CN205216840U - Midbody reation kettle monitor control system - Google Patents

Abstract

The utility model relates to a monitor control system especially relates to a midbody reation kettle monitor control system. The utility model discloses an overcome current reation kettle pressure regulating slow with the slow shortcoming of cooling, provide such midbody reation kettle monitor control system, including control system, the inlet pipe, valve I, including a motor, an end cap, a controller, and a cover plate, valve II, the connecting rod, a weighing sensor and a temperature sensor, pressure sensor, the stirring rake, the wave baffle, the inlet tube, the cauldron body, the circulating pipe way, the push pedal, pneumatic cylinder I, backup pad I, distance sensor, pneumatic cylinder II, backup pad II, valve III, the outlet pipe, discharging pipe and valve IV, the internal circulating pipe way that is equipped with of cauldron, cauldron body upper end is equipped with the motor, be connected with the inlet pipe on the left cauldron of the motor body, be equipped with valve I on the inlet pipe, the upper end of cauldron sinistron side wall surface is connected with the inlet tube. The utility model discloses having reached soon, speed adjusting presses and the cooling to the effect of the reaction in can rapid stop reation kettle.

Description

A kind of intermediate reaction still monitoring control system

Technical field

The utility model relates to a kind of monitoring control system, particularly relates to a kind of intermediate reaction still monitoring control system.

Background technology

Reactor is the key reaction mixing plant in Chemical Manufacture, major function be material stirring is mixed, chemical reaction, dissolving, crystallization, heat transfer, cooling etc.In chemical industry, autoclave is commonly used to produce industrial chemicals, be widely used, but traditional reactor is all the form adopting fixed volume, and there is the function using the monitoring environment device of band pressure detection device, utilize pumping conveying supercritical fluid to boost and utilize decompression control valve to reduce pressure, and there is the pressure precise control system be integrated into micro computer.

Require comparatively strict to reaction temperature in existing autoclave, can only realize its adjustment to kettle internal pressure by changing input kettle gas size, comparatively speaking, pressure regulation is relatively slow for this regulative mode, and cooling is also relatively slow, is difficult to meet actual needs.

Utility model content

(1) technical problem that will solve

The utility model in order to overcome existing reactor pressure regulation slowly and shortcoming slowly of lowering the temperature, the technical problems to be solved in the utility model be to provide a kind of can the intermediate reaction still monitoring control system of rapid pressure adjusting and cooling.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides so a kind of intermediate reaction still monitoring control system, includes control system, feed pipe, valve I, motor, valve II, connecting rod, temperature sensor, pressure sensor, paddle, wave baffle plate, water inlet pipe, kettle, circulating water pipeline, push pedal, hydraulic cylinder I, gripper shoe I, range sensor, hydraulic cylinder II, gripper shoe II, valve III, outlet pipe, discharge nozzle and valve IV, circulating water pipeline is provided with in kettle, kettle upper end is provided with motor, kettle on the left of motor is connected with feed pipe, feed pipe is provided with valve I, on the left of kettle, the upper end of wall is connected with water inlet pipe, on the right side of kettle, the lower end of wall is connected with outlet pipe, outlet pipe is provided with valve III, motor lower end is connected with connecting rod, connecting rod is inner at kettle, connecting rod lower end is provided with paddle, wall in kettle is provided with wave baffle plate, wall lower end, left side in kettle is provided with gripper shoe I, gripper shoe I is provided with hydraulic cylinder I, gripper shoe I on the right side of hydraulic cylinder I is provided with range sensor, hydraulic cylinder I upper end is connected with push pedal, wall lower end, right side in kettle is provided with gripper shoe II, gripper shoe II is provided with hydraulic cylinder II, hydraulic cylinder II upper end is connected with push pedal, the upper end of discharge nozzle is connected to push pedal central authorities, valve IV is provided with at discharge nozzle and push pedal junction, discharge nozzle lower end is connected to autoclave body bottom central authorities, discharge nozzle is flexible pipe, top in kettle is provided with temperature sensor and pressure sensor, temperature sensor is in the left side of pressure sensor, control system respectively with valve I, motor, valve II, temperature sensor, pressure sensor, hydraulic cylinder I, range sensor, hydraulic cylinder II, valve III is connected with valve IV.

Preferably, control system is PLC control system.

Preferably, motor is servomotor.

Preferably, the material of gripper shoe I and gripper shoe II is stainless steel material.

Operation principle: control system passes through the opening and closing of control valve I and valve IV, controls the charging of feed pipe and the discharging of discharge nozzle.By the opening and closing of control valve II and valve III, carry out the inlet and outlet of water in controlled circulation waterpipe.Control system controls machine operation, and then paddle starts to stir the feed liquid in kettle, and wave baffle plate can feed liquid in stop portions kettle, play make stirring evenly effect, make the reaction effect of its inside better.Temperature sensor and pressure sensor are used for detecting the change of temperature and pressure in kettle, when needing the change regulating pressure in kettle immediately, control system hydraulic control cylinder I and hydraulic cylinder II shorten, reduce the pressure in kettle immediately, range sensor is used for the distance that accurate hydraulic control cylinder I and hydraulic cylinder II shorten.When a temperature reduction is needed, from water inlet pipe, add cold water, reduce temperature.When needing the reaction stopped immediately in reactor, control system controls motor and quits work, from water inlet pipe, add cold water simultaneously, reduce the temperature to the temperature being not suitable for reacting, hydraulic cylinder I and hydraulic cylinder II shorten, and pressure are dropped to the scope being not suitable for reacting, then in the pressure limit being not suitable for reaction, it is under reach that hydraulic cylinder I and hydraulic cylinder II do elongation, to make the feed liquid in reactor and the cold water in circulating water pipeline better carry out heat exchange, thus reduces temperature faster.

Control system is PLC control system, can complete the whole course of work better.

Motor is servomotor, accurately can control the stirring of paddle.

The material of gripper shoe I and gripper shoe II is stainless steel material, longer service life.

Control system is prior art, and the utility model is no longer explained in detail.

(3) beneficial effect

The utility model overcomes existing reactor pressure regulation slowly and shortcoming slowly of lowering the temperature, and the utility model reaches can rapid pressure adjusting and cooling, and can stop the effect of the reaction in reactor fast.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model.

Being labeled as in accompanying drawing: 1-control system, 2-feed pipe, 3-valve I, 4-motor, 5-valve II, 6-connecting rod, 7-temperature sensor, 8-pressure sensor, 9-paddle, 10-wave baffle plate, 11-water inlet pipe, 12-kettle, 13-circulating water pipeline, 14-push pedal, 15-hydraulic cylinder I, 16-gripper shoe I, 17-range sensor, 18-hydraulic cylinder II, 19-gripper shoe II, 20-valve III, 21-outlet pipe, 22-discharge nozzle, 23-valve IV.

Detailed description of the invention

Below in conjunction with drawings and Examples, the utility model is further described.

Embodiment 1

A kind of intermediate reaction still monitoring control system, as shown in Figure 1, includes control system 1, feed pipe 2, valve I 3, motor 4, valve II 5, connecting rod 6, temperature sensor 7, pressure sensor 8, paddle 9, wave baffle plate 10, water inlet pipe 11, kettle 12, circulating water pipeline 13, push pedal 14, hydraulic cylinder I 15, gripper shoe I 16, range sensor 17, hydraulic cylinder II 18, gripper shoe II 19, valve III 20, outlet pipe 21, discharge nozzle 22 and valve IV 23, circulating water pipeline 13 is provided with in kettle 12, kettle 12 upper end is provided with motor 4, kettle 12 on the left of motor 4 is connected with feed pipe 2, feed pipe 2 is provided with valve I 3, on the left of kettle 12, the upper end of wall is connected with water inlet pipe 11, on the right side of kettle 12, the lower end of wall is connected with outlet pipe 21, outlet pipe 21 is provided with valve III 20, motor 4 lower end is connected with connecting rod 6, connecting rod 6 is inner at kettle 12, connecting rod 6 lower end is provided with paddle 9, wall in kettle 12 is provided with wave baffle plate 10, wall lower end, left side in kettle 12 is provided with gripper shoe I 16, gripper shoe I 16 is provided with hydraulic cylinder I 15, gripper shoe I 16 on the right side of hydraulic cylinder I 15 is provided with range sensor 17, hydraulic cylinder I 15 upper end is connected with push pedal 14, wall lower end, right side in kettle 12 is provided with gripper shoe II 19, gripper shoe II 19 is provided with hydraulic cylinder II 18, hydraulic cylinder II 18 upper end is connected with push pedal 14, the upper end of discharge nozzle 22 is connected to push pedal 14 central authorities, valve IV 23 is provided with in discharge nozzle 22 and push pedal 14 junction, discharge nozzle 22 lower end is connected to kettle 12 bottom center, discharge nozzle 22 is flexible pipe, top in kettle 12 is provided with temperature sensor 7 and pressure sensor 8, temperature sensor 7 is in the left side of pressure sensor 8, control system 1 respectively with valve I 3, motor 4, valve II 5, temperature sensor 7, pressure sensor 8, hydraulic cylinder I 15, range sensor 17, hydraulic cylinder II 18, valve III 20 is connected with valve IV 23.

Control system 1 is PLC control system.

Control system 1 passes through the opening and closing of control valve I 3 and valve IV 23, controls the charging of feed pipe 2 and the discharging of discharge nozzle 22.By the opening and closing of control valve II 5 and valve III 20, carry out the inlet and outlet of water in controlled circulation waterpipe 13.Control system 1 controls motor 4 and works, and then paddle 9 starts to stir the feed liquid in kettle 12, and wave baffle plate 10 can feed liquid in stop portions kettle 12, play make stirring evenly effect, make the reaction effect of its inside better.Temperature sensor 7 and pressure sensor 8 are used for detecting the change of temperature and pressure in kettle 12, when needing the change regulating pressure in kettle 12 immediately, control system 1 hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten, reduce the pressure in kettle 12 immediately, range sensor 17 is used for the distance that accurate hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten.When a temperature reduction is needed, from water inlet pipe 11, add cold water, reduce temperature.When needing the reaction stopped immediately in reactor, control system 1 controls motor 4 and quits work, from water inlet pipe 11, add cold water simultaneously, reduce the temperature to the temperature being not suitable for reacting, hydraulic cylinder I 15 and hydraulic cylinder II 18 shorten, pressure is dropped to the scope being not suitable for reacting, then in the pressure limit being not suitable for reaction, it is under reach that hydraulic cylinder I 15 and hydraulic cylinder II 18 do elongation, to make the feed liquid in reactor and the cold water in circulating water pipeline 13 better carry out heat exchange, thus to reduce temperature faster.

Control system 1 is PLC control system, can complete the whole course of work better.

Embodiment 2

A kind of intermediate reaction still monitoring control system, as shown in Figure 1, includes control system 1, feed pipe 2, valve I 3, motor 4, valve II 5, connecting rod 6, temperature sensor 7, pressure sensor 8, paddle 9, wave baffle plate 10, water inlet pipe 11, kettle 12, circulating water pipeline 13, push pedal 14, hydraulic cylinder I 15, gripper shoe I 16, range sensor 17, hydraulic cylinder II 18, gripper shoe II 19, valve III 20, outlet pipe 21, discharge nozzle 22 and valve IV 23, circulating water pipeline 13 is provided with in kettle 12, kettle 12 upper end is provided with motor 4, kettle 12 on the left of motor 4 is connected with feed pipe 2, feed pipe 2 is provided with valve I 3, on the left of kettle 12, the upper end of wall is connected with water inlet pipe 11, on the right side of kettle 12, the lower end of wall is connected with outlet pipe 21, outlet pipe 21 is provided with valve III 20, motor 4 lower end is connected with connecting rod 6, connecting rod 6 is inner at kettle 12, connecting rod 6 lower end is provided with paddle 9, wall in kettle 12 is provided with wave baffle plate 10, wall lower end, left side in kettle 12 is provided with gripper shoe I 16, gripper shoe I 16 is provided with hydraulic cylinder I 15, gripper shoe I 16 on the right side of hydraulic cylinder I 15 is provided with range sensor 17, hydraulic cylinder I 15 upper end is connected with push pedal 14, wall lower end, right side in kettle 12 is provided with gripper shoe II 19, gripper shoe II 19 is provided with hydraulic cylinder II 18, hydraulic cylinder II 18 upper end is connected with push pedal 14, the upper end of discharge nozzle 22 is connected to push pedal 14 central authorities, valve IV 23 is provided with in discharge nozzle 22 and push pedal 14 junction, discharge nozzle 22 lower end is connected to kettle 12 bottom center, discharge nozzle 22 is flexible pipe, top in kettle 12 is provided with temperature sensor 7 and pressure sensor 8, temperature sensor 7 is in the left side of pressure sensor 8, control system 1 respectively with valve I 3, motor 4, valve II 5, temperature sensor 7, pressure sensor 8, hydraulic cylinder I 15, range sensor 17, hydraulic cylinder II 18, valve III 20 is connected with valve IV 23.

Motor 4 is servomotor.

Control system 1 passes through the opening and closing of control valve I 3 and valve IV 23, controls the charging of feed pipe 2 and the discharging of discharge nozzle 22.By the opening and closing of control valve II 5 and valve III 20, carry out the inlet and outlet of water in controlled circulation waterpipe 13.Control system 1 controls motor 4 and works, and then paddle 9 starts to stir the feed liquid in kettle 12, and wave baffle plate 10 can feed liquid in stop portions kettle 12, play make stirring evenly effect, make the reaction effect of its inside better.Temperature sensor 7 and pressure sensor 8 are used for detecting the change of temperature and pressure in kettle 12, when needing the change regulating pressure in kettle 12 immediately, control system 1 hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten, reduce the pressure in kettle 12 immediately, range sensor 17 is used for the distance that accurate hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten.When a temperature reduction is needed, from water inlet pipe 11, add cold water, reduce temperature.When needing the reaction stopped immediately in reactor, control system 1 controls motor 4 and quits work, from water inlet pipe 11, add cold water simultaneously, reduce the temperature to the temperature being not suitable for reacting, hydraulic cylinder I 15 and hydraulic cylinder II 18 shorten, pressure is dropped to the scope being not suitable for reacting, then in the pressure limit being not suitable for reaction, it is under reach that hydraulic cylinder I 15 and hydraulic cylinder II 18 do elongation, to make the feed liquid in reactor and the cold water in circulating water pipeline 13 better carry out heat exchange, thus to reduce temperature faster.

Motor 4 is servomotor, accurately can control the stirring of paddle 9.

Embodiment 3

A kind of intermediate reaction still monitoring control system, as shown in Figure 1, includes control system 1, feed pipe 2, valve I 3, motor 4, valve II 5, connecting rod 6, temperature sensor 7, pressure sensor 8, paddle 9, wave baffle plate 10, water inlet pipe 11, kettle 12, circulating water pipeline 13, push pedal 14, hydraulic cylinder I 15, gripper shoe I 16, range sensor 17, hydraulic cylinder II 18, gripper shoe II 19, valve III 20, outlet pipe 21, discharge nozzle 22 and valve IV 23, circulating water pipeline 13 is provided with in kettle 12, kettle 12 upper end is provided with motor 4, kettle 12 on the left of motor 4 is connected with feed pipe 2, feed pipe 2 is provided with valve I 3, on the left of kettle 12, the upper end of wall is connected with water inlet pipe 11, on the right side of kettle 12, the lower end of wall is connected with outlet pipe 21, outlet pipe 21 is provided with valve III 20, motor 4 lower end is connected with connecting rod 6, connecting rod 6 is inner at kettle 12, connecting rod 6 lower end is provided with paddle 9, wall in kettle 12 is provided with wave baffle plate 10, wall lower end, left side in kettle 12 is provided with gripper shoe I 16, gripper shoe I 16 is provided with hydraulic cylinder I 15, gripper shoe I 16 on the right side of hydraulic cylinder I 15 is provided with range sensor 17, hydraulic cylinder I 15 upper end is connected with push pedal 14, wall lower end, right side in kettle 12 is provided with gripper shoe II 19, gripper shoe II 19 is provided with hydraulic cylinder II 18, hydraulic cylinder II 18 upper end is connected with push pedal 14, the upper end of discharge nozzle 22 is connected to push pedal 14 central authorities, valve IV 23 is provided with in discharge nozzle 22 and push pedal 14 junction, discharge nozzle 22 lower end is connected to kettle 12 bottom center, discharge nozzle 22 is flexible pipe, top in kettle 12 is provided with temperature sensor 7 and pressure sensor 8, temperature sensor 7 is in the left side of pressure sensor 8, control system 1 respectively with valve I 3, motor 4, valve II 5, temperature sensor 7, pressure sensor 8, hydraulic cylinder I 15, range sensor 17, hydraulic cylinder II 18, valve III 20 is connected with valve IV 23.

The material of gripper shoe I 16 and gripper shoe II 19 is stainless steel material.

Control system 1 passes through the opening and closing of control valve I 3 and valve IV 23, controls the charging of feed pipe 2 and the discharging of discharge nozzle 22.By the opening and closing of control valve II 5 and valve III 20, carry out the inlet and outlet of water in controlled circulation waterpipe 13.Control system 1 controls motor 4 and works, and then paddle 9 starts to stir the feed liquid in kettle 12, and wave baffle plate 10 can feed liquid in stop portions kettle 12, play make stirring evenly effect, make the reaction effect of its inside better.Temperature sensor 7 and pressure sensor 8 are used for detecting the change of temperature and pressure in kettle 12, when needing the change regulating pressure in kettle 12 immediately, control system 1 hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten, reduce the pressure in kettle 12 immediately, range sensor 17 is used for the distance that accurate hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten.When a temperature reduction is needed, from water inlet pipe 11, add cold water, reduce temperature.When needing the reaction stopped immediately in reactor, control system 1 controls motor 4 and quits work, from water inlet pipe 11, add cold water simultaneously, reduce the temperature to the temperature being not suitable for reacting, hydraulic cylinder I 15 and hydraulic cylinder II 18 shorten, pressure is dropped to the scope being not suitable for reacting, then in the pressure limit being not suitable for reaction, it is under reach that hydraulic cylinder I 15 and hydraulic cylinder II 18 do elongation, to make the feed liquid in reactor and the cold water in circulating water pipeline 13 better carry out heat exchange, thus to reduce temperature faster.

The material of gripper shoe I 16 and gripper shoe II 19 is stainless steel material, longer service life.

Embodiment 4

A kind of intermediate reaction still monitoring control system, as shown in Figure 1, includes control system 1, feed pipe 2, valve I 3, motor 4, valve II 5, connecting rod 6, temperature sensor 7, pressure sensor 8, paddle 9, wave baffle plate 10, water inlet pipe 11, kettle 12, circulating water pipeline 13, push pedal 14, hydraulic cylinder I 15, gripper shoe I 16, range sensor 17, hydraulic cylinder II 18, gripper shoe II 19, valve III 20, outlet pipe 21, discharge nozzle 22 and valve IV 23, circulating water pipeline 13 is provided with in kettle 12, kettle 12 upper end is provided with motor 4, kettle 12 on the left of motor 4 is connected with feed pipe 2, feed pipe 2 is provided with valve I 3, on the left of kettle 12, the upper end of wall is connected with water inlet pipe 11, on the right side of kettle 12, the lower end of wall is connected with outlet pipe 21, outlet pipe 21 is provided with valve III 20, motor 4 lower end is connected with connecting rod 6, connecting rod 6 is inner at kettle 12, connecting rod 6 lower end is provided with paddle 9, wall in kettle 12 is provided with wave baffle plate 10, wall lower end, left side in kettle 12 is provided with gripper shoe I 16, gripper shoe I 16 is provided with hydraulic cylinder I 15, gripper shoe I 16 on the right side of hydraulic cylinder I 15 is provided with range sensor 17, hydraulic cylinder I 15 upper end is connected with push pedal 14, wall lower end, right side in kettle 12 is provided with gripper shoe II 19, gripper shoe II 19 is provided with hydraulic cylinder II 18, hydraulic cylinder II 18 upper end is connected with push pedal 14, the upper end of discharge nozzle 22 is connected to push pedal 14 central authorities, valve IV 23 is provided with in discharge nozzle 22 and push pedal 14 junction, discharge nozzle 22 lower end is connected to kettle 12 bottom center, discharge nozzle 22 is flexible pipe, top in kettle 12 is provided with temperature sensor 7 and pressure sensor 8, temperature sensor 7 is in the left side of pressure sensor 8, control system 1 respectively with valve I 3, motor 4, valve II 5, temperature sensor 7, pressure sensor 8, hydraulic cylinder I 15, range sensor 17, hydraulic cylinder II 18, valve III 20 is connected with valve IV 23.

Control system 1 is PLC control system.

Motor 4 is servomotor.

The material of gripper shoe I 16 and gripper shoe II 19 is stainless steel material.

Control system 1 passes through the opening and closing of control valve I 3 and valve IV 23, controls the charging of feed pipe 2 and the discharging of discharge nozzle 22.By the opening and closing of control valve II 5 and valve III 20, carry out the inlet and outlet of water in controlled circulation waterpipe 13.Control system 1 controls motor 4 and works, and then paddle 9 starts to stir the feed liquid in kettle 12, and wave baffle plate 10 can feed liquid in stop portions kettle 12, play make stirring evenly effect, make the reaction effect of its inside better.Temperature sensor 7 and pressure sensor 8 are used for detecting the change of temperature and pressure in kettle 12, when needing the change regulating pressure in kettle 12 immediately, control system 1 hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten, reduce the pressure in kettle 12 immediately, range sensor 17 is used for the distance that accurate hydraulic control cylinder I 15 and hydraulic cylinder II 18 shorten.When a temperature reduction is needed, from water inlet pipe 11, add cold water, reduce temperature.When needing the reaction stopped immediately in reactor, control system 1 controls motor 4 and quits work, from water inlet pipe 11, add cold water simultaneously, reduce the temperature to the temperature being not suitable for reacting, hydraulic cylinder I 15 and hydraulic cylinder II 18 shorten, pressure is dropped to the scope being not suitable for reacting, then in the pressure limit being not suitable for reaction, it is under reach that hydraulic cylinder I 15 and hydraulic cylinder II 18 do elongation, to make the feed liquid in reactor and the cold water in circulating water pipeline 13 better carry out heat exchange, thus to reduce temperature faster.

Control system 1 is PLC control system, can complete the whole course of work better.

Motor 4 is servomotor, accurately can control the stirring of paddle 9.

The material of gripper shoe I 16 and gripper shoe II 19 is stainless steel material, longer service life.

The above embodiment only have expressed preferred embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the inventive concept of the premise, can also make some distortion, improvement and substitute, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (4)

1. an intermediate reaction still monitoring control system, is characterized in that, includes control system (1), feed pipe (2), valve I (3), motor (4), valve II (5), connecting rod (6), temperature sensor (7), pressure sensor (8), paddle (9), wave baffle plate (10), water inlet pipe (11), kettle (12), circulating water pipeline (13), push pedal (14), hydraulic cylinder I (15), gripper shoe I (16), range sensor (17), hydraulic cylinder II (18), gripper shoe II (19), valve III (20), outlet pipe (21), discharge nozzle (22) and valve IV (23), circulating water pipeline (13) is provided with in kettle (12), kettle (12) upper end is provided with motor (4), the kettle (12) in motor (4) left side is connected with feed pipe (2), feed pipe (2) is provided with valve I (3), the upper end of kettle (12) left side wall is connected with water inlet pipe (11), the lower end of kettle (12) right side wall is connected with outlet pipe (21), outlet pipe (21) is provided with valve III (20), motor (4) lower end is connected with connecting rod (6), connecting rod (6) is inner at kettle (12), connecting rod (6) lower end is provided with paddle (9), wall in kettle (12) is provided with wave baffle plate (10), wall lower end, left side in kettle (12) is provided with gripper shoe I (16), gripper shoe I (16) is provided with hydraulic cylinder I (15), the gripper shoe I (16) on hydraulic cylinder I (15) right side is provided with range sensor (17), hydraulic cylinder I (15) upper end is connected with push pedal (14), wall lower end, right side in kettle (12) is provided with gripper shoe II (19), gripper shoe II (19) is provided with hydraulic cylinder II (18), hydraulic cylinder II (18) upper end is connected with push pedal (14), the upper end of discharge nozzle (22) is connected to push pedal (14) central authorities, valve IV (23) is provided with in discharge nozzle (22) and push pedal (14) junction, discharge nozzle (22) lower end is connected to kettle (12) bottom center, discharge nozzle (22) is flexible pipe, top in kettle (12) is provided with temperature sensor (7) and pressure sensor (8), temperature sensor (7) is in the left side of pressure sensor (8), control system (1) respectively with valve I (3), motor (4), valve II (5), temperature sensor (7), pressure sensor (8), hydraulic cylinder I (15), range sensor (17), hydraulic cylinder II (18), valve III (20) is connected with valve IV (23).

2. a kind of intermediate reaction still monitoring control system according to claim 1, it is characterized in that, control system (1) is PLC control system.

3. a kind of intermediate reaction still monitoring control system according to claim 1, it is characterized in that, motor (4) is servomotor.

4. a kind of intermediate reaction still monitoring control system according to claim 1, is characterized in that, the material of gripper shoe I (16) and gripper shoe II (19) is stainless steel material.