Surface temperature-responsive switch using smart material actuators

The invention claimed is: 1. A device for placement in thermal communication with a machine or machine component and for electrical communication with an alarm-giving circuit, the device serving to detect, and, in conjunction with the alarm-giving circuit, give notice of, an overheating condition in the machine when the machine or machine component is operating or has been operating; the device comprising: a base with a surface for surface-to-surface contact with a surface of the machine or machine component and an opposing mounting surface, the base being thermally conductive so that heat generated by the machine or machine component may be communicated through the base; a formed body composed of a shape memory alloy (SMA) secured to the base mounting surface, the formed shape memory alloy body being composed to experience a shape and stiffness change when it is heated from a reference temperature indicative of a normal operating temperature of the machine, to a predetermined temperature, higher than the reference temperature, the predetermined temperature being selected to be indicative of an overheating condition in the machine, the formed shape memory alloy body being heated by heat from the machine to raise the temperature of the formed shape memory alloy body to a temperature indicative of a current operating temperature of the machine; a resettable switch secured to the base mounting surface and connectable to the alarm-giving circuit, the switch reversibly enabling two circuit states upon operation, a closed circuit state which enables passage of electricity through the circuit, and an open circuit state which denies passage of electricity through the circuit; the switch being either a normally-open switch which, when the switch is connected to the alarm-giving circuit, in an initial condition, denies passage of electricity through the circuit until the switch is operated to render the switch in its alternate, electricity-passing, condition, or a normally-closed switch which, in an initial condition, enables passage of electricity through the circuit until the switch is operated to render the switch in its alternate, electricity passage-denying, condition; and the formed shape memory alloy body being arranged so that it engages the switch and so that the shape and stiffness change experienced by the shape memory alloy body when it is heated to the predetermined temperature, operates the switch to transition the switch to its alternate condition, the change in condition of the switch, when the switch is connected to the alarm-giving circuit, serving to signal a machine overheating condition and to operate the alarm-giving circuit. 2. The device as recited in claim 1 in which the switch incorporates a plurality of contacts, at least some of the contacts being connected through wire pairs to a plurality of individual alarm-giving devices, the switch reversibly controlling the passage of electricity in each of the plurality of individual wire pairs upon operation of the switch, one wire pair being connected to a machine controller. 3. The device as recited in claim 1 in which the composition of the formed shape memory alloy body is selected so that the temperature at which the shape memory alloy body undergoes the shape and stiffness change matches the temperature indicative of an overheating temperature of a particular machine. 4. The device as recited in claim 3 in which the composition of the shape memory alloy body is selected so that the predetermined temperature at which the shape memory alloy body undergoes the shape and stiffness change is in the temperature range from about minus 40° C. to about 200° C. 5. The device as recited in claim 3 in which the formed shape memory alloy body has the form of a wire, tape, cable, chain or spring. 6. The device as recited in claim 5 in which the-formed shape memory alloy body has a composition adapted to shorten its length when it is heated to a temperature indicative of an overheating condition in the operation of the machine, the shortening of the formed shape memory alloy body operating the switch to change the state of the switch and so operating the alarm-giving circuit. 7. The device as recited in claim 6 in which the formed shape memory alloy body is a wire with a diameter of between 100 and 300 micrometers. 8. The device as recited in claim 1 in which the formed shape memory alloy body is protected against exposure to external environmental influences by an insulating blanket placed to inhibit access of an externally-originating airflow to the formed shape memory alloy body, or, by placing the formed shape memory alloy body in a sealed housing. 9. The device as recited in claim 1 in which the switch further comprises a return spring which, when the switch is in its alternate condition, will, upon subsequent cooling of the device leading to reversal of the shape and stiffness change of the formed shape memory alloy body, operate the switch to return it to its initial condition while reshaping the formed shape memory alloy body and resetting the alarm-giving circuit so that it may detect any subsequent machine overheating event. 10. The device as recited in claim 1 in which the shape memory alloy composition comprises nickel and titanium. 11. The machine-overheating alert device of claim 1 in which the formed shape memory alloy (SMA) body is a wire, the SMA wire comprising a first straight segment, a plunger-engaging segment and a second straight segment, the straight segments being of generally equal length and oriented at an acute angle to one another, the straight segments being separated by the plunger-engaging segment, the plunger-engaging segment so engaging the plunger that as the SMA wire shortens to its initial length and the angle between the straight segments becomes less acute, the plunger-engaging segment will apply pressure along the plunger force-application axis to depress the plunger and operate the switch. 12. A device for detecting an overheating condition in an operating machine, and in conjunction with an alarm-giving circuit, providing an alert of the overheating condition in the operating machine; the device comprising: a thin, heat-conducting, base with two opposing surfaces bounded by two opposing long edges and two opposing shorter edges, one base surface being intended for contact with and attachment to a surface of the operating machine for thermal communication between the machine and the base, and the opposing base surface being a mounting surface for a switch and a shape memory alloy (SMA) wire; the switch being a momentary contact, normally-open switch with an operating plunger which, when depressed by application of force at a plunger end and along an axis, closes one or more pairs of complementary electrical contacts to close one or more electrical circuits, the switch comprising a spring opposing the applied force so that upon release of an applied contact-closing force the spring will open the one or more pairs of complementary electrical contacts, one pair of complementary electrical contacts being connectable to the alarm-giving circuit, the switch being secured to the mounting base surface with the plunger force-application axis being generally parallel to the mounting surface and generally perpendicular to a long edge of the base, the switch being positioned generally centrally on the base; the SMA wire having been stretched from an initial length to an extended length and having a transition temperature at which the SMA wire will, on heating, contract from its extended length to its initial length, indicative of a machine overheating condition, the transition temperature being greater th