This present invention relates to storage units and in particular storage cabinets with latching mechanisms.
A variety of storage devices are available in today's marketplace. For instance, industrial storage cabinets may be used to store tools or other devices. In another example, storage cabinets may be used in offices to store various types of office supplies.
Storage cabinets may include a single or multiple doors, which are opened to gain entry to supplies within the storage cabinet. The doors themselves may often be locked to prevent unauthorized entry into the storage cabinet. Often, workers may want to place additional items in the cabinet. Since the worker is bringing additional items to the cabinet, he or she may be carrying these supplies in his or her arms. Thus, the worker may not be able to open the cabinet without placing the additional supplies aside or dropping the supplies in an attempt to open the doors.
Some supply cabinets include foot pedal arrangements whereby a worker, for example, may press the foot pedal and open the door. In this case, the worker would not need to place the materials being carried aside in order to open the doors of the cabinet. However, the drawback associated with these cabinets is that they can be opened only by using the foot pedal.
Thus, there is a need in the prior art for a storage cabinet having a latching mechanism that can be latched or unlatched by using either an upper actuator or a lower actuator.
There is a further need in the prior art for a storage cabinet that prevents damage to the latching mechanism under abusive conditions.
The present invention meets the shortcomings of the prior art by providing a storage cabinet having a latching mechanism that can be unlatched by the use of either an upper actuator or a lower actuator. The upper actuator may comprise a hand knob while the lower actuator may comprise a foot pedal. Thus, if an operator has his arms full and wants to open the doors of the cabinet, he can simply do so by actuating the foot pedal. Alternately, the doors of the cabinet may be opened by actuating the hand knob. This design affords the operator much flexibility in accessing the storage cabinet.
The present invention further meets the shortcomings of the prior art by providing a storage cabinet with a latching mechanism that is protected from damage under abusive conditions.
The foregoing and other advantages of the present invention will be apparent from the following more particular description of preferred embodiments as illustrated in the accompanying drawings.
a) is another perspective view of the storage cabinet of the present invention, with one door in the closed position.
b) is a perspective view of a recess and handle on a sidewall of the cabinet of
c) is a detailed view of the lower actuator of the cabinet of
a) is a perspective view of one of the doors of the storage cabinet shown in
b) is a perspective view of a latch used on the storage cabinet shown in
a)-4(c) are perspective, side and top views, respectively, of the top and bottom plate assembly of the latching mechanism used in the storage cabinet shown in
a) is a perspective view of the latching mechanism used in the storage cabinet shown in
b) is a top view along lines A-A of
c) is a side view along lines B-B of
a) is a perspective view of the latching mechanism used in the storage cabinet shown in
b) is a side view along lines A-A of
Turning now to the drawings, a storage cabinet 10 is shown in
Each of the side walls 16 includes a recess 26 within which a pivoting handle 30 is mounted. The cabinet further includes three shelves 32 mounted within the cabinet 10 for the storage of items. However, the number of shelves may vary depending upon the needs of the user. The height of the shelves may also be adjusted to allow the cabinet to house different sized items.
The cabinet further includes two doors 34, each of which is pivotally coupled with a front edge of a respective sidewall 16 via a hinge type pivot 35. Each door 34 is pivotable between an open position in which the cavity 24 is accessible, and a closed position in which the door 34 abuts against the front edges of the floor 12, sidewalls 16 and ceiling 22 and prevents access to the cavity 24. Since the doors are mirror images of each other, only one door will be described with the understanding that the discussion applies to the other door as well. It should also be understood that, when describing a component of the door relative to the “front” or “rear” of the door, these directions are the same as the front and rear directions of the cabinet.
Referring to
As shown in
A latching mechanism 60, shown in
The latching mechanism 60 further includes a top plate 64, a middle plate 66, and a bottom plate 68, the lateral edges of which slide along the rails 62.
As can be seen from
The top and bottom plates are provided with a number of protruding fingers 74. Specifically, one set of fingers is provided approximately in the middle of the top plate 64, one set at the top of the bottom plate 68, and another set at the bottom of the bottom plate 68. Each set of protruding fingers carries a rod 76, as seen in
The middle plate 66 is provided with an upper actuator 80 that may take the form of a hand knob. The hand knob 80 comprises a knob mounted onto a shaft. The shaft of the knob extends through the upper actuator slot 50 of the center post 44 and is coupled to the middle plate 66 by appropriate means such as welding or via bolts, as shown in
The latching mechanism 60 further includes a mounting plate 82 that is provided along the lower surface of the bottom plate 68. The mounting plate 82 functions to operatively couple a lower actuator 84 to the latching mechanism 60. The mounting plate 82 is provided with an opening 86 through which the lower actuator 84 extends.
In the preferred embodiment, the lower actuator 84 comprises a foot pedal that extends forwardly through the lower actuator slot 52 of the center post 44. The foot pedal 84 is pivotably mounted at 85 to the mounting plate 82 and operatively coupled to one end of a latch rod 90. As can be seen from
The storage cabinet is further provided with a locking mechanism 96. Referring to
The operation of the present invention will now be described. To latch the doors 34 of the cabinet 10, the doors 34 are simply moved to the closed position. The latches 36 carried by the doors 34 move past the front panel of the center post 44 and mate with the rods 76 of the latching mechanism positioned along the rear of the center post 44. Specifically, the rods 76 move upwardly along the ramped portions 42 of the latches 36 and then fall into the slot 40 of the latches 36. The latching mechanism in this position is latched.
To open the cabinet 10 using the foot pedal 84, the operator simply depresses the foot pedal. With reference to
The profile of latches 36 is designed to produce an outward force to push the doors 34 outwardly and away from the cabinet. Due to the interaction of the rods 76 with the tangs 43 on the latches, the latches 36 and thus the doors 34 are forced outwardly, away from the rods 76 and the center post 44 once the foot pedal 84 is released. Thus, the doors 34 are opened without the operator using his or her hands.
Alternately, the cabinet 10 can be opened using the hand knob 80. To do so, the operator lifts the knob 80 upwardly. As the knob 80 is coupled to the middle plate 66, lifting the knob 80 causes the middle plate 66 to slide along the rails 62 and move upwardly. The upper surface of the middle plate 66 abuts against the lower surface of the top plate 64 and in turn moves the top plate 64 upwardly. Since the top plate 64 is coupled to the bottom plate 68, the bottom plate 68 moves upwardly as well. The upward movement of the top and bottom plates lifts the rods 76 out of engagement with the latches 36, once again placing the latching mechanism in its unlatched position. The foot pedal 84 remains unaffected. Due to the interaction of the rods 76 with the latch profile, the latches 36 and thus the doors 34 are forced outwardly, away from the rods 76 and the center post 44, once the hand knob 80 is released. In this instance, the doors 34 are opened by the operator using the hand knob 80.
Due to the arrangement of the plates, actuation of the latching mechanism by the hand knob 80 is independent of actuation of the latching mechanism by the foot pedal 84. Each actuator operates independently of each other and the operator can use either actuator to open the cabinet doors.
Referring to
To unlock the cabinet 10, the operator simply uses a key to unlock the padlock 104. In doing so, the body of the padlock springs forward via the padlock's own internal spring and moves out of position of the security rod 100, thereby allowing upward movement of the latching mechanism 60 from either the upper or lower actuator.
The present invention provides protection from damage by possible intruders applying high levels of force to the foot pedal, which may lead to possible failure of the locking mechanism. If the foot pedal 84 is pressed while the cabinet 10 is in the locked position, the compression spring 88 absorbs all of the input energy and simply compresses, thereby preventing the transfer of force/energy into the latching mechanism and subsequent damage thereof.
Further, the middle plate 66 is slotted intentionally so that any abusive force placed upon the upper actuator 80 while the cabinet 10 is in the locked position will result in the bending of the upper actuator 80 via the slot 81 in the middle plate 66 while the cabinet 10 remains secured (locked).
While certain features and embodiments of the present invention have been described in detail herein, it is to be understood that the invention encompasses all modifications and enhancements within the scope and spirit of the following claims.
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