SU337662A1 - DEVICE FOR MEASURING THE TEMPERATURE OF OBJECTS - Google Patents

Description

The invention relates to automatic measurement of M and can be used in devices for measuring the temperature of an object: c.

The known devices of similar purpose, containing temperature sensors on the objects, included in measuring circuits (alternately connected by a switch to a relay amplifier, a programmable reference signal generator, a relay unit and a DC source do not provide the required accuracy of measurements.

The purpose of the invention is to increase the accuracy of measurements.

For this purpose (the proposed device is equipped with a temperature deviation measurement unit containing an additional switch for connecting an additional current to the source bus, additional relays whose contacts are connected between the source bus and control circuits of the program generator, and the coils of the block relay are connected to the source bus through the generator relay contacts and isolating diodes.

FIG. 1 shows a diagram of the proposed device; in fig. 2 - diagram of the measuring unit.

output group (contacts of the commutator 3. Sequential comparison of the temperature in the objects (not shown) with the reference values is carried out with JIQMO software generator 4. The error signal is fed to the input of the relay amplifier 5. The amplifier output through the contacts of the switch 3 is connected to the windings relay of memory block 2. Development diodes

6 are connected to the other terminals of the windings of these 7-W relays. The state of relay 7-10 characterizes the temperature in each object. Relays 7 and S are triggered when the temperature in the object is higher or lower than the permissible value. Relays 9 and 10 are triggered if the object has a maximum or minimum temperature in conjunction with other objects, which, however, is within the permissible limits. Diodes 6 through contacts

// - 14 generators 4 are connected to the DC power source bus. The coils of relays 7 and 8 are connected to the same bus through their own normally open contacts 15 and 16, and the windings of relay 9 and 10 through their own normally open contacts 17 and 18 and from the normally connected normally open contacts 19. These are the contacts of the memory block relay those that characterize maximal or minimal

are logical. On assignment, the relays are 9 and 10, however, they are connected to "the subsequent contacts of the switch and I are used for other objects). For the last object to be monitored, such a circuit of normally closed contacts is missing. The contacts 20 of the relay 7 and S are connected to the CIAP of reset of the orograms — a lot of generator 4. The normally open contacts 21 of the relays 7–9 and 10 serve for self-blocking of the mentioned relays.

Similarly, the luminescence block diagram is constructed for subsequent measured points. The output of the amplifier 5 is also connected to a temperature deviation measurement unit 22, which serves to determine the value of the measured temperature with a predetermined accuracy. The contacts 23 of the additional switch (see Fig. 2) alternately connect the windings of relays 24-29 with the relay contact of amplifier 5. Own normally open contacts 30, 31 and 32 respectively, relays 24, 25 and 26 connect the windings of these relays source in accordance with the scheme shown in FIG. 2. Moreover, the contact 33 belongs to the relay 24, in the group 34 (Contact Pins t and contacts 25 of the relay 25 and the inheriting relays installed in the positions preceding the Last position of the additional switch.

Other contacts 35 of the relay 24-29 connect the source bus to the control circuits of the software generator 4. The device detects objects in which the temperature goes out of predetermined tolerances, finds objects with the maximum and minimum within the temperature limit and measures the maximum and minimum temperature . The accuracy of the temperature measurement is determined by the number of subsequent comparisons of the temperature of each object with the reference values.

The device works as follows.

The software generator 4 connects the measuring circuits 1 of the objects to the amplifier 5 in turn. Moreover, when connecting the T3 | Measuring circuit 1 of each object, several measuring operations are performed.

Consider the operation of the device when connected to the first measuring circuit. The monitored temperature is compared with the reference values for the upper and lower deviations. First, the temperature is compared with the allowable value (for example, the upper one). If it is higher than the norm, then the error signal is fed to the amplifier 5, o, n and triggered and switches on relay 7, which with its contacts 15 and 21 becomes self-locking.

The object is memorized using the ladder-contact circuit of the memory block 2. At the same time, contact 20 is triggered, which includes the reset wedge, i.e., leads software generator 4 to the state corresponding to the control of the next object.

To reduce the monitoring time, the circuit is constructed in such a way that the measurement of the temperature 1 will be carried out until the result is obtained (one of the 7-W relays is triggered) and then

the switch goes to the next position. If the temperature in the object is below the upper tolerance, then its comparison with the reference values continues. Resistance or voltage sources may be taken as reference values. The lower tolerance is checked. When the temperature goes beyond the allowed limit, the relay 8 and its contacts 16, 20 and 21 are activated. The switch switches to the following position. If the temperature lies within the tolerance limits, then the test continues.

The temperature value is fixed by relay 24-29 of block 22. In the scheme under consideration, the operation of relay 24, 25 and 26 corresponds to

the temperature is between the upper tolerance and the nominal, and the relay 27, 28 li 29 is between the lower tolerance and the nominal. The number of positions of the additional switch and, subsequently, the number of discrete values of the reference value are chosen based on the requirement of measurement accuracy. If the temperature in the object lies between the nominal value and the upper tolerance, the reference value is changed discretely in accordance with the operation of the program generator 4 in such a way that its deviation from the nominal value is reduced. At a certain reference value, the amplifier 5 is triggered, in this case the relay 9 is activated and contacts 17 and 21 become self-blocking. This fixes the object with the maximum temperature. At the same time, through the relay contact, amplifier 5 is energized on the relay of block 22. This triggers the relay,

which corresponds to a given discrete value of the reference value (for example, relay 25). This relay, contact 31, becomes self-locking. At the same time, its contact 35 sends a signal to a software generator.

4, forced eiro to switch switch 3 to the next position, i.e., the verification of this object ends there. If the temperature is below the nominal value, the test continues. The circuit works

similarly, relay 10 and one of the relays 27, 28 and 29 are triggered.

After completing the checks of the first object, the temperature of the next object is similarly controlled. The features of the follow-up checks are as follows. As soon as there are objects in which the temperature lies between the nominal and the lower tolerance and the nominal and the upper

d.pusk, program generator 4 will work according to an abbreviated program. Due to the signals supplied by contacts 35, software generator 4 limits the comparison of the temperature in the object with the reference valid values and the corresponding values of the reference values recorded by the relays of unit 22 in the process of previous measurements.

If during subsequent measurements a large deviation from the nominal value is detected, then in this 1 the relays of memory block 2 and block 22 are triggered. They become self-locking and simultaneously with their contacts 19 and 33, 34 are removed from self-locking relays .

Thus, as a result of the polling polling cycle, objects are defined in which the temperature exceeds the tolerance (relay 7 and 8), as well as you are objects in which the temperature has a minimum AND maximum value IB of the tolerance (relay 9, 10 and others). With this, the values of the indicated temperatures are determined (relays 24-29).

6 Subject and purpose of

A device for measuring the temperature of objects, containing temperature sensors located at the objects, included in the measurement diagrams, alternately; About the switchable relay amplifier, the program generator setting reference signals, the relay memory block and the source (and another current, characterized in that, in order to improve accuracy, it is equipped with a temperature deviation measurement unit containing an additional switch for connection to “The striker of the permanent

additional relays, the contacts of which are connected between the source bus and control points of the program generator, and the relays of the memory unit are connected to the bus line via the generator relay contacts and isolating diodes.

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