Surface bolt

A surface bolt adapted to be mounted on an inner or outer surface of a closure member, such as a door or window, the bolt being slidable in guides between positions into and out of engagement with a keeper. One of the guides is provided with means to receive the bow of a padlock in two positions, in one position to prevent unlocking of the bolt or, in the other position to prevent locking of the bolt. The bolt may have a recess extending across its outer surface, positioned and dimensioned to be engaged by one of the guides in the locking position of the bolt and to be resiliently and releasably held in such engaged position by a spring.

This invention relates to a surface bolt adapted to be mounted on a closure 
member, such as a door or window, the bolt being slidable in guides 
between positions into and out of engagement with a keeper or the like, 
the bolt being plain or having, optionally, a recess on its outer surface 
adapted to be engaged by one of the guides in the locking position of the 
bolt and to be resiliently and releasably held in such engaged position by 
a spring. One of the guides is provided with means to receive the bow of a 
padlock in positions either to prevent unlocking of the bolt or to prevent 
locking of the bolt. 
The present device is an improvement over similar bolts, operating 
similarly, but without any comparable means for locking the bolt 
selectively in locked or unlocked position. 
In a typical surface bolt having a rectangular cross-section, a retaining 
recess in its surface and a leaf spring, two spaced guides and a combined 
spring mounting and bolt stop are carried on the surface of an elongated 
base plate, having holes near each end for securement to the closure 
element, such as a door. A stop for limiting the retraction movement is 
provided near the end, beyond the rear guide. The only means for retaining 
the bolt in locked position is the retaining recess which engages one of 
the guides, but can be forced out of such engagement, and thus is no means 
at all for holding the bolt in unlocked position. A simpler form of 
surface bolt is a cylindrical bar, slidable in circular guides, and 
adapted to be retained in limit positions by the engagement of the 
operating knob system in notches at each end of an elongated slot in the 
guide housing. 
It is an object of the present invention to provide a bolt having a 
rectangular cross-section, wherein one guide has an extension adapted to 
receive the bow of a padlock in either of two positions to hold the bolt 
in locking position or, alternatively, to hold the bolt in unlocked 
position, as desired. 
It is yet another object of the invention to provide certain improvements 
in the form, construction and arrangement of the several parts whereby the 
above named and other objects may effectively be attained. 
The invention accordingly comprises an article of manufacture possessing 
the features, properties, and the relation of elements which will be 
examplified in the article hereinafter described, and the scope of the 
invention will be indicated in the claims.

Referring to the drawings the bolt 10 is a bar having a somewhat flat 
rectangular cross-section, its forward end 11 being preferably beveled 
along each edge, and its rearward end portion having mounted thereon an 
operating knob 12 with a flat top surface 13. Adjacent the knob, the 
surface of the bolt is, optionally, provided with a transverse recess 14, 
at least the forward wall 15 of which lies at a right angle to the 
longitudinal axis of the bolt. A stop 16 is mounted on the under side of 
the bolt. 
A first guide 17 comprises a base 18, which may be laminated, and a staple 
portion 19, so dimensioned as to permit free sliding movement of the bolt 
therethrough with additional space to accommodate an arcuately profiled 
saddle 20, the center of which bears resiliently against the under surface 
of the bolt. The base of the guide is bored near each end to receive the 
mounting screws (or bolts) 21 for attaching the guide to a surface, as 
near one edge of a door D. 
A second guide 22 comprises a base 23 and a staple portion 24, similar to 
the staple portion 19, the base being centrally bored at 25 and in the 
form shown, provided with a coil spring 26 under compression, biasing a 
saddle 27 toward the under surface of the bolt. The spring could, if 
desired, be constituted by a body of compressible material. 
The base 23 corresponds to the upper lamination of base 18, the lower 
lamination being replaced by a lock plate 28, extending under the guide 
and rearwardly therefrom, the plate having a pair of upturned ears 29 with 
figure- 8 shaped holes 30 having upper and lower lobes to receive the bow 
of a padlock in either of two positions, as shown in broken lines in FIGS. 
1 and 3, or other retraction-arresting device such as a pin or bar. The 
base 23 and plate 28 are bored near each end of the base to receive 
mounting screws (or bolts) 31. 
The bolt set is completed by the provision of a keeper 33, having an 
opening 34 sized to receive freely the forward end of the bolt and adapted 
to be mounted on a support, such as a door jamb J, by means of screws (or 
bolts) 35. 
The recess 14, when present, has a dimension, lengthwise of the bolt, such 
that it can receive freely the top run 24' of the staple 24, as shown in 
FIGS. 1 and 2, the bolt being urged into that position by the spring 26. 
When so latched, the wall 15 will catch against the edge of the guide, and 
the bolt will not accidentally retract. It is difficult, but not 
impossible to release the bolt from outside (i.e., from below FIG. 1), and 
the addition of a padlock materially increases the security. In order to 
free the bolt, in normal operation, pressure is applied in the direction 
of the arrow A in FIG. 1, overcoming the bias of the spring 26, and the 
bolt can then be retracted as shown in FIG. 3. In the absence of a recess 
14, the plain bolt could be freely moved between locked and unlocked 
positions. 
The respective guides should be so located that the stop 16 will hit the 
saddle 27 (as in FIG. 3) before the forward end of the bolt is drawn out 
of the guide 17 but after the bolt end has cleared the keeper 33. The ears 
29 and holes 30 are so positioned that a padlock bow (shown in broken 
lines) passing therethrough will prevent retraction of the bolt out of the 
keeper. This is true whether the bow is in the upper or lower portions 
(lobes) of the holes 30, but the greatest security is attained by using 
the lower portion, as in FIGS. 1 and 2, so that the padlock bow will be 
adjacent the end of the bolt and constitute a positive barrier against any 
movement thereof. If passed through the upper portions of the holes, the 
bow would act only against the side of the knob 12 which might, for any 
reason, become loose or broken off so that the bolt could be retracted 
through the space beneath the bow. 
It may frequently be important or desirable to provide means to prevent the 
bolt from being moved, accidentally, inadvertently or mischievously, from 
unlocked position to locked position, and such means is provided herein by 
the upper portion of the holes, as shown in FIGS. 3 and 4. 
In these figures the bolt is shown in retracted (unlocked) position, with 
the knob 12 entirely rearward of the line of the holes 30 and a padlock 
bow (broken lines) passing through the upper portions of the holes, above 
the bolt and in a position to stop forward movement of the knob. In this 
position the bolt cannot be subjected to strong closing forces (except by 
a blow against its rear end) so that the retention of the knob, as 
described, securely prevents undesired locking of the bolt. 
While the holes 30 are shown and described as being "figure- 8 shaped" in 
order to have definitive upper and lower portions, it will be understood 
that the proportions of the elements involved may be such that each said 
portion can be constituted by a separate hole, closely adjacent one 
another. 
Apart from the mechanical advantages of the structure described, the 
location of the stop 16 between the guides and the spring 26 within a 
guide, both out of sight, enhances the appearance of the assembly and 
makes for a very neat design. 
It will thus be seen that the objects set forth above, among those made 
apparent from the preceding description, are efficiently attained and, 
since certain changes may be made in the above article without departing 
from the spirit and scope of the invention, it is intended that all matter 
contained in the above description and shown in the accompanying drawings 
shall be interpreted as illustrative and not in a limiting sense.