Hospitals, restaurants, businesses, and homeowners need storage space. However, because space is often limited, storage systems are desiredly compact and efficient. A number of compact storage systems exist that employ mobile shelving units that move along or are guided by a bottom or a top track. An example of a top track storage system is disclosed in U.S. Pat. No. 4,991,725 (Welsch, et al.) An example of a bottom track storage system is disclosed in U.S. Pat. No. 7,143,474 (Welsch, et al.) (Both of these patents are assigned to the assignee of the subject invention.) A perceived problem with these storage systems, however, is that their contents are not secure. These storage systems are often located in a room to which many people have access. As a result, one with access to that room can readily gain access to the interior of the storage system. This poses potential problems to a business owner, for example, as employees or others can pilfer the often valuable contents of the shelving units and to a homeowner as children can have access to possibly dangerous materials stored therein.
There has been some effort put into developing apparatus and methods for holding or fixing mobile shelving unit movement along a track or other guide structure. These efforts tend to be directed to the safety feature of maintaining an access aisle open so that a user in the aisle is not inadvertently struck by a moving mobile shelving unit. Information relevant to these efforts can be found, for example, in U.S. Pat. Nos. 4,523,794 (Peterman); 4,607,896 (Peterman); and 5,160,189 (Johnston, et al.). The techniques employed, however, fail to teach how to secure a storage system having mobile shelving units so as to prevent access to the contents of the shelving units. Further, the holding mechanisms are often complex and/or are not versatile.
For at least the foregoing reasons, there is a need for a secure storage system having mobile shelving units that can be secured in various ways so as to protect the contents of the shelving units.
The present invention has been developed with this need in mind. Further, while several aspects of the invention are herein described, the invention is broader than each aspect and the invention's scope is delineated by the claims and corresponding equivalents.
One aspect of the invention is directed to a storage system that comprises first and second storage units, each having an interior for storing items, and guide means for mounting the first storage unit for movement between a closed position relative to the second storage unit and an open position spaced away from the second storage unit. Means are provided so that access to the interiors of the first and second storage units is only available in the regions wherein the units face each other. Therefore, in the closed position, it is not possible to access the interiors of the storage units. However, in the open position, it is possible to access the interiors of the storage units. The system further comprises lock means for selectively locking the first storage unit in the closed position and unlocking the first storage unit so that it can move to the open position.
Another aspect of the invention is directed to a storage system comprising first and second storage units, each having an interior for storing items, and guide means for mounting the first storage unit for movement between a first position and a second position relative to the second storage unit. When the first storage unit is in the first position, there exists an access space between the first and second storage units, whereby the interiors of the storage units are accessible. The system further comprises door means mounted for movement between a closed position and an open position. When in the closed position, the door means substantially obstructs the ingress to the access space such that the interiors of the storage units are not accessible. When in the open position, the door means does not substantially obstruct the ingress to the access space, and thus the interiors of the storage units are accessible when the first storage unit is in the first position. The system further comprises lock means for selectively (a) simultaneously locking the door means in the closed position and the storage unit in the first position and (b) simultaneously unlocking the door means (thus permitting the door means to move to the open position) and the first storage means (thus permitting it to move to the second position).
A further aspect of the invention is directed to a method for securing a storage system, the storage system comprising first and second storage units each having an interior, means to prevent access to the interiors of the first and second storage units other than through the regions wherein the units face each other, guide means for mounting the first storage unit for movement, and lock means for selectively locking the first storage unit in a closed position. The method comprises moving the first storage unit from an open position spaced away from the second storage unit to a closed position relative to the second storage unit. The open position is a position where the interior of each of the first and second storage units are accessible. The closed position is a position where the interior of each of the first and second storage units are not accessible. The method further comprises locking the lock means when the first storage unit is in the closed position, thereby to prevent access to the interior of each of the first and second storage units.
These and other features, aspects, and advantages of the present invention will become better understood with regard to the following description, appended claims, and accompanying drawings.
The present invention is directed to a secure storage system having mobile storage units. As storage systems having mobile storage units are widely available, there are many teachings regarding their details and various configurations. Two examples of storage systems with mobile storage units can be found in U.S. Pat. No. 4,991,725 (Welsch, et al.) (top track storage system) and U.S. Pat. No. 7,143,474 (Welsch, et al.) (bottom track storage system), the disclosures of each of which are herein incorporated in their entireties by reference. Therefore, for purposes of efficiency, discussion of many of the details of such storage systems that are not crucial to understanding, describing, and enabling the present invention is omitted herein. Nevertheless, the present invention is intended to encompass all of the many types and configurations of storage systems having mobile storage units that are well-known in the art.
More particularly, as seen in
The stationary storage unit 101 may be bolted to the floor or otherwise secured in place by conventional structures.
The mobile storage units are mounted for movement on a guide structure, such as a track 402. There are many types of track systems that are well-known in the art such as, for example, a top track system and a bottom track system. In a top track system, the mobile storage units have wheels or other sliding mechanisms to move along the floor and the tops of the mobile storage units are guided for movement by track means, like a guide rail, located at the top of the storage units, all as fully described in U.S. Pat. No. 4,991,725. In a bottom track system, tracks are mounted along the floor and the mobile storage units are mounted for movement along the tracks, as fully described in U.S. Pat. No. 7,143,474. The guide structures that may be used in conjunction with the present invention are not limited to these track systems. Any guide means that effectively guides the movement of the mobile storage units is contemplated by the invention.
The mobile storage units are mounted on the guide means for movement between at least two positions, namely a closed position and an open position. In
The open position is one wherein the interiors of the storage units are accessible. Referring to
The storage system further comprises lock means 111. Although the lock means is indicated as being located between the stationary storage unit 101 and mobile storage unit 102, and is discussed below as being mounted on or otherwise associated with the left corner of the mobile storage unit 102, the lock means could be mounted on or otherwise associated with an adjacent corner 112 of the mobile storage unit 102. The lock means 111 functions to selectively lock the mobile storage unit 102 in the closed position, as shown in
The lock means has two component mechanisms, and comprises a holding mechanism that holds the storage units in the closed position and a locking mechanism that locks the storage units in that closed position such that a party without a proper authority cannot disengage the lock means. The holding mechanism and locking mechanism can also be viewed as merely two functions of the locking means, as both functions could be accomplished through the same mechanism.
To hold the storage units in the closed position, the lock means 111 could comprise a bar that can be engaged with the guide means 104. For example, in a bottom track system, an extendable bar could be mounted on mobile storage unit 102. An individual track 402 could have an aperture through which the bar could extend. When the bar is extended through the aperture in the track 402, movement of mobile storage unit 102 would be prevented, thus maintaining stationary storage unit 101 and mobile storage unit 102 in the closed position.
Such a holding mechanism of the lock means could be locked through a number of available mechanisms well known in the art. For example, the extendable bar could be part of a mechanical cylinder lock attached to the mobile storage unit 102. A user would thus need a key to operate the cylinder lock. Alternatively, the extendable bar could be a component of an electronic touchpad/keypad lock, a sensor lock, or even a biometric lock. In a touchpad/keypad lock, the user enters a code into the touchpad/keypad to cause the bar to extend or retract. In a sensor lock, the user possesses a transmitter that, when brought into close proximity with the lock, for example, sends a signal to a sensor to extend or retract the extendable bar. In a biometric lock, a user causes the lock to operate through recognition of some physical characteristic. For example, the lock could comprise a fingerprint recognition apparatus wherein the user can cause the lock to operate when he places his finger on a pad on the apparatus and it is successfully recognized. Alternatively, a biometric lock could comprise a voice recognition unit, or a retinal scan unit, for identifying the user and allowing for operation of the lock means. In sum, the present invention envisions the lock means comprising any sort of locking mechanism that prevents operation of the lock means except by authorized users.
Alternatively, the lock means could comprise merely a conventional combination lock having a hasp. In such a case, the mobile storage unit 102 could have a tab which extends over the individual track 1113. The tab could have a hole through it and the individual track 402 could have a corresponding hole. Then the hasp of a combination lock or pad lock could be placed through both the hole in the tab and the hole in the track, and the lock actuated. This would effectively lock the mobile storage unit in place on the track such that the stationary storage unit 101 and mobile storage unit 102 are in the closed position. Only a user with the appropriate combination or key could open the lock to thus remove it and permit movement of the mobile storage unit 102 into the open position.
As yet another example embodiment, the lock means could comprise a combination lock or pad lock that is used to lock the mobile storage unit 102 to the stationary storage unit 101. Such an arrangement could be provided in a number of ways. For example, the stationary storage unit 101 and mobile storage unit 102 could each have a tab with a hole. The tabs could be horizontally-oriented tabs located along the bottom of the units in such a manner such that they can overlap. The hasp of the lock could fit through the holes to lock the units together. Alternatively, the tabs could be vertically-oriented tabs located at any height along the storage unit, but preferably at about arm level for ease of use by a user. The tabs would come together when the storage units are in the closed position. The hasp of the lock could be fitted through the holes in the tabs. This could also be accomplished through the use of brackets.
Several types of lock means have been discussed. However, the present invention is not limited to the lock means discussed herein. It is well within the skill of the art to employ any number of locking mechanisms to effectively secure the storage system. It is within the spirit of the invention to use any locking mechanisms available to an ordinary artisan. Protracted discussion of such lock means is omitted for purposes of focusing the disclosure on the inventive concept, that of securing a storage system having one or more mobile storage units.
Thus far, the focus has been on securing stationary storage unit 101 and mobile storage unit 102 in the closed position. However, as a feature of the present invention, any number of storage units could be secured. For example,
The lock means could be located on any or all of the intermediate mobile storage units for creating different configurations of secured storage units in the system. For example, perhaps it is necessary only to secure stationary storage unit 201, mobile storage unit 202, and one or more members of the plurality of mobile storage units 203. With the appropriate placement of enclosure means and lock means, such a group of storage units can be secured while allowing the additional storage units to be accessible.
As another aspect of the invention, solely mobile storage units could be secured without reference to a stationary unit.
In one example, the lock means 305 is such that the mobile storage units 301 and 302 are locked in place. This could be accomplished, for example, by each second mobile storage unit 301, 302 having a horizontal tab that extends along the individual track 306 at the location specified by the lock means 305. Each horizontal tab could have a hole in it, and the individual track 306 could have a hole in it, such that a bolt, hasp or bar of a lock means (a padlock, combination lock, or the like) could fit through each horizontal tab's hole and the track component's hole when the three holes are overlapped. As a result, the movement of the second mobile storage units 301, 302 along the track would be prevented by the lock means.
Alternatively, an extendable bar could be mounted on the mobile storage unit 301 and could extend into an aperture in the individual track 306. Since in such a case only the movement of mobile storage unit 301 is prevented by the lock means, mobile storage unit 302 would have to have its movement in the opposite direction, away from unit 301, hampered by a stopper or the like on the guide means. The location of the lock means could, of course, vary. For example, the lock means could be located at the corner 307 or at any other location along that side of the mobile storage unit 301, and the lock means would still operate to prevent movement of both mobile storage units 301, 302, and thus would keep the mobile units in the closed position. Also, any of the other mobile storage units 304 could similarly have lock means and enclosure panels, and thus could be moved into a closed position relative to the mobile storage units 301, 302 and be secured.
In another example, the mobile storage units 301, 302 could still have the capability of movement even though locked together as a unitary structure. In such a case, it would be necessary to lock the mobile storage units 301, 302 together without locking them to the guide means. For example, the lock means could comprise vertical tabs or brackets and a combination or pad lock, as described with reference to the first embodiment. Any lock means will do as long as the units are not locked in place.
As illustrated by the second embodiment, a secure storage system could comprise only mobile storage units. Thus, the invention does not require that one or more storage units be stationary. Further, in the closed position, the secured mobile storage units may or may not be mobile, depending on the type of lock means used.
In yet another embodiment, the storage system comprises door means. More specifically,
The door 401 can be constructed of any materials well-known in the art for constructing storage systems. All that is required is that the door prevents access to the interiors of the storage units when the door is in its closed position. The door can move from a closed position, wherein the door substantially obstructs ingress to the access space and is held in place, to an open position. The open position is a position wherein the door is not held in place and thus can be freely moved. When in the open position, the door 401 of this embodiment can be swung open a full 180 degrees. A holding mechanism, such as a clip, magnet, or the like, can be optionally provided on the stationary storage unit 404 to hold the door in its fully open position so that the door does not inadvertently move when the storage system is being accessed.
The door 401 can be mounted on the stationary storage unit 404 at a point 407. Such mount can be accomplished through any means well known in the art, such as hinges. The door 401 could also be movably attached to the guide means, in this case, the individual track 408. The guide means alternatively could have a tab that extends outward from the storage system upon which the door 401 could be movably attached. The door 401 could even be installed in the floor of the room in which the storage system is located.
The lock means 406 for holding the door 401 in place and locking it can comprise or be similar to any of the lock means discussed with reference to the previous embodiments. The lock means would be preferably located at arm level for ease of use by the user.
Alternatively, the door means could be movably attached at a different location. For example, the door means could be movably attached to the mobile storage unit 405 at the location specified by the lock means 406, or to the guide means at said location. Thus arranged, the lock means could lock the door to the stationary storage unit 404. In this case, it would be important that the attachment mechanism of the door to the stationary storage unit or guide means not impede movement of the mobile storage units along the guide means when the door is in the open position. Similarly, the door means could conceivably be located at any point along the storage system so long as, when it was in the closed position, it substantially obstructs the ingress of the access space.
The door means need not comprise a “swinging” door, but could, for example, be a sliding door. In such a case, the door means could be slidably attached to the stationary storage unit 404 or to the guide means. Alternatively, the door means could comprise a pull-down door. For example, in a top-track storage system, the door could be slidably attached to the top track.
In sum, the use of a door in a storage system having mobile storage units has many benefits. When combined with lock means, it is a practical way to provide a user-friendly, secure storage system.
The secure storage systems described above offer convenient and versatile arrangements and methods for securing the contents of the individual storage units comprising the system. The systems described herein meet an important security need for users that has not been previously addressed, and do so without requiring complex and expensive hardware. Moreover, the combination of a door and a secure modular storage system is unique in its own right.
While several embodiments of the invention have been described, along with numerous alternative features, the true scope of the invention is not limited to the disclosed embodiments. Rather, the present invention covers various modifications and equivalent arrangements included within the spirit and scope of the appended claims. The scope of the appended claims is to be accorded the broadest interpretation so as to encompass all such modifications and equivalent structures and functions.