SU1439549A1 - Device for controlling temperature - Google Patents

Abstract

The invention relates to automation and can be used in air conditioning systems to regulate its temperature. The device contains a first heat sensitive bridge connected in series, a first amplifier, a key element and a load, and reduces the dynamic error due to the presence of a second heat sensitive bridge connected in series, a second amplifier and a module end element connected by an output to the control input of the first amplifier, se made with adjustable gain. 1 il. (L

Description

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The invention relates to automation and can be used both for automatic temperature control in air-conditioned rooms and for determining the limits of the modes of heat and moisture treatment of air when implementing energy-saving technology in air conditioning systems.

The aim of the invention is to reduce the dynamic error.

The drawing shows a block diagram of the device.

The device contains the first thermosensitive bridge 1, the first amplifier 2, the threshold element 3, the key element 4, the measuring amplifier 5, the pulse shaper 6, the load 7, the indicator 8, the module selection element 9, the second amplifier 10, the second thermosensitive bridge 11.

The device works as follows.

The first bridge 1 makes a comparison of the resistance of the sensors (proportional to the temperature of the object) and the resistance of the setpoint, the error signal is amplified by the amplifier 2 and fed to: threshold element 3. In the case of a signal exceeding the output of the amplifier 2 of one of the thresholds actuation of element 3, the latter is triggered and includes element 4, operating in pulsed mode from the driver 6.

The measuring amplifier 5 supplies a normalized current signal to the input of the current temperature indicator 8, which provides a visual control of the variable value.

Element 9 of modulo absolute value of the signal at the output gives a negative value of voltage modulo equal to the value of the input voltage with any polarity. This output voltage acts on the gate of the field-effect transistor connected to the negative feedback circuit of amplifier 2, changing its gain factor. .

When changing the temperature of the exhaust air, measured with the help of bridge 11, the error signal changes, which is amplified by amplification - Lem 10 and fed to element 9 of the module. The output signal of element 9 is applied to the gate of the field-effect transistor, which regulates the gain of amplifier 2, thereby affecting the deadband of the device.

If bridge 11 is in equilibrium, then there is no signal and no effect and the device has a minimum dead zone. By changing the detuning of the bridge circuit 11 with the setting unit in a positive or negative direction, it is possible to obtain a proportional or inversely proportional dependence of the dead zone on the temperature measured by the bridge 11

For example, if bridge 11 is set to a temperature, then at a temperature from 0 ° C and higher, the deadband will expand. If the setting is, for example, 5 ° C, then with an increase in temperature, the deadband will decrease, but with an increase above 15 ° C, it will again expand. Thus, we obtain the change in the differential of the dead zone, depending on the additional measurement of temperature (exhaust air), and the setting point of the measuring bridge is selected after a specific graphical analysis of the modes of heat and humidity air treatment in each specific case.

This device reduces the dynamic error and allows air-conditioning systems to implement energy-saving air treatment technology without introducing into the system automatic control information about the position of the system regulators using only direct measurement of outside and exhaust air temperatures.

Claims (1)

Invention Formula A temperature control device comprising a first thermosensitive bridge connected in series, a first amplifier, a threshold element, a key element and a load, as well as a pulse shaper, connected in series to a measuring amplifier and an indicator, the pulse shaper being sub-. The key is connected to another input of the key element, and the measuring amplifier is connected to the thermosensitive shoulder of the first thermosensitive bridge, so that, in order to reduce the dynamic error, the device contains a second thermosensitive bridge connected in series, a second amplifier and the output element the module is divided, and the first amplifier is made with adjustable gain, and the output of the selection element of the module is connected to the control input of the first amplifier. O- 5m A