Window vent stop with flexible side engagement pieces

Information

  • Patent Grant
  • 10053896
  • Patent Number
    10,053,896
  • Date Filed
    Tuesday, April 11, 2017
    7 years ago
  • Date Issued
    Tuesday, August 21, 2018
    6 years ago
Abstract
A window vent stop for use in a sliding sash window assembly or a sliding door assembly. The vent stop has a housing adapted to be disposed in a recess in the non-movable sash member. This housing includes a cavity with a bottom plate therein. The tumbler has at least one pivot for pivotally securing the tumbler to the housing for movement between an extended position to prevent movement of the sliding member and a retracted position, to allow movement of the sliding member. Also within the housing is a spring for biasing the tumbler. The housing has one or more flexible members extending from the end walls of the housing that secure the housing to an opening in a window sash when a portion of the window sash is positioned between the underside of a lip on said housing and the flexible member.
Description
FIELD OF THE INVENTION

The present invention relates to improved window vent stops particularly for double hung windows and the like and to improvements in their operation. These window vent stops are used to prevent a window or door from opening more than a desired amount.


BACKGROUND OF THE INVENTION

There are a number of different types of window vent stops available on the market. An example of a window vent stop mechanism is shown in U.S. application Ser. No. 11/390,467, filed Mar. 28,2007, the disclosures of which are herein incorporated herein by reference. These window vent stops are used to restrict the opening of windows and doors. For example, a window may be opened only a portion due to security concerns or to increase comfort in the room. Window vent stops are primarily used on double hung windows and sliding doors where a sash or a door member slides from a first position to a second position. The window sash lock prevents the sash or the sliding door from moving past a selected point. These sash locks can permit the window to be opened a desired amount for ventilation or other purposes.


There are many different types of windows currently available. These windows include casement windows, transom windows, single hung windows, double hung windows, sliding windows, etc. Double hung windows are windows that have a pair of window sashes that may be raised and lowered. Each sash resides in a pair of tracks or recesses that are typically at each side edge of the window. This permits the lower sash to be raised and the upper sash to be lowered. Traditionally, most windows were made of wood. More recently, the windows including the window sashes have been made of extruded metal or plastic.


Single hung windows are similar in design to double hung windows except that there is only one sash that may be raised or lowered. Sliding windows are also not unlike double hung windows in design. While a double hung window has sashes that are raised and lowered, a sliding window has sashes that are movable along a track to the right or left. Similarly, sliding doors operate the same way as sliding windows.


Double hung windows, single hung windows, sliding windows and sliding doors have a variety of open positions in which they may be placed. While a fully opened position can be desirable for ventilation purposes there can be a downside to the fully opened position. One downside is security. A fully open window or door, however, can be a location for unauthorized ingress and egress from the premises. For example, a double hung window that is opened wide can be a source of danger to small children who may climb up to the window. As a result, many municipalities have enacted laws requiring window guards. Additionally, an opened window or door can provide an invitation to third parties to gain access to the building. As a result, there are a number of vent stops that are available to secure a window or door having sliding members in a partially opened position. One such stop is shown in U.S. Pat. No. 5,248,174 owned by Ashland Products. Another sash stop is shown in U.S. Pat. No. 4,923,230 owned by Ro Mai. In each of these sash stops there is a spring biased tumbler or dog that pivots from an unlocked position to a locked position as desired. These sash locks are positioned in the frame of the upper sash and when the tumbler is pivoted outwardly the position of the tumbler prevents the lower sash from being raised above a preselected position. Other prior art patents for similar products are U.S. Pat. Nos. 5,553,903 and 5,806,900 both of which are owned by Ashland.


One particular problem encountered, however, by users of window vent stops is that the installation becomes a difficult process. In order to install the window vent stop properly, a recess must be cut into the sash stile of the window. This recess must be wide enough to allow the vent stop's initial insertion into the recess, but it must also be snug enough that the vent stop will remain securely installed and able to serve its purpose of preventing the window from being opened wider than a specified distance. Problems occur when a mold of the window vent stop to be installed is used to carve the recess. At times due to mistakes by the person installing or the inaccuracies of the mold used to carve the recess, the recess cut into the sash stile is often not exactly a perfect lit for the vent stop, whether it be too large or too small Therefore, a new vent stop must be purchased in these situations.


Another problem with the prior art vent stops, is that if a user wants a particular vent stop, that user must, purchase a vent stop that is specifically fit for the sash stile thickness of that user's windows, if a user purchases and attempts to install a window vent stop that is either too big or too small for the sash stile in the window, that user must purchase a new window vent stop.


Thus, there is a need in the art for window vent stops with the ability to be used with sash stiles of various thicknesses and with recesses of variable sizes. This would save a user time and money in the installation of the window vent stop. The present invention fulfills this need by using flexible side engagement pieces which allow a particular vent stop to be installed in virtually any sash stile.


OBJECTS OF THE INVENTION

It is an object of the present invention to provide a vent stop that can be installed more easily than the prior art vent stops.


It is another object of the present invention to provide an improved vent stop that is more dependable in its operation than the prior art vent stops.


It is a further object of the present invention to provide a vent stop that provides a mechanism that permits the vent stop to be installed in a variety of different window types and sizes.


It is still another object of the present invention to provide a vent stop that is more flexible in its ability to fit into a variety of recesses carved into a sash stile.


It is still another object of the present invention to provide a vent stop that is more flexible in its ability to fit into a variety of recesses routed into a sash stile.


It is a still further object of the present invention to provide a vent stop that has flexible side engagement pieces which permit the vent stop to be installed in a variety of window types.


SUMMARY OF THE INVENTION

The present invention, is directed to an improved vent stop of sash lock for use in a sliding sash window assembly or a sliding door assembly. The window may have one or more sashes usually upper and lower sash window frames installed for vertical sliding movement. Alternatively, the window may have left and right horizontal sliding sashes. The door may also have one or more sliding doors. One sash frame or sliding door frame has a recess into the interior thereof. The vent stop has a housing adapted to be disposed in the recess.


This housing includes a cavity, usually with a bottom plate therein. Inside the cavity is a tumbler that may be in a retracted position and an extended position. When the tumbler is in an extended position the tumbler has a protruding apex at the top. The apex prevents a sash or door from moving when the apex contacts the sash or the door. The tumbler has at least one pivot means tor pivotally securing said tumbler to said housing for movement between the extended position and the retracted position. In the extended position the bottom of the tumbler overlies a portion of the second sash to prevent movement of the lower sash past the tumbler. When in a retracted position within said cavity the sash or door can be raised and/or moved past the tumbler without interference. Also within the housing is a spring means for biasing said tumbler into the extended position. The tumbler has at least one means for retaining the tumbler within the housing. The retaining means may be one or more pins that extend laterally from the side of the tumbler and ride within an opening in the sidewall of the housing. Alternatively, the interior wall of the housing may have one or more pins extending toward the tumbler and riding within an opening in the tumbler's side wall.


The housing also has at least one side engagement piece, preferably two, which is preferably made from the same type of material as the housing and is flexible and bendable with the shape of the recess cut into the sash stile into which the window vent stop is placed. These side engagement pieces are intended to aid in the installation of the window vent stop into the sash stile and are flexible so as to enable the installation of the window vent stop in a wide variety of sash stiles of different sizes.





BRIEF DESCRIPTION OF THE DRAWINGS


FIG. 1 is a side view of a preferred embodiment of the vent stop of the present invention with the tumbler in the extended position.



FIG. 2 is a side view of the tumbler of the vent stop of the present invention.



FIG. 3 is a side top perspective view of the vent stop of FIG. 1 with the tumbler in the retracted position.



FIG. 4 is a side bottom perspective view of the vent stop of FIG. 1 with the tumbler in the retracted position.



FIG. 5 is a top perspective view of the vent stop of FIG. 1 positioned over a slot in a window or door sash.


FIG, 6 is a top perspective view of the vent stop of FIG. 1 partially installed in a slot in a window or door sash.



FIG. 7 is a side view of the vent stop of FIG. 1 showing the side opposite the one shown in FIG. 1.


FIG, 8 is a top perspective view of the vent stop of FIG. 1 fully installed in a window or door sash.



FIG. 9 is a top side perspective view of the vent stop of FIG. 1.



FIG. 10 is a top perspective view of the vent stop of FIG. 1 with the tumbler in the extended position.



FIG. 11 is a side view of a preferred embodiment of the vent stop of the present invention different from the embodiment in FIGS. 1-10.



FIG. 12 is a cross-sectional view of the vent stop of FIG. 11.



FIG. 12A is a cross-sectional view of the vent stop of FIG. 12, but with the tumbler shown in the retracted position.



FIG. 13 is a side cross-sectional view of the vent stop of FIG. 11 as it is being installed into a window sash stile.



FIG. 14 is a side cross-sectional view of the vent stop of FIG. 13 after it has been installed in the sash stile.



FIG. 15 is a side cross-sectional view of the vent stop of FIG. 14 installed in a sash stile of a greater thickness.





DETAILED DESCRIPTION OF THE PRESENT INVENTION

As required, detailed embodiments of the present invention are disclosed herein; however, it is to be understood that the disclosed embodiments are merely exemplary of the invention, which may be embodied in various forms. Therefore, specific structural and functional details disclosed herein are not to be interpreted as limiting, but merely as a basis for the claims and as a representative basis for teaching one skilled in the art to variously employ the present invention in virtually any appropriately detailed structure.


In FIG. 1 the window vent stop of the present invention is shown generally at 10. The vent stop 10 is shown positioned over slot 11 in sliding member, such as a window or door sash 12 as seen, in FIG. 5. The slot 11 is shown as having an oval shape, but any other suitable shape and size slots including but not limited to a square, rectangle, oval, etc, can be used depending on the shape of the latch. Preferably, however, the vent stop 10 of the present invention will have a portion similarly shaped to the slot 11 as to present a clean appearance when placed in the window sash 12 as seen in FIG. 8. In the present embodiment an oval shape for illustration purposes was used. The window sash can be a sash, doorframe, or any other member that has another piece sliding over it, where restriction of the window sash is desired. The tumbler 80 can be either in a raised or lowered position. When raised it prevents movement of the door or sash, as seen in FIG. 1.


A housing 13 is generally defined by a first sidewall 14, a second sidewall 15, a front wall 16, a rear wall 17, and a bottom wall 18, as shown in FIG. 4. Bottom wall 18 can also serve as a cover. In the present embodiment however bottom wall 18 is sealed, and no cover is present. It is noted that the terms “front” and “rear” are used only for descriptive purposes and do not read on orientation of the device. Sidewalls 14, as seen in FIGS. 1 and 15, are preferably the same length, as are front and rear walls 16 and 17, respectively, providing for a generally rectangular shape to housing 13. Preferably, when in place within slot 11, sidewalls 14 and 15 contact the edges of slot 11 to provide for a tight fit, and prevent a lateral movement of the vent stop 10 within slot 11. There is also a top plate 21 has a top surface 98 and an underside 99, and extends outwardly past the edge of the front and rear walls 16 and 17, creating a lip 33, as seen in FIG. 1. Front wall 16 and rear wall 17 can each have a flexible clip 19 and 20. In one embodiment of the present invention, there is only one flexible clip, first flexible clip 19. However, in the preferred embodiments, there are two clips, first flexible clip 19 and second flexible clip 20. The flexible clips 19 and 20 are preferably not identical, although, in alternate embodiments, they can be identical.


Either flexible clip 19 or 20 can be attached either front wall 16 or rear wall 17 depending upon a user's preference. As such it should be appreciated, that the embodiments illustrated in FIGS. 1-16 could easily be reversed and the first and second flexible clips 19 and 20 could be on the opposite wall 16 or 17. In one embodiment, illustrated in FIGS. 1-10, first flexible clip 19 can extend generally in an upward fashion, originating at or near the bottom surface 18 of housing 13 and ending typically just below top plate 21, as seen in FIG. 1. In addition, flexible clip 19 may be solid or hollow. In one preferred embodiment, flexible clip 19 may split and be comprised of two generally rectangular protrusions, so as to resemble two teeth, a first “tooth” 22 and a second “tooth” 23, as seen in FIG. 3, located on sidewalls 14 and 15. The first tooth 22 may have inner and outer surfaces, including inner surface 24, as seen in FIG. 3, and outer surface 25, as seen in FIG. 4, located adjacent to sidewall 14. The second tooth 23 may also have inner and outer surfaces, including inner surface 26, as seen in FIG. 4, and outer surface 27, as seen in FIG. 3, located adjacent to sidewall 15. Flexible clip 19 may be affixed to front wall 16 or flexible clip 19 may be an integral part of housing 13, in the present embodiment flexible clip 19 is an integral part of housing 13. In addition, flexible clip 19 has top surfaces 28 and 29, located on teeth 22 and 23 respectively.


The second clip 20 ideally has more flexibility than the first clip 19, as seen in FIG. 1, and is adapted to grip the window sash 12 when a user attempts to install the vent stop, as shown in FIGS. 6 and 13. It may be located at the end of the housing 13. In this embodiment, the vent stop of the present invention can be more compatible with different style doorframes. For greater ease of installation, there is a tab 30 protruding from rear wall 17 of housing 13 as seen in FIG. 1, which ensures enough space between the clip and the housing 13. When the vent stop 10 is depressed into slot 11 on a window sash 12, the second flexible clip 20 should be inserted sideling into slot 11 as seen in FIGS. 6 and 13. Flexible clips 19 and 20 can engage a portion of the window sash 12, as seen in FIG. 6. This engagement can prevent vertical (front and back) movement of the vent stop 10 within the window sash 12, as well as preventing the vent stop 10 from being easily dislodged from slot 11.


The shapes that second clip 20 could have are virtually endless, so long as the clip 20 maintains its flexibility while still possessing the ability to grip the window sash 12, to provide a clean installation of the vent stop 10. However, in one embodiment, the second clip 20 preferably is “S” shaped, characterized by curved upper and lower portions 66 and 67, each connected by a generally flat center portion 68, as shown in FIG. 7. In this embodiment, the lower portion 67 of the second clip 20 preferably is connected to the rear wall 17 of the housing 13; nevertheless, the clip 20 could be secured to the housing 13 at any feasible point along the rear wall 17. The lower portion 67 of the second clip 20 is arcuate, curving upward toward the flat center portion 68, creating an S-shaped clip, that strongly resembles the appearance of the “integral” sign in calculus. However, the bottom portion 67 could be curved in an opposite manner, or could even be fiat, at an angle to the center portion 68 of the clip 20 in alternate embodiments. In another alternate embodiment, the second clip 20 does not even have a lower portion and the center portion 68 extends diagonally outwardly from the rear wall 17 of the housing 13. The center portion 68 of the second clip 20 extends diagonally outwardly from the lower portion 67, creating a gap 69 between it and the rear wall 17, This gap 69 allows the clip 20 to bend inwardly upon the installation of the vent stop 10. In alternate embodiments, however, the center portion 68 may extend straight in an upward direction from the lower portion 67 rather than outwardly. In other embodiments, the center portion 68 may be more S-shaped, with a portion that extends outwardly from the lower portion 67 and then inwardly toward the rear wall 17. Alternatively the distance the clip 20 maintains between it and the rear wall 17 may be adjustable based on the desired flexibility. The upper portion 66 of the second clip 20 is a generally curved piece, arced in the opposite direction of the lower portion 68. But, in alternate embodiments it may be curved in a different direction, such as upward. The upper portion has top and bottom surfaces 96 and 97. The top surface 96 of the upper portion 66 is where the window sash or other window sash 12 may rest when the vent stop is secured. The top surface 96 of the upper portion 66 of the second clip 20, along with the underside of the lip 33 of the top plate 21, act as a gripping mechanism holding the window sash in place. Although the upper portion 66 is generally short, equal in length to the lower portion 67, it may be longer or shorter as desired.


In another preferred embodiment, shown in FIGS. 11-15, the first clip 19 has only one protrusion 86, which extends outwardly from the rear wall 17 of the housing 13. This embodiment of the first clip, is characterized by a protruding arm 86 and a base portion 87 connected to a recessed wall 88 situated between the rear wall 17 and the bottom wall 18 of the housing 13, as shown in FIG. 11. The base portion has top and bottom surfaces 89 and 90 respectively, as well as a rear surface 91, which are all generally flat. Extending from the base portion 87 of the first clip 19 is a single protruding arm 86, which is flexible and is at an angle with the rear wall 17. The arm 86 is generally rectangular, with an inner surface 92, an outer surface 93, a pointed upper surface 94 and a flat side surface 95, as shown in FIG. 13. When the vent stop is slid into the slot 11 in the window sash 12, this embodiment of the first clip will bend inwardly toward the rear wall 17, until the vent stop fits inside the slot. Once the vent stop 10 has been inserted, the protruding arm 86 will release back to its old position further away from the rear wall 17, with the window sash 12 being secured between the pointed upper surface. 94 of the first clip 19 and the lip 33 of the top plate 21, as shown in FIG. 14. In alternate embodiments, the shape of the first clip may be changed. For instance, the upper surface 94 does not have to be pointed, and the arm 86 can attach to the housing 13 at a different point along the rear wall 17. Additionally, a raised member, or tab could extend outwardly from the rear wall 17 so as to limit the amount of room the arm 86 has to move inward toward the rear wall 17. Essentially, any embodiment practicable to one in the art that would achieve the flexible support described above is possible.


Another preferred embodiment of the second clip 20 of the vent stop 10 of the present invention can also be seen in FIGS. 11-15. In this embodiment the second clip 20 comprises an arm 71 and a gripping mechanism 72, as shown in FIG. 11. The arm 71 generally has a base portion 73 that extends outwardly from the front wall 16, so that the arm 71 is diagonal to the surface of the front wall 16. In the present embodiment, this base portion 73 is generally characterized by a flat upper surface 74, and a bottom surface which is indistinguishable from the rest of the arm 71, as shown in FIG. 11. In alternate embodiments, the base portion 73 may be longer or curved, much like the lower portion 67 of the S-shaped clip 20 shown, in. FIGS. 1-10. The arm 71 is generally flat, although, in alternate embodiments, it may be curved as so desired. Extending from the top of the side opposite the base portion 73 of the arm 71 is the gripping mechanism 72 of the second clip.


The gripping mechanism 72 comprises a protruding hook 75, a flat support surface 76 and a vertical retaining block 77. The protruding hook 75 extends outwardly from the top of the arm 71 of the second clip 20, so that the hook may catch the window sash 12 and secure the vent stop 10 to the sash. The hook 75 is generally curved upward and has top and bottom surfaces 78 and 79 as well as a front surface 81, as shown in FIG. 13. The window sash generally comes into contact with the top surface 78, where it comes to rest securely upon installation, as shown in FIG. 14. Although tile hook 75 is generally curved, it could be fiat in another embodiment, as the user desires. It may be curved in the opposite direction in another embodiment. The hook 75 is connected directly to a flat support surface 76, as shown in FIG. 11, the purpose of which is to further secure the window sash 12 to the vent stop 10. The support surface 76 comes into contact with a vertical retaining block 77, which has a front end 82 and a rear end 83, as shown in FIG. 13. This retaining block 77 extends upwardly to the lip 33 of the top plate 21 on the rear end 83, and upwardly toward the underside 85 of an inner flange 84 running parallel to the top plate 21. The retaining block 77 further locks the window sash 12 in place in the clip 20. In various alternate embodiments, each of the various pieces 75,76, and 77 of the gripping mechanism 72 may be removed. For instance, one embodiment might utilize the hook 75 and the support surface 76, but not the retaining block 77. Any arrangement that would safety secure the window sash 12 within the grip of the clip 20 that is practicable to one knowledgeable in the art is possible.


In alternate embodiments not yet illustrated a variety of configurations of clips 19 and 20 can be utilized. For instance, since the second clip 20 requires only a gripping mechanism for holding the window sash 12 in place while the vent stop 10 is installed, any practicable gripping mechanism may be utilized. One example would be to utilize two protrusions extending outward from the wall of the housing, with no clip extending upward. One protrusion will fit underneath the window sash 12 and, the other, above it. For the first clip 19, in order to facilitate installation, the clip 19, as seen, in FIGS. 11-15 could be concaved on both sides, creating an easier installation into the slot 11 and more flexibility. A final example of an alternate embodiment is if the clips 19 and 20 were on the sidewalls 14 and 15 of the housing 11 rather than the front wall 16 and rear wall 17. In this way, the vent stop 10 could be secured to the window sash 12 in a different manner.


First sidewall 14 has an inner surface, not shown, and outer surface 31, as seen in FIG. 1. Second sidewall 15 has inner surface, not shown, and outer surface 32, as seen in FIG. 3. On sidewalk 14 and 15 there can be four apertures, apertures 34 and 35 on sidewall 14, as seen in FIG. 1, and apertures 36 and 37 on sidewall 15, as seen in FIG. 3. Apertures 34 and 36 of sidewalls 14 and 15, respectively, are aligned along the same central axis and are positioned towards rear wall 17, and are used to prevent tumbler 80 from rotating passed a predetermined area and to support a substantial upward force associated with the lifting of the lower sash against the stopping surface of the latch. Apertures 35 and 37 of sidewalls 14 and 15, respectively, are also aligned along the same central axis; these apertures are designed so as to allow tumbler 80 to rotate in an outwardly fashion. In another embodiment one could implement bored cavities, aligned in a similar fashion, instead of apertures.


In yet another embodiment, sidewalls 14 or 15 may have at least one rotation member extending there from. In this type of embodiment tumbler 80 would have apertures or bored cavities aligned along the same central axis so as to allow tumbler 80 to rotate in an outwardly fashion.


A lip 33 is attached to top plate 21 is preferably at least the same size or larger and the same general shape as slot 11. Thus, when vent stop 10 is placed into slot 11, lip 33 will contact at least the edges of slot 11 or over spread the upper surface of the window sash 12. These dimensional attributes will allow for a tight fit that will exhibit a finished smooth exterior, which can be aesthetically pleasing. Although top plate 21 is referred to as a “plate”, it is understood that housing 13, clip 19, lip 33 and top plate 21 can be, integral pieces, without any need for adhesives or assemblage.


In the preferred embodiment second clip 20, attached to the rear of the housing, is preferably almost as high as the lower portion of the housing under the slot 11, Thus, when vent stop 10 is placed into slot 11, clip 20 will contact at least the edges of slot 11 or over spread, the upper surface of the window sash 12. These dimensional attributes will allow for a tight fit that will exhibit a finished smooth exterior, which can be aesthetically pleasing. Although top plate 21 is referred to as a “plate”, it is understood that housing 13, clip 19, clip 20 and top plate 21 can be integral pieces, without any need tor adhesives or assemblage.


A tumbler 80 is preferably designed to fit within cavity 38 of housing 13, as seen in FIG. 11. Tumbler 80 may have an upper surface 39, which is preferably smooth and/or flat on the front portion, as seen in FIG. 2. Where upper surface 39 is flat, it will exhibit a more finished look for the vent stop 10 when it is placed in window sash 12. Tumbler 80 may have an indent 40 located toward the rear top surface. In addition tumbler 80 may have a grooved top portion 41 located right above indent 40, as in the present invention, which may act as a button 42, so as to allow the user to activate tumbler 80. The rear edge 43 of tumbler 80 slopes downward and comes to a point 44, where rear edge 43 meets arcuate bottom portion 45. Tumbler 80 can have a front end 46 and a rear end 49, along with side surfaces 52. Tumbler 80 can have rotation members 53, which can fit in apertures 35 and 37, of sidewalls 14 and 15 respectively, of housing 13. The rotation members 53 can be located on side surfaces 52, respectively, close to rear end 49. Preferably, rotation members 53 are cylindrical pegs, which protrude from side surfaces 52 of tumbler 80, respectively. The rotation members 53 can allow tumbler 80 to extend outwardly, thus exposing front end face 54 of tumbler 80, which would prevent, movement of window sash 12. The tumbler 80 will be allowed to rotate until arcuate surface 45 of tumbler 80 comes into contact with a surface 50 of peg 51, as seen in FIG. 12, and discussed hereinafter. The window vent stop may be constructed of any type of material known in the art, including, but not limited to plastic, metal, wood, etc., to be capable of withstanding the downward force imposed on the tumbler by the sash window. The peg may be any shape known in the art, including, but not limited to, a cylindrical peg, a rectangular block, or a square peg. In the present embodiment a plastic cylindrical peg was implemented. In addition, cylindrical, peg 51 may be separate part or it may be an integral part of housing 13, however, in the present embodiment the cylindrical peg 51 is a separate member.


Tumbler 80 has a cavity 55 that houses the plate spring 56, as seen in FIGS. 2 and 12. However, this is not the only possible method of attaching a spring to tumbler 80. For example, tumbler 80 can have a protruding peg on either of the side surfaces 52 that could hold the plate spring 56 in place. If this type of spring configuration is implemented, then housing 13 would have to be of such dimensions so as to allow for the additional needed space. Tumbler cavity 55 has a top and bottom surface equal in width to plate spring 56 it houses. Plate spring 56 also has a rounded bottom portion that contacts the left arcuate nest 47 and the right recession 48 in the inner bottom surface 57 of the housing 13 such that the tumbler is forced to a retracted position in the housing or an extended position out of the housing. In another embodiment rounded bottom portion 58 may be replaced by any angled shaped portion known in the art, which is capable of sliding. Inner bottom surface 57 of housing 13 has an arcuate nest 47 for cradling rounded bottom portion 58 of plate spring 56, as seen in FIG. 12. A divide point 59, where the left arcuate nest 47 meets the right recession 48, confines the bottom rounded portion 58 of plate spring 56 to be forced in different directions when the vent stop is activated or deactivated. In normal operation when the user wishes to activate tumbler 80, the user will apply a downward, or inward force to button 42, this will cause rounded bottom portion 58 of plate spring 56 to move out of arcuate nest 47 and pass the divide point 59 and move into the right recession 48 of bottom surface 57 of housing 13. One must point out that arcuate nesting portion 47, divide point 59, right recession 48 of the bottom surface 57 and bottom rounded portion 58 of the plate spring 56 are of great consequence in the operation of this invention.


In addition to the tumbler cavity 55 of tumbler 80, there exists an arcuate surface 45 that interacts with an arcuate surface 50 of cylindrical peg 51. Arcuate surface 45 is preferably located on the rear bottom portion of nimbler 80. Tumbler 80 may have a protruding portion 60 located at the bottom front end wall of tumbler 80, as seen in FIG. 2. The protruding portion 60 has a top surface 61 that extends perpendicularly from the front end face 54 of the tumbler 80. The protruding portion 60 also has a first side 62, as seen in FIG. 2, and a second side, not shown, a front face 64, and a bottom 65, as shown, in. FIG. 12. Bottom 65 of the protruding portion 60 extends outwardly in the same direction as top surface 61 so as to meet with the outside edge of front end face 64 and is parallel to the upper surface 39 so as to come into contact with the bottom surface 57 of the housing 13 and limit further rotation of the tumbler 80 in the housing 13 when the tumbler 80 is in the retracted position. The protruding portion 60 may be designed as to allow a meshing between the protruding portion 60 and the bottom surface of top plate 21, which would cause tumbler 80 from further rotating outwardly; thus if needed, protrusion 60 could be used as a limiting device.


The release of the tumbler 80 from housing 13 can be controlled by an interaction between button 42 and plate spring 56 in tumbler 80 and bottom surface 57 of the housing 13. Button 42, as mentioned previously, is located on the rear end portion of tumbler 80, can have a grooved top surface 41, which can be in the same plane as the upper surface 39 of the tumbler 80, where the user can engage button 42 easily with any suitable instrument known in the art, including but not limited to a finger, fingernail, pen, pencil etc., as seen in FIG. 2. When the user engages grooves 41, it will move rounded bottom portion 58 of plate spring 56 from a cradled position to a freed position within cavity 38 of housing 13. In the present embodiment the user applies a downward or inward force to groove 41 of tumbler 80.


When the user wishes to activate tumbler 80, so as to prevent movement of a sliding window member, the user will exert a downward, or upward force, greater than the force being exerted by the rounded bottom portion 58 of plate spring 56 against the top surface of the arcuate nesting area 47 of the bottom surface 57 of housing 13, on groove 41, of button 42. This force will cause plate spring 56 to move in a direction opposite that of the force applied by the user. When the force applied by the user has reached the critical point, it will cause the rounded bottom portion 58 of plate spring 56 to move out of equilibrium with nesting area 47 of bottom surface 57 of housing 13 and slide across divide point 59 of bottom surface 57 of housing 13 and comes in the next equilibrium with right recession 48 of bottom surface 57 of housing 13. The critical point is reached when the force applied by the user overcomes the static frictional force, at which time bottom round portion 58 of plate spring 56 will begin to slide and the frictional force will drop back to a nearly constant value equal to that of the kinetic frictional force. When tumbler 80 is free to pivot on rotation members 53, the upward force of spring 56 will cause tumbler 80 to rotate in an outwardly direction until the rounded bottom portion 58 of plate spring 56 comes into contact with right recession 48 of bottom surface 57 of housing 13. In the same instance arcuate surface 45 of tumbler 80 will come in contact with arcuate surface 50 of cylindrical peg 51. In addition, a protruding portion 60 can also be implemented, so as to further limit movement of tumbler 80 by coming into contact with bottom surface of top plate 21. Once rounded bottom portion 58 of plate spring 56 has stopped sliding tumbler 80 will be exposed, thus preventing sliding window member from opening any further.


As various changes could be made in the above constructions without departing from the scope of the invention, it is intended that all matter contained in the above description shall be interpreted as illustrative and not in a limiting sense.


The operation of the vent stop according to the present invention will be obvious from the above description thereof.

Claims
  • 1. A vent stop, for use in an opening of a stile of a sash window, said vent stop comprising: a housing having a first end and a second end, said housing comprising: a top plate; one or more walls, said one or more walls joined to and extending from a bottom surface of said top plate to create a cavity; and a bottom wall configured to connect said one or more housing walls: at least a portion of said top plate configured to overhang beyond at least a portion of said one or more walls to create a lip, said top plate comprising an opening into said cavity;a tumbler pivotally mounted in said housing cavity, and configured for actuation of a first end of said tumbler to cause said tumbler to pivot outwardly from a retracted tumbler position into an extended tumbler position, said extended tumbler position being a position where a portion of said tumbler protrudes out from said opening in said top plate; said tumbler further configured for actuation of a second end of said tumbler to cause said tumbler to pivot inwardly into said retracted tumbler position;a first retention member configured to secure said first end of said housing to a first end of the opening in the window stile;a second retention member configured to secure said second end of said housing to a second end of the opening in the window stile: anda spring configured to bi-directionally bias said tumbler, wherein said spring being configured to hi-directionally bias said tumbler comprises; said spring comprising a first end and a second end, said first end of said spring configured to contact a portion of said tumbler, and said second end of said spring configured to contact and selectively move with respect to an apex formed between a first surface and a second surface on said bottom wall of said housing.
  • 2. The vent stop according to claim 1, wherein when said tumbler is in said retracted position, actuation of said first end of said tumbler is configured to cause said second end of said leaf spring to cross said apex, with subsequent contact between said second end of said spring and said first surface on said bottom wail of said housing configured to bias said tumbler to pivot out of said cavity toward said extended position; andwherein when said tumbler is in said extended position, actuation of a second end of said tumbler is configured to cause said second end of said leaf spring to cross said apex, with subsequent contact between said second end of said leaf spring, and said second surface on said bottom wall of said housing configured to bias said tumbler toward said retracted position.
CROSS REFERENCES TO RELATED APPLICATIONS

This application is a continuation of U.S. application Ser. No. 15/471,158, filed Mar. 28, 2017, which is a continuation of U.S. application Ser. No. 14/198,949, filed Mar. 6, 2014, which is a continuation of U.S. application Ser. No. 12/658,642, filed Feb. 9, 2010, now issued as U.S. Pat. No. 8,833,809, which is a divisional of U.S. application Ser. No. 11/977,445, filed Oct. 24, 2007, now issued as U.S. Pat. No. 8,235,430, which is a continuation-in-part of U.S. application Ser. No. 11/390,467, filed Mar. 28, 2006 now issued as U.S. Pat. No. 7,530,611, all disclosures of which are incorporated herein by reference.

US Referenced Citations (392)
Number Name Date Kind
30408 Judd Oct 1860 A
36524 Minor Sep 1862 A
51222 Ridell Nov 1865 A
108778 Gorman Nov 1870 A
115781 Steele Jun 1871 A
126872 Buckman May 1872 A
148857 Smith Mar 1874 A
166842 Berryman Aug 1875 A
178360 Cooper Jun 1876 A
192614 Andrews Jul 1877 A
192919 Hoyt Jul 1877 A
201146 Adler Mar 1878 A
215125 Hunter May 1879 A
226033 Burns Mar 1880 A
230476 Green Jul 1880 A
234387 Burgess Nov 1880 A
284993 Abele Sep 1883 A
314350 Smith Mar 1885 A
316285 McKeen Apr 1885 A
331005 Sahr Nov 1885 A
336302 Dudgeon Feb 1886 A
346788 Teufel Aug 1886 A
350678 Hussey Oct 1886 A
353287 Chumard Nov 1886 A
369885 Shaw Sep 1887 A
375656 Shaw Dec 1887 A
376252 McIntyre Jan 1888 A
379910 Rosentreter Mar 1888 A
410728 Brown Sep 1889 A
417868 Janes Dec 1889 A
423761 Hasenpflug Mar 1890 A
452723 Schmalhausen May 1891 A
480148 Theby Aug 1892 A
493159 Gibson Mar 1893 A
509941 Perry Dec 1893 A
512593 Webster Jan 1894 A
534185 Winchester Feb 1894 A
520754 Burmeister May 1894 A
526118 Sharp Sep 1894 A
528656 Burmeister Nov 1894 A
530078 Ammerman Dec 1894 A
537258 Wilcox Apr 1895 A
539030 Bitner May 1895 A
551181 Dillon Dec 1895 A
551242 Wallace Dec 1895 A
554448 Keil Feb 1896 A
564426 Hubbard Jul 1896 A
587424 Bonine Aug 1897 A
590225 Hill Sep 1897 A
653458 Paquette Jul 1900 A
683928 Geraghty Oct 1901 A
688491 Sigler Dec 1901 A
695736 Kendrick Mar 1902 A
699696 Meilen May 1902 A
708406 Robinson Sep 1902 A
714343 Wellman Nov 1902 A
718007 Linn Jan 1903 A
719981 Adams Feb 1903 A
722162 St. Louis Mar 1903 A
724466 Hannan Apr 1903 A
743716 Hadka Nov 1903 A
744755 Hasenpflug Nov 1903 A
745888 McElwee Dec 1903 A
756453 Arens Apr 1904 A
756559 Arens Apr 1904 A
757249 Barnard Apr 1904 A
759642 Sparks May 1904 A
764493 Noseworthy Jul 1904 A
769386 Johnson Sep 1904 A
769767 Phelps Sep 1904 A
774536 Saunders Nov 1904 A
775602 Hearnshaw Nov 1904 A
800043 Witte Sep 1905 A
804994 Andrews Nov 1905 A
815537 Kissinger Mar 1906 A
833900 Sigler Oct 1906 A
837811 Ebbeson Dec 1906 A
840427 Brister Jan 1907 A
865090 Eddy Sep 1907 A
866073 Saunders Sep 1907 A
878206 Johnson Feb 1908 A
881658 Bowman Mar 1908 A
886108 Allen Apr 1908 A
887690 Pearce May 1908 A
922894 Heid May 1908 A
897719 Daubaignan Sep 1908 A
900079 Bittorf Oct 1908 A
910850 Petrie Jan 1909 A
926899 Roy Jul 1909 A
928408 Taube Jul 1909 A
948628 Jefferis Feb 1910 A
959150 Morris May 1910 A
966063 Toothaker Aug 1910 A
976777 Brown Nov 1910 A
980131 Shean Dec 1910 A
998642 Shean Jul 1911 A
1003386 Welker Sep 1911 A
1006211 Hermon Oct 1911 A
1020454 Seidenbecker Mar 1912 A
1041803 Kiburn Oct 1912 A
1051918 Rowley Feb 1913 A
1059999 James Apr 1913 A
1069079 Voight Jul 1913 A
1077487 Miller Nov 1913 A
1080172 Rusk Dec 1913 A
1100820 Edwards Jun 1914 A
1121228 Burkhart Dec 1914 A
1122026 O'Rourke Dec 1914 A
1127835 Westlund Feb 1915 A
1133217 Barton Mar 1915 A
1141437 Unterlender Jun 1915 A
1148712 Overland Aug 1915 A
1163086 Harper Dec 1915 A
1173129 Taliaferro Feb 1916 A
1177637 Lane Apr 1916 A
1177838 Wilkinson Apr 1916 A
1207989 O'Rourke Dec 1916 A
1232683 Holttis Jul 1917 A
1243115 Shur Oct 1917 A
1247182 Tuekmantel Nov 1917 A
1253810 Gianninoto Jan 1918 A
1261274 Newsam Apr 1918 A
1269467 Winters Jun 1918 A
1270740 Keyes Jun 1918 A
1272900 Berman Jul 1918 A
1279353 Kelley Sep 1918 A
1311052 Danforth Jul 1919 A
1322677 Dillefsen Nov 1919 A
1338250 Parkes Apr 1920 A
1338416 Bellinger Apr 1920 A
1339362 L'Heureux May 1920 A
1341234 Horton May 1920 A
1350698 Boedtcher Aug 1920 A
1387302 Page Aug 1921 A
1388272 Lawrence Aug 1921 A
1393628 Leichter Oct 1921 A
1398174 Carlson Nov 1921 A
1399897 Singer Dec 1921 A
1412154 Wollesen Apr 1922 A
1439585 Trost Dec 1922 A
1461467 Stuart Jul 1923 A
1463866 Bourbeau Aug 1923 A
1485382 Foley Mar 1924 A
1490874 Webb Apr 1924 A
1516995 Trigueiro Nov 1924 A
1550532 French Aug 1925 A
1552690 Frantz Sep 1925 A
1587037 Rudolph Jun 1926 A
1601051 Wilbert Sep 1926 A
1605717 Gregg Nov 1926 A
1619031 Ostrosky Mar 1927 A
1622742 Shipman Mar 1927 A
1658818 Dillon Jan 1928 A
1692579 Schrader Nov 1928 A
1704946 Lindgren Mar 1929 A
1712792 Hansen May 1929 A
1715957 Slein Jun 1929 A
1724637 Bergstrom Aug 1929 A
1750715 Jeffers Mar 1930 A
1794171 Grutel Feb 1931 A
1812288 Drapeau Jun 1931 A
1819824 McAllister Aug 1931 A
1864253 McIntyre Jun 1932 A
1869274 Phillips Jul 1932 A
1891940 McAllister Dec 1932 A
1900936 Huttger Mar 1933 A
1901974 Macy Mar 1933 A
1922062 Sullivan Aug 1933 A
1960034 Stewart May 1934 A
1964114 Gerlach Jun 1934 A
2095057 Corrado Oct 1937 A
2122661 Rightmyer Jul 1938 A
2126995 Kingdon Aug 1938 A
2136408 Bedell Nov 1938 A
2158260 Stillman May 1939 A
2202561 Lahiere May 1940 A
2272145 Anderson Feb 1942 A
2326084 Westrope Aug 1943 A
2369584 Lundholm Feb 1945 A
2452521 Johnson Oct 1948 A
2480016 Granberg Aug 1949 A
2480988 Walton Sep 1949 A
2500349 Menns Mar 1950 A
2503370 Zanona Apr 1950 A
2523559 Couture Sep 1950 A
2527278 Schemansky Oct 1950 A
2537736 Carlson Jan 1951 A
2560274 Cantelo Jul 1951 A
2590624 James Mar 1952 A
2599196 Peremi Jun 1952 A
2605125 Emerson Jul 1952 A
2612398 Miller Sep 1952 A
2613526 Holmsten Oct 1952 A
2621951 Ostadal Dec 1952 A
2645515 Thomas Jul 1953 A
2648967 Holmsten Aug 1953 A
2670982 Banham Mar 1954 A
2692789 Rivard Oct 1954 A
2758862 Endter Aug 1956 A
2766492 Day Oct 1956 A
2789851 Lickeig Apr 1957 A
2818919 Sylvan Jan 1958 A
2846258 Granberg Aug 1958 A
2855772 Hillgren Oct 1958 A
2884276 Baptist Apr 1959 A
2920914 Jenkins Jan 1960 A
2941832 Grossman Jun 1960 A
3027188 Eichstadt Mar 1962 A
3135542 Wilkenson Jun 1964 A
3187526 Moler Jun 1965 A
3267613 McQuiston Aug 1966 A
3288510 Gough Nov 1966 A
3352586 Hakanson Nov 1967 A
3362740 Burns Jan 1968 A
3422575 Armstrong Jan 1969 A
3438153 Lemme Apr 1969 A
3599452 Maruyama Aug 1971 A
3600019 Toyota Aug 1971 A
3642315 Alpern Feb 1972 A
3645573 Strang Feb 1972 A
3683652 Halopoff Aug 1972 A
3706467 Martin Dec 1972 A
3762750 Orr Oct 1973 A
3811718 Bates May 1974 A
3841674 Bisbing Oct 1974 A
3850464 Bisbing Nov 1974 A
3907348 Bates Sep 1975 A
3919808 Simmons Nov 1975 A
3927906 Mieras Dec 1975 A
4054308 Prohaska Oct 1977 A
4059298 van Klompenburg Nov 1977 A
4063766 Granberg Dec 1977 A
4068871 Mercer Jan 1978 A
4095827 Stavenau Jun 1978 A
4095829 Van Klompenburg Jun 1978 A
4102546 Costello Jul 1978 A
4151682 Schmidt May 1979 A
4165894 Wojciechowski Aug 1979 A
4223930 Costello Sep 1980 A
4227345 Durham Oct 1980 A
4235465 Costello Nov 1980 A
4253688 Hosooka Mar 1981 A
4261602 Anderson Apr 1981 A
4274666 Peck Jun 1981 A
4293154 Cassells Oct 1981 A
4303264 Uehara Dec 1981 A
4305612 Hunt Dec 1981 A
4392329 Suzuki Jul 1983 A
4429910 Anderson Feb 1984 A
4470277 Uyeda Sep 1984 A
4475311 Gibson Oct 1984 A
4525952 Cunningham Jul 1985 A
4580366 Hardy Apr 1986 A
4587759 Gray May 1986 A
4621847 Paulson Nov 1986 A
4624073 Randall Nov 1986 A
4639021 Hope Jan 1987 A
4643005 Logas Feb 1987 A
4655489 Bisbing Apr 1987 A
4736972 Mosch Apr 1988 A
4801164 Mosch Jan 1989 A
4813725 Mosch Mar 1989 A
4824154 Simpson Apr 1989 A
4827685 Schmidt May 1989 A
4893849 Schlack Jan 1990 A
4922658 Coddens May 1990 A
4923230 Simpson May 1990 A
4949506 Durham Aug 1990 A
4961286 Bezubic Oct 1990 A
4991886 Nolte Feb 1991 A
5042855 Bennett Aug 1991 A
5072464 Draheim Dec 1991 A
5076015 Manzalini Dec 1991 A
5087087 Vetter Feb 1992 A
5087088 Milam Feb 1992 A
5090750 Lindqvist Feb 1992 A
5090754 Thompson Feb 1992 A
5110165 Piltingsrud May 1992 A
5127685 Dallaire Jul 1992 A
5139291 Schultz Aug 1992 A
5143412 Lindqvist Sep 1992 A
5161839 Piltingsrud Nov 1992 A
5165737 Riegelman Nov 1992 A
5183310 Shaughnessy Feb 1993 A
5219193 Piltingsrud Jun 1993 A
5244238 Lindqvist Sep 1993 A
5248174 Matz Sep 1993 A
5274955 Dallaire Jan 1994 A
5341752 Hambleton Aug 1994 A
5398447 Morse Mar 1995 A
5437484 Yamada Aug 1995 A
5448857 Stormo Sep 1995 A
5452925 Huang Sep 1995 A
5454609 Slocomb Oct 1995 A
5536052 Maier Jul 1996 A
5560149 Lafevre Oct 1996 A
5575116 Carlson Nov 1996 A
5582445 Olsen Dec 1996 A
RE35463 Vetter Feb 1997 E
5636475 Nidelkoff Jun 1997 A
5688000 Dolman Nov 1997 A
5715631 Kailian Feb 1998 A
5741032 Chaput Apr 1998 A
5778602 Johnson Jul 1998 A
5791700 Biro Aug 1998 A
5806900 Bratcher Sep 1998 A
5839767 Piltingsrud Nov 1998 A
5901499 Delaske May 1999 A
5901501 Fountaine May 1999 A
5911763 Quesada Jun 1999 A
5927768 Dallmann Jul 1999 A
5970656 Maier Oct 1999 A
5992907 Sheldon Nov 1999 A
6000735 Jourdenais Dec 1999 A
6086121 Buckland Jul 2000 A
6116665 Subliskey Sep 2000 A
6135510 Diginosa Oct 2000 A
6139071 Hopper Oct 2000 A
6142541 Rotondi Nov 2000 A
6155615 Schulz Dec 2000 A
6176041 Roberts Jan 2001 B1
6178696 Liang Jan 2001 B1
6183024 Schultz Feb 2001 B1
6209931 Von Stoutenborough Apr 2001 B1
6217087 Fuller Apr 2001 B1
6230443 Schultz May 2001 B1
6250694 Weiland Jun 2001 B1
6279266 Searcy Aug 2001 B1
6349576 Subliskey Feb 2002 B2
6364375 Szapucki Apr 2002 B1
6546671 Mitchell Apr 2003 B2
6565133 Timothy May 2003 B1
6588150 Wong Jul 2003 B1
6592155 Lemley Jul 2003 B1
6607221 Elliot Aug 2003 B1
6631931 Magnusson Oct 2003 B2
6634683 Brannan Oct 2003 B1
6719337 Ji Apr 2004 B1
6817142 Marshik Nov 2004 B2
6848728 Rotondi Feb 2005 B2
6854214 Polowinczak Feb 2005 B2
6871885 Goldenberg Mar 2005 B2
6871886 Coleman Mar 2005 B2
6877784 Kelley Apr 2005 B2
6925758 Petit Aug 2005 B2
6957513 Pettit Oct 2005 B2
6983963 Eslick Jan 2006 B2
7000957 Lawrence Feb 2006 B2
7013603 Eenigenburg Mar 2006 B2
7063361 Lawrence Jun 2006 B1
7070211 Polowinczak Jul 2006 B2
7070215 Kelley Jul 2006 B2
7100951 Jien Sep 2006 B2
7147255 Goldenberg Dec 2006 B2
7159908 Liang Jan 2007 B2
7296831 Generowicz Nov 2007 B2
7322620 Lawrence Jan 2008 B1
7407199 Richardson Aug 2008 B2
7431356 Liang Oct 2008 B2
7481470 Eenigenburg Jan 2009 B2
7494164 Garries Feb 2009 B1
7510221 Eenigenburg Mar 2009 B2
7530611 Liang May 2009 B2
7588271 Lawrence Sep 2009 B1
7600796 Liang Oct 2009 B2
7607262 Pettit Oct 2009 B2
7637544 Liang Dec 2009 B2
7665775 Miller Feb 2010 B1
7922223 Lawrence Apr 2011 B2
7976077 Flory Jul 2011 B2
8205919 Flory Jun 2012 B2
8205920 Flory Jun 2012 B2
8235430 Liang Aug 2012 B2
8272164 Albrecht Sep 2012 B2
8360484 Liang Jan 2013 B2
8550507 Barton Oct 2013 B2
8726572 Derham May 2014 B2
8789862 Liang Jul 2014 B2
8844985 Liang Sep 2014 B2
9140033 Wolf Sep 2015 B2
20060192391 Pettit Aug 2006 A1
20060244270 Rotondi Nov 2006 A1
20070205615 Eenigenburg Sep 2007 A1
20080169658 Wolf Jul 2008 A1
20090206616 Liang Aug 2009 A1
20100199726 Varney Aug 2010 A1
20100218425 Nolte Sep 2010 A1
20100263415 Ruspil Oct 2010 A1
20100300000 Liang Dec 2010 A1
20130214545 Wolf Aug 2013 A1
20130283695 Hollerman Oct 2013 A1
20160076282 Wolf Mar 2016 A1
Foreign Referenced Citations (4)
Number Date Country
2 286 627 Aug 1995 GB
2 461 079 Dec 2009 GB
2 461 107 Dec 2009 GB
2 461 108 Dec 2009 GB
Related Publications (1)
Number Date Country
20170218670 A1 Aug 2017 US
Divisions (1)
Number Date Country
Parent 11977445 Oct 2007 US
Child 12658642 US
Continuations (3)
Number Date Country
Parent 15471158 Mar 2017 US
Child 15484295 US
Parent 14198949 Mar 2014 US
Child 15471158 US
Parent 12658642 Feb 2010 US
Child 14198949 US
Continuation in Parts (1)
Number Date Country
Parent 11390467 Mar 2006 US
Child 11977445 US