SU951085A2 - Temperature indicator - Google Patents

Description

The invention relates to the measurement and control of temperature.

According to the main author. St. No. 712693 known temperature detector containing a piezoelectric element located in the housing, attached to a magnetically conductive plate, and a sensitive element of thermomagnetic material. The device allows you to control the achievement by the measurement object of a predetermined, threshold, temperature value, and also signals a decrease in the temperature of the object to the initial level. To return the alarm to its original state does not require operator intervention, which increases the reliability of operation With 1 / J. .

The disadvantage of the alarm is the low sensitivity.

The purpose of the invention is to increase the sensitivity of the device.

This goal is achieved by the fact that the temperature detector additionally introduced a permanent magnet with elastic gaskets, placed between the magnetic plate and the heat-insulating cover of the housing on which the sensing element is mounted. *

The drawing shows a temperature alarm, General view.

The alarm device comprises a housing 1 of a diamagnetic heat-insulating material, mounted at the base of the housing of a piezoelectric element 2 with contact plates 3 and 4, one of which 4, is magnetically conductive and is a permanent magnet, ¹⁰ current leads 5, a heat-insulating, magnetically neutral cover 6, on which is outside a thermosensitive element 7 made of magnetized ferromagnetic material is placed, the temperature of point 15 Yuori of which exceeds the limit value of the controlled temperature of the heated object, a constant filaments 8 arranged in the housing between the magnetically permeable plate 4 and Coy krysh20 6, and separated from them by elastic gaskets 9 and 10 of sponge rubber, etc. parolona

The magnetic properties of the nodes 4, 7 and 8, the material properties of the elastic gaskets, their dimensions, the preload force in the initial state are determined by the required sensitivity of the signaling device. The temperature alarm operates 30 as follows.

In the initial state, 'when there is no change in the temperature of the controlled object, and the temperature is equal to the nominal value corresponding to normal operating conditions, as a result of the interaction of the 5 magnetizing forces of the heat-sensitive element 7 and the permanent magnet 8' (which are selected more than the magnet * * i forces of the permanent magnet 8 and plate 4), the latter being pulled through the elastic gasket 9 to the magnetically neutral heat-insulating cover. 6. In this case, the gasket 9 is compressed, and the gasket 10 is subject to compression. In this state, the detector can find ·, j x until a change in the temperature of the controlled object occurs.

With increasing temperature t, from the nominal initial value by a certain amount due to heating of the controlled object, the magnetization of the thermosensitive element 7 decreases. In this case, the interaction force of magnet 8 and heat-sensitive Ltment 7 decreases. As a result, the attractive force of the magnet 8 to the heat-sensitive element 7 decreases, and the repulsive force of the magnet 8 from the cover b under the action of the elastic strip 9 increases. The magnet 8 gradually moves away from the lid 6 and approaches the magnetically conducting plate 4 of the piezoelectric element 2. When the threshold value of the controlled temperature is reached, the magnetization of the thermosensitive element 7 decreases so much that its magnetizing forces are insufficient to hold the permanent magnet 8. Under the action of the elasticity of the strip 9 and the forces of interaction of the magnetically conducting plate 4 of the piezoelectric element 2 with a magnet 8, the latter will be sharply attracted to the plate 4, compressing the gasket 10 ¹ (its new position is shown by a dashed line). As a result of the interaction of the magnet 8 and the plate 4, the piezoelectric element 2 is deformed (stretched). The electric signal from the piezoelectric element through current leads 5 enters the regiotration circuit (not shown), signaling that a threshold value of the controlled temperature has been reached.

With decreasing temperature of the object, the magnetization of the thermosensitive element 7 increases. When the initial temperature of the object (or lower) is reached, the magnetizing forces of the heat-sensitive element 7 increase so much that they begin to significantly exceed the forces of interaction of the plate 4 and the permanent magnet 8, as a result of which the latter is attracted to the heat-sensitive element. In this case, the piezoelectric element 2 is deformed (compressed), a voltage with a polarity opposite to the initial one appears on the contact plates 3 and 4. The registration circuit receives a signal about the achievement of the initial temperature value of the controlled object.

Due to the presence of a permanent magnet with elastic gaskets, the sensitivity of the proposed detector is much higher compared to the known one, and the case equipped with a heat-insulating cover provides J thermal protection of the piezoelectric element and the magnetic plate, which increases the operational reliability of the detector.

Claims (1)

. Claim Temperature alarm St. No. 712693, characterized in that, in order to increase the sensitivity, a permanent magnet with elastic gaskets is inserted in it, placed between the magnetically conductive plate and the heat-insulating housing cover on which the sensing element is mounted.