Note : Les descriptions sont présentées dans la langue officielle dans laquelle elles ont été soumises.
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sackground of the Invention
This is a division of application Serial No. 346,598
filed February 28, 1980.
The present invention generally relatcs to the
field of damper operators, and more particularly, damper
operators employing releasing devices such as bimetals or
other heat responsive means which are used to actuate
various fire protection equipment, such as their associated
dampers, either in response to increases to heat in the
vicinity of the device or in response to remote signals
received thereby.
The present invention is particularly a~apted for
use with dampers comprising a frame having one or more
rotating blades mounted therein. Conventionally, such
dampers are provided with blade linkages which ~rticulate
the blad~s with respect to the frame so that the blades s~ill
move in unison bett~een their open and closed positions with
respect to the frame. It has long been known that such
dampers ~ay be operated using cables attached to the b]ade
brackets or blade linkages of these dampers, which cables
are normally threaded through a ierrule disposed through the
damper/duct wall to reach an operator motor mounted outside
of the duct in which the damper is located. It is also known
to bias the blades towards the closed position, as for
example, usin~ springs extending between the damper frasne
and the blades, and to provide fusihle links ln the cahle
portion located within the d~-ct so that, in response to
increased temperatures within the duct, the cable t~ill break
and the springs cause the blades to move to the closed
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position, whereupon the passage of fire through the duct
will be halted. Similar alternative arrangements have
'- also been used for smoke dampers which are intended to
move to the open position in response to the presence of
smoke, and the herein below described invention is equally
as applicable for use with such dampers.
Alternatively, it is known to operate dampers through
a damper operator shaft, the rotation of which through
an arc of gO corresponds to the rotation of the damper
blades through 90 between their open and closed positions.
See, for example, the various damper operators disclosed
in my prior issued United States Patent No. 4,113,232,
dated September 12, 1978 entitled, "Smoke, Fire And Air
Control Damper With Stamped Blade".
For other damper, blade linkage, spring biasing, and
operator constructions, please refer to the following
United States Patents Nos. 2,581,321: 2,654,921; 2,759,573;
2,996,768; 3,273,632; 3,327,764; 3,540,154; 3,727,663;
3,741,102; 3,814,165; 3,866,656; 3,899,156; 3,908,529;
1,368,453; 3,543,439; and British Specification No. 907,
dated January 13, 1904 and ~rench Patent No. 1,513,298.
Motorized operators for use in rotating damper
operating shafts through an arc of 90 are known. Such
motorized operators normally may be controlled from a
remote source to adjust air flow through the damper by
rotating the damper blades a preselected number of degrees
from the closed towards the open position, which degrees
are normally
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assumed to correspond to the percentage of air fll~w through
Lhat damper. For example, a 10 movement of the shaft
normally corresponds to a 10 opening of the damper which is
assumed to establish a corresponding air flow approximately
11 through the damper. In actuality, however, the relation-
ship between arc of blade opening and air flow is not
linear. In particular, during the initial stages of blade
opening, correspondingly greater percentage volumes of air
are permitted to pass through the damper for a given degree
of blade opening, while as the damper blades approach their
fully open positions correspondingly smaller increases in
air flow are achieved per a given degree of blade rotation.
~'o dampe~/operator unit is presently known havin~ air ~low
characteristics which exhibit a substantially linear
relationship between air flow and degree of operator shaft
rotation.
l~hile shaft/operated dampers may be prt!ferred in
certain instances, such operators are typically difficult
and expensive to install, primarily due to the $act that
such operators normally must be installed to the dam~er
frame after that damper has been installed within the duct.
Such a requirement makes installation difficult and exptn-
sive, often resultin~ in improperly installed damper--
operator combinations.
Summary of the_Invention
The present invention ~rovidts a soph,sticated,
easy to install damperloperator combination exhibiting ~any
advantagts over those heretofore kno-~n to the art.
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According to one aspect of the invention there is
provided an operator for operating a damper, comprising: (a)
an actuator plate operatively associated with said damper;
(b) a plurality of pivotally interconnected members, at least
one of which is pivotally associated with said actuator
plate; and (c) actuating means for selectively interconnect-
ing said interconnected members to said actuator plate.
According to another aspect the invention provides
an operator for operating a damper having a frame, at least
one blade, and blade linkage means connected to said blade
for articulating said blade with respect to said frame,
comprising: (a) at least two operator members, said members
being pivotally interconnected, a first of said members being
a frame associated member which is pivotally associated with
said frame, and a second of said members being a linkage
associated member which is pivotally associated with said
linkage means; (b) wherein said members are associated with
said linkage means and said frame so that upon rotation of
said frame associated member relative to said frame, through
an operating portion of its arc, said blade will be articu-
lated relative to said frame; and (c) releasing means for
selectively releasing said operator members for rotation.
In accordance with the preferred embodiment of the
present invention, the fire damper comprises a plurality of
pivotally interconnected damper operator members which are
pivotally associated with the frame and with the linkage
means of the damper. One of these members, a frame associ-
ated operator member, defined an operating arc of between
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about 82 and 89 which causes the blades to move bet~een
their closed and their open position. The ~rame assoc~ated
operator member additionally travels through a locklng
portion of its arc which is greater than 0 and less than
7 to accomplish an over-center locking of the bla-ies.
In, the preferred embodiment, a shaft-ty~e actu-
ating means is provided which is selectively interconnected
with the frame associated operating memher by a releasing
device which permits normal operation of the damper between
its open and closed positions except in response to fire
actuatin~ conditions, such as heat, whereupon the actuator
means is disengaged ~rom the frame associated member.
Biasing means associated with the operator (or other biasing
means lo-ated elsewhere, if desired) will then drive the
operator into its locked over-center position. Once loc~ed,
substantial forces which may tend to alter the blade
position wi]l be resisted by the over-center lockin~ of the
damper operator.
A novel assembly method is also provided which
enables an operator mounting bracket to be mounted on a
portion of the frame during the initial construction of the
damper. ~nce the damper frame is in place, a hole is simply
drilled through the wall of its associated duct and the
various operator parts assembled by sliding the operator
shaft throu~h a hole in the frame associated member and
mounting bushing and then by rotating that shaft into a
position with its normal operating andlor locking arcs. ~f
sprin~ biasing of the operator i~ desired, a coiled spring
may then be manually applied to engage various bia~ mounting
portions of the operator. In this manner, no special tools
or delicate operations are necessary for final installation.
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J ~ccordingly, a primary object of the prcsent
inventioll îs the provision of a simple, reliable, impro~ed
damper operator.
A further object of the present invention is the
provision of an easily installed damper operator.
A further aim of the present invention is the
provision of a fail-safe, damper operator whlch may be
automatically resettable.
A further obiect of the present invention is the
provision of a shaft operated damper operator where~n, at
least during the initial phases of blade opening, the
percentage of air flow corresponds in a substantially linear
fashion to the degree of shaft rotation of the damper
operator.
These and other objec~s of the present invention
will become apparent from the following more detailed
description.
Brief Description of the Drawin~s
._
Fig. 1 is a cross-sectional side view of the
preferre~ embodiment damper operat~r shown mounted to the
2n linkage ~eans of a damper whose blades are held in the open
position, the entire unit being shown mounted within a
fragmentary portion of a duct.
Fig. 2 is fragmentary view of a portion of the
damper and operator shown in Fig. 1 wherein the damp2r
operator is in its locked, over~center position as tne
result cf the release of the actuating means by the
releasing device mounted on the frame associated opera~r
member.
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Fig. 3 is a cross-sectional side view of the
device illustrated in Fig. 1 taken as indicated by the lines
and arro~s 3-3 in Fig. l.
Fig. 4 is an exploded isometric view of the
preferred embodiment damper operator illustrated in Figs.
1-3 illu;trating the assembly of that damper/operator.
Fig. 5 is a cross-sectional side view of a portion
of a damper and duct showing a first alternate embodiment
shaft-operated, spring-biased, fusible-link-containing
operator in accordance with the present invention.
Fig. 6 is a cross-sectional view of a portion of
the device shown in Fig. 5 taken as indicated by the lines
and arro\~s 6-6 in Fig. 5.
Fig. 7 is a cross-sectional side view of a portion
of a damper and second alternate embodiment operator and
motor-cahle actuator.
_Lailed Description of the Preferred Embodimen
Althou~h specific forms of the invention has b~en
selected for illustration in the drawings, and the follo-~ing
descript'on is drawn in specific terms for the purpose of
describillg these forms of the invention, this description is
not intended to limit the scope of the invention which is
defined in the appended claims.
The present invention basically comprises an oper-
ator for operating a damper having a frame, at least one
blade, and blade linkage means connected to said blade for
articulal:ing the blade with ~espect to the fra~e. In its
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normal installation this operator is intended to permit
or cause closure of the blade(s) to their fully closed
position with respect to the frame, as for example, in
response to fire actuating conditions such as heat or
remote fire alarm signals, and to maintain those blades
in the closed position at least until the fire actuating
conditions have passed. In the following description and
claims, it is assumed that the desired fire actuating
position of the blades is the fully closed position with
respect to the frame, however, one of ordinary skill in
this art will understand that if the damper is to be used
as a smoke damper, the desired fire actuated position may
be the fully open position of the damper, whereupon the
damper operator shall be mounted so that it assumes the
locked, over-center position when those blades are fully
opened.
In the drawings, the preferred embodiment damper
operators are shown in association with a preferred
damper, designated generally 100, having damper blades
lQ2, 104 and 106 which are disposed within frame 108
having at least one inwardly depending frame flange
110 on which the damper operator may be mounted. In
Figs. 1, 5 and 7 this damper is shown mounted within
a duct 112. For additional details relating to the
preferred embodiment rotating blade damper which
may be used with the preferred embodiment operators
of the present invention, please refer to the above
cross-referenced patents relating to such dampers.
In the figures, the illustrated dampers are seen
to comprise linkage means for articulating the
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~_ blades ~ith respect to the frame. This linka~e means
comprises blade brackets 202 and 204, linkage bar 206 and
linkage ~ar pivots 208 and 210. ~lovement of the linkage bar
through an arc defined by the radius between Lts pivots 208
and 210 and their respective blade pivots causes the blades
to move l)etween their open and closed positions.
In Figs. 1-4, the preferred embodiment damper
operator designated generally 300 is illustrated. This
damper operator comprises linkage associated operator member
302 and frame associated operator member 304 which are
pivotall~ interconnected by operator member pi~ot 306. The
linkage associated operator member 302 is pivotally mounted
with respect to the damper frame by mounting means 320. This
mounting means comprises a frame mounting bracket 322 which
is connected to frame flange 110, a bushing bracket 324
connected to the frame mounting bracket, and a buslling means
326 for defining a bore in the mo~lnting means to receive
shaft 35k. A stop means 328 for limiting the arc of rotstion
of at least the frame associated member 304 is al:;o mounted
on frame mounting bracket 322. By limiting t~e arc of
rotation of said frame associated member 304, the stop means
defines an over-center position wherein operator member
pivot 306 has passed over a line described by the linka~e
bar pivo~ 210, which connects linkaRe associated operator
~5 member 3~ to the linlcage, and shaft 354 whlch pivotally
connects the frame associated operator member 304 to the
frame through frame mounting bracket 322. This over-center
position will effectively resist any "opening" fo)ces which
may be transferred to the operator through linkage bar 20fi,
such as may result under fire actuating conditions.
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In the preferred embodiment, the mounting means addi-
~_ tionally comprises an L-bracket 329 having a bias mount
portion 330 and an actuator interlock portion 332. The
actuator interlock portion 332 cooperates with bias
mounting pin 334 and a protruding portion of shaft 354
to act as a mount for biasing spring 402. This biasing
spring 402 biases the frame associated member 304 into its
over-center locked position by spanning between the bias
mount portion 330 and bias mounting pin 334. Under normal
operating conditions the actuator means for selectively
causing the rotation of the frame associated member at
least in a first direction away from the over-center
locking position will effectively counteract forces
applied by the bias mounting spring. Under fire actuat-
ing conditions, however, the releasing device, such as
bimetallic releasing device 372 will disengage the frame
associated member ~04 from the actuator means to allow
the biasing spring to drive the operator into its locked
over-center position, whereby closing and locking the
damper.
In the preferred embodiment, the above-mentioned
acutator means may comprise either ~ shaft means for
selectively causing the rotation of the frame associated
member in said first direction or a cable means for ac-
complishing the same result. In Figs. 1-5 shaft-type
actuator means are disclosed wherein shaft 354 extends
through duct wall 112 for connection to an operator motor
384 shown externally supported on motor mount 366. Each
shaft means is provided with an actuator plate which is
rigidly attached to the shaft for rotation therewith, as
~or example, by welding. The shaft actuator plate 356
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comprises a frame associated member connecting portion 358
which is generally remotely located ~ith respect to the
shaft, an actuator interlock cut-out 360 which cooperates
with actuator interlock portion 332 (as described herein-
after), an actuator resetting edge 362 and a releasingdevice reception slot 364. In Fig. 1, the actuator plate
356 is shown in its engaged position wherein a pin of bi-
metallic releasing device 372 is disposed within slot 364
to interconnect the actuator plate 356, and more particu-
larly, the frame associated member connecting portion 358thereof with the frame associated operating member 304.
Under these conditions, rotation of shaft 354 through its
normal 90 arc will cause the blades to move between their
fully open and fully closed positions through an operating
portion of the arc which is between 75 and 95, prefer-
ably 83 to 89, and may travel beyond said operating
portion of said arc through a locking portion of said arc
of rotation to the over-center locking position to lock
the blades with respect to the frame. In the preferred
embodiment, the locking portion of this arc is greater
than 0 but less than 7, preferably 1 to 4, of the arc
of rotation of the shaft.
In the presence of fire actuating conditions, the
releasing means for releasing the frame associated member
from the actuator means preferably comprises a bimetallic
releasing device similar to that described in my prior
issued United States Patents Nos. 3,889,314; 4,041,570;
3,725,972; and 4,074,388. This releasing device will
respond either to increases in ambient temperature in
the vicinity of the damper (within the duct) or to remote
signals received by that device. In either instance, the
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releasing device will disengage itself from the slot 364
defined in actuator plate 356, whereupon the biasing means
drives the operator and associated fire damper into its
fire actuated, over-center, locked position. As long as
5 fire actuating conditions persist, reciprocation of the
actuator means through its full normal arc of rotation
will not cause re-engagement of the actuator plate 356
with the releasing device 372, and therefore will not be
effective in moving the operator out of its over-center
10 locked position. Once normal conditions have been re-
established, however, a beveled, actuator resetting edge
362 will effectively enqage and lift a portion of the tip
of a bimetallic releasing device 372 so that tip or pin
of the releasing device may slide across a surface of the
actuator plate to snap into slot 364. In this manner,
recycling of the operator after fire conditions have
passed will cause the operator to automatically reset.
Fig. 4 clearly illustrates the ease with whi~h the
preferred embodiment operator may be assembled on the job
20 site. Preferably, mounting means 320 will be riveted or
otherwise attached to an inwardly depending flange, such
as flange 110, of the damper upon the initial construction
of the damper, or at least prior to the installation of
the damper within the duct. Linkage bar pivot 210 may
similarly be connected to linkage associated operating
member 302 prior to final installation. For final in-
stallation, the biasing means 402, actuator means 350 and
washers 355 may be temporarily removed from the damper/
operator unit during a first phase of final assembly.
30 Once this damper/operator unit is installed within the
duct, a bore corresponding to the interior dimension of
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bushing 326 may be drilled into the d~ct wall, whereupon
the actuator means oriented in the relative rotational
position shown in Fig. 4 may be threaded through washers
355, a shaft receiving bore in ~rame associated operator
member 304 and finally through bushing 326 whereupon shaft
354 will protrude out of the duct in which the damper/
operator unit has been installed. The actuator interlock
cutout 360 and actuator interlock portion 332 are com-
plimentally configured so that at least in one relative
rotational position, axlal movement of the shaft 354 with
respect to b~shing 326 is permitted. These portions are
also configured so that through the normal operating and
locking arcs of rotation of the shaft and act~ator plate
356, relative axial movement of the shaft within the
bushing is prevented. ~n this manner, no special tools
will be required for final assembly of the operator within
the duct. Similarly, application of the biasing means 402
is easily accomplished by slipping the coiled portion of
the biased means over a protruding portion of the shaft
and manually applying the protruding tips thereof over
the bias mountin~ pin 334 and bias mount portion 330
respectively.
In Fig. 5, a first alternative embodiment of the
operator of the present invention is illustrated. This
operator retains some of the features of the preferred
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embodiment operator illustrated in ~igs. 1-4, yet at lo~er
costs. In this figure, corresponding portions of the
operator have been numbered in a corresponding manner to
those numbers used in Figs. 1-4, ho;~ever the shapes of the
S corresponding elements have been somewhat altered to
simplify their design. In Fig. 5, the mounting bracket is
seen to be a substantially L-shaped bracket having a
perpendicular flange 328 formed thereon which acts as a stop
means not only for limiting the arc of rotation of the frame
associated member 304, but also for limiting the arc of
rotation of actuator plate 356 in the opposite direction.
This variation is necessary by reason of the alternate
position of spring 402 which In this embodiment spans
between remote portions of the actuator plate 356 and frame
lS associated member 304. A fusible link 374 also spans bet~een
these members, so that upon normal operation of the device,
the rota~ion of shaf~ 354 will ca~lse rigidly interconnected
actuator plate 356 to rotate therewith and to drive
pivotally associated frame associated member 3G4 thro~gh
fusible link 374. In response to heat in the vicinity of the
fusible link, the fusible link wi]l separate, ~t least
causing the frame associated member to move to its over--
center ]ocked position, which is the position o tnat member
illustral:ed in Fig. 5. The locking of the operator will
additionally be accomplished re~,ardless o whatever position
shaft 35'~ and actuator plate 356 may be in, and ~ill occur
even if shaft 354 has been entirely released from its
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1~76;~19
~ operatinlr motor, whereupon the spring 402 will also drive
the actuator plate 356 into the position sho~n in phantom ln
Fig. 5 wherein a protruding portion will interfere with stop
means 328 to thereby establish a fixed position against
which thc spring 402 may act.
In Fig. 6, the particular inter-arrangement of the
fusible link 374, spring tips 402, actuator plate 356 and
frame associated operating member 304 are clearly illus-
trated. '.~hile this embodiment is not automatically reset-
ting, it nonetheless provides many of the advantages of thatdescribed in connection with the preferred embodiment illus-
trated in Figs. 1 through 4, yet at a lower cost.
In Fig. 7 a cable actuated embodiment is shown
which also retains many of the advantages of the preferred
embodiment illustrated in Figs. 1 4. In this embodiment, the
~rame associated member 304 is pivotally connectecl to frame
mounting bracket 322 by a conventional, fixed pivot shaft
380 whicll extends outwardly therefrom. The stop means 328
acts to define the over-center locked position of the frame
2n associated me;nber 304 in the manner described ahove in
connecticn with the embodiment of Figs. 5 and 6. Since an
actuator shaft and plate are not necessary in this embodi-
ment, however, the spring 402 spans between one eclge of the
stop meal~s 328 around a protruding portion of fixed pivot
shaft 380 to an offset slotted portion of the frame
associated mcmber 304. The spring 40~ nonetheless col-tinues
to act to continuously drive the frame associat~d me~!ber
ro-~ards its over-center, locked position wherein it engages
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stop means 328. In the embodiment of Fig. 7 the actuator
means for selecti~ely causing the rotation of the frame
associated member at least in a first direction away from
the over-center position comprises a motor designated gen-
erally 384 which acts through a pulley on cable 368 which
is threaded through ~errule 369 to fusible link 374, which
in turn is connected to one of the operator members, pre-
ferably the frame associated operator member 304, in the
vicinity of operator member pivot 306. In this manner,
by causing the operator motor 384 to draw the cable in the
direction of the arrow shown in Fig. 7, the damper will be
caused to move between its closed and open positions.
In addition to the advantages described above, the
novel operator arrangements disclosed in Figs. 1 through
7 possess the additional advantage of providing improved
operator-damper actuation-air flow characteristics.
During the initial phases in the opening of the,damper
through the preferred embodiment operators, relatively
less blade rotation is accomplished for a given percentage
of operator actuation. This phenomenon results from the
fact that the paths of initial movement of the operator
member pivot 306 and linkage rod ~06, and more par-
ticularly linkage rod pivot 210, are transverse at the
beginning of the cycle which opens the biades, while the
paths of those arcs converge as the blades and operator
approach their fully open (actuated) positions. Accord-
ingly, at the beginning of the opening cycle, a given
degree of actuation will produce relatively less rota-
tion of the blades than at the end of the opening cycle,
wherein the arcs defined by the linkage rod and the
operator member pivot 306 are su~stantially coincident.
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Accordingly, it is within the scope of the present
invention to measure the air flow characteristics of
a given damper with which the operator of the present
invention is to be used, to alter the various radii of
the operator members 302 and 304, and to further alter
the length of the operating arc and locking arc of the
actuator so that a given arc of actuator rotation will
correspond in a substantially linear fashion to the
percentage of air flow through the damper which is
associated therewith.
It will be understood that various changes in the
details, materials and arrangement of parts which have
been herein described and illustrated in order to explain
the nature of this invention may be made by those skilled
in the art within the principle and scope of the invention
as expressed in the following claims.
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