The invention relates to an adjustable strike for a door.
In order to lock a door, a bolt of the lock will generally engage with a strike mounted in a door frame. If the strike is not aligned with the bolt, it may negatively affect the ability to lock the door, including difficulty in using the lock or requiring a user to exert a tremendous amount of energy to lock the door. In other situations, an improperly aligned strike may cause the lock to prematurely fail. In the event the improperly positioned strike causes an installer to remove and reinstall the striker plate, such reinstallation could leave unwanted holes or other damage in the door frame.
To alleviate this alignment problem, some strikes are adjustable, where they may be repositioned to align with the bolt in an easier manner than traditional strikes. Conventionally, this is achieved through slotted screw holes, which allows the strike to be positioned approximately and then finally adjusted to a correct position. Usually, the initial approximate positioning requires the installer to hold the strike in position whilst marking the door frame or drilling the fixing holes.
However, the slots typically provide a limited amount of adjustment and, if further adjustment is needed, the installer may need to remove and reinstall the strike, which leaves the unwanted holes and/or damage to the door frame. Additionally, performing the multiple tasks of marking the door frame, drilling holes, and positioning the striker simultaneously may contribute to an improper initial approximate position. As a result, it is not uncommon for the installer to place the strike so far out of position that the adjustment provided is insufficient to enable the strike to be set in a correct position.
What is desired, therefore, is a strike that has improved adjustment capabilities. Another desire is a strike that may be adjusted and secured in a final position with reduced damage to the door frame.
It is therefore an object of the invention to provide an adjustable strike that permits repeated adjustments within a door frame.
Another object is an adjustable strike that permits repeated adjustments without using requiring fasteners.
A further object is an adjustable strike that includes a plurality of striker plates, each interchangeable with one another.
The above and other objects, which will be apparent to those skilled in the art, are achieved in the present invention which is directed to an adjustable strike having a striker plate, an end cap removably attached to an end of the striker plate, and the end cap having a first protrusion and a second protrusion, each for attaching the end cap with a door frame. The end cap also has a tab for removably attaching the striker plate with the end cap.
In some embodiments, the striker plate has a receiver for engaging with the tab of the end cap.
In other embodiments, the first and second protrusions are made of a resilient material for flexing into the door frame and providing an interference fit. In some of these embodiments, the first and second protrusions extend in generally opposing directions and outwardly away from a center of the end cap for engaging with the door frame.
In another embodiment, the striker plate has at least one hole through which a fastener passes.
In a further embodiment, the end cap and the striker plate each having a top surface, wherein the top surface of the end cap is higher relative to the top surface of the striker plate.
In an optional embodiment, each of the first and second protrusions includes at least one finger located at an end of each of the first and second protrusions for engaging with the door frame.
In some embodiments, the end cap includes a notch between the first protrusion and a center of the end cap for allowing the first protrusion to flex toward the center when engaging with the door frame.
In another aspect of the invention, an adjustable strike includes a first striker plate and a second striker plate, a first end cap and a second end cap, where each of the end caps has a first protrusion and a second protrusion, where each of the protrusions is for attaching the end cap with a door frame. The invention also has the first and second striker plates each being removably attachable between the first and second end caps, and each of the end caps also have a tab for removably attaching with either the first striker plate or the second striker plate.
In another aspect of the invention, a method for providing an adjustable strike comprises the steps of providing an end cap and a striker plate, extending a first protrusion away from a center of the end cap, and extending a second protrusion away from the center of the end cap in a generally opposing direction from the first protrusion. The method also places a tab on the end cap, places a receiver on the striker plate, and removably attaches the end cap and striker plate together by engaging the tab of the end cap with the receiver of the striker plate.
In an optional embodiment, the method also comprises the step of securing the end cap and striker plate within a door frame without using a fastener. In some of these embodiments, the method includes the step of adjusting the end cap and striker plate within the door frame without using a fastener. In a further embodiment, the method slides the end cap and striker plate within the door frame without fastening or unfastening a fastener.
In another embodiment, the method raises a top surface of the end cap to be higher than a top surface of the striker plate.
In the following more detailed description of the invention, according to one preferred embodiment, reference will be made to the accompanying drawings in which the striker plate is illustrated in conjunction with a door frame section, the drawings including:
In describing the preferred embodiment of the present invention, reference will be made herein to
The striker plate as illustrated and referred to herein is one form that a striker plate may take. Thus, as disclosed, it is in the form of an assembly that includes a body 11 which has at or toward each end means for fixed mounting, namely an elongate mounting slot 12. These slots 12 are aligned and are disposed on a longitudinal axis of the body 11. Screws S can be engaged through the slots to fix the striker plate in a final fixed mounted position.
The body 11, in the illustrated form of striker plate 10, includes a central elongate opening 12. An insert 13 in the body 11 is located adjacent the opening 12. This insert 13 includes one or more openings or apertures 14 with which the bolt(s) of a lock (not shown) can engage.
It will be appreciated by those skilled in the art that a striker plate can take different forms to that described above and illustrated in the drawings. The actual configuration of the body 11, and the manner in which the lock bolt apertures 14 are provided, can vary from manufacturer to manufacturer. Also, different arrangements of elongate slots providing for vertical adjustment of the position of the striker plate 10 can be provided. The arrangement, as illustrated, is therefore by way of example only.
The striker assembly 10 is provided with a first projection 16 from one side of body 11 and a second projection 17 from the other side. These projections 16 and 17 engage with the door surround structure more commonly referred to as a frame F. The projections 16 and 17 thus locate and hold the striker assembly 10 in its lateral position so as to provide a means of positioning the striker assembly 10 accurately in the lateral direction. As well they hold the striker plate 10 in position vertically while the fasteners, such as fixing screws S, are inserted through the elongate slots 12 (or other similar formations).
One or both of the projections 16 and 17 may be biased outwardly. In a preferred form of the invention one or both of the projections 16 and 17 are resilient or exhibit resilience. The projection thus has the effect of being “spring loaded”. This spring loading can be achieved by virtue of the form of construction used to form the projection and/or its disposition relative to the body 11. The projection can be coupled to the body 11, or to the insert 13, or in some other manner, formed as a separate component of the overall assembly of the striker plate 10 and be suitably biased relative thereto.
In the illustrated form of the invention, the projections 16 and 17 are formed integrally as a unit part of the body 11. This provides a convenient form of manufacture and keeps down the number of individual components making up the striker assembly 10.
In the illustrated form of the invention projection 16 is essentially flat and projects laterally from the body 10. The distal edge is formed as an upturned edge or tip 18.
In this form of the invention the other projection 17 inclines upwardly and away from the base of the housing 10 and is, therefore, formed so as to have a degree of resilience or springiness i.e. is effectively “spring loaded”. This projection 17 terminates at its distal edge in a slightly curved edge portion 19.
As can be seen in
The spring loading of the projection 17 thus, not only enables the body 11 with projections 16 and 17 to be forced into place between parts Fa and Fb but also has the effect of wedging or holding the body 11 in place in the door frame F. The projections 16 and 17, therefore, hold the strike assembly in a lateral position as well as in an adjusted vertical position. The fixing screws S can thus inserted to fix the striker assembly 10 in the correction position.
With the striker plate, as illustrated in the drawings, adjustment in the third axis is also possible. The insert 13 is held against screws S′ (which mount the insert 13) by springs (not shown). Hence the position of the insert 13 relative to the surface Fc of frame F against which the body 11 is mounted can be adjusted.
It will be appreciated by those skilled in the art that the embodiment, as described herein and illustrated, shows a striker assembly for a sliding door. However, it will be appreciated that the concept can also be applied to a hinged door.
It will be appreciated by those skilled in the art that the striker plate is open to modification. For example, the projections 16 and 17 can take different forms to accommodate different types of door frame sections. Also, while in the preferred embodiment, a single projection 16 and 17 is provided at each longitudinal side of the elongate body 11, this is only one embodiment and a series of individual projections, lugs, flanges or the like could be provided on one or both side of the striker plate assembly 10. Alternatively, the body 10 could be formed to engage a flange of the frame section F and a single (or plurality) of projections be used to engage another flange or part of frame F to wedge the striker plate in place.
As shown more particularly in
Because striker plate 20 is removably attached to end cap 30, multiple striker plates may be interchangeable with one another depending upon a physical characteristic of each striker plate. For example, an installer or customer may select a particular striker plate based upon color, size, shape, texture, and the like. See
As shown in FIGS. 4 and 14-15, striker plate 20 includes bolt hole 22 for receiving bolt 23 from lock 25, resulting in a locked door. Striker plate 20 also includes slotted fastener hole 24 and round hole 26, each for receiving a fastener for attaching strike 1 to the door frame in a permanent manner after all adjustments to strike 1 are completed.
In reference to
When pushed or snapped into door frame 64 (
In some embodiments, provided upper and lower fingers 44, 46 maintain the relationship with ridge 66 as shown in
In fact, no fasteners are needed before or after snapping in end cap 30 and striker plate 20 and no fasteners are needed before or after repeated adjustments in directions C or D.
For allowing end cap 30 to snap into door frame 64 and, more particularly, hold onto ridge 66, first and second protrusions 36, 40 flex or bend at joints 38, 42 and this flexing or bending is due to notches 39, 43 between each protrusion and center section 32, which allow room for first and second protrusions 36, 40 to flex away from ridge 66 and then, because of the resilient material of each protrusion, return to its shape shown in
In some embodiments, top surface 31 of end cap 30 is not flush with or the same as top surface 21 of striker plate 20. As shown in
In some embodiments, method 100 also includes the step of securing 122 the end cap and striker plate within a door frame without using a fastener. In some embodiments, method 100 adjusts 124 the end cap and striker plate within the door frame without using a fastener. In other embodiments, method 100 slides 126 the end cap and striker plate within the door frame without fastening or unfastening a fastener.
In another embodiment, method 100 includes the step of raising 128 a top surface of the end cap to be higher than a top surface of the striker plate, resulting in the end cap being closer than the striker plate to the lock, door, and other components that mate with or come in contact with strike 1.
Other modifications within the scope of the present invention will be apparent to those skilled in the art.
While the present invention has been particularly described, in conjunction with a specific preferred embodiment, it is evident that many alternatives, modifications and variations will be apparent to those skilled in the art in light of the foregoing description. It is therefore contemplated that the appended claims will embrace any such alternatives, modifications and variations as falling within the true scope and spirit of the present invention.
This is a continuation-in-part patent application that claims priority to and the benefit of U.S. Non-Provisional patent application Ser. No. 11/901,641 filed Sep. 17, 2007, titled “Striker Plate, a Door Jamb Assembly and a Method of Securing a Striker Plate to a Door Surround Structure,” which is incorporated herein by reference in its entirety.
Number | Date | Country | |
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Parent | 11901641 | Sep 2007 | US |
Child | 12568784 | US |