SU947138A1 - Device for controlling process of autoclaving of products - Google Patents

Description

one

The invention relates to the control of thermal processes during heat treatment under pressure, in particular silica brick, and can be used in the construction industry and the chemical industry.

A device for controlling autoclaves is known, comprising an npoi-frame controller, a temperature sensor and an actuator.

The closest to the proposed technical entity is a device for controlling the process of autoclaving products, containing a steam temperature sensor, steam pressure sensors in the autoclave and in a drinking-pot, a comparison element, a programming unit and a control unit, the output of which is connected to the actuator, one from the outputs of the pressure sensor in the autoclave and the output of the pressure sensor in the feed boiler are connected to the corresponding inputs of the comparison element, the output of which is connected to one of the inputs of the control unit tim, the other input of which is connected with a program setting unit 2 J.

The disadvantage of these devices is that they do not control the pressures in the autoclave and the feed boiler in the temperature control.

, Q The purpose of the invention is to increase productivity and improve product quality.

The goal is achieved by the fact that in the control device

15 by the process of autoclave processing of products, comprising a steam temperature sensor, steam pressure sensors in the autoclave and in the feed boiler, the reference element of the program unit and

Claims (1)

20 control unit, the output of which is connected to the actuator, with one of the outputs of the pressure sensor in the autoclave and the output of the pressure sensor in the supply boiler connected to the corresponding inputs of the control unit, the output of which is connected to one of the inputs of the control unit, the other input of which is connected There are two prohibition units and an 8bt6o mode unit with a software setpoint, the outputs of the steam temperature sensor are connected to the input of the mode selector unit and to one of the inputs of the first prohibition unit, another output of the pressure sensor the pair in the autoclave is connected to one of the inputs of the second block, the other input of which is connected via the mode selector to one input of the first block, and the outputs of the block ban are connected to the corresponding inputs of the control block. The drawing shows the block diagram of the device. The circuit contains temperature sensor 1, software setpoint 2, control unit 3, actuator k, reference element 5, pressure autoclave pressure sensor 6, pressure sensor 7 of the absorbent boiler, control mode selection unit 8, inhibit blocks 9 and 10, autoclave 11 and powering boiler 12, the device operates as follows. Temperature sensor 1 and software setpoint 2 generate a signal arriving at the inputs of the control unit 3. In the control unit 3, the conformity of these signals is checked at each time point and, depending on this, a control signal is received from sensors 6 and 7 pressure signals are sent to the comparison elements 5, which produces a difference cm-valve only when the pressure in the autoclave 11 is exceeded relative to the supply boiler 12. In the presence of a differential signal, control block 3 receives a signal prohibiting opening This is the inlet valve in the coolant supply line. The prohibition unit 9 connected to the temperature sensor 1 passes the signal to the control unit 3 until the temperature reaches a predetermined threshold value. When the temperature reaches this threshold value, control mode selection 8 is triggered, giving a prohibitory signal to the prohibition unit 9 and removing the prohibition signal from block 10 of the ban. The signal from temperature sensor 1 is disconnected from the input of control device 3 and a signal from pressure sensor 6 is connected instead. Further process control is carried out by the control unit 3 according to the pressure in the autoclave 11. When a signal to reduce pressure is received from the software setting device 2 (at the beginning of the cooling stage, the control unit 3 will issue the appropriate command to the actuator. "The pressure in the autoclave 11 will decrease and, accordingly, the temperature will decrease. The mode selection unit 8 will give a prohibitory signal to the prohibition unit 10 and remove the inhibit signal from the prohibition unit 9. The signal from the pressure sensor 6 is disconnected from the control unit 3. and, and the signal from temperature sensor 1 is fed to the input of control device 3. Further cooling of the products is carried out by temperature control unit 3. Thus, the introduction of the control mode selection and prohibition blocks allows the autoclaving of products to be automatically processed at stages heating and cooling according to temperature, and at the stage of exposure - according to pressure. The invention allows to increase the productivity of the autoclave according to approximate calculated data by 4-8 by reducing the exposure time products in the autoclave and improve the quality of products with constant exposure time. Claims An autoclave process control device comprising a steam temperature sensor, a steam pressure sensor in the autoclave and in a feed boiler, a reference element, a programming unit and a control unit whose output is connected to an actuator, one of the outputs of the autoclave pressure sensor and the output The pressure sensor in the supply boiler is connected to the corresponding inputs of the reference element, the output of which is