The present invention relates to a key safe for securely receiving, storing and dispensing keys.
Various safes for storing keys and other items are known. For instance:
WO 2005/096236 “The management of key usage” to Wilken et al describes a safe with an access port and keys secured to a continuous chain that runs between a pair of sprockets to align a key with the access port;
U.S. Pat. No. 5,172,829 “Automated key dispenser” to Dellicker describes a unit with a plurality of key holders for releasably securing keys, and means for a user to select a key to be released by the its key holder and transported by gravity to a dispensing hatch. U.S. Pat. No. 6,505,754 “Apparatus for automated key retrieval and deposit” to Kenny et al goes a step further to include a container for receiving keys returned by users;
U.S. Pat. No. 5,212,649 “Electronic robot key distributor” to Pelletier et al describes a safe with an access port and a cylinder located within the safe, the cylinder having compartments for storing keys and other valuables therein. The cylinder is rotatable and axially movable to align a selected compartment with the access port and permit access to the valuable contained therein to a user;
FR 2,613,411 to Fraysse describes a safe with an access port, a storage rack within the safe and means for conveying selected objects between its location on the storage rack and the access port; and
US 2004/0069572 “Device for storing and transferring products in small packets” to Anke et al describes a storage unit with an access hatch, a cylindrical array of storage compartments and means for moving items between the access hatch and a selected storage compartment. U.S. Pat. No. 4,814,592 “Apparatus and method for storing and retrieving articles” to Bradt et al described a similar system for receiving, storing and dispensing videocassettes.
It is an object of the present invention to provide a safe that is specifically designed for receiving, storing and dispensing keys.
According to the present invention, a key safe includes:
Typically, the key safe further includes a sensor for sensing whether a key is located on the primary hook when the antechamber is in the first position.
Generally, the secondary hooks are arranged in circular arrays.
Preferably, the key safe includes at least two axially displaced circular arrays of secondary hooks.
Typically, the transport means comprises an arm movable along the longitudinal axis of the circular arrays and rotatable about such longitudinal axis.
Generally, the arm defines a notch near its free end for locating a keyring associated with a key to be transported thereby therein.
Preferably, the free end of the arm includes two fingers sufficiently spaced from each other to receive a secondary or a primary hook therebetween. And, the notch is defined by the fingers. Alternatively, the free end of each of the primary and secondary hooks includes two fingers sufficient spaced to receive the free end of the arm therebetween.
Typically, the antechamber is rotatable between the first and second positions.
Generally, the key safe further includes means for identifying a key, which means may be an RFID reader located either within the antechamber or within the main container.
Preferably, the key safe further includes a database for associating each key with the secondary hook on which it is stored.
Typically, the key safe further includes input means for a user to select a key to be dispensed from the key safe.
Generally, each secondary hook is not movable relative to the main container.
Preferably, the antechamber with primary hook, the secondary hooks and the transport means are connected to a frame sized to fit within the main container.
The invention will now be described in more detail, by way of example only, with reference to the accompanying drawings in which:
With reference to
The main container 14 is similar to a standard steel safe but with the hingedly connected front panel defining an access port 20.
The access port 20 frames the antechamber 16, which houses a primary hook 22. The antechamber 16 is rotatable about a longitudinal axis between: (i) a first position in which a user (not shown) is permitted access to the antechamber 16 and primary hook 22 from outside the main container 14 via the access port 20; and (ii) a second position in which the user is not permitted access to either the antechamber 16 or the primary hook 22.
A sensor 24 is associated with the primary hook 22 for sensing whether a key 12 is located thereon when the antechamber 16 is in the first position.
Nine circular arrays of secondary hooks 26 are arranged inside the main container 14, spaced axially from each other. In use, the secondary hooks 26 are fixed/not movable relative to the main container 14.
Means 18 to transport keys 12 is located inside the main container 14. The transport means 18 comprises a central shaft 28 that extends along the longitudinal axis of the arrays of secondary hooks 26 and a transverse arm 30 that is movable along and rotatable about the shaft 28.
With specific reference to
The transport means 18 can pick up a key 12 located on the primary hook 22 when the antechamber 16 is in the second position and deposit such key 12 on a secondary hook 26. Similarly, the transport means 18 can pick up the key 12 from the secondary hook 26 and deposit it on the primary hook 22 when the antechamber 16 is in the second position.
The antechamber 16 (with primary hook 22), secondary hooks 26 and transport means 18 are connected to a frame, which can be inserted into/removed from the main container 14 when the main container front panel is hingedly opened to permit access therein. With the frame inserted, the main container front panel is locked closed to prevent direct access to keys 12 secured on secondary hooks 26 within the main container 14 by a user located outside the main container 14 (irrespective whether the antechamber 16 is in the first or second position).
The key safe 10 further includes means 36 for identifying a key. The identifying means 36 is located in the main container 14 and is in the form of an RFID reader that communicates with an FRID tag on each key 12.
A database (not shown) stores the identity of each key 12 stored within the key safe 10 and associates it with a secondary hook 26 on which it hangs.
And, instructions to retrieve keys 12 from the key safe 10 are entered by a user (not shown) via input means 38 in the form of an LCD touch screen.
In use, and starting with
Should the user wish to retrieve a key 12, the user selects the key 12 using the input device 38. The antechamber 16 rotates from the first position to the second position and the database is interrogated to identify the secondary hook 26 associated with such key 12. The transport means 18 is then directed to approach the associated secondary hook 26 with its fingers 34 flanking the secondary hook 22 and travel upwards to receive the key's 12 keyring within the notch 34 and raise the key 12 off the secondary hook 26. The transport means 18 then moves the key 12 towards the primary hook 22 such that the fingers 34 flank the primary hook 22 and travels downwards to deposit the key's 12 keyring thereon. The antecamber 16 is then rotated back to the first position to permit the user access to the key 12.
It will be appreciated that although the hooks 22 and 26 and arm 30 have been described and illustrated in an arrangement whereby the fingers 32 of the arm 30 receive the hooks 22 and 26 therebetween, the arrangement can be reversed. In other words, each hook 22 and 26 could comprise a pair of fingers spaced from each other to receive the arm 30 therebetween.
It will also be appreciated that although the identifying means 36 has been described housed within the main container 14, it could alternatively be located within the antechamber 16.
Number | Date | Country | Kind |
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2013/01880 | Mar 2013 | ZA | national |
Filing Document | Filing Date | Country | Kind |
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PCT/ZA2014/000007 | 3/5/2014 | WO | 00 |