SU659915A2 - Device for measuring the temperature of moving metal object surface - Google Patents

Description

connected to the roller 2, the electrical connection between them is carried out by wire 9, made of material B, current collector 10 made of material B, and wire AND made of material A. The remaining wires are made of material B. The device also contains a cold core 12 thermoelectric values, a measuring device 13, for example, a potentiometer used to measure thermopower in a thermocouple circuit, the hot junction of which is formed at the point of contact of the working roller 2 and the wire 9. Thus, using a measuring device 13, temperature of roller 2. Amplifier 14 serves to amplify the signal in the differential thermocouple circuit, the hot junction of which is the contact of roller 2 with object 1, and the cold junction is formed by working roller 2 and drive 9. Electric motor 15 serves to drive a friction device, which the diagram is not shown. An amplifier output signal is used to turn on the motor 15.

The work roller 2 is pressed onto the sleeve 16 made of an insulator. A ring 8 made of material B is pressed onto the same sleeve. The electrical connection between roller 2 and ring 8 is made of a thin strip of material B, one end of which is clamped between the thin-walled cylindrical part of roller 2 and the surface, the middle protruding part of sleeve 16, and the other end soldered to ring 8. In FIG. 2 and 3, this bar is not shown. (In Fig. 1, its conventional image is indicated by the number 9). Thus, at the point of contact of the strip with a thin-walled rim of the roller 2, a thermocouple is created, the readings of which correspond to the surface temperature of the roller 2 in contact with the object to be monitored 1. The auxiliary roller 3 of material B is pressed onto the sleeve 17 of the insulator. The rollers rotate on axis 18, which is mounted in the two lugs of housing 19.

Current collectors 6 (from material A), 7 and 10 (from material B) are made of thin wires and are made in the form of loops placed in the grooves of the rollers 2 and 3 and ring 8. The design of loop-type current collectors and their fastening are visible on phi1 3. For this The two axes 20, the bar 21 and the screws 22 serve. To the Croius 19 of the device, an electric motor 15 is fixed with an integrated gearbox (the number of revolutions of the output shaft should be as small as possible).

A clutch 23 is mounted on the shaft of the electric motor 15, at the other end of which a thread is cut. The cut part of the clutch is connected to the brush 24. In the cavity of the stem, a spring 25 and an insert 26 are installed. They are turned by means of a nut 27.

The materials for the rollers are chosen so that one of them, auxiliary, has zero or very low; thermoelectric potential relative to the material of the controlled object. Then the second clip is working. For example, for measuring the temperature of copper or brass tape during rolling or pickling, the work roll can be made of constant, with an auxiliary roll made of copper. With this choice of thermoelectrode materials, the temperature at the point of contact of the all-in-one roller with the object has practically no effect on ioka5 devices, which depend mainly on the temperature of the working roller.

Therefore, the device readings will be true if the temperature of the working roller is equal to the temperature of the surface of the object.

0 For this purpose, a thermocouple is mounted into the work roller, which measures the temperature of its surface, and the sensor is supplied with a device containing a spring-loaded liner placed in the cavity of the rod.

5 The liner, together with the stem, can move along the longitudinal axis with the motor and move it into contact with the surface of the roller to form a friction pair. The heat from the friction, released at the point of contact between the liner and the roller, is spent on heating the latter. The device readings are recorded when the temperatures of the working roller and the object being monitored are equal.

5 The device operates as follows.

When the rollers 2 and 3 are brought into contact with the object 1, the thermopower arises at the point of contact of the roller 2. Since the temperature of the surface of the roller is usually lower than the temperature of the controlled object, this thermopower corresponds to some intermediate temperature. In this connection, in the control circuit of a differential thermocouple (see Fig. 1), including the working roller 2, the wire 9, the ring 8, the amplifier 14, the roller 3 and the object 1, the thermopower arises. The signal obtained in the control circuit is amplified by the amplifier 4 and is used to turn on the electric motor 15. When the shaft of the engine and the coupling 23 rotates, the rod moves progressively, as it is equipped with a protrusion (not shown) that fits into the corresponding corus slot 19 The stem 24 of the liner 26 enters into a co-tact with the surface of the roller, as a result of which it is additionally heated due to the generated heat of friction. Move

Claims (1)

The rod 0 stops at the moment when the thermopower disappears in the control circuit. This happens when the temperature of the working roller is equal to the temperature of the controlled object. After that, using a thermocouple embedded in the roller and measuring device 13, the temperature of the roller and, consequently, the true temperature of the monitored object is determined. The use of a frictional heating system in a known device for measuring the surface temperature of moving metallic objects will improve the measurement accuracy by reducing its inertia, especially at variable temperatures and high speeds of movement of the monitored object. The invention The device for measuring the surface temperature of moving metal objects according to the author. St. No. 498517, characterized in that, in order to reduce the inertia of the device, a friction system for additional heating of the working roller is introduced into it, which is made in the spring of a spring-loaded liner installed in the stem cavity, kinematically connected with the drive. Sources of information taken into account in the examination 1. Copyright certificate № 498517, cl. G 01 K, 13/06, 1975. ////////////// ШШ //// У tfue.i 20