SU1068907A1 - Heat setting device - Google Patents

Abstract

THERMOSTATING DEVICE containing a temperature sensor with a heater placed on the regulator input and a cascade thermopile, the first output of which is connected to the first output of the power supply directly, the second output to the second and third outputs of the power supply regulator, respectively, through the first and second transistors of the power amplifier regul torus, characterized in that, in order to simplify the device, in it the heater is connected in parallel to the corresponding transistor of the power amplifier of the regulator. (L O) 00 with

Description

The invention relates to thermoelectricity and can be used in the creation of thermostats used in various popular folk industries. households

A thermostat is known that includes a temperature sensor connected to a heater regulator, a cooler in the form of a cascade thermopile, a switch, a diode bridge, and a C13 .. power source.

The drawback of the device is the presence of a static error when the ambient temperature varies over a wide range, since a temperature loss occurs in the thermostat due to the difference in thermal connections between the sensor and the object. environment.

The closest technical solution to the invention is a thermoelectric thermostat, which is used to reduce the static error using an additional thermopile located near the C2 3 temperature sensor.

However, in a wide range of temperatures, the non-linearity of the thermal performance of the thermal battery becomes significant and in the thermostat. Therefore, a correction unit and a regulating element are included that controls the additional (compensation battery, which complicates the known C23 device.).

The purpose of the invention is to simplify the device.

This goal is achieved by the fact that in a thermostatic device, there is a temperature sensor connected to the regulator input with a heater placed on it and a cascade thermopile, the first output of which is connected to the first output of the power source directly, the second to the second and third outputs of the power supply, respectively The first and second transistors of the power amplifier of the regulator, the heater, is connected in parallel to the corresponding transistor of the amplifier with the regulator.

The inclusion of an additional heater causes a slight cooling of the thermostating object due to the heating of the sensor, which must be eliminated by the temperature setter.

Fig. 1 shows an electrical functional diagram of the proposed device J in Fig. 2, a plot of the variation in heater power versus ambient temperature.

The device contains a temperature controller 1, a thermostatically controlled camera 2, a temperature sensor 3, a compensating heater 4, a cascade thermopile 5, a power supply b, a transistor 7 and 8, and a power amplifier 9.

The principle of compensating for a static error in a thermostat with a regulator operating in a reverse mode with the use of an additional heater (since at present the error in these thermostats is compensated with a thermal battery operating in a reverse mode),

0 is followed by.

Fig. 2 shows the dependence of the change in the power of the heater (compensatory) RC on the temperature o1 of the corrosive medium (l for the cases

5 when the sensor senses the temperature of the medium better than the thermostat opt, CV: and 6 - for the case when the thermostatting object feels the temperature of the medium better than the sensor;

Q T, is the ambient temperature, close to the temperature of setting; P, is the ms of the heater at the ambient temperature equal to Ta.

In case when changing

5, the temperature of the temperature-controlled object is changed in the same direction as the temperature of the medium, then to return the temperature of the temperature to the specified value on the Temperature Sensor

 it is necessary to change the power Rc directly proportional to the change in ambient temperature, regardless of the thermopile operation (heating or cooling). At the same time power Rc

5 can take on a value greater or less (Fig. 2, curve S). In the event that a change in the ambient temperature causes a change in the temperature of the thermoelectric object in the opposite direction, the power Rc should be changed inversely proportional to the change in the temperature of the medium (Fig. 2, curve O.). The specified mode of operation of the heater

5 is performed by connecting it between the output of the regulator and one of the poles of the power source, depending on the sign of the temperature change of the temperature, i.e. static error sign.

PO power is selected based on the temperature / water compensation conditions (thermostatting object errors at the extreme points of the ambient temperature value.

The device works as follows.

The signal from the temperature sensor 3 is fed to the controller 1, the input

which is a bridging scheme. Depending on the temperature change of the ambient temperature ± (T To or top% changes the sign and magnitude of the unbalance of the bridge and the regulator supplies to the thermopile a corresponding

Claims (1)

A THERMOSTATING DEVICE containing a temperature sensor connected to the input of the controller with a heater placed on it and a cascade thermal battery, the first output of which is connected directly to the first output of the power source, the second output to the second and third terminals of the power source, respectively, through the first and second transistors of the regulator power amplifier characterized in that, in order to simplify the device, in it the heater is connected in parallel with the corresponding transistor of the power amplifier of the regulator. SU »1068907