This invention relates to flush bolts, and more particularly, to flush bolts having bolt heads that are operated by a cam surface in a door strike assembly.
Flush bolts are used to lock one of the doors in a double door set, such as those used in hospitals and schools where wide exits are needed. The door with the flush bolt is closed first. When the other door is closed, the flush bolt locks the first door in place. When the other door is opened, the flush bolt automatically unlocks the first door, so that it can be opened, too, if desired.
The flush bolt includes a bolt head that extends from the top or bottom of the first door, and a strike that extends from the edge of the door that faces the other door when the two doors are closed. The strike is spring loaded in a strike assembly, and is depressed when the second door closes flush with the first door. The strike is similar to conventional latches that enter a door jamb, but in a flush bolt the strike is kept in the strike assembly when the door is closed, and does not enter the second door.
As the strike is pressed into the first door, the bolt head is pushed out of the door into a lock cavity in the door frame. However, the linkage between the strike and the bolt head in conventional flush bolts is fairly complex and expensive. Thus, there is a need for flush bolts having simpler construction.
The above-listed need is addressed by a flush bolt having a simple construction. The flush bolt includes a bolt head and a strike. The bolt head moves out of the flush bolt in response to movement of the strike into the flush bolt, through a movable cam surface in the flush bolt. The bolt head is withdrawn towards the flush bolt when the strike is released.
The above mentioned and other features of this invention and the manner of obtaining them will become more apparent, and the invention itself will be best understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, in which:
As seen in
The bolt assembly 12 has a bolt head 16 that can be selectively withdrawn into the door 15 or pushed out of the door 15 (and preferably pushed into a door jamb in an adjoining door frame (not shown)) to release and lock the door 15 in the door jamb, respectively. The bolt head 16 is typically installed in the top or bottom of the door 15.
In addition to the bolt head 16, the bolt assembly 12 includes a housing 17 having a cavity 18, a compression spring 19, an override spring 20, a plunger 22 in a cavity in the bolt head 16, and a pin 24, such as a cotter pin. The pin 24 is secured in openings (not shown) in the housing 17, and passes through a slot 25 in the plunger 22. The pin 24 allows movement of the plunger 22 within a desired range, yet prevents the plunger 22 from escaping completely out of the housing 17. A bolt head guide 26 and a back plate 27 are swaged together over an extending edge 28 in the housing 17, to secure the other components in the bolt assembly 12. Screws 29 secure the bolt assembly 12 in the door 15.
The strike assembly 14 includes a barrel 40, an end plug 42 with a boss 43, a compression spring 44, a cam 46 and a strike 48. A back plate 49, two spacers 50 and a dress plate 51 are also provided.
The back plate 49 is shown in greater detail in
The spacers 50 are shown in
The dress plate 51, shown in greater detail in
The spacers 50 also have a cut out 59, and the barrel 40 has flanges 60, as seen in
The barrel 40 (
When the strike assembly 14 is assembled, the end plug 42 is placed in the barrel 40, as seen in
Assembly of the strike assembly 14 is completed by swaging. The material around the openings 58 in the dress plate 51 permanently secures the dress plate 51 to the back plate 49. The dress plate 51 secures the strike assembly 14 in the door, but has an opening 65 that allows the strike 48 to pass through the dress plate. A ledge or other suitable offset (not shown) limits movement of the strike and prevents it from going too far out of the strike assembly.
Referring again to the bolt assembly 12, the compression spring 19 is secured on one end by the back plate 27. The other end of the spring 19 presses against a lip 66 on the bolt 16. The spring 19 generates a spring force which pushes the lip 6 against a bottom 67 of the housing 17 in the absence of counteracting forces which will be described. The bottom 67 can be any suitable structure, such as tongues, that sufficiently fix the resting position of the bolt head 16, but is open enough to allow passage of the plunger 22 through the bottom 67. In this manner, the compression spring 19 withdraws the bolt 16 into the bolt assembly 12. In this state, the flush bolt does not lock the door 15 in place.
When the plunger 22 is raised, as in
Referring again to the strike assembly 14, one end of the spring 44 is held in place by the boss 43 on the end plug 42, and the other end of the spring 44 presses against the cam 46. The cam 46 is operatively connected to the strike 48. The spring 44 creates spring force that normally presses the strike 48 through the opening 65 in the dress plate 51, and out of the strike assembly 14, as in
The cam 46 includes a cam surface 70, also shown in
When the adjacent door 68 is oriented towards an edge 80 in the door 15, by closing the adjacent door 68 in the direction shown in
Referring again to
The strike assembly 14 shown in
The cam 46 also has grooves 90 (
After removal, the cam 46 can be rotated 180 degrees from the orientation shown in
The flush bolt 10 is easily installed in a door by drilling two large holes, typically 1 inch in diameter, for the bolt assembly 12 and the strike assembly 14, and screw holes for the back plate 26, dress plate 50 and screws 29. The strike assembly is installed first, followed by the bolt assembly 12.
While the principles of the invention have been described above in connection with specific apparatus and applications, it is to be understood that this description is made only by way of example and not as a limitation on the scope of the invention.
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Number | Date | Country | |
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20060208499 A1 | Sep 2006 | US |