DE3724337A1 - Temperature switch - Google Patents

Abstract

A temperature switch has a permanent magnet (1) on which two thermal ferrite bodies (2, 3) are placed in order to form a U-shaped body. A magnetic field sensor (4) in the form of a Hall element is arranged between these thermal ferrite bodies (2, 3), which form the limbs of the U. On reaching the Curie point, this magnetic field sensor (4) is subjected to only a low magnetic flux, so that it switches. <IMAGE>

Description

The invention relates to a temperature switch with a component that reacts to heat and an elec trical switching device.

Temperature switches usually show a heat forming or elongating expansion element or a river liquid or expansion wax that expands when exposed to heat and thereby actuated a switch. Such temperature switches are subject to mechanical aging Wear and are sensitive to environmental influences se.

The invention has for its object a tempera trainee switch of the type mentioned in the beginning the fact that it is built with low wear and is inexpensive can be produced.

This object is achieved in that the component that reacts to heat with a Permanent magnet connected thermoferrite body formed and the electrical switching device a magnetic field probe.  

Such a temperature switch works on a new one Principle. To switch the switching device is not the change in length or deformation of a component in follow from heat, but from heat effect occurring magnetic field change used. By using thermal ferrites with different Chen Curie points you can make temperature switches len, which switch at different temperatures. In addition, the temperature switch according to the invention is very small.

The temperature switch is particularly inexpensive adjustable if the magnetic field probe is a Hall element.

A particularly simple embodiment of the Invention is characterized in that the heat responsive component is U-shaped, the Permanent magnet the base and two thermoferrite bodies the Form leg of the U's and that the magnetic field probe the side opposite the permanent magnet between the legs of the U 'is arranged.

The residual field acting on the magnetic field sensor can easily zeroed out when on the free end of a ferrite body is a matching magnet is arranged.

The invention allows numerous embodiments. To further clarification of their basic principle are two of which are shown schematically in the drawing and are described below. This shows in

Fig. 1 is a side view of a thermostat according to the invention,

Fig. 2 is a side view of a second embodiment form of a temperature switch according to the invention.

Fig. 1 shows a permanent magnet 1, on the two poles Thermoferritkörper 2, 3 are set such that a total of a U-shaped component is formed. Between the legs of the U-shaped component forming thermo ferrite bodies 2 , 3 , a magnetic field sensor 4 is angeord net, which can be a common Hall element. The thermoferrite body 2 , 3 form inference body and lead to temperatures below the Curie point of the ferrite body 2 , 3 that the magnetic field sensor 4 is exposed to the magnetic flux. If the Curie point is reached, the thermoferrite bodies 2 , 3 no longer conduct the magnetic flux. This causes the magnetic field sensor 4 to switch.

In the embodiment of FIG. 2, a matching magnet 5 is placed between the magnetic field sensor 4 and the free end of the thermoferrite body 2 . This could also sit on the outside on the thermoferrite body 2 , if you want a smaller, mutual distance between the thermoferrite body 2 , 3 . The alignment magnet 5 causes the magnetic field to completely degrade when the Curie point is exceeded.

Claims (4)

1. Temperature switch with a component that reacts to heat and an electrical switching device, characterized in that the component that responds to heat is formed by a thermoferrite body ( 2 , 3 ) connected to a permanent magnet ( 1 ) and the electrical switching device is a magnetic field probe ( 4 ) is. 2. Temperature switch according to claim 1, characterized in that the magnetic field probe ( 4 ) is a Hall element. 3. Temperature switch according to claims 1 and 2, characterized in that the heat-reacting component is U-shaped, the permanent magnet ( 1 ) forming the base and two thermoferrite bodies ( 2 , 3 ) the legs of the U's and that the magnetic field probe ( 4 ) is arranged on the opposite side of the permanent magnet ( 1 ) between the legs of the U '. 4. Temperature switch according to one or more of the preceding claims, characterized in that a balancing magnet ( 5 ) is arranged on the free end of a thermoferrite body ( 2 ).