This invention relates to latch handle assemblies for enclosures, and, more particularly, to an assembly in which a latch handle for actuating a latch may be locked to provide an added degree of protection from unwanted opening of the enclosure.
Latches are routinely used on chests, cabinets, tool boxes and other containers or enclosures where a lid or door must be retained in a closed and locked position. Typically, latches include a latch plate moveable between a latched position and an unlatched position. When unlatched, the latch plate may receive a striker pin mounted to the lid of a toolbox, for example, as the lid is moved to a closed position. Once the lid is closed, the latch plate moves to the latched position to capture the striker pin and retain the lid in the closed position.
Truck tool boxes and other enclosures having a relatively long length dimension typically include two or more latches spaced along the lid and the front wall of the enclosure to ensure that the lid is securely held in place when in the closed position. When two latches are provided, for example, one or both may be provided with a latch handle which can be actuated to move a first one of the latches to an unlatched position in which the striker pin is released thus allowing the lid to open. In many enclosure designs, an operating rod is extended between the latches which is effective to actuate the second one of the latches in response to unlatching of the first one. See, for example, U.S. Pat. Nos. 6,334,560 and 9,260,890.
Another common feature in latching systems of the type described above is a locking mechanism associated with one or both of the latches. Typically, a key cylinder is provided which, when unlocked by a key, causes one latch to open and allows a handle to move the operating rod such that the second latch is also unlatched. In some designs, a key cylinder may be positioned at both of the latches so that the enclosure may be unlocked at either latch.
One limitation of locking arrangements such as discussed above is that key cylinders are not particularly robust and may be defeated by one determined to gain entry into the enclosure. In the case of truck tool boxes, this can result in the theft of valuable tools and other equipment. No additional security measures are conventionally provided in truck tool boxes, and it is not practical for owners to remove and replace the contents of a box overnight, at a job site or other times when his or her vehicle is left unattended.
This invention is directed to a latch handle assembly for enclosures such as truck tool boxes which includes a latch handle that may be secured by a padlock to the front wall of the box to prevent movement of the latch handle, and, thus, opening of the box lid.
In the presently preferred embodiment, a truck box is provided with two spaced latches operative between the lid and front wall of the box. An operating rod is connected between the latches in such a way that when one of the latches is moved to an unlocked position the second latch is simultaneously unlatched. Actuation of the operating rod to unlatch the latches, in turn, occurs in response to first unlocking a key cylinder to position an operating rod actuator in alignment with an end of the operating rod. The latch handle, which is connected to the operating rod actuator, is then moved causing the operating rod to unlatch the first and second latches. The latch handle is mounted at the front wall of the box by a face plate having a shelf formed with one or more openings. The latch handle rests atop the shelf of the face plate in position such that a central opening or one or more slots formed in the latch handle align with one of the openings in the shelf. The shackle of the padlock may be inserted through the aligning slot or central opening in the latch handle, and the opening in the shelf, and then locked in the padlock body to secure the latch handle to the face plate. Regardless of whether or not the operating rod actuator is placed in alignment with the operating rod by the key cylinder, the operating rod is prevented from movement required to unlatch the latches when the padlock locks the latch handle to the face plate.
The latch handle assembly of this invention therefore provides an additional level of protection from unwanted entry into the truck tool box or other enclosure. Even if the key cylinder(s) is defeated, the lid of the box will not open because the latch handle, and, in turn, the operating rod, are prevented from movement by the padlock.
The structure, operation and advantages of the presently preferred embodiment of this invention will become further apparent upon consideration of the following description, taken in conjunction with the accompanying drawings, wherein:
Referring initially to
The interior 24 of the truck box 10 may include a pair of plates 26, 28 located near respective end walls 16, 18. Each of the plates 26, 28 supports one end of a gas spring 30 which is mounted at its opposite end to the top wall 20. The top wall 20 also mounts a pair of spaced striker bars 32. Each striker bar 32 is positioned in alignment with a latch, such as a rotary latch (not shown), mounted to the front wall 12 of the box 10. The latches are commercially available items whose construction forms no part of this invention. Conventionally, the latches are connected to an operating rod 34 which is movable in a direction toward one or both of the end walls 16, 18. See
Referring now to
The assembly 38 comprises a latch handle 40 having a center section 42 in between two end sections 44, 46 that are bent or otherwise formed in opposite directions at approximately a 90° angle relative to the center section 42. The end sections 44, 46 may be grasped by one's fingers to move the latch handle 40 toward one of the end walls 16, 18 of box 10. The center section 42 of latch handle 40 is formed with four holes 48, a key opening 50 in between the holes 48, and, an elongated, vertically oriented slot 52. For purposes of the present discussion, the terms “vertical,” “horizontal,” “top” and “bottom” refer to the orientation of the apparatus as depicted in the Figs.
The lockable latch handle assembly 38 further comprises a face plate 54 having a vertically oriented wall 56 connected to or integrally formed with a horizontally disposed shelf 58. The wall 56 is formed with a generally rectangular-shaped window 60 which aligns with a similarly shaped opening 62 in the front wall 12 of the box 10. Four holes at each corner of the wall 56 each receive a fastener 64 for insertion through holes 66 in the front wall 12. The shelf 58 is preferably formed with spaced openings 68.
Within the interior 24 of the box 10, the assembly 38 includes a slide plate 70, a key cylinder 72 and an operating rod actuator 74. The slide plate 70 is formed with an elongated horizontally disposed slot 76 at each of its four corners, a central opening 78 and four holes 80. An end section 82 is connected to or integrally formed with the slide plate 70 which extends at an approximately 90° angle thereto. Preferably, a bushing seal plate 83 is mounted to the inner surface of front wall 12 in contact with the slide plate 70 to facilitate movement of the slide plate 70, as discussed below. Additionally, the operating rod actuator 74 has an arm 84 and a mounting plate 86 formed with a bore 88.
Referring now to
The latch handle 40 is fixed to the slide plate 70 by four fasteners 96 each of which is inserted through a hole 48 in the center section of the latch handle 40, through a cylindrical-shaped spacer 98 and then through respective holes 80 in the slide plate 70. The ends of each fastener 96 receives a nut 100 (
It can be appreciated from the foregoing description that movement of the latch handle 40 in a direction toward one of the end walls 16, 18 of box 10 carries with it the slide plate 70. The slide plate 70 is fixed to the latch handle 40 and it slides along roller bushings 90 located within slots 76 relative to the fasteners 64 extending from the face plate 54. In turn, since the key cylinder 72 is connected to the slide plate 70, and the actuator 74 is mounted to the key cylinder 72, they too move with the latch handle 40 and slide plate 70.
The lockable latch assembly 38 of this invention operates as follows. As noted above, the operating rod 34 is adapted to move the latches from a latched position to an unlatched position. In order to effect movement of the operating rod 34, the key cylinder 72 must rotate the actuator arm 84 of the actuator 74 from a bypass position depicted in
An important aspect of this invention is the provision of a locking feature in addition to that afforded by key cylinder 72. As best seen in
While the invention has been described with reference to a preferred embodiment, it should be understood by those skilled in the art that various changes may be made and equivalents substituted for elements thereof without departing from the scope of the invention. In addition, many modifications may be made to adapt a particular situation or material to the teachings of the invention without departing from the essential scope thereof. Therefore, it is intended that the invention not be limited to the particular embodiment disclosed as the best mode contemplated for carrying out this invention, but that the invention will include all embodiments falling within the scope of the appended claims.
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