The present application generally relates to security containers, more particularly locking security containers and locking mechanisms for locking security containers.
Locking security containers are used by end-users who need to secure items with a high degree of confidence. Conventional locking security containers may be utilized by end-users in satisfaction of certain specification including, for example, Federal Specification AA-F-358, which is directed to un-insulated filing cabinets that are designated to meet filing and storage criteria. Such locking security containers are resistant to covert and surreptitious entry.
Conventional locking security containers do not provide a visual indication as to whether the security container itself is locked or unlocked when latched. Accordingly, alternative locking security containers may be desired.
In one embodiment, a locking mechanism includes a door with an interior facing surface and an exterior facing surface, a handle assembly with a handle that is selectively repositionable between a locked handle position and an unlocked and latched handle position, an engagement bolt coupled to the handle assembly and slidably mounted to the interior facing surface of the door, a biasing member coupled to the engagement bolt, wherein the biasing member applies a force to the engagement bolt biasing the engagement bolt in an inward direction, and a lock comprising a lock housing and a locking bolt that is selectively repositionable between a locked position to inhibit translation of the engagement bolt and an unlocked position to allow translation of the engagement bolt. The handle is biased toward the unlocked and latched handle position with the locking bolt in the unlocked position.
In another embodiment, a locking cabinet includes a frame, a door slidably coupled to the frame, the door having an interior facing surface and an exterior facing surface, a locking mechanism having a handle assembly comprising a handle that is selectively repositionable between a locked handle position, an unlocked and latched handle position, and an unlocked and unlatched handle position, a first engagement bolt coupled to the handle assembly and slidably mounted to the interior facing surface of the door. The first engagement bolt is selectively engaged with the frame. A second engagement bolt is coupled to the handle assembly and slidably mounted to the interior facing surface of the door. The second engagement bolt is selectively engaged with the frame. A biasing member is coupled to the first engagement bolt, such that the biasing member applies a force to the first engagement bolt biasing the first engagement bolt in an inward direction, and a lock comprising a lock housing and a locking bolt is selectively repositionable between a locked position and an unlocked position. When the locking bolt is in the unlocked position, the biasing member applies the force to the first engagement bolt, biasing the handle into the unlocked and latched handle position.
These and additional features provided by the embodiments described herein will be more fully understood in view of the following detailed description, in conjunction with the drawings.
The embodiments set forth in the drawings are illustrative and exemplary in nature and not intended to limit the subject matter defined by the claims. The following detailed description of the illustrative embodiments can be understood when read in conjunction with the following drawings, in which:
Various security containers, for example filing cabinets, are used to store sensitive documents and/or materials for personal, commercial, and government applications. The security containers include a locking mechanism that may selectively be locked or unlocked to allow selectively restricted access to the security cabinet. Conventional designs of locking mechanisms for security containers do not provide indication of whether a security cabinet is locked or unlocked. Such convention designs of locking mechanisms therefore require periodic manual inspection to verify the locked/unlocked status of the locking mechanism. Embodiments of the present disclosure are directed to locking mechanisms for security cabinets, and in particular to locking mechanisms for security cabinets that provide a visual indication of whether the security cabinet is locked or unlocked. The security containers include a handle assembly that is coupled to the locking mechanism. The handle assembly may be positioned in at least three positions corresponding to the security container being locked and latched; being unlocked and latched; and being unlocked and unlatched. Because the handle assembly is positioned in these plurality of positions that correspond to the lock and latch status of the locking mechanism, indication of the lock and latch status of the locking mechanism may be readily understood by visual inspection.
Referring to
Referring to
Referring to
The locking bolt 111 of the lock 103 selectively extends outward from the lock housing 110 to a locked position, as shown in
The dial 109 (
Still referring to
The locking mechanism includes an engagement leg that is pivotally coupled to the cam 118 and at least one of the first engagement leg 115 and the second engagement leg 116. A first engagement leg 115 and a second engagement leg 116 are coupled to the first engagement bolt 107 and the second engagement bolt 108, respectively. The first engagement leg 115 and the second engagement leg 116 are pivotally coupled to the cam 118 of the handle assembly 104, thereby coupling the first engagement bolt 107 and the second engagement bolt 108 to the cam 118. The first engagement leg 115 and the second engagement leg 116 may be generally rigid bodies that transfer force to reposition the first engagement bolt 107 and the second engagement bolt 108 without deformation.
The locking mechanism 100 includes a biasing member. In one embodiment, the locking mechanism 100 includes a first biasing member 117. The first biasing member 117 is positioned towards the interior facing surface 112 of the door 101. The first biasing member 117 is coupled to the door 101 and to the first engagement leg 115, which is coupled to the first engagement bolt 107. The first biasing member 117 applies a force to the first engagement leg 115 that biases the first engagement leg 115 in an inward direction 121. The first biasing member 117 applies a force to the first engagement bolt 107 through the first engagement leg 115 that biases the first engagement bolt 107 in the inward direction 121 (i.e., in a direction away from engagement with the frame 102). In embodiments, the first biasing member 117 is a tension spring. In alternative embodiments, the first biasing member 117 may be a torsion spring or a compression spring, acting to bias the first engagement leg 115, and thus the first engagement bolt 107, in the inward direction 121.
As described above, the locking mechanism 100 includes the handle assembly 104, a portion of which is positioned towards the interior facing surface 112 of the door 101 and a portion of which is positioned towards the exterior facing surface 106 (
Referring to
Referring again to
In embodiments, the locking cabinet 90 further includes a second biasing member 119 mounted towards the interior facing surface 112 of the door 101. In
The second biasing member 119 may be mounted on the interior facing surface 112 of the door 101 by a pair of jam nuts 140 that engage threads on the second biasing member 119. By mounting the second biasing member 119 using the pair of jam nuts 140, the linear position of the second biasing member 119 may be adjusted in the inward direction 122 or the outward direction 114 to adjust the position of the second biasing member 119 in relation to the cam 118, thereby accommodating various positions of the cam 118. The second biasing member 119 may be positioned such that the second biasing member 119 is free from contact with the cam 118 when the handle assembly 104 is positioned in the locked handle position (
Referring to
Referring back to
The operation of the locking mechanism 100 transitioning between the locked position, the unlocked and latched position, and the unlocked and unlatched position will now be described. As depicted in
In an additional embodiment, the first engagement bolt 107 and the second engagement bolt 108 may engage a first vertical bar (not depicted) and a second vertical bar (not depicted) within the frame 102, where the first vertical bar and the second vertical bar control access to other doors of the locking cabinet 90 (see
Referring in particular to
Referring to
The repositioning of the first engagement leg 115 by the first biasing member 117 also causes the cam 118 to pivot in direction 124 as the cam 118 is pivotally coupled to the first engagement leg 115. As the cam 118 pivots, the cam 118 draws the second engagement leg 116 in the inward direction 122. As the second engagement leg 116 is drawn in the inward direction 122, the second engagement bolt 108 is at least partially retracted from the frame 102.
As the cam 118 pivots, a surface 120 of the cam 118 may be brought into contact with the second biasing member 119. The second biasing member 119 exerts a force on the surface 120 of the cam 118 opposing the rotation of the cam 118 in direction 124. As the surface 120 of the cam 118 is brought into contact with the second biasing member 119, the second biasing member 119 applies a force to the cam 118 in a direction in opposition to the force exerted on the cam 118 from the first biasing member 117 through the first engagement leg 115. The opposing biases of the first biasing member 117 and the second biasing member 119 maintain the position of the cam 118 such that the first engagement bolt 107 and the second engagement bolt 108 are maintained in a partially retracted position from the frame 102.
While the first engagement bolt 107 and the second engagement bolt 108 are partially retracted from the frame 102, the first engagement bolt 107 and the second engagement bolt 108 remain at least partially engaged with the frame 102, thereby latching the door 101 to the frame 102.
As the cam 118 is rotated by the first biasing member 117 through the first engagement leg 115, the cam 118 pivots the handle 105 of the handle assembly 104 about the cam 118. As the cam 118 pivots the handle 105, the handle 105 pivots in direction 123 from the position of the handle 105 in the locked handle position, such that the handle 105 is no longer oriented in the first rotational position and is instead oriented in a second rotational position in the unlocked and latched handle position. Accordingly, based on the position of the handle 105, the status of the locking mechanism 100 as being outside of the locked handle position is readily visible to an observer.
Referring now to
To retract the first engagement bolt 107 and the second engagement bolt 108 from the frame 102, a user may manipulate the handle 105 of the handle assembly 104 to pivot in direction 123 from the unlocked and latched position. As the handle 105 pivots about the cam 118, the handle 105 causes the cam 118 to pivot in direction 124. Accordingly, as shown in
To unlatch the locking cabinet 90, enough force must be applied to the handle 105 to overcome the biasing force of the second biasing member 119 on the cam 118. As the cam 118 is rotated into the unlatched position by the handle 105, the cam 118 repositions the first engagement leg 115 in the inward direction 121, and the second engagement leg 116 in the inward direction 122. The cam 118 repositions the first engagement leg 115 in the inward direction 121, and the first engagement leg 115 consequently repositions the first engagement bolt 107 in the inward direction 121. Similarly, the cam 118 repositions the second engagement leg 116 in the inward direction 122, and the second engagement leg 116 consequently repositions the second engagement bolt 108 in the inward direction 122.
In the unlocked and unlatched position, the first engagement bolt 107 and the second engagement bolt 108 are fully withdrawn within the door 101. As the second engagement bolt 108 is drawn in the inward direction 122, the latch 125 engages the second engagement bolt 108. As the latch 125 engages the second engagement bolt 108, the latch 125 maintains the position of the second engagement bolt 108 as being retracted within the door 101, thereby maintaining the second engagement bolt 108 in the unlocked and unlatched position. By maintaining the position of the second engagement bolt 108, the latch 125 opposes the biasing force of the second biasing member 119.
As the latch 125 retains the position of the second engagement bolt 108, the latch 125 maintains the position of the cam 118 in the unlocked and unlatched position through the second engagement leg 116. As the cam 118 is maintained in position, the cam 118 maintains the position of the first engagement leg 115 in a retracted position. As the position of the first engagement leg 115 is maintained in the unlocked and unlatched position by the cam 118, the first engagement leg 115 maintains the position of the first engagement bolt 107 in the unlocked and unlatched position, with the first engagement bolt 107 fully withdrawn within the door 101. Accordingly, the latch 125 acts to maintain the positions of the first engagement bolt 107 and the second engagement bolt 108 in the unlocked and unlatched position.
With the first engagement bolt 107 and the second engagement bolt 108 fully withdrawn within the door 101, the interior of the locking cabinet 90 may be accessed by pulling the door 101 away from the frame 102.
When the door 101 is pushed back into the frame 102 in the unlocked and unlatched position, the tab 127 of the latch 125 engages the frame 102. As the tab 127 engages the frame 102, the tab 127 of the latch 125 causes the latch 125 to disengage from the second engagement bolt 108. As the latch 125 disengages from the second engagement bolt 108, the second biasing member 119 causes the cam 118 to pivot in direction 129 opposite of direction 124. As the cam 118 is pivoted in direction 129, the cam 118 returns the locking mechanism 100 to the unlocked and latched position, as shown in
Referring to
The second biasing member 219 positioned on a guide 230 that is pivotally coupled to the cam 220 and is slidably inserted into a bracket 231 that is coupled to the door 101. In embodiments, the second biasing member 219 may include a compression spring. The bracket 231 includes a surface 232 that is positioned proximate to the second biasing member 219. The second biasing member 219 is positioned to engage the surface 232 of the bracket 231 as the cam 220 pivots in direction 124. The second biasing member 219 is positioned such that the second biasing member 219 does not contact the surface of the bracket 231 when the locking mechanism 100 is in the locked position, as shown in
In operation, similar to the embodiment described above with respect to
Upon contact with the bracket 231, the second biasing member 219 applies a force to the cam 220 that opposes the first biasing member 117. In this way, the second biasing member 219 acts to maintain the locking mechanism in the unlocked and latched position, as describe above with respect to
Referring to
The first biasing member 317 is coupled to the cam 320 and the bracket 331 of the door 101 and applies a rotational force to the cam 320 biasing the cam 320 to a rotational position. In embodiments, the first biasing member 317 may include a torsion spring coupled to the cam 320 and the bracket 331. In particular, the first biasing member 317 may bias the cam 320 to rotate in direction 124 such that the first engagement leg 115 and thus the first engagement bolt 107 translate inward in the inward direction 121. Similarly, the first biasing member may bias the cam 320 to rotate such that the second engagement leg 116 and thus the second engagement bolt 108 translates inward in the inward direction 122.
In operation, similar to the embodiment described above with respect to
Upon contact with the bracket 331, the second biasing member 319 applies a force to the cam 320 that opposes the first biasing member 317. In this way, the second biasing member 319 acts to maintain the locking mechanism in the unlocked and latched position, as describe above with respect to
It should now be understood that security containers according to the present disclosure include a locking mechanism that provides a visual indication of whether the security cabinet is locked or unlocked. The security containers include a handle assembly that is coupled to the locking mechanism. The handle assembly may be positioned in at least three positions corresponding to the security container being locked and latched; being unlocked and latched; and being unlocked and unlatched. The handle assembly may include a first and a second spring that selectively position the handle assembly between the plurality of positions through selective contact with the components of the lock mechanism. Because the handle assembly is positioned in these plurality of positions that correspond to the lock and latch status of the locking mechanism, indication of the lock and latch status of the locking mechanism may be understood by visual inspection.
It is noted that the terms “substantially” and “about” may be utilized herein to represent the inherent degree of uncertainty that may be attributed to any quantitative comparison, value, measurement, or other representation. These terms are also utilized herein to represent the degree by which a quantitative representation may vary from a stated reference without resulting in a change in the basic function of the subject matter at issue.
While particular embodiments have been illustrated and described herein, it should be understood that various other changes and modifications may be made without departing from the spirit and scope of the claimed subject matter. Moreover, although various aspects of the claimed subject matter have been described herein, such aspects need not be utilized in combination. It is therefore intended that the appended claims cover all such changes and modifications that are within the scope of the claimed subject matter.
The present application is a continuation of U.S. patent application Ser. No. 14/660,134, filed Mar. 17, 2015 which claims priority to U.S. Provisional Patent Application No. 61/954,078 filed on Mar. 17, 2014, both entitled “Locking Mechanisms for Security Containers.” The entire disclosure of both references is hereby incorporated by reference.
Number | Name | Date | Kind |
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1929371 | Hamilton | Oct 1933 | A |
2793927 | Reitzel | May 1957 | A |
3497280 | Karel | Feb 1970 | A |
3511549 | MacAluso | May 1970 | A |
3592521 | Cox | Jul 1971 | A |
4609233 | Walla | Sep 1986 | A |
5385039 | Feldpausch | Jan 1995 | A |
8523301 | Britson | Sep 2013 | B1 |
Number | Date | Country | |
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20170218669 A1 | Aug 2017 | US |
Number | Date | Country | |
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61954078 | Mar 2014 | US |
Number | Date | Country | |
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Parent | 14660134 | Mar 2015 | US |
Child | 15492722 | US |