Apparatus for securing sash window

Information

  • Patent Grant
  • 6572158
  • Patent Number
    6,572,158
  • Date Filed
    Tuesday, February 12, 2002
    22 years ago
  • Date Issued
    Tuesday, June 3, 2003
    21 years ago
Abstract
A window securing device (36) for use in a double-hung sash window assembly having upper and lower sash window frames (14,16) installed for relative overlapping vertical sliding movement, said upper sash frame (14) having a recess into the interior of a vertical facial member of the window. The device (36) includes a housing (38) having a front faceplate opening (51) into a cavity (50) therein and a means for retaining the housing (38) in the recess with the faceplate (42) covering the edges of the recess. A pawl (40) mounted in the cavity (50) of the housing (38) is spring biased into an extended position where the lowermost arresting edge protrudes through the opening (51). In effect, the extended pawl (40) blocks the pathway of a top portion of the lower sash (16) for preventing further upward movement thereof. With the pawl (40) in the extended position, the uppermost contact edge (46) of said pawl (40) is configured for abutting against an inside edge (52) of the top of the opening (51) in said faceplate (42). A substantial portion of the upward force associated with the lifting of the lower sash (16) against the arresting edge is transferred into the upper sash frame for enhanced resistance.
Description




TECHNICAL FIELD




The present invention relates generally to a window stop, and more particularly to an improved window securing device for preventing or limiting movement of a window sash.




BACKGROUND OF THE INVENTION




Double-hung windows are one of the most common kinds of windows for residential and other structures. Typically, a double-hung window assembly consists of a window frame and a pair of window sashes. The lower sash resides immediately inward of the upper sash so that the sashes overlap and vertically slide parallel to one another along guide rails of the master window jamb of the window assembly. Although window sashes are traditionally made exclusively of wood, such window sashes can be formed of extruded plastic frame members or metal frame members joined at the corners, for example, to form a generally rectangular frame in which the glazing is installed.




Most double-hung windows include a locking mechanism located at the point where the sashes meet when the window assembly is closed. A latch mechanism is fixed on the header of the lower sash and the corresponding latch-receiving mechanism is fixed on the sill of the other sash. When the window sashes are in the closed position, the lock may be secured to prevent any movement of the sashes. The problem associated with these locks is that they are typically difficult to secure either because of the tight tension of the mechanism or the need to align the lock with the latch perfectly before securing. Such locks also fail to provide the user an option to open the window slightly to allow ventilation, while also inhibiting egress in or out through the window.




To limit the relative movement of the sashes, stop or limit devices known as “sash locks” or “window stops” have been developed to solve the above problems. Sash locks in various designs and forms are now available. Typically, the designs include a pawl pivotally mounted in a housing in a stile member of the upper sash. A spring biases the pawl toward an extended position, whereby the pawl is configured to engage the header member of the lower sash to limit movement thereof. An upper rear surface of the pawl is engageable with a back wall of the housing in cooperation with a pivot post or lug to serve to limit rotation of the pawl.




Over-rotation of the pawl has been a problem with this type of sash lock. Occasionally, the lower sash or the user may engage the pawl in such a way that it does not properly engage the back wall of the housing. It has also been found that in applications where large forces are applied to prior art pawls, the back wall of the housing can deform under the increased horizontal force against the back wall imposed by the pawl, and allow the pawl to slide along the back wall and over-rotate, permitting the window to open. Tremendous stress is also exerted on the pivot post or lug that may also result in failure during engagement with the lower sash. In both incidents, over-rotation occurs and the stop fails to adequately limit movement of the lower sash.




Another problem encountered by prior art sash locks is the existence of a gap between the lower end of the pawl and housing when the pawl is extended. This gap allows dust and debris to collect within the cavity over time. Eventually the cavity of the housing becomes impacted with dirt, whereby the proper functioning of the sash lock is impeded. With respect to the manufacture of sash locks, typically, prior art sash lock housings are composed of two or more parts that require assembly. Sash locks incorporating such housings cost more to produce than if unitary housings were utilized.




Accordingly, there is a need for an improved window stop, wherein the stop is simple to manufacture, stronger and more durable, less prone to failure, and cost effective to produce.




SUMMARY OF THE INVENTION




The present invention is generally directed to a window securing device for use in a double-hung window assembly having upper and lower sash window frames installed for vertical reciprocal sliding movement relative to each other. The stile member of the upper sash has a recess on the front surface for installing the device into the recess.




The window securing device includes a housing that is configured to be securely retained in the recess provided in the stile of the upper sash so that the faceplate of the housing protrudes slightly ahead of the stile's surface. The faceplate has an opening that is continuous with an interior cavity of the housing.




A pawl is disposed in the cavity and is configured to move between a retracted position and an extended or securing position. In the securing position, an end of the pawl projects from the opening in the faceplate and is configured to engage an exterior surface of the header of the lower sash to prevent upward vertical movement thereof. The pawl is spring biased to a normally protruding securing position and is movable to a retracted position in the housing. A spring is mounted directly on the pawl via one end that engages the pawl, and the other end of the spring engages the back wall of the housing.




In the securing position, the pawl engages the lower sash frame and prevents further relative sliding movement of the sash frames. The pivotally mounted pawl is manually retractable into the cavity to disengage the lower end of the pawl from the lower sash frame header. The faceplate and the retaining studs are cooperatively engageable to releasably maintain the lower end of the pawl in the retracted position. When the pawl is retracted, relative sliding movement between the sash frames can occur.




In one embodiment of the present invention, the pawl includes a contact edge proximate to its upper end for preventing the pawl from overextending when the lower sash window is intercepted. It transfers and directs the vertical force originating from the sash window into the stile of the upper window sash. This design is more efficient and superior over those that utilize the back wall and the pivot lug to absorb the force.




In another embodiment of the present invention, the pawl also includes a dust tab extending from the lower end of the pawl. The dust tab is a small protrusion that closes the gap between the lower end of the pawl and the lower end of the opening to prevent dust and debris from entering the cavity of the housing.











BRIEF DESCRIPTION OF THE DRAWINGS




Various details of embodiments of the invention will be described below in association with the accompanying drawings, in which like items are identified by the same reference designation, wherein:





FIG. 1

is a partial perspective view of a portion of a window sash assembly having a window securing device in a securing position embodying the invention installed in an upper window sash frame of the assembly;





FIG. 2

is a partial perspective view of a portion of the window sash assembly having the window securing device shown in

FIG. 1

in a retracted position;





FIG. 3

is a perspective view looking toward the front and right side of a housing without a pawl of the window securing device for an embodiment of the invention;





FIG. 4

is a right side elevational view of the housing, the left side elevational view being a mirror image thereof;





FIG. 5

is a top plan view of the housing;





FIG. 6

is a perspective view looking toward the left side of a pawl of the window securing device for one embodiment of the invention;





FIG. 7

is a right side elevational view of the pawl of

FIG. 6

;





FIG. 8

is a longitudinal cross-sectional view of the housing of the window securing device showing an associated pawl in its retracted position in one embodiment of the invention;





FIG. 9

is a longitudinal cross-sectional view of the housing of the window securing device showing the pawl of

FIG. 8

in its securing or extended non-retracted position; and





FIG. 10

is a right side elevational view of an alternative embodiment of a pawl including an integral spring element.











DETAILED DESCRIPTION




While this invention is susceptible of embodiment in many different forms, there is shown in the drawings and will herein be described in detail preferred embodiments of the invention with the understanding that the present disclosure is to be considered as an exemplification of the principles of the invention and is not intended to limit the broad aspect of the invention to the embodiments illustrated.




Referring to the drawings,

FIGS. 1 and 2

partially illustrate a representative window of a portion of a double-hung window sash assembly. Such an assembly includes a pair of double-hung upper and lower sashes


14


and


16


and fitted with suitable glazing


21


, such as shown with upper sash


14


. The sashes


14


and


16


are mounted within a main jamb frame (not shown) for vertical slidable movement therein. The construction of the main jamb is not critical for achieving the advantages of the invention so that a description thereof is deemed unnecessary.




Both the frame and sashes


14


and


16


can be formed of different materials, such as metal or strong and rigid plastic materials well known in this field. The sashes


14


and


16


preferably are fabricated from elongated framing members of hollow configuration in cross section. Each sash


14


,


16


is generally rectilinear in configuration, but for purposes of describing the present invention, only the side member or stile


15


of the upper sash


14


and the upper member or header


17


of the lower sash


16


is relevant. The stile


15


has a front exterior surface


18


and the header


17


has a top exterior surface


19


.




The window securing device of the invention is designated generally by the reference character


36


and is shown installed in the stile


15


in

FIGS. 1 and 2

. The window securing device


36


, is especially useful for permitting limited opening of the window sash


16


. The exact vertical placement of the securing device


36


in the stile


15


is determined by how much vertical movement of the sash


16


is desired before the header surface


19


is intercepted by the securing device


36


. Preferably, two securing devices


36


are installed on the window assembly one in each stile


15


of the upper sash


14


and at the same elevation to gain optimum security.





FIG. 1

illustrates the securing device


36


in a protruded, securing position. A pawl


40


is extended through the opening


51


and fixed in this position to block the pathway of the lower sash


16


as described hereinbelow. When the sash


16


is moved vertically up towards the securing device


36


, the top surface


19


of the header


17


engages the bottom surface or arresting edge


47


of the pawl


40


, thereby effectively limiting or preventing further movement of the sash


16


. This is the general function of the securing device


36


.





FIG. 2

illustrates the securing device


36


in a retracted, unsecured position. The user's finger


70


disengages the securing device


36


as described hereinbelow. The pawl


40


is removed from the pathway of the sash as the pawl


40


retracts into the housing


38


(see

FIG. 3

) securing device


36


. In this position, the lower sash


16


is free to move vertically upward beyond the securing device


36


in the stile


15


.




As shown in

FIG.3

, the securing device


36


includes a housing


38


which is configured to be securely retained in an installation opening (not shown) on the front surface


18


of the stile


15


. The housing has a top end


80


, a bottom end


81


, a front portion


82


, and a rear portion


83


. The housing


38


possesses a unitary construction and may be produced from a range of rigid materials such as extruded or molded plastic polymers, metal, wood, and the like as recognized by one of ordinary skill in the art. One of ordinary skill in the art would certainly recognize that various other forms including different shapes and sizes of housings may be utilized within the spirit and scope of the invention.




The front portion


82


of the housing


38


includes a front wall or faceplate


42


which is designed to overlap the surrounding edge of the installation opening (not shown) in the stile


15


to support the housing


38


therein. The housing


38


further includes opposing side walls


34


and a back wall


33


. The top and bottom ends


80


and


81


are open and unbounded.




The faceplate


42


is integral with the housing


38


and projected ever slightly forward of the front surface


18


of the stile


15


so as to not interfere with the relative sliding movement of the sashes


14


and


16


. To this end, the faceplate


42


may be provided with a curved outer peripheral edge


48


to improve the outward exterior appearance and aesthetics.




The faceplate


42


includes a centrally located elongate vertical opening


51


which is continuous with an interior cavity


50


of the housing


38


. The cavity


50


defined by the opposing side walls


34


, faceplate


42


, and the back wall


33


, is configured to house the pawl


40


therein. The opening


50


of the faceplate


42


includes upper and lower ends


52


and


53


. The upper end


52


is adapted to be engageable with the pawl


40


during the securing operation as described hereinbelow. The lower end


53


includes an inner flange


54


on the inside surface of the faceplate


42


. The flange


54


is adapted to be engageable with the pawl


40


in the retracted and securing positions as described hereinbelow.




As shown in

FIGS. 3

,


4


and


5


, flexible anchor tabs


39


extend from the side walls


34


at both ends


80


and


81


of the housing


38


and positioned proximate to the faceplate


42


. Each anchor tab


39


is integral at one end


68


with the side wall


34


and includes a free end


67


. With use in hollow stiles


15


, the anchor tabs


39


are arranged so that they engage edges of the stile surface


18


, defining the installation opening (not shown) and exert a slight biasing force thereagainst to secure the housing


38


within the installation opening (not shown). In effect the edges are sandwiched between the tabs


39


and the flange


56


behind the faceplate


42


. If the stile


15


is not hollow, the tabs


39


can still retain the housing


38


through frictional contact between the tab


39


and the walls defining the recess in the stile


15


.




As best shown in

FIG. 5

, the housing includes retaining studs


66


extending from the inner opposing side walls


34


within the cavity


50


proximate the top end


80


. The studs


66


, in combination with mounting recesses


65


(described hereinbelow) of the pawl


40


, ensure that the pawl


40


is seated properly within the cavity


50


as it movably transitions between securing and retracted positions as described hereinbelow.





FIGS. 6 and 7

illustrate the pawl


40


in the preferred form. However, one of ordinary skill in the art would certainly recognize that various other forms including different shapes and sizes of pawls may be utilized within the spirit and scope of the invention. The pawl


40


is a single unitary piece of material that is operatively connected to the housing


38


and reversibly resides within the cavity


50


. The pawl


40


includes an upper end


74


, a lower end


75


, a front face


76


, and a back portion


77


. The pawl


40


in the extended position (shown in

FIG. 1

) is configured to withstand the large vertical force associated with the lifting of the lower sash


16


. The pawl


40


like the housing


38


may be formed from a range of rigid materials such as extruded or molded plastic polymer, metal, wood, and the like as recognized by one of ordinary skill in the art.




As shown in

FIGS. 6 and 7

, the pawl


40


includes stud mounting recesses


65


on the opposing sides thereof and proximate to the upper end


74


of the pawl


40


. The recesses


65


are configured to receive the retaining studs


66


extending from the inner side walls


34


of the housing


38


. A ridge


64


bounds the top of each recess


65


. The ridge


64


is configured to keep the stud


66


within the recess


65


, thereby ensuring the proper positioning of the pawl


40


within the cavity


50


.




As shown in

FIG. 7

, the pawl


40


includes a recessed area


43


on its back portion


77


, and is configured to receive a torsional spring


32


(shown in FIGS.


8


and


9


). A truncated pin


41


serves as the mounting structure for the torsional spring


32


within the recessed area


43


in the pawl


40


. The torsional spring


32


functions to normally bias the pawl


40


forward into the securing position. Variations of the spring


32


shown may also be suitable, including a leaf spring, coil spring, integral flexing member or other device for biasing the pawl


40


. As shown best in

FIG. 10

, an alternative embodiment of the pawl


40


utilizes an integral spring element


70


. The integral spring element


70


is fabricated together with the pawl


40


during the plastic polymer extrusion or molding process.




As the torsional spring


32


biases the pawl


40


into the securing position, a retaining lip


44


on the lower end of the front face


76


is configured to retain the pawl


40


in the retracted position within the cavity


50


. The lip


44


is adapted to be engageable with the inner flange


54


proximate the lower end


53


of the opening


51


as described hereinbelow.




Along the lower end


75


(see

FIG. 6

) of the pawl


40


, an arresting edge


47


provides a surface engageable with the top surface


19


of the header


17


of the lower sash


16


. In the securing position, the edge


47


lies parallel to the surface


19


of the header


17


(as shown in FIG.


1


). The pawl


40


further includes a contact edge


46


proximate the upper end


74


on the front face


76


. In the securing position, the contact edge


46


abuts flat against the upper end


52


of the opening


51


in the housing


38


. The contact edge


46


in conjunction with the upper end


52


serves to transfer the vertical force originating from the arresting surface


47


in engagement with the lower sash


16


into the stile wall


20


above the device


36


.




A dust tab


45


extends from the back portion


77


of the pawl


40


proximate the lower end


75


, and is configured to engage with the inner flange


54


proximate the lower end


53


of the opening


51


. The tab


45


engages the flange


54


when the pawl


40


is in the securing position and serves to keep dirt or debris out of the cavity


50


that could enter the spacing between the lower end


75


of the pawl


40


and the lower end


53


of the opening


51


.




A gripping surface


49


is included along the front face


76


of the pawl


40


and is configured to be engageable with a user's finger


70


. The gripping surface


49


may include a plurality of spaced apart ridges


55


along the face


76


which is adapted to be readily gripped by the user's finger


70


(shown in

FIG. 2

) so that the necessary force can be applied to urge the securing device


36


into the securing or retracted positions. One or more ridges


55


may be provided, with four ridges


55


to engage the user's finger


70


being a preferred design.




Referring to

FIGS. 8 and 9

, the securing device


36


is shown in greater detail. For ease of assembly, the housing


38


is formed of a unitary body. The pawl


40


with the torsional spring


32


mounted on the truncated pin


41


, is placed in the cavity


50


through the opening


58


at the bottom end


81


of the housing


38


. The upper end


74


of the pawl


40


enters first and continues on until the studs


66


become seated within the recess


65


on each side. The retaining ridge


64


is configured so that the top edge has a slight downward slope to allow the studs


66


to slip by with ease, but the undersurface thereof is flat to prevent the studs


66


from reversibly sliding out the recess


65


. Utilizing the above simple and minimal number of steps, the assembly of the securing device


36


is complete. With the simple design of the present invention, the advantages in manufacturing become apparent.




In operation, the pawl


40


of the securing device


36


is normally in the retracted position shown in FIG.


8


. The torsional spring


32


biases the retaining lip


44


against the inner flange


54


to retain the pawl


40


inside the housing


38


. The retaining studs


66


are seated in the associated stud mounting recesses


65


and in combination allow for swiveling action as the pawl


40


goes from a retracted to securing position. To limit the upward movement of the lower sash


16


, the user slides the pawl


40


vertically upward


5


along the front face


76


, with the aid of the ridges


55


on the gripping surface


49


, until the retaining lip


44


clears the inner flange


54


.




Referring specifically to

FIG. 9

, once the lip


44


clears the inner flange


54


, the torsional spring


32


then moves the lower end


75


of the pawl


40


in the direction


6


. The arresting edge


47


is then positioned above and parallel to the top surface


19


of the header


17


of the lower sash


16


(as shown in FIG.


1


). The contact edge


46


abuts with the upper end


52


of the opening


51


. The dust tab


45


engages with the inner flange


54


to cover the gap forming between the arresting surface


47


and the lower end


53


of the opening


51


. The tab


45


effectively prevents dust or debris from entering the cavity


50


.




When the arresting surface


47


engages the surface


19


of the header


17


of the lower sash


16


(i.e. when the lower sash is lifted), the contact edge


46


and the upper end


52


of the opening


51


, prevents over-rotation of the pawl


40


to limit movement of the lower sash


16


. The associated vertical force is absorbed into the stile wall


20


above the securing device


36


. Little or no force is exerted on the retaining studs


66


. No surface of the pawl


40


is adapted to engage housing


38


for resisting over-rotation except for the contact edge


46


.




The securing device


36


is returned to the retracted position by disengaging the lower sash


16


from the arresting edge


47


and pushing the pawl


40


into the housing


38


until the face


76


is flush with the faceplate


42


. Next the pawl


40


is slid downward with the aid of the gripping surface


49


until the retaining lip


44


engages behind the inner flange


54


.




While the specific embodiments have been illustrated and described, numerous modifications come to mind without significantly departing from the spirit of the invention and the scope of protection is only limited by the scope of the accompanying Claims.



Claims
  • 1. A window securing device for use in a double-hung sash window assembly having upper and lower sash window frames installed for relative overlapping vertical sliding movement, said upper sash frame having a recess into the interior of a vertical facial member thereof, said device comprising:a housing including a front faceplate opening into a cavity in said housing, and means adapted for retaining said housing in said recess with said faceplate surrounding the perimeter edges of said recess; a pawl having upper and lower ends and front and back surfaces; means for pivotally mounting said pawl within the cavity of said housing, said mounting means comprising: a pair of stud mounting recesses on opposing sides, respectively, of said pawl proximate its upper end; a pair of retaining studs, each extending into said cavity from opposing inside surfaces of the housing; and each retaining stud being nested within an associated stud mounting recess for pivotally mounting said pawl within said cavity; and spring biasing means mounted on said pawl within said housing for normally biasing a lowermost arresting edge at said lower end of said pawl, away from said housing and adapted to be into the pathway of a top portion of said lower sash for preventing further opening thereof or upper movement, said pawl being in a securing position with an uppermost contact edge at said upper end of said pawl configured for abutting against an inside edge of the top of the opening in said faceplate, and adapted for transferring a substantial portion of the upward force of said lower sash through said pawl and housing into said upper sash frame.
  • 2. The device of claim 1 further comprising means for preventing dust or debris from entering said cavity with said pawl in the securing position.
  • 3. The device of claim 2 wherein said means for preventing dust or debris from entering said cavity includes a tab extending from said back surface of said pawl and being configured for engagement with an inside edge of the bottom of said opening in said faceplate, for keeping dust or debris out of said cavity when said pawl is in the securing position.
  • 4. The device of claim 1, further including means for selectively retaining said arresting edge of said pawl within said cavity, said pawl being in a retracted position for permitting further opening of said lower sash.
  • 5. The device of claim 4, wherein said means for retaining said arresting edge within said cavity includes:a protruding lip at said lower end of said pawl proximate its front surface, being configured to engage an inside edge of the bottom of the opening in said faceplate; and said pair of stud mounting recesses being configured for permitting said pawl to slide on said retaining studs to selectively move its protruding lip onto the inside edge of said faceplate.
  • 6. The device of claim 1, wherein said means for retaining said housing in said recess includes two pair of anchor tabs, each pair extending from upper and lower ends of side portions of said housing for snapping said housing into the recess of said vertical facial member, whereby said anchor tabs secure the edge of said recess against the edge of said faceplate.
  • 7. The device of claim 1, wherein said spring biasing means is a torsional spring.
  • 8. The device of claim 7, further including:said torsional spring having first and second ends; said first end being biased against said pawl; and said second end being biased against an inside back wall of said housing.
  • 9. The device of claim 1, wherein said housing is composed of a unitary construction.
  • 10. The device of claim 1, wherein said pawl further includes a gripping surface on said front surface thereon.
  • 11. The device of claim 10, wherein said gripping surface includes a plurality of ridges along said front surface.
  • 12. A window securing device for use in a double-hung sash window assembly having upper and lower sash window frames installed for vertical reciprocal sliding movement, one relative to the other, said upper sash frame having a recess into the interior of an inside face of a vertical member thereof, said device comprising:a housing including: (a) a cavity formed by opposing side walls and a back wall; (b) a faceplate overlaying said cavity having an opening into the cavity; and (c) said housing adapted to be retained in said recess with the faceplate surrounding the perimetric edges of said recess; a pawl having front and back surfaces and upper and lower ends with said upper end including means to mount said pawl in the housing, said lower end being movable between a securing position and a retracted position in the opening of the faceplate, said pawl mounting means comprising: a pair of stud mounting recesses on opposing sides, respectively, of said pawl, proximate its upper end; a pair of retaining studs, each extending from opposing inside surfaces of said side wall portions of the housing; and each retaining stud being nested within an associated stud mounting recess for pivotally mounting said pawl within said cavity; a spring being mounted on said pawl for biasing the lower end of said pawl to protrude out of said opening into said securing position wherein the pawl is adapted to engage against the lower sash frame and prevent such relative sliding movement between the sash frames; said spring mounted pawl being retractable manually into the cavity and adapted to disengage said lower end of the pawl from the lower sash frame and permit such relative sliding movement between the sash frames; means for releasably retaining said lower end of the pawl in said retracted position within said cavity; and said upper end of the pawl having a contact edge configured for engagement with the top of the opening in the faceplate whenever said pawl is in said securing position, said pawl in the securing position has its lower end adapted to protrude over the top edge of the lower sash frame to prevent the lower sash frame from being raised upward, whereby if an attempt is made to raise said lower sash a vertically directed contact is imposed therefrom to the lower end of said pawl, thereby causing a vertical component force to be directed upward from said contact edge of said pawl into the upper edge of the opening of the faceplate, such that said pawl resists further upward movement of said lower sash, and adapted to transfer the resultant force vector into a stile of said upper sash frame.
  • 13. The device of claim 12, wherein said pawl and said housing are made of a rigid plastic polymer composite.
  • 14. The device of claim 12 further comprising means for preventing dust or debris from entering said cavity with said pawl in the securing position.
  • 15. The device of claim 12, wherein the stud mounting recesses are elongated for permitting said pawl to be slid within said housing for causing a protruding lip at the lower end of the front surface of the pawl to engage an inside portion of the lower end of said opening.
  • 16. The device of claim 12, further including a means for securably retaining said housing within the recess of the sash frame.
  • 17. The device of claim 16, wherein said means includes a pair of anchor tabs at the top and at the bottom end of said housing configured to exert slight biasing force against the perimetric edges of said recess.
  • 18. The device of claim 12, wherein said pawl includes a gripping surface along the front surface thereof for user's fingers.
  • 19. The device of claim 18, wherein said gripping surface includes a plurality of sawtooth ridges defined along the front surface of the pawl.
  • 20. The device of claim 12, wherein said spring is a torsional spring.
  • 21. The device of claim 20, wherein:said pawl further includes a recessed portion proximate said back surface; said torsional spring having first and second ends; and said first end being within said recessed portion, and said second end being retained against an inside surface of said back wall.
  • 22. The device of claim 12, wherein said spring is integral with said pawl.
  • 23. The device of claim 12, wherein said housing is composed of a unitary construction.
  • 24. A window securing device for use in a double-hung sash window assembly having upper and lower sash window frames installed for relative overlapping vertical sliding movement, said upper sash frame having a recess into the interior of a vertical facial member thereof, said device comprising:a housing having an opening in communication with a cavity in the housing, the opening defining an inside edge of the housing, the housing being adapted to be supported in the recess; a pawl having an upper end having a contact edge, the pawl further having a lower end and a front surface and a back surface, the pawl being pivotally supported within the cavity by mounting means including: a pair of stud mounting recesses on opposing sides, respectively, of said pawl proximate its upper end; a pair of retaining studs, each extending into said cavity from opposing inside surfaces of the housing; and each retaining stud being nested within an associated stud mounting recess for pivotally mounting said pawl within said cavity; and a spring mounted on the pawl within the housing, the spring normally biasing a lowermost arresting edge at said lower end of the pawl, away from the housing and adapted to be into the pathway of a top portion of the lower sash to define a securing position wherein the contact edge is configured for abutting against the inside edge and adapted to transfer a portion of the upward force of said lower sash through the pawl and housing and into the upper sash frame.
  • 25. The device of claim 24 further comprising a tab at said lower end of the pawl protruding outwardly from the back surface and configured for engagement with a lower end of the opening of the face plate during movement of the pawl into said securing position, such that whenever said pawl is in the securing position, said tab functions to keep any dust or debris out of the cavity.
  • 26. A window securing device for use in a double-hung sash window assembly having upper and lower sash window frames installed for relative overlapping vertical sliding movement, said upper sash frame having a recess into the interior of a vertical facial member thereof, said device comprising:a housing having a face plate having an opening in communication with a cavity in the housing, the opening defining an inside edge of the housing, the housing having a pair of side walls, each side wall having an anchor tab extending outwardly from said sidewall, the housing adapted to be supported in the recess wherein a portion of the facial member is received between the faceplate and the anchor tabs; a pawl having an upper end having a contact edge, the pawl further having a lower end and a front surface and a back surface, the pawl being pivotally supported within the cavity; and a spring mounted on the pawl within the housing, the spring normally biasing a lowermost arresting edge at said lower end of the pawl, away from the housing and adapted to be into the pathway of a top portion of the lower sash to define a securing position wherein the contact edge is configured for abutting against the inside edge and adapted to transfer a portion of the upward force of said lower sash through the pawl and housing and into the upper sash frame.
  • 27. The window securing device of claim 26 wherein each sidewall has a second anchor tab extending outwardly from said sidewall wherein a portion of the facial member is received between the faceplate and the second anchor tabs.
  • 28. A window securing device for use in a double-hung sash window assembly having upper and lower sash window frames installed for relative overlapping vertical sliding movement, said upper sash frame having a recess into the interior of a vertical facial member thereof, said device comprising:a housing including a front faceplate opening into a cavity in said housing, and means adapted for retaining said housing in said recess with said faceplate surrounding the perimeter edges of said recess; a pawl having upper and lower ends and front and back surfaces; means for pivotally mounting said pawl within the cavity of said housing said mounting means comprising: a pair of stud mounting recesses on opposing sides, respectively, of said pawl proximate its upper end; a pair of retaining studs, each extending into said cavity from opposing inside surfaces of the housing; and each retaining stud being nested within an associated stud mounting recess for pivotally mounting said pawl within said cavity; and spring biasing means mounted on said pawl within said housing for normally biasing a lowermost arresting edge at said lower end of said pawl, away from said housing and adapted to be into the pathway of a top portion of said lower sash for preventing further opening thereof or upper movement, said pawl being in a securing position with an uppermost contact edge at said upper end of said pawl configured for abutting flat against an inside edge of the top of the opening in said faceplate, and adapted for transferring a substantial portion of the upward force of said lower sash through said pawl and housing into said upper sash frame.
  • 29. The device of claim 28 wherein the flat abutment prevents over-rotation of the pawl.
  • 30. The device of claim 28 wherein the upper most contact edge and the inside edge are generally perpendicular to the pathway of the lower sash when the pawl is in the securing position.
  • 31. The device of claim 28 wherein the pawl is comprised of a unitary construction.
DESCRIPTION

This is a continuation of copending application Ser. No. 09/504,112, now U.S. Pat. No. 6,364,375, filed Feb. 15, 2000, which is incorporated herein by reference and made a part hereof, and upon which a claim of priority is based.

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Continuations (1)
Number Date Country
Parent 09/504112 Feb 2000 US
Child 10/074542 US