SU1629724A1 - Recuperator temperature condition control set - Google Patents

Abstract

The invention is not suitable for heating devices for per neooiopa that are used for heating B03,;} vxa and rssa for heating and tertiary purposes in tarpaulin t, 1 liter / rgii. The purpose of the invention is to ensure a stable flow of the absorbing signal from the computer. The terracotra system is equipped with a permafrost heat exchanger by means of channels for the account of the utilization system with units in the 0 channel of regupiroan / i t

Description

The invention relates to heat utilization devices for recubering apparatus used for heating air and gas in heating and thermal furnaces of various purposes in mechanical engineering and metallurgy.

The purpose of the invention is to provide a stable flow rate of heated air with a maximum temperature

The drawing shows a diagram of the device for controlling the temperature regime of the heat exchanger

The device contains a blower station 1 pipe 2 primary cold air pipe 3 secondary cold air metal recuperator 4 pipe 5 preheated air discharge line 6, three-wire burners 7 industrial furnace 8 smoke outlet 9 chimney 10 gas pipe 11 Three-wire burners 7 are connected pipe 2 The primary cold air and the gas pipeline 11 will also contain a drying device 12 with a differential pressure gauge 13 and an air consumption indicator 14. The thermoelectric converter temperature controller 15 and temperature controller 16 connected to temperature controller 17 temperature switch 18 of temperature controller connected to executive mechanism 19 of regulator 20 of secondary cold air thermal temperature converter 21 temperature connected to heat exchanger tube indicator 22 heated air 23 and a differential pressure gauge 24 and a driver 25 are interconnected with an air flow controller 26 connected via switch 27 to an actuator 28 and to a regulating valve. nom 29 discharge lines under heated air

The device works as follows:

Three-wire burners 7 of the industrial furnace 8 are supplied via pipeline 11 with gas, and from blower station 1 through pipeline 2, the primary cold air is supplied. Combustion products from the furnace 8 through the chimney - the theme of the path 9 is diverted to the heat exchanger 1. where the secondary cold air supplied through the pipeline 3 is heated. The heated air through the pipeline 5 is supplied to the three-wire burners 7 in the required amount.

Using the settings of two-point control devices of the indicators 14 and 22, the minimum value of the cold air flow rate and the maximum allowable temperature of the heat exchanger tube are set, and the temperature set point of the heat exchanger and hot air flow is set by the temperature sensors 16 and 25 flow meters. At steady state mode of the industrial furnace 8, temperature controllers 17 and flow rate 26 provide, at a constant predetermined value, parameters of the heat exchanger tube, flow rate of the heated nose air supplied to the burner 7 by changing the amount of cold air through the heat exchanger by the regulator 20 liters of part of the heated air by the regulator 29 through the discharge line.

In this case, the output signal of the thermoelectric converter 15 is equal to the output signal of the temperature setting device 1B, and the output signal D / of the pressure meter 24 is equal to the output signal of the output setting device 25. In this case, the output signal; the regulating effect of the temperature regulators 17 and the flow rate of 25 mm. The zero values and the flow of cold air through the regulator 20 and the discharge of part of the heated air into the discharge line through the regulator 29 remain unchanged.

When the thermal mode of the furnace 8 changes, the temperature of the waste combustion products changes, and therefore the temperature of the heat exchanger tube 4 changes the output signal of the thermoelectric converter 16. The temperature controller 17 generates a mismatch signal, amplifies it in the control signal through the switch. controls the actuator 19 connected to the regulator 20, changing the secondary air supply to the heat exchanger 4 so as to eliminate the temperature deviation of the tube river eratora from that set, and hence the offset signal 15 and the thermoelectric converter 16 temperature set point. A change in the amount of preheated air coming from the heat exchanger 4 to the three-wire burners 7 of the furnace 8 at the tapering device 23 changes the output signal of the differential meter 24. The flow controller 26 generates an error signal, amplifies it as a vice regulating signal via the switch 27 and controls the actuator 28, connected to the regulatory authority 29, changes the discharge of heated air into the reset line b. The change in the regulating signal, and consequently the air cL.poc, will continue until the signal of the current value of the heated air of the differential pressure gauge 24 becomes equal to the setpoint 25 signal

When the constriction device 12 reaches the minimum flow rate of the secondary cold air, the flow indicator 14 closes the contact-two-position regulating device, which in the switch 18 blocks the control circuits of the temperature regulator 17, and the regulator 20 provides the air flow rate currently supplied by the blower station 1. the achievement of the flow rate of secondary cold air on the narrowing yc i device 12 is larger than the minimum contour of the on-off control device of the secondary device 14 control circuit breaker opens

17 in the switch 18 is released, and the temperature controller 17 again performs the function of controlling cold air supply to the heat exchanger.

In an emergency situation, when the temperature of the tube of the heat exchanger 4 reaches the maximum allowed in the indicator 22, the contact of the on-off control device closes. In switches

18 and 27 of the temperature and flow controllers are blocked by the control circuits of the temperature controllers 17 and flow 26 and at the same time the control circuits of the actuators 19 and 28 are formed, which fully open the regulators 20 and 29, ensuring maximum cold air flow through the heat exchanger 4 and the heated air discharge line 6 reset.

When the temperature of the heat exchanger tube 4 decreases, the contact of the on-off regulating device of the device 22 opens, which leads to the unlocking of the control circuits of the temperature regulators 17 and the flow rate 26. After this, the temperature stabilization of the heat exchanger wall and the flow rate of the heated air is provided by the temperature controllers 17 and the flow rate 26.

The advantages of the device are as follows: the service life of the heat exchanger is increased by maintaining the maximum permissible temperature of the recuperator tube stable over time; saves fuel by maintaining the maximum temperature of the heated air, which leads to a constant thermal regime; No increase in the production area is required for the construction of bypasses, the installation of special devices and cooling systems to protect the heat exchanger from overheating, which is especially obvious when reconstructing existing workshops.

Claims (1)

Invention Formula Device for controlling the temperature regime of the heat exchanger, including a blower, cold and heated air pipelines, and a heated air discharge line containing a thermoelectric temperature converter heat exchanger tubes and temperature regulator, characterized by that, in order to ensure a stable flow of heated air with a maximum temperature, it is additionally equipped with switches, and a narrowing device with a difnanometer and an air flow compensator and a regulator are installed on the secondary cold air pipeline, 0 mechanically connected to the actuator, which through a switch is connected to the temperature controller connected to the setpoint device and the temperature indicator of the heat exchanger tube, to the inputs 5 of which thermoelectric converters are connected, and on the heated air pipeline a restriction device is installed with a differential pressure gauge and flow meter connected to a flow regulator connected through a switch with a temperature indicator of the heat exchanger tube and an actuator connected to the regulator of the discharge line of the heated air portion.