a gas passage therein, a movable
piezo-electric unit arranged movable axially in the
cylindrical body by the pressure
~ ~$)~47~
of a gas flowing in said gas passage, a stator providea fixedly
in said cylindrical body on its gas passage side, said stator
bein~ desi~led to produce a magnetic attractive force between it
and said movable piezo~electric unit and communicated with said
gas passage through a through-hole formed therein, and a conductor
also provided fixedly in said cylindrical body on the side remote
from said stator, said conductor having a gas passage and designed
such that said movable piezo-electric unit, when moved~ will
impinge thereagainst, said conductor being also electrically
insulated from said cylindrical body by an insulator. A dis
charging electrode is electrically connected to said conductor
while another discharging electrode is electrically connected
to said cylindrical body in a spaced-apart relation from the
first-said discharging electrode. Said movable piezo-electric
unit has a piezo-electric element provided in a space in its
body portion through the medium of an insulator, said piezo-
electric element being held and fixed in position by a pressure
receiving terminal adapted to receive the pressing force of the
gas flowing in the gas passage in said cylindrical body and an
impPct terminal on the impact receiving face of said conductorO
The above-said and other objects and advantages of this
invention will become more apparent as this description proceeds
to describe the invention with reference to the accompanying
drawings.
3~3
- 5 -
BRIEF ~ESCRIPTION OF THE DRAWINGS:
FIG~ 1 is a longitudinal sectional view showing the whole
structure of the device of this invention.
~ TGo 2 is ~n end view taken in the direction of arro~ 2
of FIG. 1 n
FIGo 3 is a longitudinal sectional view of a st~tor~
~ IGo 4 is an end view taken in the direc~ion of arrow 4
of FIG~ 3O
~ IGo 5 is a longitudinal sectional view showing a mcdlfied
form of stator,
FIG~ 6 is an end view taken in the direction of arrow 6
of FIGo 5O
FIGu 7 is a longitudinal sectional view of a movable
piezo-electric uni~O
~ IG. ô is an end view taken ' in the direction of arrow 8
of FIG~ 70
FIG. 9 is an end view taken in the direction of arrow 9
of FIG. 7
~ IGo~10 is a longitudinal sectional vi~w of the body pox~o~
of the movable pezo-electric unitO
FIG~ 11 is a longitudinal sectional view of the pressure
receiving terminal of the movable pieze electric unit.
FIG. 12 is an end view taken in the direction of arrow 12
of FIG~ llo
1 2~?1473
~ 6 ~
FIGo 13 is a lon~itudinal sectional view of the impact
terminal of the movable piezo-electric unitO
FIGo 14 is an end view taken in the direction of arrow ~4
of FIG~ 13~
FIG. 15 is a longitudinal sectional view of a conductorO
~ IG~ 16 is an end view taken in the direction of arrow 16
of ~IG. 150
~ IGo 17 is a longitudinal sectional view showing the
operation of the device of this inventionO
~IG. 18 is a longitudinal sectional view of the principal
parts illustr2ting another embodiment of the present invention.
FIG. 19 is a longitudinal sectional view of a gas burner
of a gas fusing machine adapted with the device of ~his invention. :.
FIG. 20 i.s a longltudinal sectional view of a gas burner
having a different structure of a gas fusing machine adapted
with the device of this invention.
DETAILED DESCRPTION OF TI~E INVEI~TI~N:
. .
Referrin~ to FIGS. 1 and 2, there is shown an igniter
embodying the present invention. The igniter has a cylindrical
body 30 connected to a gas supply passage, said cylindrical body
30 being made of a metal such as brass and having a hollow
extendin~ axially there-through, said hollow being formed with
the forwardly facing stepped portions 31, 32 and a for~ardly
slanting portion 33 so that t~e inner diameter increases ~radually.
73
toward the fore end. The hollow portion from the rear end face
34 to the first stepped portion 31 serves as a gas passage 35.
The hollow portion from the second stepped portion 32 ~orwards
in the cylindrical body 30 provides a space for housing a
movable piezo-electric unit described in detail later.
The hollow portion between the first and second stepped
portions 31 and 32 i8 provided with an internal thread 37, and
also the opening front portion of the cylindrical body 30 is
provided with an internal thread 38.
It will be also seen that a stator 39 is provided fixedly
in the cylindrical body 30 on its gas passage side. This
stator 39, as best shown in FIGS. 3 and 4, is formed from a
rnagnetic material or a permanent magnet and has an integral
flan~e 41 at the fore end of its annular ~ortion 40. The outer
diameter of said flange 4t is substantially equal to the inner
diameter of the cylindrical body 30 at its portion between
the second stepped portion 32 and the slant portion 33, and
the annular portion 40 is provided on its entire external
surface with an external thread 42 engageable with the internal
thread 37 in the cylindrical body 30 and also has a through-
hole 43 extending axially thereof. Thus, the stator 39 is
fixed ln position in the cylindrical body 30 by means of
enzagement of said internal and external threads 37 and 42,
with the through-hole 43 being communicated with the gas
passage 35.
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-- 8 --
The stator 39 may take other configurations, such as
i1lustrated in FIGS. 5 and 6. In this embodiment~ the through-
hole 43 of the stator 39 is designed as an orifice which
spreads out on the ~as~ passage side of the cylindrical body
30. This design minimizes the flow resistance of the gas
flowing in the gas passage 35 to enhance the impact force of
the rnovable piezo-electric unit against the piezo-electric
element as explained in detail later.
In the hollow portion 36 of the cylindrical body 30 is
provided a movable piezo-electric unit 44 arranged movable
in said hollow portion 36 axially of the cylindrical body 30
under the pressure of the gas flowing in the gas passage 35.
This movable piezo-electric unit 44 is sho~m in FIGS. 77 8
and g, and as best seen from FIGS, 10 to 14, its metal-made
body portion 45 having a circular cross section consists of
a large-diameter portion 46 located forwardly along a subs-
tantially half length of the body portion 45 and a slightly
smaller-diameter portion 47 located rearwardly of and integral
with said large~diameter portion 46, with a recession 48 being
formed at the boundary between said large-diameter and smaller-
diameter portions 46 and 47. The outer diameter of the large-
diameter portion 46 is substantially equal to the inner
diameter of the hollow portion of the cylindrical bod,y 30
for~ards of the slant portion 33 while the outer diameter of
the smaller-diameter portion 47 is substantially equal to the
73
i~1er diameter of the hollow portion of the cylindrical body
30 between the second s-tepped portion 32 and the slant portion
33. In the body portion 45 of said piezo-electric unit 44,
there are provided aY~ial]y thereof and deflned by the r~uwardly
facing stepped portions 49 ~nd 50 a hi~h-pitch thread 51, a
piezo-electric element housing space 52 and a small openin~ 53.
~lso, in the large--diameter portion 46, there are formed axially
and in the outer peripheral edges thereof the small gaspassages
54 havin~ a circular cross section and openin~ into therecession
48, said gas ~ass~g~ 54 being s~aced ~ rt from each other
by 90 ill terms of center angle. In the space 52 o~ the body
portion ~5 is provided a columnar piezo-electric element 55
through an insulator 56 such as ceramic, and the fore end of
said ins~ator 5~ has its stepped portion 57 engaged with the
corresponding stepped end ; 50 of the body portion 45 to
secure the insulator a~ainst loosenin~, said fore end reachin~
the opening 53.
On one electrode side of the piez~-electric element 55
is provided a metal-made impact terminal 58 which is electrically
insulated from the body portion 45 by the insulator 56. This
impact terminal 589 as best seen from FIGS~ 13 and 14, has
a flan~e 59 of the same diameter as the piezo-electric element
55 and a circular-cross-sectioned central ~rotuberance 60
integral with said flan~e 59. The flange 59 is pressed against
one end face cf -the piezo-electric element 55 and the protuberanoe
60 is provided fixedly such tha~ it slightly projects from
~ f~
-- 10 ~
the opening 53 in the body portion 45.
A pressure receiving terminal 61 is provided on the
other electrode side of the piezo-electric elernent 55, said
pressure receiving terminal 61~ as best seen ~rom FIGS. 11 ~nd
129 having a recession 64 in its body 63 having a circular-cross
sectioned protuberance 62 of the same diameter as the piezo-
electric element 559 and a permanent magnet 65 is fitted and
fi~ed in said recession 64 such that said magnet is ~lush with
the end face of said recession 64~ ~s this pressure receiving
terminal 61 has its external thread 66 engaged ~ith the corres-
nonding internal thread 51 of the body portion 45, ~ pro~rance
62 gives a compressive force to the piezo-electric element 55
to let it fix to the body portion 45 while held by said pressure
receiving terminal 61 and impact terminal 58~
Securing of the pressure receiving terminal 61 to the
body portion 45 may be effected by caulking.
The permanent ma~net 65 produces an attractive ~orce
between the movable pieæo-electric unit 44 and the stator 39
to keep the pressure of the gas flowing from the gas passage
35 of the cylindrical body 30 into the through-hole 43 of the
stator 39~ whereby the instantaneous impact against the
movable piezo-elec-tric unit 44 is increased to give a high
impact force to the piezo-electric element 55O
Attractive force is produced between a permanent magnet
and a magnetic body, so that in case the perm~nent magnet 65
~ 11 --
is provided in the movable piezo-electric unit 44, the
`stator 3~ is made of a magnetic material, and in case the
stator 39 is formed from a permanent magnet, the pressure
receiving terminal 61 of the movable piezo-electric unit 44
is made of a magnetic mater.ial.
In the cylindrical body 30, on its side opposite
from the movable piezo-electric unit 44, i5 provided a
conductor 67 arranged such that when the movable piezo-
electric unit 4~ is moved by the gas pressure, its impact
terminal 58 will strike against said conductor 67. This
conductor 67 is made of a metal such as brass, and as best
seen from FIGS. 15 and 16, it has a flange 68 designed to
receive the impact and a cylindrical body 69 integral
therewith~ Said cylindrical body 69 is formed with an
external thread 70 at i.ts rear end portion. ~t the central
part of said flange 68 is provided an integral circular-
cross-sectioned protuberance 71 against which the impact
terminal 58 of the movable piezo-electric unit 44 impinges.
~lso, at the base of said protuberance 71 joined to the
flange 68 is formed small openings 73 in communication with
a gas exhaust passage 72 ormed in the cylindrical body 69
axially thereof, said small openings 73 being slant to
provide a substantially 90 angular spacing from each other.
The flange 68 and the cylindrical body 69 of said conductor
67 excepting the thread 70 are coated with an insulating
material 74 such as Teflon* and the external thread 76 of a
*Trade Mark
- 12 -
fixing nu~ 75 threadedly mounted on the coated portion 74
of the cylindrical body 6~ from the thre~d 70 side is threadedly
engaeed with the corresponding internal thread 38 of the
cylindrical body 30 to thereby fix the cylindrical body 30 in
position in an electrically insulated relationO The fixing nut
75 has a flange of the same diameter as the cylindrical body
30 and abuts against the opposing end face of said cylindrical
body 30~.
An annular insulator 78 such as Telfon (RoT~M~) is provided at
the part of the coating 74 projecting from the flange 77 of
~he fixing nut 75 of -the conductor 67, and one of the discharging
electrodes 79 is electrically connected to the conductor 67
through said insulator 78 as the internal thre.ad 80 of sai.d
electrode 79 is engaged with the corresponding external thread
70 of the conductor 67. Ihe fore end of the dis~harging electrGde
79 terminates into a fine no~zle, and the foremost end 81
thereof constitu-tes a sparking pointO In said electrode 79 is
also formed axially thereof a gas passage 82 through which
the ~as in the cylindrical body 30 is discharged outO
The discharging electrode 79 may take various othe~
configurations~
The other d.ischarging electrode 83 mating with said electrode
79 is also electrically connected to the cylindrical body 30
as it is screwed, as at 85, to the external surface of the
cylindrical body 30. The foremo~;t end constituting the sparking
~"'~ '3
- 13 -
point at the free end of said other electrode 83 is set with
a predetermined spacing from the opposing sparkin6 end 81 of
the electrode 79
The above~described preferred embodiment of this inven~
tion is now explained from its operational aspect,
Although not shown, the igniter assembly of this inven-
tion is properly set in a gas supply line through an integrally
assembled cock or ball valve which can be opened and closed by
a one-touch operation. As the igniter assernbly is thus properly
set9 the gas passage 35 in the cylindrical body 30 i9 communi~
cated with the gas supply line. I
In the state where the valve is closed and no gas is
supplied from the gas supply line into the gas passage 35, the
movable piezo-electric unit 44 is fastly attached to the stator
39 by the magnetic ~orce of the permanent magnet 65 and hence
the through-hole 43 in the stator 39 communicated with the
gas passage 35 is closed t.ightlyO This state is sho~ in ~IG. 1.
When the valve is opened to admit the gas from the gas
supply line into the gas passa~e 35 and thence into the through-
hole 43, the pressure is built up in the through-hole 43 and
when the accumulated gas pressure exceeds the magnetic attractive
force working between the stator 39 and the movabl~ piezo-
electric unit 449 said piezo-electric ~it 44 is instantaneously
moved forwards by the ga~ pressure to let the protuberance 60
t73
at the impact terminal 58 of said unit 44 strike strongly
against the corresponding protuberance 71 on the cond~ctor 67.
This state is shown in ~`IC. 17~
As the movable piezo-electric unit 44 moves, the gas
in the cylindrical body 30 pass~s from the gas passage 54 in
the piezo-electric unit 44 into the small openings 73 and
~2S passage 72 in the conductor.67 and releaced out through
the gas passa~e 82 in the discharging electrode 7~
l~pon irnpin~ement of the IDovable piezo-electric unit
44 a~ainst the conductor 67 under the gas pressure, an impact
force is given to the piezo-electric elemen~. 55 to generate a
hi~ voltage and spark discharge occurs between the foremost
end 81 of the discharging electrode 79 electrically connected
to one of -the electrodes of said pie~o-electric element 55 via
the impact terminal 5~ ~d ~nductor 67 and the o~x~ing foremost
end 84 of the dischar~ing electrode 83 electrically connected
to the other electrode of said piezo-electric element 55 via the
terminal ~3, body portioll 45 and cylindrical body 30, and the
gasoline or other combustible gas is ignited by the sparks.
When the valve is again closed to shut off gas supply
from the ~as supply line, there no lon~er exists the gas
pressure forcing the movable ple~o-electric unit 44 forwardly,
so that said unit 44 is again magnetically attached to the
stator 39 to restore the state sho~n in FIC. 1.
Thus, according to the ignition device of this invention,
9173
when the valve is opened to let in the gas in the gas supply
line, the movable piezo-elec-tric unit i5 forced to impin~e
stron~ly against the conductor by the gas pressure to impart
an impact force to the piezo-electric elernent ~hich is fixedly
held and compressed between the pressure receiving terminal
and the impact ter~ninal, and further the instantaneous impact
force of the movable piezo-electric unit a~ainst the conductor
is multiplied by the gas pressure pressing said piezo-electric
unit forwardly, ~hich has been sufficiently accumulated by
the ma,snetic attractive foroe working between said piez~ electric
unit and t}ie s-tator ~ld by the own weight of said piezo-
electric unit, so that a hi~h voltage is produced iII the
piezo-electric elernent to inïallibl~ induce spark discharge
to effect desired ig~ition.
Another pre~^erred embodiment of this invention is
illustrated in ~IG. 18. In this ernbodiment, a coil sprin~ 86
is provided between the movable piezo-electric unit 44 and the
conductor 67 in the cylindrical body 30.
Accordin~ to this embodiment, since the movable pieæo-
electric unit 44 is normally pressed agai.nst the stator 39by the coil spring ~6, there can be more effectively accunulated
the gas pressure for striking the movable piezo-electric unit
44 against the conductor 67, anà also when gas supply is
stopped, the piezo-electric unit 44 which has been pressed
b~ the gas pressure is forced back b~ the elastic force of the
coil sprin~ 86 to ensure fast attachement to the stator 39~
~herefore~ the coil spring 85 used in this embodiment is enough
if it can press the movable piezo-electric ~lit 44 to the
position where the attracti~e force acts between said unit
and the stator 39 when the gas supply was stopped,
As understood from the foregoing detailed description~
the igniter according to this invention features an arrangement
in which a msvable piezo-electric unit having a piezo-
electric element integrally incorporated therein is forced to
strike against a conductor by the pressure of a ~as flowing
in a gas passage to produce a high voltage in the piezo-electric
element and spark discharge is induced from such high voltage
to ignite the gas, so that if the device is ad~pted as ign~tion
means in a gas burner used for fu~ing or weldin~ metals7 it
provides a very useful automatic gas igniter as i~nition is
effected automatically and with safety upon inflow of the gas
into the burner with opening of a valve in the ~as supply line.
Some preferred burner structures adapted wi-th the
device o~ this invention are illustrated in FIGS. 19 and 200
It will be seen that, in t,hese drawingst like reference numerals
are used to indicate the like parts in the respective structures
although such numbering is given only to the principal parts~
Referring to FIG. 19~ the burner comprises a cylindrical
body 100 which is to be fixed to a torch not shown and a cylin
drical shell 107 joined securely to said cylindrical bo~y 100
- 17 -
coaxially therewith~ The cylindrical body 100 is made of a
metal such as brass and has a fl~nge 101 toward its fore end.
Rearwardly of said flange 101 are provided two frusto-conical
portions 102 and 103, and an internal thread 104 is provided on
the inner peripheral surface of a cavity formed in the flanged
end of the cylindrical body. Said cylindrical body 100 is also
provided with a high pressure o~ygen inlet passage 105 extending
centrally in the axial direction thereof and several mixed gas
feed passa~es 106 extending for~ardly fro~J the rear end of the
conical portion 102.
~ he cylindrical shell 107 is made of a metal such as
br~ss and joined securely to the cylindrical body 100 as its
open rear end formed with a flan~e 10~ is fitted onto the fore
end of the cylindrical body 100 until the flan~e 108 abuts against
the corresponding flange 101 of the cylindrical body 100.
At the foremost end o~ the shell 107 is provided a gas
jet 109 of a size smaller than the inner diameter of any other
part, and a stepped portion 110 is formed in the inside thereof.
An inner cylinder 111 is threadedly joined to the
c~lindrical body 100 as the external thread 112 on said inner
cylinder 111 is engaged with the corresponding internal thread
104 in the cylindrical body 100, and the space defined between
-the external surface of said imler cylinder 111 and the opposing
internal ~urface of the outer cylinder or shell 107 provides
a mixed gas passage 113.
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- 18 -
The inner cylinder 111 is substantially identical with
the c~lindrical body 30 which forms a structural part oI the
device of this invention, and the gas passage 3~ thereof is
in commullication ;:ith the Dressurized o~ygen inlet passa~e
105. In the ir.~er cylinder 111 are provided a stator 39, a
movable piezo-electric unit 44, a coil spring 86 and an
electrically insulated conductor 67.
The conduc-tor 67 is Joined to an o~ygen injection nozzle
114 as the externally threaded portion 70 thereof is screwed
into the correspondi.ng internall~ threaded portion 115 formed
in a recession at the rear end of said oxygen injection nozzle
114. Said oxygen injection nozzle 114 is made of a metal such
as brass. The central hole of said nozzle 114 is communicated
with the gas passage 72 in the conductor G7 and its foremost
end is posi-tioned slightly inwardly of the gas jet 109 of the
shell 107. A plurality of slits 117 are pro~rided in the outer
peripher~ of the forernost end portion of the nozzle 114 in the
a~ial direction thereof. Between the fore end portion of the
oxy~en injection nozzle 114 and the shell 107 is interposed
an insulator 118 such QS ceramic ~ith its fore end face ahutt~
a6ainst the stepped portion 110 of the shell 107, said insulator
118 being so positioned that the slits 117 in the fore end
portion of the nozzle 114 are kept in co~unication with the
mi~ed gas passage 113 defined between the external surface
of the nozzle 114 and the opposing internal surface of the
7~3
-- 19 --
shcll 107. A perfeot electrical insulation is established
between the shell 107 and the oxygen injection nozzle 114 by
said insulator 11~.
The o~.ygen injection no~zle ~14 is also electrically
insulated from the in~er cylinder 118 by an insulator 78 and
is rnerely connected to the conductor 67 alone to form an
electrical connection with one of -the electrodes of the piezo-
electric element 55, so that said nozzle 114 has the same
function as the discharging electrode 79 and its foremost end
119 serves as a sparking point. hlso, since the shell 107 is
electrically connected to th~ other electrode of -the piezo-
el~ctric eleTent 55, it h~s the sar,~e function as tlle dlscharging
electrode 83 and the inner peripheral surface 120 of its
~as je-t lO9 acts as a sparking point.
The burner incor~orated with the device of this invention
is adapted to a torch by ~ixing the cylindrical body 100 side
thereto. ~hen they are duly a5sembled, the pr~ssurized oxygen
inlet passage 105 is communicated with the correspondin~ pre-
surized oxygen outlet in the torch and the mixed gas inlet
passage 106 with the corresponding mixed gas outlet in the
torch.
In the non-use state, the gas burner valve is kept
closed to inhibit ~1y gas supply, more specifically, the
movable pie20-electric unit 44 stays attached to the stator
73
- 20 -
39 to tightly close the through-hole 43 of the stator 39 as
sho~ in ~IG. 190 In use of the gas burner, the valve is opened
to first admit in the mixed gas. The mixed ~s flows through
the rnixed gas inlet passage 106 and p~ssage 113 and further
passes through the slits 117 in the oxygen injection nozzle 114
to spurt from the gas jet 109 in the shell 107~ Then pressurized
oxygen is supplied. This pressurized oxygen passes through
the pressuri~ed oxy~en lnlet passage 105 and ga~ passage 35
in the inner cylinder 111 into the throu~h-hole 43 in the stator
39. O~:ygen pressure is accumulated until it comes to exceed
the combined force of the ma~netic attraction working between
the sta-tor 39 and the movable piezo-elec~ric unit 44 and the
pressing force of the coil sprin~ 86, and when the accumulated
oxygen pressure exceeds said combined force, it is exerted to
the movable piezo-electric unit 44 to le-t it impact again~t
the conductor 67. Pressurized oxygen at the same time passes
through the gas passage 54 in the piezo-electric u~it 44,
small operi llgS 73 in the conductor 67, gas passage 72 and then
central hole 116 of the oxygen injection nozzle 114 to spurt
out from the ga5 jet 109 of the shell 107.
Concurrently with spurt of pressurized oxygen, a high
voltage is produced in the piezo-electric element 55 by impin~e-
ment of the movable piezo-electric unit 44 against the
conductor ~,7 arld spark dischar~e occurs between the foremost
~C~ ~73
- 21 -
end 119 (spark point) of the oxygen injection nozzle 114
electrically connected to one of the electrodes of said
piezo-electric element 55 via impact terminal 58 and conductor
67 and the opposing ilmer peripheral face 120 of the gas jet
of the shell 107 electrically connected to the other electrode
of the piezo~electric element 55 via pressure receiving
terminal 61, body 45 and inner cylinder 111~ ~1d the mixed
gas spur-ted from the slits 117 in the nozzle 114 is ignited
by the sparks. Thereafter, the movable piezo-electric unit
44 stays at its foremost position in the space 36 under the
pressure of successively supplied pressurized oxygenO When
the valve is c].osed, there is eliminated oxygen pressure
forcing the movable piezo-electric u~it 44 forwardly, so
that the piezo-electric unit 44 is again attachecl to the
stator 39 by the combined force of the coil spring 86 and
rna~netic attrac-tion working between said unit 44 and the
stator 39 to restore the original state.
Thus, the burner adapted with the device of this
invention is capable of effecting automatic, secure, quick
and very sa~e ignition upon supply of a gas to the burner,
without requiring any troublesome work for ignition.
FIG. 20 illustrates another burner assembl~age embodying
the present invention.
In the illustration, as readily noted, only the parts
different in structure from those in the burner of FIG. 19
are assigned the reference numerals commencing with 200 while
?~473
- 22 -
the like parts are assi~ned the like numerals a~d not given
detailed explanation to avoid redundancy.
The cylindrical body 200 to be joined to the torch i5
made of a metal such as brass and has the frusto~conical
portions 201, 202 and 203 arranged in that order from rear to
fore end. It also has an integral cylindrical portion 204
positioned forwardly of the conical portion 203 and formed with
an external thread 205. Extending centrally through the cylin-
drical body 200 is a pressurized oxygen inlet passage 206. Also,
several mixed gas feed passages 207 are provided extending
horizontally from the fore end face of the conical portion 202
to the rear end face of the conical portion 203.
The cylindrical body 200 is joined coaxially to an
cylinder 208 as the ex-ternal thread 205 of the cylindrioal body
200 is screwed onto the corresponding internal thread 209 in
the inner cylinder 208. The inner cylinder 208 corresponds to
the cylindrical body 30 which is a structural part of the device
of this invention, and it is made of a metal such as brass and
consists of a small-diameter fore portion 210 and a large-
diameter rear portion 2119 the former portion 210 being slightlylonger than the latter 211. In the large-diameter portion 211
are provided several mixed gas passages 212 extending from
the rear end face to the fore end face in communica-tion with
-the respective mixed gas inlet passages 207 in the cylindrical
body 200, Also9 in the outer periphery of said large-diameter
~Z,~ 73
- 23 -
portion 211 is provided a slant outer air suction hole 213
communicated with the mixed gas passage 2120 ~urther, in the
large-diameter por-tion 211 of the inner cylinder zo8 is provided
a stator 39 which is held and fixed in position by the end
face of the cylindrical portion 204 of the cylindrical body 200
and a stepped portion 214 on the inner periphery of the large-
diameter portion 211, In the small-diameter portion 210 are
provided a movable piezo-electric unit 44, a coil spring 86
and an electrically insulated conductor 67, said conductor 67
being coaxially secured to an oxygen injection nozzle 215.
A pocket 216 is formed halfway in the injection hole
of said oxygen injection nozzle 215. The pressurized oxygen
pressure which has been partly lost for pressing the movable
piezo-electric unit 44 is restored to the original pressure
(the oxygen pressure as initially supplied) to elevate the
flow rate in the injection hole to provide a required jet flow.
A plurality of slits 217 are provided in the outer
periphery of the fore end portion of the oxygen injection
nozzle 215, and its foremost end 218 constitutes a sparing point.
The outer cylinder 219 or shell is integrally fixed
to the large-diameter portion ~11 of the inner cylinder 208
as the rear open end of said outer cylinder 219 is fitted onto
said large-diameter portion 211 until it abuts against the
fore end face of the conical portion 203 of the cylindrical
- 24 ~
body 200. The space defined between the i~ler surface of
said outer shell 219 and the opposin~ outer surface of the
inner cylinder 208 provides a mixed gas passage 113 ccmmunicated
with said m~xed ~as passage 212~
The shell 219 is made of a metal such as brass, and
at the foremost end -thereof is provided a gas jet 220 which
is smaller th2n the inner diameter of any other part, with
the inner peripheral face 221 of said ~as jet 220 constituting
a sparking pOillt. In the ou-ter periphery of the rear portion
of said shell 219 is provided an outer air suction hole 222
communicated with the suction hole 213 in the inner cylinder
208. Also, a stepped E~'rtion 223 is provided inside the foremost
end of the shell 219, and an insulator 118 such as ceramic
is interposed between the shell 219 and the fore end portion
of the oxy~en injection nozzle 215, with the end of said
insulator 118 abutting a~ainst said stepped portion 223 as
shoY~.
The burner of the above-described structure is secured
to a torch not shown, and when the burner valve is opened,
there ensue the same operations as in the case of the preceding
embcdiment to induce spark discharge between ~ e foremost end 218
of the oxygen injection nozzle 215 and the opposing inner
peripheral face 221 of the ~as jet of the shell 219, and the
mixed gas is ignited by the s ~ ks emitted. When the valve
7~
is closed, the same operations as in the case of the already
described embodiment are repeated.
In the case of this burner, oxy~en in the ou~er air is
introduced throu~h the air suction hole ~22 in the shell 219
and the similar air suction hole 213 in the inner cylinder 208
to enter the mixed gas passage 113 and is mixed with the gas
therein to ensure positive iF,nition of the gas. Also, even when
the pressure of pressur~zed oxygen is lessened as it is used
for forcinF, the Movable piezo-electric ~ t 44 to its foremost
po~ition, oxygen pressure i E restored to the level at the time
of feed by the poc}cet ~'16 in the ox~en injection nozzle 215
to provide a required jet flow.
