Automatic connecting system with heat-activated release

What is claimed is: 1. An automatic-connecting system for a door lock assembly, comprising: a mounting bracket connected to the door lock assembly; wherein the mounting bracket includes a first plurality of wiping electrical terminals, at least one terminal of which is electrically connected to the door lock assembly; and further comprising: a housing connected to the mounting bracket; wherein the housing includes both a battery subassembly and an electrical circuit; the housing further includes a second plurality of wiping electrical terminals disposed in a planar array and operatively associated with the at least one of the battery subassembly and the electrical circuit; the first and second pluralities of wiping electrical terminals are configured for wiping contact when the housing is moved parallel to the mounting bracket, to electrically connect the at least one of the battery subassembly and the electric circuit with the door lock assembly; and wherein no other electrical connections are required between the housing and the mounting bracket to electrically connect the at least one of the battery subassembly and the electrical circuit with the door lock assembly. 2. The automatic-connecting system claimed in claim 1 , wherein no tools are required to electrically connect the at least one of the battery subassembly and the electric circuit with the lock subassembly. 3. The automatic-connecting system claimed in claim 1 , wherein the lock assembly includes a motor; the electric circuit and the planar array of the second plurality of wiping electrical terminals are disposed on a circuit board; the motor is operatively connected to a first electrical connector; the first electrical connector is electrically connected to a second electric connector disposed on the mounting bracket; the second electrical connector is electrically connected to at least one of the terminals of the first plurality of wiping terminals; and wherein, when the housing is connected to the mounting bracket, the motor is operatively connected to the electric circuit. 4. The automatic-connecting system claimed in claim 3 , further comprising: an anti-tamper system that generates an alert if one of the first plurality of wiping terminals is electrically disconnected from its electrical counterpart in the second plurality of wiping terminals. 5. The automatic-connecting system claimed in claim 4 , wherein the anti-tamper system includes a tamper-detecting circuit electrically connected between said counterpart terminal in the second plurality of wiping electrical terminals, and a microprocessor; the tamper-detecting circuit detects when said one of the first plurality of wiping terminals is electrically disconnected from its electrical counterpart in the second plurality of wiping terminals, and produces an output reflecting the existence of a tamper condition; and wherein, in response to the output from the tamper-detecting circuit reflecting the existence of the tamper condition, the microprocessor generates an alert. 6. The automatic-connecting system claimed in claim 5 , wherein the alert results in one of an instruction to a transceiver to send an alert signal, an initiation of an audible alert, and an initiation of a visual alert. 7. The automatic-connecting system claimed in claim 3 , wherein the mounting bracket includes a detent-engaging portion, and the housing includes a detent engaged with the detent-engaging portion to releasably retain the housing on the mounting bracket; the battery subassembly and the electrical circuit have respective ignition temperatures; the detent has a melting point temperature lower than the respective ignition temperatures of either the battery subassembly or the electric circuit; the detent-engaging portion of the mounting bracket is formed of heat-conducting material; whereby, when the ambient temperatures rises to a point at which the detent-engaging portion of the mounting bracket melts the detent, the housing is released from the mounting bracket. 8. The automatic-connecting system claimed in claim 7 , wherein no electrical or mechanical connection remains between the housing and the mounting bracket after the housing falls away from the mounting bracket. 9. The automatic-connecting system claimed in claim 7 , wherein the force of gravity in cooperation with the melting of at least a portion of the housing causes the housing to fall away from the mounting bracket. 10. The automatic-connecting system claimed in claim 7 , wherein the first and second pluralities of wiping electrical terminals are configured for mutual wiping electrical and mechanical contact when the housing is moved parallel to the mounting bracket to electrically connect the at least one of the battery subassembly and the electric circuit with the door lock assembly. 11. The automatic-connecting system claimed in claim 3 , wherein the housing is formed of a plastic material having a melting point temperature lower than the respective ignition temperatures of the battery subassembly and the electrical circuit; the housing defines two parallel side portions, each side portion including an upper portion defining a detent; the mounting bracket is formed of metal and has an upper portion defining two detent-engaging portions engaged with respective detents; whereby, when the ambient temperature rises to a point at which the detent-engaging portions melt the detents, the housing is released from the mounting bracket; and wherein the force of gravity causes the housing to fall away from the mounting bracket. 12. The automatic-connecting system claimed in claim 11 , wherein each housing side portion defines a fastener orifice, and further comprising: a metal fastener connecting each housing side portion with the mounting bracket via the fastener orifice; whereby, when the ambient temperature rises to a point at which the fasteners melt the material adjacent respective fastener orifices so that the housing is no longer retained on the mounting bracket, the housing can be released from the mounting bracket by the force of gravity. 13. The automatic-connecting system claimed in claim 1 , wherein the mounting bracket has a generally U-shaped configuration and defines opposing parallel side portions generally perpendicular to a base portion; the side portions extend outwardly from the wall and define respective upper portions; each upper portion includes a detent-engaging portion; the housing defines parallel housing side portions extending towards respective mounting bracket side portions; each housing side portion defines a detent; and wherein, when the housing is moved along the mounting bracket, respective detents engage respective detent-engaging portions to releasable retain the housing on the mounting bracket. 14. A method of automatically and releasably connecting an electric circuit disposed in a housing with a motor of a door lock assembly disposed on a door, the door lock assembly including a mounting bracket, comprising: positioning the housing so that it is adjacent to the mounting bracket; moving the housing in a direction parallel to the mounting bracket so that respective terminals of a first plurality of wiping terminals disposed on the mounting bracket slide against respective terminals of a second plurality of wiping terminals disposed on the housing; wherein sliding together the first and second pluralities of wiping terminals activates an anti-tamper system; wherein at least one of the first plurality of wiping terminals is operatively associated with the motor; and wherein at least one of the second