SU427317A1 - METHOD OF REGULATING THE TEMPERATURE OF THE THERMO-FLOATED FIRE-SAFE COMPOSITION OF THE TUBULAR FURNACE - Google Patents

Description

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The invention relates to the field of temperature control of a hot-melt fire-hazardous composition in tube furnaces in the production of roofing materials.

When regulating the temperature of a hot-melt composition in tube furnaces, the controller that controls the supply of the fuel-air mixture to the furnace of the tube furnace is affected by signals proportional to the temperature of the hot-melt fire hazardous composition at the outlet of the tube furnace and the temperature of the hot-melt fire-hazardous composition at the outlet of the tube furnace in the intermediate tank.

The known method does not eliminate the temperature fluctuations of the hot-melt fire-hazardous composition at the outlet of the tube furnaces in the intermediate tank for a long time after causing a disturbance, which leads to a danger of ignition and forcing the design temperature and the impregnation rate in the bath to decrease.

The purpose of the invention is to increase the accuracy of maintaining the temperature at the maximum fireproof condition and prevent spontaneous combustion of components.

This is achieved by the fact that the regulator of the fuel-air mixture is additionally affected by signals proportional to the consumption of the fuel-air mixture and the consumption of the hot-melt fire-hazardous composition at the entrance to the tube furnace.

The introduction of a pulse according to the consumption of the fuel-air mixture makes it possible to eliminate the oscillation of disturbances applied along the channel of the regulator of the fuel-air mixture and to increase the intensity of the transient modes of the tube furnace.

The introduction of a pulse in terms of the consumption of a hot-melt fire-hazardous composition at the entrance to the tube furnace increases the information about disturbances applied through this channel and allows them to be used in a timely manner to stabilize the temperature of the hot-melt fire-hazardous composition at the exit of the tube furnace.

The drawing is a schematic diagram of the regulation of the temperature of a hot-melt fire-hazardous composition in tube furnaces, in a sleeping manner.

The leading tubular furnace / is equipped with a flow regulator for a thermoformed fire-hazardous composition, which contains sensors 2-3 of the temperature of a hot-melt fire-hazardous composition in intermediate tank 4, sensors 5-6 of the temperature of the hot-melt aero-hazardous composition directly at the outlet of the tube furnace, sensors 7-8 of the fuel-air flow rate mixtures, sensors 9-10 consumption of the impregnating composition at the inlet P tube furnace, electronic regulating

device 11, hand control setpoint 12, control contactors 13, magnetic starter 14, actuator 15, indicator 16 of the position of the movable rod of the control valve 17.

The electrical signals from temperature sensors 2-3 and 5-6 and expenses 7-8 and 9-10 are fed to the input of the electronic control device 11 simultaneously with the electrical system.: Scarlet from the unit for manual control 12 and summed.

Depending on the magnitude of the mismatch between the variable sum of temperatures and the flow rate and the setting from setpoint 12 from: an electrical signal is applied to the output of the regulating device 11. This signal goes through the contactors 13 and the magnetic starter 14 to the actuating mechanism 15. The latter begins to move the movable pin of the control valve 17. The control of the movement of the movable rod of the control valve 17 is carried out by the position indicator 16.

As the signal increases, the sum of temperatures and flow rates increases as the signal at the output of the regulating device. As a result, the opening of the control valve 17 is reduced.

The remaining tubular furnaces 18 are equipped with a flow controller of a hot-melt fire hazardous composition, which contains sensors 19–20 of the temperature of a hot-melt fire hazardous composition directly at the outlet of the tube furnace, sensors 21–22 of the fuel-air mixture consumption, and sensors 23–24 of the flow rate of a hot-melt fire hazardous composition at the entrance of the tube furnace , electronic control device 25, hand control sensor 26, control contactors 27, magnetic starter 28, actuator 29, movable brush position indicator 30 adjusting of the valve 31.

The electrical signals from the temperature sensors 19-20 and the flow rates 21-22 and 23-24 are fed to the input of the electronic control device 25 simultaneously with the electrical signal from the manual control setting device 26 and are summed up.

Depending on the magnitude of the mismatch between the variable sum of temperatures and flow rates and the setting of the setting device 26, the electrical signal at the output of the regulating device 55 changes. This signal through the contactors 27 and the magnetic starter 28 is fed to the actuator 29. The control valve 31 starts to move. The movement of the movable valve of the control valve 31 is monitored by the position indicator 30.

With an increase in the sum of temperatures and flow rates, the magnitude of the signal increases on the output of the regulating device. As a result, the opening of the control valve 31 is reduced.

The control devices 11 and 25 are adjusted to the maximum allowable design temperature of the heat-melt composition on

the output of the tube furnaces, whereby the pulses for the flow of the fuel-air mixture and the flow of the hot-melt fire-hazardous composition at the entrance to the tube furnace are turned into regulators with opposite signs. I. pulse according to the maximum permissible temperature of the hot-melt fire hazardous composition on the outlet of the tubular furnaces in the intermediate tank is fed only to the regulating device 12, since it characterizes the thermal state of the composition before feeding the hot-melting fire hazardous composition to the units, and only in this case the best quality of transition modes regulirovapi.

The pulses introduced by the flow of the fuel-air mixture and the flow of the hot-melt fire-hazardous composition at the entrance to the tube furnace significantly outpace the pulses in temperature at the exit of the tube furnace in

intermediate tank and carry the most reliable information about the process of heating the hot-melt fire-fighting composition in tube furnaces and the required rate of change.

Due to this, the duration is reduced and the dynamic error of the transition modes is reduced, which significantly improves the accuracy of the temperature maintained by the maximum fire safe

Condition n prevents spontaneous combustion of the components of the impregnated base.

Subject invention

The method of regulating the temperature of a hot-melt fire-hazardous composition in a tubular furnace by the influence on the flow controller of the fuel-air mixture by signals proportional to the temperature at the outlet of the tubular furnace directly and pa

the output of the tubular furnace in an intermediate tank, different le.M, that, in order to increase the accuracy of maintaining the temperature of the maximum fireproof state and prevent spontaneous combustion of components, the fuel-air mixture flow regulator is additionally affected by signals proportional to the fuel-air flow and fuel consumption hot-melt flame retardant composition at the inlet to the tubular

bake.

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