SU1481065A1 - Device for monitoring and controlling ferroconcrit articles heat treatment duty - Google Patents

Abstract

The invention relates to the field of building materials, in particular, to the control and regulation of the heat treatment mode of reinforced concrete products. Will improve the accuracy of control and regulation. It contains N heat treatment chambers 1, each of which includes an actuator of the regulator 2 of the steam supply, kinematically connected with an adjustable resistor 3, the first 4 and second 5 temperature sensors, the switch 6, the program regulator 7, the time relay 8, the display unit 9 . In addition, the device contains a pressure sensor 10, a blocking relay 11, a signal lamp 12, a steam consumption sensor 13 with a secondary device 14, a multipoint temperature recorder 15, a temperature meter 16, a remote indicator 17 for the position of control valves, a switch 18, a stabilized power source 19, 20 alternating voltage source, 1 Il.

Description

The invention relates to building materials, in particular to the control and regulation of the heat treatment of reinforced concrete products.

The aim of the invention is to improve the accuracy of control and regulation.

The drawing shows a diagram of a device for monitoring and regulating the heat treatment of reinforced concrete products.

The device contains n heat treatment chambers 1, each of which includes an actuator of a regulator of steam supply 2 kinematically connected with an adjustable resistor 3, first 4 and second 5 temperature sensors, switch 6, program controller 7, time relay 8 and indication unit 9.

In addition, the device includes a pressure sensor 10, a blocking relay AND, a signal lamp 12, a steam flow sensor 13 with a secondary device 14, a multi-point temperature recorder 15, a temperature meter 16, a remote control valve position indicator 17, a switch 18, a stabilized power supply 19 and AC source 20.

The device operates as follows. The reinforced concrete edition being processed, for example, a slab, is placed in chamber 1, where steam enters through the steam line, the pressure of which is measured using a pressure sensor 10. If the steam pressure corresponds to the set, then the winding of the blocking relay 1 1 is energized and its first and second contacts are closed. In this case, the AC voltage source 20 is connected to the power circuits and the device is turned on.

If the vapor pressure in the supply network for some reason drops, then the sensor 10 opens its contact, which leads to disconnection of the AC source 20 from the winding of the blocking relay AND and the opening of the first and second contacts of this relay, i.e. disconnecting the device power circuits . In this case, the open contact of the interlocking relay 11 closes, and the signal lamp 12 lights up, which notifies maintenance personnel of the absence of steam in the supply network. Thus, the shutdown of the device continues until the vapor pressure in the supply network is restored to the desired value. 'The steam consumption during operation of the device is measured using the sensor 13 steam consumption with a secondary device 14, which performs a total metering of steam consumption.

Next, steam enters each chamber 1 through a steam supply regulating body 2 with an actuator that is equipped with limit switches (not shown) that operate at its extreme positions (fully open or completely closed). The actuator of the regulating body 2 of the steam supply is kinematically connected with the movable contact of the adjustable resistor 3. The temperature in each of the heat chambers is measured by the first 4 and second 5 temperature sensors. In this case, the signal from the first temperature sensor 4 is fed to the input of the program controller 7, which, depending on the mismatch signal, turns on the actuator of the regulating body 2 for supplying steam so that the difference between the current and set temperature values in the chamber 1 is reduced to an acceptable value. If the actuator of the regulating body 2 for supplying steam reaches its extreme positions (fully open or completely closed), the limit switch is activated, and as a result, the corresponding signal lamp lights up on the display unit 9. At the end of the steaming cycle, the end switch installed in the program controller 7 turns on the corresponding signal lamp of the display unit 9, at the same time, the time relay 8 is turned on, which for a predetermined period of time turns on the electric drive of the fan, purging the chamber 1 from the steam. In case of stopping the steaming program, which occurred for any random reason or at the command of the operator, the corresponding signal lamp also lights up on the display unit 9.

Information on the intermediate position of each actuator of the regulating body 2 for supplying steam to service personnel can be obtained by connecting the slider of the adjustable resistor 3 via switch 18 to the remote indicator 17. position of the control valves. In this case, the adjustable resistor 3 is supplied from a stabilized voltage source 19, and the second output of this source is connected to a remote indicator 17 of the position of the control valves.

To control the temperature in each chamber 1, a second temperature sensor 5 is used, which is connected to the multi-point temperature recorder 15 by means of the relay contact of the switch 6. If the maintenance personnel need to check the current temperature in chamber 1, then, by pressing the button of the switch 6, connect the switch winding coil to the stabilized voltage source 19. This leads to a switch contact of the relay of the switch 6, as a result, the second temperature sensor 5 is connected to the temperature meter 16, with which the current temperature value in the chamber I can be measured.

The proposed device allows to increase the accuracy of control and regulation of the heat treatment of reinforced concrete products, which reduces the heat treatment time.

Claims (1)

The claims 5 A device for monitoring and regulating the heat treatment mode of reinforced concrete products, comprising a steam flow sensor e by a secondary device, an AC voltage source, a multi-point temperature recorder, and, according to the number of heat treatment chambers, a first temperature sensor, a fan motor and an actuator for regulating the steam supply, characterized in that , in order to increase the accuracy of monitoring and control, it is equipped with a pressure sensor, a blocking relay, a signal lamp, a temperature meter adjustable resistor, a remote indicator of the position of regulatory bodies, switch jq body, a stabilized power source and the number of heat treatment chambers with a program controller, a second temperature sensor, a time switch, an indication unit and a switch, one of the outputs of the signal lamp, the first terminal 25 of the first the NC contact of the interlock relay and one of the outputs of the pressure sensor is connected to one of the phases of the AC voltage source, the other output of the signal lamp through the NO contact the tapping relay is connected to another ^ 0 phase of the AC voltage source, to which the other output of the pressure sensor is connected through the winding of the interlocking relay, the first terminal of the second NC contact of the interlocking relay is connected to another phase of the AC voltage source, the second temperature sensor of all heat treatment chambers is connected to the first input of the corresponding switch, the first output of the stabilized power source is connected to the second input of each switch and to one of the outputs of each ohm resistor, another output of each adjustable resistor, the third input of each switch and one of the inputs of the remote position indicator of the regulatory bodies are connected to the second output of the stabilized power source, the first output of the switches is connected to the input of the temperature meter, the second output of the switches is connected to the corresponding inputs of the multi-point temperature recorder, the switch inputs are connected respectively to the movable contact of each adjustable resistor, kinematically connected to the corresponding actuator of the regulating body for supplying steam, the output of the switch is connected to the second input of the remote indicator of the position of the regulating organs, the first temperature sensors are connected to the first inputs of the corresponding program regulators, the second inputs of the program regulators are connected to the second terminal of the first NC contact of the interlock relay, the third inputs of the program regulators, the first inputs of each time relay and one of the inputs of each display unit are connected to the second terminal of the WTO of the normally open contact of the interlocking relay, the outputs of the software controllers are connected to the corresponding inputs of the actuators of the regulating bodies for supplying steam, to the second input of each time relay, and to the second and third inputs of the display units, the output of each time relay is connected to the corresponding fan motor, and the fourth and the fifth inputs of the display units are connected to the corresponding outputs of the actuators of the respective regulating bodies for supplying steam.