SU922684A1 - Temperature regulating device - Google Patents

Description

(5) DEVICE FOR REGULATING TEMPERATURE

The invention relates to automation and can be used in automatic temperature control systems of powerful electric devices with forced air cooling, installed outside the room.

A device for measuring temperature is known, comprising a switch, a pulse shaping unit, a thermal sensor, threshold elements, a pulse distributor, a multivibrator, an amplifying element, a power supply unit ill.

A disadvantage of the known device is considerable complexity and low reliability.

The closest technical solution is a temperature control device containing a temperature sensor connected to a control unit, to the output of which a relay distributor is connected via threshold elements, through which contacts of the heater section are connected fi to power supply 2.

A disadvantage of the known device is the low reliability due to the cessation of the process when the sensor is broken.

The purpose of the invention is to increase reliability.

The goal is achieved

Claims (2)

10 in that a temperature control device containing a base -. compensating thermosensitive dividers, relay pulse distributor, containing element I, first, second and third threshold elements, delay element, memory element and voltage divider, average output of which is connected to the first input of the third threshold element, the second input of which with the second input of the second threshold element with the second input of the first threshold element, with the second point of the main temperature-sensitive divider, and the middle point of the compensation A temperature-sensitive divider is connected to the first input of the second threshold element, to the first input of the first threshold element and to the first input of the And element, the output of each of which is connected to the corresponding input of the burdoy pulse distributor, one of which contacts is connected in series with the memory element whose control input through the delay element connected to the output of the third threshold element. The drawing shows a diagram of the device. - The device contains the main 1 and compensatory 2 temperature-sensitive dividers, the first 3 and second 4 threshold elements, the relay distributor 5 to relays 6, 7 and B-RD-qe points 9 and 10, element 11, third 12 threshold element, divider 13, delay element 14, memory element 15 on the thyristor, normally open contact 16 of relay 8. Element I output is connected to relay 8, which monitors the health of sensors 17 and 18, via RC chains 9 and 10, to output relay 7 and 6 relays distributor, which controls the fan sections follows. The main temperature sensor 17 is located in the body of the apparatus to be cooled, the compensation sensor 18 measures the ambient temperature, i.e. cooling air. This makes it possible in the process of regulating the temperature of an electrical apparatus to make the most of its natural heat transfer. The voltage difference from sensors 17 and 18 goes to threshold elements 3 and k. When a predetermined voltage difference is reached, threshold element 3 is activated, including the cooling fan section through relay 6, and further increase in the temperature of sensors 17i and, therefore, voltage drop across the inputs of threshold elements 3 and 4, threshold element 4 is activated, including through relay 7 is the next section of cooling fans. The first and second inputs of threshold element 12 are turned on in such a way that when the ambient temperature changes below a certain level, the voltage drop taken from voltage divider 13 and compensation sensor 18- switches threshold element 12 to state 1, i.e. . a positive voltage appears on the control electrode of the thyristor 15. If the sensor 17 is broken, in this case, a positive voltage will appear at the output of element 11, the relay 8 will activate, the relay 6 will turn on with the current of the RO chain 9 and only a portion of the fan sections will be switched on cooling, since the relay 8, by closing its contact 16, shunts the relay 7 through the opened thyristor 15. When the sensor 1b breaks, the threshold element 12 switches to the state O, but on the control electrode of the thyran 15 the positive voltage is maintained until the element delay 14 for the time of disappearance of the input signal, and since the output of the element 11 11 immediately after the sensor 18 is broken, the voltage appears to be high, the thyristor 15 opens and then the device operates similarly to the case of the sensor 17 broken. 18, when the ambient temperature is below a certain one, it reduces the likelihood of transformer overcooling over the time required to eliminate the malfunction. In the summer, when the sensors 17 and 18 are broken, all sections of the cooling fans turn on, since the output of the threshold: Element 12 and the control electrode of the thyristor 15 remain in the O state. This eliminates the possibility of exceeding the maximum allowable temperature of the electrical apparatus until the malfunction is eliminated. The elimination of breakages of sensors 17 or 18 causes the appearance at the output of the AND-O element, releasing the relay 8 and opening the contact 16. The device continues to work in normal mode. . Thus, despite the fact that if one or both sensors break, the temperature controller stops working, the device, taking into account external weather conditions, allows you to turn on a certain number of cooling fan sections, sufficient for the electrical apparatus to work in the allowable temperature range for some time necessary for troubleshooting, and this increases the reliability of the electrical apparatus as a whole. The invention includes a temperature control device containing a main and a compensating temperature-sensitive dividers, a relay pulse distributor, characterized in that, in order to increase a reliable device, it contains the first, second and third threshold elements, the delay element, the memory element and voltage divider, the average output of which is connected to the first input of the third threshold element, the second input of which is connected to the second input of the first threshold element, with the second input of the element And and CO the middle point of the main temperature-sensitive divider, and the middle point of the compensation temperature-sensitive divider is connected to the first input of the second threshold element, to the first input of the first threshold element and to the first input of the And element, the output of each of which is connected to the corresponding input of the relay pulse distributor, one of whose contacts connected in series with the memory element, the control input of which is connected to the output of the third threshold element through the delay element. Sources of information taken into account during the examination 1. USSR author's certificate number 647772, cl. G 05 D 23/19, 1976. 2. USSR author's certificate number 632997, cl. G 05 D 23/19, 1976 (prototype) ..