SU1000788A1 - Temperature indicator - Google Patents

Description

(54) TEMPERATURE SIGNALIZER

The invention relates to temperature measurement and control and can be used to visually and automatically signal that an object reaches a predetermined temperature in the presence of electric fields of acoustic oscillations, low light, high temperatures, high humidity.

An indicator device for temperature control is known, which contains a temperature-sensitive element made of a ferromagnetic material that changes its magnetic properties when heated to a temperature corresponding to its Curie temperature ij.

The drawback of the device is the low reliability of the alarm, especially when controlling the temperature of objects that are difficult to access.

The closest in technical essence and the achieved result to the proposed is a temperature detector, comprising a housing with a permanent magnet fixed at its base, a temperature-sensitive element made of a ferromagnetic material with a certain Curie point,

thermal pad and recording element f 2.

The disadvantage of the detector is the low reliability of the alarm when electric fields are found, acoustic oscillations, which can lead to a false alarm.

The purpose of the invention is to increase the alarm reliability.

This goal is achieved by inserting a piston made of a magnetic material into the temperature detector and dividing the volume,

15 bounded by a housing with a base and with a thermosensitive element fixed in it through a heat insulating gasket, into two cavities, one of which is at the base of the housing

20 communicates with the environment and a friend is connected to the recording element.

In the drawing of scheme 1 "1b., The signaling device is shown in a classic way.

25

The temperature detector includes a housing 1 made of a diamagnetic material, a temperature-sensitive element 2 made of a ferromagnetic material with a specific material.

30-Curie point, corresponding to coitulated temperature, and fixed thermally insulating gasket 3, hermetically connected to the body, movable permanent magnet made in the form of a piston 4, hermetically dividing with its bottom surface the volume bounded by the body, a temperature-sensitive element with a heat insulating gasket and a permanent magnet 5 fixed in the housing, into two cavities. Through holes are made in the body, the first hole 6 is located Yellotnaya with the bottom surface of the heat-insulating gasket in the first cavity, and the second 7 is closely fixed to the top surface fixedly in the housing of a permanent magnet in the second cavity. A tube 8 is hermetically connected to the first hole , to the other end of which a recording element is attached, made in the form of a bellows 9. The first cavity and the tube with bellows are filled with a gaseous medium under pressure.

The temperature detector works as follows.

In the initial state, when the value is controlled, the temperature is less than the specified T Oz, the piston 4 is affected by the force from the temperature-sensitive element 2 and the force due to the pressure of the gas mixture filling the first cavity with the tube and bellows, as well as the force from the constant magnet. 5. In some position of the layer 4, the indicated forces are balanced and the force 4 does not move relative to the housing 1, while the sylphs 9 show some pressure P, the signal of the initial state. When the controlled temperature rises and reaches the Curie point T Qy, the thermosensitive element changes to the paramagnetic state. This leads to an imbalance of the forces acting on the piston 4, and moving it to a new equilibrium state of the piston 4. In this case, the presence of the through hole 7 helps to maintain a constant pressure in the second cavity when the temperature indicator is placed in a certain gaseous medium, and also eliminates influence

for the operation of the alarm and pressure imputation of this medium. Due to the tightness of the first cavity and the hermetic connection to the opening 6 of the tube 8 with bellows 9 in the new 5 spring condition, the bellows 9 shows some pressure - the signal of the alarm triggering. When the temperature decreases and reaches its value, it is ferromagnetic

0, the properties of the thermosensitive element 2 are restored and the piston 4 returns to its original state.

The possibility of continuous monitoring of the initial state of the temperature indicator and its state after operation, the absence of false alarms caused by electric fields, acoustic oscillations, the possibility of using the output signals of the temperature indicator both for visual indication and in the systems of automatic control allowing 5 They also improve the reliability of measurements and ease of operation.

Claims (2)

1. Authors certificate of the USSR. 504103, cl. G 01 K 7/38, 1976. 2. Authors certificate of the USSR No. 798509, cl. G 01 K 7/38, 1981 (prototype).