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USRE34230E - Unified casement operator - Google Patents

Unified casement operator
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Publication number
USRE34230E
USRE34230EUS07/790,768US79076891AUSRE34230EUS RE34230 EUSRE34230 EUS RE34230EUS 79076891 AUS79076891 AUS 79076891AUS RE34230 EUSRE34230 EUS RE34230E
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United States
Prior art keywords
window
lock
linkage
sash
gear
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US07/790,768
Inventor
Daniel G. Tucker
Gregory J. Vetter
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Truth Hardware Corp
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SPX Corp
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Priority claimed from US07/504,349external-prioritypatent/US5054239A/en
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Publication of USRE34230EpublicationCriticalpatent/USRE34230E/en
Assigned to TRUTH HARDWARE CORPORATIONreassignmentTRUTH HARDWARE CORPORATIONASSIGNMENT OF ASSIGNORS INTEREST (SEE DOCUMENT FOR DETAILS).Assignors: TRUTH DIVISION SPX CORPORATION
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Abstract

A casement operator for a window has a deployment linkage connectable between the window frame and the base and operable to cause movement of the window sash. A gear drive drives the deployment linkage, which coacts with a sash lock and a lock linkage having a window-actuated trigger. A plurality of rigid links are in pivotal engagement with the deployment linkage and in driving engagement with the gear drive, and a tie rod is disposed intermediate the rigid links and the sash lock. A trip lever with a trigger extending beyond the window frame is pivotally secured to the base and engageable with the lock linkage for restricting the movement of said lock linkage during a non-locking mode of operation of the operator. The deployment linkage includes a first element pivotally supporting one end of the window sash, a slider track along the window frame, a support link fixedly pivoted to the window sash on one end and to a second element on the other end, and a drive linkage having one end engaging the window sash and the other end drivably connected to the gear drive. The deployment linkage has the first element slidable in the slider track, the second element fixed relative to the window frame, and one end of the drive linkage fixed to the window sash and including a pivot intermediate its ends.

Description

BACKGROUND OF THE INVENTION
This invention pertains to an improved mechanical operator for a casement or awning window.
There are, of course, any number of different types of window (and other closure) operators which are well known in the art. Examples of such operators are shown, for example, in Vetter Patent No. 4,497,135, Payne Patent No. 2,538,980, Flagg U.S. Pat. No. 1,724,011, and Fay et al. Patent No. 27,119.
Ideally, a window operator would be simple to use, not only opening and closing the window, but also reliably ensuring that the window locks and unlocks as it is opened and closed. Further, such operators should, ideally, be readily usable in any number of different configurations to provide whatever type of window operation is desirable.
The present invention is directed toward providing such ideal operating characteristics.
SUMMARY OF THE INVENTION
In one form of the present invention, a casement operator for a closure is provided wherein the operator has a handle for either closing the window sash or differentially activating a sash lock. The mode of operation of the handle is automatically determined by the engagement of a sash-sensing trigger with the closing sash.
In one aspect of this invention, a casement operator for a window is provided having a deployment linkage connectable between the window frame and said base and operable to cause movement of the window sash. A gear drive is operable by a handle to drive the deployment linkage. A lock linkage coacts with the deployment linkage and sash lock and includes a window-actuated trigger for activating the lock linkage.
In another aspect of this invention a plurality of rigid links are provided in pivotal engagement with the deployment linkage and in driving engagement with said rotatable handle, and a motion-transmitting tie rod is disposed intermediate the rigid links and the sash lock. Further, a trip lever with a trigger extending beyond the window frame is pivotally secured to the base and engageable with the lock linkage for restricting the movement of said lock linkage during a non-locking mode of operation of said operator.
In the illustrated embodiment of this invention, the operator is provided with a first element pivotally supporting one end of the window sash, a slider track along the window frame, a support link fixedly pivoted to the window sash on one end and to a second element on the other end, and a drive linkage having one end engaging the window sash and the other end drivably connected to a gear drive. The first element is slidable in the slider track, the second element is fixed relative to the window frame, and the drive linkage has one end pivotally fixed to the window sash and includes a pivot intermediate its ends.
It is an object of the present invention to provide an operator which can be inexpensively manufactured and installed.
It is another object of the present invention to provide an operator which can be easily operated and at the same time provide reliable and foolproof locking.
BRIEF DESCRIPTION OF THE DRAWING
FIG. 1 is a plan view of the operating components of one embodiment of the present invention;
FIG. 2 is a plan view of the operating components of a second embodiment of the present invention;
FIG. 3 is a plan view of the operating components of a third embodiment of the present invention, shown in the locked position;
FIG. 4 is a plan view of the embodiment of FIG. 3 shown in the open position;
FIG. 5 is a side view of the operating components of the embodiment of FIG. 3; and
FIG. 6 is a partial plan view illustrating the present invention installed in an open configuration.
DESCRIPTION OF THE PREFERRED EMBODIMENT
One embodiment of the present invention is shown generally in FIG. 1 in association with a casement window which is movable between a closed position and an open position. It will be apparent to a skilled artisan with an understanding of the present invention, however, that this invention can be used with many other types of windows (including, for example, awning windows) as well as other closures.
The casement window as shown in FIG. 1 has awindow frame 10, a window sash 11, and asash lock 12.
Acasement window operator 13 is provided having abase 14 which is mounted to the window frame. Theoperator 13 includes amechanical deployment linkage 16 extending between thewindow frame 10 and thebase 14, and alock linkage 18 engaged with thedeployment linkage 16 and coacting with thesash lock 12. Aworm gear 20 drivingly connects arotatable handle 22 with the deployment linkage 16 (see FIG. 6).
Thedeployment linkage 16 comprises aslider 24, adrive linkage 26, and a support link 28 (see especially FIG. 6). Thedrive linkage 26 includes adrag link 30 having oppositely spacedends 30a, 30b and agear arm 32 having oneend 32b pivotally connected to onedrag link end 30b. The othergear arm end 32a includesgear teeth 32c which engage theworm drive 20.
Theslider 24 is disposed intermediate thewindow sash 11 and thewindow frame 10. Thesupport link 28 is pivotally connected between the window sash and apivot 29 fixed with respect to the window frame.
It will, of course, be understood that the form of the deployment linkage and arrangement of the drive links and pivotal connections can be modified to accommodate other kinematic relationships within the scope of the invention.
Thelock linkage 18 includes a plurality of rigid links which are pivotally engaged with thedeployment linkage 16 and thereby in driving engagement with therotatable handle 22. Specifically, a locklinkage gear lever 36 has anend portion 36a which is pivotally connected to thetoothed end 32a of thegear arm 32 at afree pivot 33 and pivotally connected relative to the base, 14 at a fixedpivot 38. An oppositely spacedend 36b of thegear lever 36 has a projecting portion ortab 36c. A locklinkage transmission link 40 is pivotally connected to a fixedpivot 42 and is further connected to thegear lever 36 by a lock linkage intermediate link 44.
A linear motion-transmitting tie bar orrod 46 is pivotally connected to thetransmission link 40 and coacts with thesash lock 12. Specifically, motion of thetie rod 46 to the left in FIG. 1 will engage (lock) thesash lock 12, and motion of thetie rod 46 to the right in FIG. 1 will disengage (open) thesash lock 12.
Thesash lock 12 illustrates merely one exemplary lock which could be used with the present invention. Any sash lock which can be opened and closed in response to such linear motion of thetie rod 46 would be suitable. For example, a bolt lock having bolts which project into (and retract from) openings in the window sash to lock (and release) the window would also be suitable where an appropriate linkage between the bolts and tie rod is provided. Of course, still other suitable sash locks would be recognized by any person of average skill in the art as being appropriate for use with the present invention.
Theoperator 13 includes atrip lever 48 pivotally connected to apivot 49 on thebase 14. Thetrip lever 48 includes atrigger 50 and arecess 52 for receiving the gearlever projecting tab 36c.
Acompression spring 54 having one end fixed to thebase 14 biases the trip lever 48 toward the gearlever projecting tab 36c. Thetrip lever 48 is configured so that thetrigger 50 extends beyond thewindow frame 10 when theprojecting tab 36c is in the trip lever recess 52.
A suitable stop (such as thestop 56 shown) may be provided on thewindow sash 11 so as to facilitate engagement with thetrigger 50 when thewindow sash 11 is closed as described below.
Operation of the above described invention is thus as follows.
The basic operation of opening and closing the window is accomplished by the operator turning thehandle 22.
When opening the window, thehandle 22 and its connectedworm gear 22 are turned to produce a clockwise rotation of thegear arm 32. The forced rotation of thegear arm 32 induces tension force in of thedrag link 30. In order to kinematically accommodate this force, theslider 24 is urged along theframe 10 toward the fixed pivot 29 (to the right in FIG. 6). This motion also induces forced clockwise rotation of thesupport link 28 and results in thewindow sash 11 being outwardly rotated and the window thus being opened.
To close the window, thehandle 22 is rotated in an opposite direction whereby thedrive linkage 26 is oppositely actuated and forces theslider 24 away from the fixedpivot 29 to inwardly rotate thewindow sash 11.
When moving the window between the open and closed positions as described above, the sash lock is automatically opened and closed as appropriate as described below.
Specifically, when the window is open, thecompression spring 54biases trip lever 48 to the position shown in FIG. 1, with thetrigger 50 extending beyond the window frame. When thewindow sash 11 approaches its fully closed position, thestop 56 engages thetrigger 50 and rotates thetrip lever 48 counterclockwise about thepivot 49 to free thegear lever tab 36c from thetrip lever recess 52.
Then, when the window reaches its fully closed position (with theslider 24 at its travel limit as defined by the lengths of thedrag link 30 and gear arm 32), continued rotation of thehandle 22 andworm gear 20 will no longer pivot thegear arm 32. Thus, continued rotation of thehandle 22 results in-the-slight downward displacement of the free pivot 33 (since thegear lever 36 is no longer restrained by thetrip lever 48, such motion of thefree pivot 33 causes a slight counterclockwise pivoting of thegear lever 36 about its fixed pivot 38). Pivoting of thegear lever 36 in turn causes vertical displacement of the intermediate link 44 and counterclockwise pivoting of thetransmission link 40. Counterclockwise pivoting of thetransmission link 40 forces thetie rod 46 toward the left to activate the sash lock.
When it is desired to open the locked window, turning thehandle 22 in the opposite direction will automatically unlock the sash lock. That is, since the window is locked shut by the sash lock, the initial turning of thehandle 22 will cause thefree pivot 33 to be displaced (upwardly in FIG. 1). This motion in turn pivots thegear lever 36, vertically displaces the intermediate link 44, and pivots thetransmission link 40 clockwise. This pivoting of thetransmission link 40 pushes thetie rod 46 to the right in FIG. 1 which opens thesash lock 12 to release the window for opening.
Continued turning of thehandle 22 then causes thedrive linkage 26 to be pivoted to open the window. Further, after only a small amount of opening, the trip lever 48 (as the window moves clear of its trigger 50) is moved back by thecompression spring 54 to locate the gearlever projecting tab 36c in itsrecess 52. This thus ensures that thetie rod 46 and the connected sash lock stay in the open position so that the lock is not inadvertently projecting to hinder reclosing of the window.
An alternative embodiment of the present invention is shown in FIG. 2. The FIG. 2 embodiment is similar to that shown in FIG. 1, and thus components which are comparable to those in the FIG. 1 embodiment are given the same reference numerals but plus one hundred in FIG. 2 (for example, the gear lever is identified as "36" in FIG. 1 and "136" in FIG. 2).
In the FIG. 2 embodiment, thelock linkage 118 has acam 141 with anarcuate slot 143 extending therethrough. Thecam 141 is pivotally connected to the base 114 at a pivot 145. Thegear lever 136 has an outward extending pin 136' which is received by theslot 143 of thecam 141.
This embodiment thus provides operation similar to that described with respect to FIG. 1 except that, in the FIG. 2 embodiment, movement of thetie rod 146 is controlled directly through thecam 141 by the coaction of the pin 136' in the camarcuate slot 143. This embodiment offers the benefit of fewer parts and increased simplicity.
Yet another embodiment of the present invention is shown in FIGS. 3-5. This embodiment is similar to the previously described embodiment, and thus discussion is had here only with respect to any significant differences found with this embodiment. Further, components in this embodiment which are comparable to those in the FIG. 1 embodiment are given the same reference numerals but plus two hundred in FIGS. 3-5 (for example, the gear lever is identified as "36" in FIG. 1 and "236" in FIGS. 3-5).
The FIG. 3-5 embodiment includes alock linkage 218 adjacent adeployment linkage 216 and having agear lever 236 and alock link 234. A motion-transmittingtie rod 246 is pivotally connected to thelock link 234 and engages asuitable sash lock 212. Atrip lever 248, with anintegral trigger portion 250, is pivotally connected to the lock linkage at apivot 280. Atension spring 254 is connected between thetrip lever 248 and thebase 214.
Arotatable fastener 80 is provided at the union of thelock link 234, thegear lever 236, and thetrip lever 248. As best shown in FIG. 5, therotatable fastener 80 has a plurality ofeccentric shoulders 80a, 80b, 80c.
Thelock link 234 andgear lever 236 havecylindrical openings 235 and 237, respectively, which pivotally receive the first and second fastener eccentric shoulders 80a and 80b, respectively.
Thetrip lever 248 has anopening 249 which receives the keyedfastener shoulder 80c such that thetrip lever 248 is precluded from pivoting relative to thefastener 80. Thefastener 80 further includes ahead 81 for precluding axial disengagement of the joined members.
With this arrangement of thefastener 80 and eccentric shoulders, it should be noted that the angular position of thetrip lever 248 defines the orientation of thegear lever 236 andlock link 234. The eccentricity of the shoulders establishes a complex circumvolutory motion of the three pivoted elements about the joint 280 when the trip lever is rotated.
With the FIG. 3-5 embodiment, opening the window is accomplished by applying a rotational force to the handle, whereby rotational forces are imparted to thedeployment linkage 216 such that thesash 211 is pivotally opened as detailed above. To close the window, a force is applied to the handle whereby thedeployment linkage 216 is oppositely actuated so that thesash 211 is pivoted toward thewindow frame 210.
While the window is unlocked, thetrip lever 248 is arranged as shown in FIG. 4 with thetrigger 250 extending upwardly (and thetie rod 246 biased fully to the right to maintain the sash lock in an open [retracted] position). When thewindow sash 211 is inwardly pivoted to the point where thestop 256 engages thetrigger 250, thetrip lever 248 is forcibly pivoted.
Continued closing of thewindow sash 211 further pivots thetrip lever 248 until thewindow sash 211 is shut. At that point, continued rotation of the handle can no longer pivot thegear arm 232, and instead will cause the gear arm toothed end 232a to move (down in FIGS. 3-4) and thereby pivot thegear lever 236 about its fixed pivot 238. This pivoting in turn results in relative pivoting of thefastener 80,trip lever 248, and lock link 234 until thetension spring 254 passes overcenter beyond thefastener 80. At that point, thetension spring 254 pulls thetrip lever 248 and lock link 234 to the position shown in FIG. 3, with thetie rod 246 biased fully to the left and locking the sash lock.
When it is desired to thereafter open the locked window, turning the handle in the opposite direction will automatically unlock thesash lock 212 such as previously described with the FIG. 1 embodiment. That is, since the window is locked shut by thesash lock 212, the initial turning of the handle will cause the gear arm toothed end 232a to move (up in FIGS. 3-4) and thereby pivot thegear lever 236 about its fixed pivot 238. This in turn causes pivoting of thefastener 80,trip lever 248, and lock link 234 until thetension spring 254 passes overcenter, at which point, thetension spring 254 biases thetrip lever 248 and lock link 234 toward the position shown in FIG. 4. This in turn pushes thetie rod 246 back to the right and unlocks [retracts] thesash lock 212 to release the window for opening.
Continued turning of the handle then causes thedeployment linkage 216 to be pivoted to open the window. Further, after only a small amount of opening, the trip lever 248 (as the window stop 256 moves clear of its trigger 250) is moved back by thetension spring 254 to its projecting position (see FIG. 4) where it will be engaged when the window is again closed.
Still further, the operator of the present invention can be easily operated when installed. Operation provides virtually foolproof security inasmuch as the window is automatically locked when closed (and unlocked when opened) without requiring any additional action by the operator. Therefore, there is no danger of a window being left unlocked because the operator forgot to take the additional action required to lock it.

Claims (20)

    We claim: .[.1. A casement operator for a window having a window frame and a movable window sash and sash lock comprising:
  1. that the window is forced when closed..]. 2. A casement operator for a window having a window frame and a moveable window sash and sash lock comprising:
    a base mounted to the window frame;
    a deployment linkage connectable between the window frame and said base and operable to cause movement of the window sash;
    a .[.rotatable handle.]. .Iadd.rotary drive.Iaddend.;
    a .Iadd.rotatable .Iaddend.gear .[.drive interconnecting said handle.]. .Iadd.between said rotary drive .Iaddend.and said deployment linkage;
  2. a lock linkage coacting with said deployment linkage and sash lock and having a window-actuated trigger for activating said lock linkage, said lock linkage including
    a plurality of .Iadd.pivotable .Iaddend.rigid links in pivotal engagement with said deployment linkage and in driving engagement with said .[.rotatable handle.].ep .Iadd.rotary drive.Iaddend.,
    a motion-transmitting tie rod intermediate said rigid links and the sash lock,
    and latching means for restricting the movement of said lock linkage during
  3. a non-locking mode of operation of said operator. 3. The casement operator of claim 2 wherein said latching means comprises a trip lever with a trigger pivotally secured to said base and engageable with said lock
  4. linkage. 4. The casement operator of claim 3 wherein during a non-locking mode of operation of said operator said trigger extends beyond the window
  5. frame with said trip lever engaged with said lock linkage. 5. The casement operator of claim 4 wherein a trigger actuation structure is disposed on the window sash and engages said trigger when the window sash is proximate
  6. to its closed position. 6. The casement operator of claim 3 wherein said trip lever is .Iadd.pivotally .Iaddend.interconnected with the rigid links
  7. of said lock linkage. 7. The casement operator of claim 4 wherein said deployment linkage includes:
    a support link fixedly pivoted to the window sash on one end and to the window frame on the other end;
    a slider connected to the window sash and movable relative to the window frame; and
    1inkage means between the slider and said gear .[.drive.]. for transmitting motion between said .[.rotatable handle.]. .Iadd.rotary drive .Iaddend.and said slider such that .[.handle rotation.]. .Iadd.the drive .Iaddend.imparts motion to said slider to move said window to an open
  8. position. 8. The casement operator of claim 7 wherein said linkage means comprises:
    a drag link pivotally connected to the window sash; and
    a gear arm having two ends, the first of said ends being drivably connected to said gear .[.drive.]., and the second of said ends being pivotally
  9. connected to said drag link. 9. The casement operator of claim 4 wherein said window sash is pivotally connected at one end about an axis movable relative to the window frame, and said deployment linkage includes:
    a support link fixedly pivoted to the window sash on one end and to a slider movable relative to the window frame on the other end; and
    a drive link having one end drivably engaging said drive gear and having an opposite end engaging the window sash;
    whereby said support link and drive link transmit motion between said .[.rotatable handle.]. .Iadd.rotary drive .Iaddend.and said slider such that handle rotation imparts .[.motions.]. .Iadd.motion .Iaddend.to said
  10. slider. 10. A casement operator for a window having a window frame and a movable window sash and sash lock comprising:
    a base mounted to the window frame;
    a deployment linkage connectable between the window frame and said base and operable to cause movement of the window sash;
    a .[.rotatable handle.]. .Iadd.rotary drive.Iaddend.;
    a .Iadd.rotatable .Iaddend.gear .[.drive interconnecting said handle.]. .Iadd.between said rotary drive .Iaddend.and said deployment linkage; and
    a lock linkage coacting with said deployment linkage and sash lock for activating said lock linkage, said lock linkage including
    a cam pivotally connected to said base and having an arcuate slot extending therethrough,
    a gear lever having a pin projecting therefrom and received in the arcuate slot of said cam for controlling relative rotation therebetween, said gear lever being in driving engagement with said rotatable .[.handle.]. .Iadd.gear.Iaddend.,
    a motion-transmitting tie rod intermediate said cam and the sash lock, and
    a window actuated trigger pivotally secured to said base and engageable with said gear lever wherein during a non-locking mode of operation of said operator said trigger extends beyond the window frame with said .Iadd.trip lever engaged with said gear lever to restrict
  11. .Iaddend.movement of said gear lever. 11. A casement actuation and locking operator for a window having a window frame, a movable window sash, and a sash lock, comprising:
    a base mounted to the window frame;
    a deployment linkage connectable between the window sash and said base and operable to cause movement of the window sash;
    a .[.rotatable handle.]. .Iadd.rotary drive.Iaddend.;
    a gear .[.drive drivingly interconnecting said handle and.]. .Iadd.rotatable about an axis of a gear pivot to operate .Iaddend.said deployment linkage;
    a motion-transmitting tie rod operably connected to the sash lock;
    a lock linkage coacting with said deployment linkage and sash lock, said lock linkage including
    a gear lever in pivotal engagement with said deployment linkage, and
    means for .[.linkage.]. .Iadd.linking .Iaddend.said gear lever to the tie rod.Iadd., said linking means being pivotable about a fixed axis substantially parallel to said gear pivot axis whereby pivoting of said linking means moves said tie rod.Iaddend.; and
    means adjacent said lock linkage for establishing a differential action to effectuate either window actuation or window locking upon rotation of said
  12. .[.handle.]. .Iadd.drive.Iaddend.. 12. The casement operator of claim 11 wherein said establishing means comprises a trip lever with an integral trigger and a spring element connected at one end to said trip lever and
  13. at another end to said base. 13. The casement operator of claim 12, wherein during a non-locking mode of operation of said operator said trip lever engages said lock linkage to preclude actuation of said lock linkage
  14. by said .[.rotatable handle.]. .Iadd.drive.Iaddend.. 14. The casement operator of claim 12, wherein said linking means includes a lock link secured to said tie rod and pivotally connected to said base, and further comprising a fastener defining relative pivots between said lock link,
  15. said gear lever, and said trip lever. 15. The casement operator of claim 14, wherein said fastener defines a pivot for said gear lever which is
  16. eccentric from the pivot defined for the lock link. 16. The casement operator of claim 15, wherein during a non-locking mode of operation of said operator said trip lever positions said gear lever pivot and said lock pivot to preclude actuation of said lock linkage by said .[.rotatable
  17. handle .Iadd.drive.Iaddend.. 17. The casement operator of claim 14 wherein said fastener is a rotatable element about which said lock link and said gear lever freely rotate, and to which said trip liver is rotatably fixed.
  18. 8. The casement operator of claim 17 wherein said fastener has a plurality of eccentric shoulders for pivotally joining said lock link and said trip lever for circumvolutory movement thereabout. .Iadd.19. A casement actuation and locking operator for a window having a window frame, a movable window sash, and a sash lock, comprising:
    a base mounted to the window frame;
    a rotary drive;
    a deployment linkage connectable between the window sash and said base and operable to cause movement of the window sash;
    a gear rotatably driven by said drive about an axis of a gear pivot to operate said deployment linkage;
    a motion-transmitting tie rod operably connected to the sash lock;
    a lock linkage coacting with said deployment linkage and sash lock, said lock linkage including
    a gear lever pivotable about a fixed axis in response to movement of the gear pivot, said fixed axis being substantially parallel to the axis of the gear pivot, and
    means for linking said gear lever to the tie rod; and
    means adjacent said lock linkage for establishing a differential action to effectuate either window actuation or window locking upon rotation of said
  19. drive. .Iaddend. .Iadd.20. A casement operator for a window having a window frame, a movable window sash and a sash lock having a first position locking said sash to said frame and a second position releasing said sash from said frame, comprising:
    a base mounted to the window frame;
    a deployment linkage connectable between the window frame and said base and operable to control movement of the window sash;
    a rotary drive;
    a gear driven by said drive about an axis of a free pivot slightly displaceable relative to the drive, said gear rotating about the free pivot to drive said deployment linkage;
    a gear lever pivotable about a base axis and connected to the gear free pivot and sash lock, said gear lever pivoting about said base axis in response to displacement of the free pivot to change the position of the sash lock, said base axis being substantially parallel to the axis of the free pivot; and
    means for securing said gear lever against pivoting when said window sash
  20. is open. .Iaddend. .Iadd.21. The casement operator of claim 20, further comprising a window-actuated trigger operating said securing means. .Iaddend.
US07/790,7681990-04-041991-11-12Unified casement operatorExpired - LifetimeUSRE34230E (en)

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US07/504,349US5054239A (en)1990-04-041990-04-04Unified casement operator
US07/790,768USRE34230E (en)1990-04-041991-11-12Unified casement operator

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US5440837A (en)*1994-03-171995-08-15Truth Hardware CorporationManually operable sash lift for motorized double hung window
US5452543A (en)*1994-08-031995-09-26Truth Hardware CorporationWindow operator track with integral limit stop
US5560082A (en)*1994-09-151996-10-01Truth Hardware CorporationFolding window operator handle
USD375042S (en)1995-12-191996-10-29Truth Hardware CorporationOuter surface of an operator housing
USD375254S (en)1995-12-191996-11-05Truth Hardware CorporationOuter surface of an operator housing
USD375674S (en)1995-12-191996-11-19Truth Hardware CorporationOuter surface of an operator housing
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USD390444S (en)1996-02-291998-02-10Wright Products CorporationOperator cover
US5815984A (en)*1996-03-271998-10-06Wright Products Corp.Casement window operator
USD408274S (en)*1997-04-031999-04-20Truth Hardware CorporationOuter surface of an operator housing
US5964011A (en)1997-09-121999-10-12Newell Operating CompanyAdjustable casement window hinge
US6314681B1 (en)1998-09-092001-11-13Interlock Group LimitedWindow operator having a linear drive mechanism
US6606825B2 (en)*2000-12-222003-08-193G Technology Co., Ltd.Window opening and closing assembly
US6767038B1 (en)2001-02-082004-07-27G-U Hardware, Inc.Multi-point casement handle
US6782661B2 (en)*2001-03-122004-08-31Francis ManzellaMechanical actuator for a multi-position window
US20040183314A1 (en)*2003-03-202004-09-23Klompenburg Marlo VanCombination folding crank handle and lock
US20060260431A1 (en)*2005-05-172006-11-23Armada Toolworks Ltd.Window handle
US20070144072A1 (en)*2005-12-222007-06-28Hansel Thomas JWindow operator
US20070289219A1 (en)*2006-06-142007-12-20Newell Operating CompanySash Lift Mechanism
US20100050524A1 (en)*2008-08-262010-03-04Helms James MMotorized door opener for a vehicle
US20140007720A1 (en)*2012-07-032014-01-09Kenneth R. EvensenSystems and methods for unlocking/locking and opening/closing windows
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Cited By (26)

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US5440837A (en)*1994-03-171995-08-15Truth Hardware CorporationManually operable sash lift for motorized double hung window
US5452543A (en)*1994-08-031995-09-26Truth Hardware CorporationWindow operator track with integral limit stop
US5560082A (en)*1994-09-151996-10-01Truth Hardware CorporationFolding window operator handle
US5590491A (en)1994-10-241997-01-07Truth Hardware CorporationWindow operator with dial interface
USD375042S (en)1995-12-191996-10-29Truth Hardware CorporationOuter surface of an operator housing
USD375254S (en)1995-12-191996-11-05Truth Hardware CorporationOuter surface of an operator housing
USD375674S (en)1995-12-191996-11-19Truth Hardware CorporationOuter surface of an operator housing
USD390444S (en)1996-02-291998-02-10Wright Products CorporationOperator cover
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USD408274S (en)*1997-04-031999-04-20Truth Hardware CorporationOuter surface of an operator housing
US5964011A (en)1997-09-121999-10-12Newell Operating CompanyAdjustable casement window hinge
US6314681B1 (en)1998-09-092001-11-13Interlock Group LimitedWindow operator having a linear drive mechanism
US6606825B2 (en)*2000-12-222003-08-193G Technology Co., Ltd.Window opening and closing assembly
US6767038B1 (en)2001-02-082004-07-27G-U Hardware, Inc.Multi-point casement handle
US6782661B2 (en)*2001-03-122004-08-31Francis ManzellaMechanical actuator for a multi-position window
US20040183314A1 (en)*2003-03-202004-09-23Klompenburg Marlo VanCombination folding crank handle and lock
US7066505B2 (en)2003-03-202006-06-27Pella CorporationCombination folding crank handle and lock
US20060260431A1 (en)*2005-05-172006-11-23Armada Toolworks Ltd.Window handle
US20070144072A1 (en)*2005-12-222007-06-28Hansel Thomas JWindow operator
US20070289219A1 (en)*2006-06-142007-12-20Newell Operating CompanySash Lift Mechanism
US20170321452A1 (en)*2008-08-062017-11-09SafePro, L.P.Safety hatch system
US10676966B2 (en)*2008-08-062020-06-09Rooftop Anchor IncorporatedSafety hatch system
US20100050524A1 (en)*2008-08-262010-03-04Helms James MMotorized door opener for a vehicle
US8171673B2 (en)*2008-08-262012-05-08Ibis Tek, LlcMotorized door opener for a vehicle
US20140007720A1 (en)*2012-07-032014-01-09Kenneth R. EvensenSystems and methods for unlocking/locking and opening/closing windows
US9273763B2 (en)*2012-07-032016-03-01Elston Window & Wall, LlcSystems and methods for unlocking/locking and opening/closing windows

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