1. Field of the Invention
The present invention relates to the detection of tampering or sabotage to a surveillance system such as an intrusion detection system or other system for which the detection of tampering or sabotage is desired.
2. Description of the Related Art
Surveillance systems such as intrusion detection systems may employ microwave radar systems and/or infrared sensors to detect the presence of an intruder in a protected space and typically generate an alarm signal, such as an electrical signal communicated to a central monitoring station, when an intruder is detected within the protected space. To defeat such surveillance systems, intruders may try to tamper with or sabotage the system so that it will not generate an alarm signal when the intruder enters the protected space.
Intrusion detection system typically employ a number of different individual motion detectors that are mounted on a building structure such as a wall of the building. When an intruder seeks to tamper with such a detector, they may remove the cover or the entire unit from the wall. Although various methods of detecting such tampering with individual detectors have been developed, an improved, reliable and cost effective method of detecting such tampering is desirable.
The present invention provides a reliable and cost-effective system for detecting the tampering or sabotage of a security device. It is capable of detecting when the device has been forcibly removed from the wall, or other support, on which it has been mounted and when the housing of the device has been opened.
The invention comprises, in one form thereof, a security device mountable on a support. The device includes a housing having a first section and a second section wherein the second housing section is removably attachable to the device. The device also includes a terminal assembly including at least a first terminal and a second terminal and a pin assembly having at least a first conductive pin and a second conductive pin. Each of the first and second pins are respectively insertable into the first and second terminals defined by the terminal assembly. Electrical contact between the first and second pins and the first and second terminals is respectively established by insertion of the first and second pins in the first and second terminals. A conductive material provides electrical communication between the first and second pins wherein insertion of the first and second pins in the first and second terminals defines a tamper detection electrical circuit between the first terminal and the second terminal and removal of one of the first and second pins from the first and second terminals opens the tamper detection circuit. The first housing section also includes a detachable portion. The detachable portion is securable to the support and the terminal body is disposed on the detachable portion The pin assembly is disposed on the second housing section Attachment of the second housing section to the security device inserts the first and second pins in the first and second terminals and detachment of the second housing section disengages the first and second pins from the first and second terminals. Removal of the security device from the support by detachment of the first housing section from the detachable portion disengages the pin assembly from the terminal assembly.
The detachable portion may be formed integrally with the first housing section wherein the detachable portion defines an outer perimeter that is connected to a remainder of the first housing section by a frangible web of material. Such a first housing section and integral detachable portion may be formed by injection molding a plastic material. The detachable portion may also include an aperture whereby the detachable portion is securable to the support by inserting a fastener through the aperture.
The invention comprises, in another form thereof, a tamper detection method for a security device mountable on a support. The method includes providing a housing for the security device wherein the housing includes a first housing section and a removably attachable second housing section, providing the first housing section with a detachable portion having a terminal assembly disposed thereon wherein the terminal assembly includes at least a first terminal and a second terminal and securing the detachable portion to the support. The method also includes providing the second housing section with a pin assembly having at least a first conductive element and a second conductive element wherein the first and second conductive elements are in electrical communication and attaching the second housing section to the security device wherein the step of attaching the second housing section includes establishing electrical contact between the first and second conductive elements and the first and second terminals respectively thereby defining a tamper detection circuit between the first terminal and the second terminal. The tamper detection circuit is monitored and tampering is detected when the tamper detection circuit is opened. The tamper detection circuit is opened by the disengagement of one of the first and second conductive elements from the first and second terminals. Removal of the security device from the support by detachment of the first housing section from the detachable portion disengages the first and second conductive elements from the first and second terminals and detachment of the second housing section from a remainder of the security device also disengages the first and second conductive elements from the first and second terminals.
The method may also include the step of connecting a first conductive member to the first terminal and a second conductive member to the second terminal and monitoring the tamper detection circuit for opening of the circuit at a location remote from the security device.
The invention comprises, in yet another form thereof, a security device mountable on a support. The device includes a housing having a removable section and a detachable portion directly secured to the support A terminal assembly including at least a first terminal and a second terminal is disposed on the detachable portion A first conductive element and a second conductive element are mounted in the removable section of the housing and a conductive material provides electrical communication between the first and second conductive elements. The first and second elements are respectively engageable with the first and second terminals by attachment of the removable housing section to the device wherein respective engagement of the first and second elements with the first and second terminals defines a tamper detection circuit between the first and second terminals and wherein disengagement of one of the first and second elements from a respective one of the first and second terminals opens the tamper detection circuit. Detachment of the removable section of the housing disengages the first and second elements from the first and second terminals and detachment of the detachable portion also disengages the first and second elements from the first and second terminals.
An advantage of the present invention is that it provides a reliable and cost effective system for determining whether the housing of a security device has been opened or whether the device has been forcibly removed from its support.
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 exemplification set out herein illustrates an embodiment of the invention, the embodiment disclosed below is not intended to be exhaustive or to be construed as limiting the scope of the invention to the precise form disclosed.
A security device 20 in accordance with the present invention is shown in
The electronic components that perform the intrusion detection sensing, in the illustrated embodiment, are either formed on printed circuit board (PCB) 26 or mounted on PCB 26 and located between PCB and second housing section 24. The PCB 26 is secured to and mounted on the interior portion of second housing section 24. As can be seen in
Second housing section 24 is removably mountable on first housing section 22. As seen in
As seen in
As mentioned above, terminal assembly 60 is located on detachable portion 50. The detachable portion has a thickness that is substantially equivalent to the thickness of the majority of remainder 23 of the first housing section 22. In the illustrated embodiment, detachable portion 50 is integrally formed with the remainder 23 of first housing section. For example, first housing section 22, including detachable portion 50, may be formed by injection molding a plastic material. Detachable portion 50 defines an outer perimeter 52 that is connected to the remainder 23 of the first housing section 22 by a frangible web of material 56. By utilizing a web of material 56 that has a thickness that is relatively thin and has a thickness less than the thickness of the detachable portion 50 and the remainder 23 of the first housing section 22 to which the web 56 is attached, web 56 provides a frangible connection between detachable portion 50 and the remainder 23 of first housing section 22. In the illustrated embodiment, first housing section 22, including detachable portion 50, are formed out of ABS using an injection molding process. Frangible web 56 has a thickness of approximately 0.015 to 0.020 inches (0.381 to 0.508 mm).
Detachable portion 50 also includes two apertures 58 through which fasteners 70, e.g., screws, nails or other appropriate fastener, are inserted and which engage a support 72 such as an interior wall of a building as depicted in
After mounting first housing section 22 to a wall or other support structure, wiring is attached to terminal assembly 60 to provide power to device 20 and also to provide communication between device 20 and a control panel (not shown) at a remote location. After attaching and wiring first housing section 22, the second housing section 24 is mounted to the first housing section 22. As the second housing section 24 is secured to the first housing section 22, pins 30 are inserted into ports 62 whereby the electronic components mounted on second housing section 24 can receive electrical power and communicate with the system as a whole, e.g., communicate with the control panel.
As schematically depicted in
There are two main types of tampering or sabotage that device 20 may be subjected to that would result in the removal of pins 30a, 30b from terminals 62a, 62b. The first type of tampering is the removal of second housing section 24 from first housing section 22. Because PCB 26 and pins 30 are mounted in the second housing section 24, removal of this outer housing section 24 from the base or first housing section 22 will result in the removal of pins 30 from terminals 62. A second type of tampering that can be detected with device 20 is the forcible removal of device 20 from its support. For example, if an intruder were to pry device 20 from the wall or other support on which it was mounted, the frangible connection between detachable portion 50 and the remainder 23 of the first housing section 22 would likely be broken leaving detachable portion 50 and the terminal assembly 60 disposed thereon mounted on the support structure as the rest of device 20 was removed. This action would also result in the removal of pins 30, which would be separated from the support structure with the majority of device 20, from terminals 62 on terminal assembly 60, which would remain mounted on the support structure due to fasteners 70 securing detachable portion 50 to the support structure.
While detachable portion 50 has been described as being formed integrally with the remainder of the first housing section, alternative embodiments of the detachable portion may also be employed with the present invention. For example, detachable portion 50 may be formed separately from the remainder of first housing section 22 and secured to first ho using section 22 by a press-fit engagement, adhesives, or adhesive tape. Alternatively, detachable portion 50 and the remainder of first housing section 22 may remain separate until the installation of device 20 and only be assembled together during the mounting of the device 20 on the support structure.
Although the present invention has been described with respect to devices used in an intrusion detection system, it may also be employed with various other systems in which it is desirable to detect the intentional, or unintentional, tampering or sabotage of the system. For example, the present system could also be utilized with a smoke or fire detection system to detect if any of the individual security devices, e.g., smoke detectors, has become dislodged, either intentionally or through an inadvertent impact which dislodges an individual detector.
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.