1. Field of the Invention
The present invention relates to systems for detecting unauthorized tampering with a device, and, more particularly, to systems for detecting unauthorized tampering with a device that is disposed within an enclosure.
2. Description of the Related Art
Many devices must be placed in locations where they may be exposed to unauthorized tampering or theft. Such devices include controllers for telephone systems, alarm systems, cable television systems, firearms, art work and other valuables, for example. In order to protect the devices from tampering and other forms of physical harm, they may be placed within security system enclosures in the form of boxes that are attached to fixed structures such as ceilings, walls, floors and posts. The boxes may have hinged covers for enabling authorized access to the devices within the boxes, and theses doors may be locked shut.
The security system enclosures commonly employ tamper switches for detecting that the cover of the enclosure has been opened, or that the enclosure has been removed from the fixed structure to which it was attached. A typical tamper switch has a pair of contacts that may be opened or closed as a result of the enclosure door being opened, or as a result of the enclosure being removed from the fixed structure. A problem, however, is that separate switches must be used for detecting the opening of the door and the removal of the enclosure from the fixed structure. That is, one tamper switch may detect the opening of the door, and a separate tamper switch may be required to detect the removal of the enclosure from the wall. The use of two separate switches adds to the cost and increases the size of the tamper detection system.
What is needed in the art is a tamper switch arrangement that utilizes a single tamper switch to detect both the opening of a door of the security system enclosure and the removal of the enclosure from the fixed structure on which it is mounted.
The present invention provides a tamper switch arrangement including an enclosure containing a tamper switch assembly having only a single tamper switch. The tamper switch assembly may be compressed between a front door of the enclosure and a fixed structure to which the arrangement is mounted through an opening in the rear of the enclosure. If the door is opened or if the enclosure is removed from the fixed structure, the tamper switch will be actuated from a closed switch position to an open switch position, or vice versa, thereby enabling the transmission of an alarm signal indicative of the tampering.
The invention comprises, in one form thereof, a tamper switch arrangement for detecting tampering with a device. The tamper switch arrangement includes a tamper switch assembly having a tamper switch with a first part and a second part. The first and second parts are movable relative to each other between an open switch position and a closed switch position. The tamper switch is biased into one of the open and closed switch positions. An enclosure substantially encloses the tamper switch assembly and the device. The enclosure includes a door and an opening disposed opposite the door. The enclosure is sized such that the tamper switch assembly may be compressed between an inner surface of the door and a second surface via the opening to thereby overcome the bias and actuate the tamper switch into an other of the open and closed switch positions.
In another form, the invention comprises a tamper detection assembly for placement within an enclosure. The assembly includes a tamper switch having a first part and a second part. The first and second parts are movable relative to each other between an open switch position and a closed switch position. The tamper switch is biased into one of the open and closed switch positions. The tamper switch is compressed between an inner surface of a front door of the enclosure and a second surface via a rear opening of the enclosure such that the bias is overcome and the tamper switch is actuated into an other of the open and closed switch positions. A spring is operably coupled between the tamper switch and one of the opening and the door of the enclosure. The spring is configured to be compressed upon closing of the door after the tamper switch has been actuated into the other of the open and closed switch positions.
In yet another form, the invention comprises a tamper detection assembly for placement within an enclosure. The assembly includes a tamper switch having a first part and a second part. The first and second parts are movable relative to each other between an open switch position and a closed switch position. The tamper switch is biased into one of the open and closed switch positions. A switch actuator is operably coupled to the tamper switch and actuates the tamper switch into an other of the open and closed switch positions in response to the tamper detection assembly being compressed between an inner surface of a front door of the enclosure and a second surface via a rear opening of the enclosure.
An advantage of the present invention is that a single tamper switch may be used to detect both the opening the enclosure door and the removal of the enclosure from the fixed structure to which it is mounted.
Another advantage is that the tamper switch assembly has an adjustable length and includes a compressible spring in order to accommodate enclosures of different depths.
The above mentioned and other features and objects of this invention, and the manner of attaining them, will become more apparent and the invention itself will be better understood by reference to the following description of an embodiment of the invention taken in conjunction with the accompanying drawings, wherein:
Corresponding reference characters indicate corresponding parts throughout the several views. Although the exemplifications set out herein illustrate the invention, in one form, the embodiments disclosed below are not intended to be exhaustive or to be construed as limiting the scope of the invention to the precise form disclosed.
Referring now to the drawings, and particularly to
As best illustrated in
A switch actuator 38 includes a coil spring 40 and a plunger 42. A first end 44 of rod 30 is securely received in first end 46 of spring 40. A second end 48 of spring 40 is received in a spring retainer cup 50 of plunger 42. A shaft 52 extends from a closed end of cup 50.
Bottom housing half 26 includes a groove 54 for slidingly receiving rail 18, as best illustrated in
Bottom housing half 26 includes an end wall 82 that limits the movement of cup 50 away from switch 22 due to the force of spring 40. As can be seen in
Top housing half 28 includes an elongate element in the form of a cantilever 90 having aligned, angled teeth 92 along its length. Another elongate element in the form of a door strike 94 includes a slot 96 in which cantilever 90 may be retainingly received. At the front end of slot 96 is a flexible pawl 98 having wings 99a, 99b which may be gripped and rotated in the direction of arrow 100 to allow cantilever 90 to be inserted into slot 96. When door strike 94 is at a desired point along the length of cantilever 90, wings 99 may be released in order to allow pawl 98 to settle into one of the notches between teeth 92. Thus, door strike 94 is selectively couplable to cantilever 90 at a plurality of points along the length of cantilever 90. Cantilever 90 and door strike 94 conjointly form an elongate device having an adjustable length in the longitudinal directions indicated by double arrow 102.
Enclosure 14 may substantially enclose tamper switch assembly 16 and the device (not shown), such as an alarm system, that enclosure 14 is to protect from tampering. As best illustrated in
Plug assembly 20 includes a plug 112 having a disc-shaped base 114 and a toroidal main part 116. Plug 112 has a fastener hole 118 extending therethrough for receiving a fastener 120 for fastening plug 112 to wall 12. Fastener 120 is shown in the drawings as a screw. However, it is also possible for fastener 120 to be in the form of a nail, wall anchor, etc. An outer surface 122 of main part 116 and an exposed outer surface 124 (
In operation, enclosure 14 is moved toward wall 12 such that opening 106 is placed over main part 116 of plug 112. Movement of enclosure 14 toward wall 12 is continued until enclosure 14 abuts base 114 of plug 112, as shown in
Tamper switch assembly 16 may be inserted into enclosure 14 through an open door 104. Groove 54 of housing 24 may be aligned with rail 18 such that rail 18 is received in groove 54 as tamper switch assembly 16 is inserted into enclosure 14. Tamper switch assembly 16 may be slid along rail 18 in directions 102 generally aligned with door 104 and opening 106. Tamper switch assembly 16 may be slid along rail 18 until a distal end 126 (
Door strike 94 may now be coupled to top housing half 28 at a desired one of the plurality of points along the length of cantilever 90. More particularly, wings 99 may be gripped and pawl 98 may be rotated in direction 100 away from teeth 92. Door strike 94 may then be slid freely along the length of cantilever 90 until strike 94 reaches the desired position. Wings 99 may then be released to thereby allow pawl 98 to releaseably lock into a notch between a desired pair of adjacent teeth 92. In one embodiment, door strike 94 is positioned on cantilever 90 such that door strike 94 extends a desired distance past the end of an enclosure wall, such as wall 109. Further, door strike 94 may be positioned on cantilever 90 such that door strike 94 extends a predetermined distance past the end of an enclosure wall. In order to facilitate such positioning, door strike 94 may be provided with a mark 128 that may be aligned with the end of a wall, such as wall 109. The farther door strike 94 extends past the ends of the enclosure walls, the greater the level of compression of switch assembly 16 when door 104 is closed. Thus, the elongate device formed by cantilever 90 and door strike 94 has a length that is adjustable to set a level of compression of switch assembly 16.
Next, door 104 of enclosure 14 may be closed as shown in
If someone does tamper with the device, such as by first opening door 104 in order to gain access to the device, then the force of spring 40 may push housing 24, via rod 30, in a direction 132 away from wall 12. With spring 40 expanding and exerting less force on rod 30, the biasing device of switch 22 may again overcome the force of spring 40 and return rod 30 and body 32 to their positions as shown in
If someone tries to gain access to the device by pulling enclosure 14 off of wall 12 such that plug assembly 20 no longer occupies opening 106, then the force of spring 40 may push plunger 42 in a direction 134 toward opening 106. With spring 40 expanding and exerting less force on rod 30, the biasing device of switch 22 may again overcome the force of spring 40 and return rod 30 and body 32 to their former relative positions as shown in
As described above, tamper switch 22 may be biased back into the open switch position when door 104 is opened and/or enclosure 14 is moved away from surface 110 of plug assembly 20. Thus, tamper switch arrangement 10 of the present invention enables a single tamper switch to be used to detect both the opening of a door of an enclosure and the removal of the enclosure from a wall, floor, ceiling or post to which the enclosure is mounted.
Switch actuator 38 and spring 40 have been described herein as being operably coupled between tamper switch 22 and opening 106. Moreover, the elongate device formed by cantilever 90 and door strike 94 has been described herein as being operably coupled between tamper switch 22 and door 104. However, it is to be understood that it is within the scope of the present invention for a switch actuator and/or spring to be operably coupled between a tamper switch and an enclosure door, and for an elongate device to be operably coupled between the tamper switch and an enclosure opening.
Rail 18 has been disclosed herein as being separate from and attached to wall 109 of enclosure 14. However, it is also possible for the rail to be formed unitarily with the enclosure wall such that the wall itself includes a rail on which the tamper switch assembly may be slid to and fro.
While this invention has been described as having an exemplary design, the present invention may be further modified within the spirit and scope of this disclosure. This application is therefore intended to cover any variations, uses, or adaptations of the invention using its general principles.
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Number | Date | Country |
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1 494 188 | Jan 2005 | EP |
Number | Date | Country | |
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20060197662 A1 | Sep 2006 | US |