SU1092596A1 - Thermal relay - Google Patents

Abstract

A THERMORELLE containing a reed switch, a magnetic field source and a thermosensitive element made of a thermomagnetic material with a given Curie point, characterized in that, in order to increase reliability and speed, a reed switch body is made of a thermomagnetic material with a given Curie point.

Description

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The invention relates to devices for monitoring temperature measurements and can be used in automation and control devices.

Temperature control devices are known, comprising a reed switch, a permanent magnet, and a thermosensitive magnetic circuit consisting of three sections 1.

The disadvantage of this device is low immunity from magnetic interference due to the fact that the reed switch contacts are unshielded and in the presence of magnetic interference compensating the main field, the device generates a magnetic signal. Thus, low immunity leads to a decrease in the reliability of the device and the system as a whole, in which it is included.

The closest in technical essence to the invention is a thermal relay containing a reed switch, a source of a magnetic field and a thermosensitive element made of a thermomagnetic material with a given Curie point C2.

The disadvantages of this device are the large inertia and low reliability in operation, which are explained by unfavorable conditions of heat transfer. To activate the thermal relay, it is necessary to heat the entire contact volume, made of a thermomagnetic material to the Curie point. The rapid heating of the contact, which determines the speed of the device, especially the areas located in the housing at the point of contact of the contacts, is difficult, since the heat transfer by thermal conductivity at the contact has a large inertia, which determines the speed of the device.

A significant disadvantage of this device is also low noise immunity, since it is possible that the device will act falsely in the presence of magnetic interference.

The aim of the invention is to increase the reliability and response speed.

The goal is achieved due to the fact that in a thermal switch containing a reed switch, a source of magnetic field and a thermosensitive element made of a thermomagnetic material with a given Curie point, the reed switch body is made of the specified thermomagnetic material with a given Curie point.

The drawing shows the specified thermostat.

The thermostat contains a reed switch 1, placed in the magnetic field of the source of the magnetic field 2. The reed switch housing is made of a thermomagnetic material

with a Curie point equal to the controlled temperature.

For the body of the reed switch, it is advisable to choose the materials listed below, based on the desired value of the controlled temperature.

Curie point, C

Materials%

 (cementite)

200 70 10-100 FS 70; Ni 30 Ni 70; C 30

The device works as follows.

In the initial state, when the temperature of the controlled medium is less than the Curie point of the material of the housing, the contacts of the device are open, since the contacts are shielded from the magnetic field. This state is characterized by the absence of a signal from the thermal switch. With increasing ambient temperature

the reed switch case is heated and when the case temperature reaches the Curie temperature, the thermomagnetic properties of the material from which the case is made is lost

reed switch The thermomagnetic material at the Curie temperature is transformed into a paramagnetic. In this device, this leads to the fact that the case ceases to shield the contacts from the magnetic field and the contacts of the reed switch are closed, signaling that the controlled medium has reached the specified temperature.

When the ambient temperature is below the Curie temperature

0 restores the magnetic properties and shields the contacts again, then opens. Thus, the thermal switch comes to its original state and is again ready to measure the temperature.

The advantage that the proposed device has over the prototype is that it has greater noise immunity and greater speed.

Greater speed is achieved by the fact that in the proposed device a temperature-sensitive element - a thermomagnetic body is in direct contact with the controlled medium, i.e. in favorable conditions of heat transfer, while in the prototype the sensing element is in the case, the heat transfer to which is lost to the mine, which explains its low speed.

The proposed device is more reliable.

prototype by increasing jamming interference. The last is reached

31092596

by the fact that the ferromagnetic body is a Herzee reaches the Curie point, i.e. Until this time, the switch shields the contacts of the reed switch until the time of the thermal relay is insensitive to as long as the temperature of the medium is not magnetic.

Claims (1)

A THERMOREL containing a reed switch, a magnetic field source and a thermosensitive element made of a thermomagnetic material with a given Curie point, characterized in that, in order to increase reliability and speed, a reed switch housing is made of a thermomagnetic material with a given Curie point. (L s o