CN112146822A

CN112146822A - Safety production detection equipment and use method

Info

Publication number: CN112146822A
Application number: CN201910592125.0A
Authority: CN
Inventors: 汤国伟
Original assignee: Shanghai Mochuang Information Science & Technology Co ltd
Current assignee: Shanghai Mochuang Information Science & Technology Co ltd
Priority date: 2019-06-26
Filing date: 2019-06-26
Publication date: 2020-12-29

Abstract

The invention discloses a safety production detection device and a using method thereof, the safety production detection device comprises a temperature sensor, a pressure sensor, a vibration monitor, an A/D converter, end equipment, a signal transceiving base station, a control unit, an automatic power switching device, an alarm device and a reaction kettle power supply, wherein the temperature sensor, the pressure sensor and the vibration monitor are all connected with the A/D converter, the A/D converter is linearly connected with terminal equipment, the terminal equipment is linearly connected with the signal transceiving base station, the signal transceiving base station is linearly connected with the control unit, and the control unit is connected with the automatic power switching device and the alarm device, through improving safety in production check out test set for safety in production check out test set can carry out real-time monitoring to reation kettle's the burning examination condition when detecting the burning examination to reation kettle in real time.

Description

Safety production detection equipment and use method

Technical Field

The invention relates to the technical field of detection equipment, in particular to safety production detection equipment and a using method thereof.

Background

The reaction kettle is broadly understood to be a container for physical or chemical reaction, the heating, evaporation, cooling and low-speed mixing functions required by the process are realized through the structural design and parameter configuration of the container, the reaction kettle can be generally divided into two categories, one category is an industrial reaction kettle, and the other category is a laboratory reaction kettle; laboratory reation kettle makes preciously, and laboratory reation kettle will pass through strict detection after the processing assembly is accomplished, pressurize in the reation kettle with the laboratory, then put into the heating furnace and heat, and then can confirm whether good of reation kettle's gas tightness through the change of observing pressure and temperature, and whether can normally detect reation kettle's agitating unit through detecting laboratory reation kettle, but the detection method to domestic production's laboratory reation kettle has following problem: in the experiment, the reaction kettle is used for burning test after being pressurized after being processed and assembled, but during the burning test, workers often need to enter a burning test room at intervals to observe the pressure and the temperature of the reaction kettle and the condition of a stirring device of the reaction kettle, so that the airtightness and the stirring performance of the reaction kettle are judged to be good, the detection of the reaction kettle needs long-time burning test, the burning test of the reaction kettle must be stopped under the condition that no workers are present, the mode can not monitor the abnormal condition of the reaction kettle in real time, the detection effect is not good while manpower is wasted, the burning test can be carried out only when the workers are present, the efficiency of detecting the reaction kettle is low, if the workers cannot find the abnormal condition of the reaction kettle in time, the reaction kettle can be damaged, and further irrecoverable economic loss is caused, and also results in time for handing over the reactor to the customer,

disclosure of Invention

The invention aims to provide safety production detection equipment and a using method thereof, aiming at improving the problem that during the burning test of a reaction kettle, workers often need to enter a burning test room at intervals to observe the pressure and temperature of the reaction kettle and the condition of a stirring device of the reaction kettle so as to judge the good air tightness and stirring performance of the reaction kettle, the detection of the reaction kettle needs long-time burning test, the burning test of the reaction kettle needs to be stopped under the condition that no workers are present, the mode can not monitor the abnormal condition of the reaction kettle in real time, the detection effect is poor while manpower is wasted, and the burning test can be carried out only when the workers are present, so that the efficiency of detecting the reaction kettle is low.

The invention is realized by the following steps:

a safety production detection device and a using method thereof comprise a temperature sensor, a pressure sensor, a vibration monitor, an A/D converter, end equipment, a signal receiving and transmitting base station, a control unit, a power supply automatic switching device, an alarm device and a reaction kettle power supply; the temperature sensor, the pressure sensor and the vibration monitor are all connected with an A/D converter, the A/D converter is linearly connected with terminal equipment, the terminal equipment is linearly connected with a signal receiving and transmitting base station, the signal receiving and transmitting base station is linearly connected with a control unit, the control unit is connected with an automatic power supply switching device and an alarm device, and the automatic power supply switching device is connected with a power supply of the reaction kettle.

Further, the temperature sensor is provided with a temperature probe, and the temperature probe is inserted into the reaction kettle; the temperature probe is convenient for measure the temperature in the reaction kettle, and the temperature sensor is convenient for transmit the temperature data to the A/D converter.

Further, the pressure sensor is provided with a pressure probe, and the pressure probe is hermetically connected with the reaction kettle; pressure probe is convenient for detect reation kettle inside pressure that carries on, and then conveniently enters the terminal analysis behind pressure sensor with data transmission to AD converter to the convenience is through carrying out the gas tightness of analysis judgement reation kettle to data.

Further, the vibration monitor is connected with a vibration meter, and the vibration meter is connected with a main shaft of the reaction kettle stirring device; the vibration meter is convenient for measuring the vibration amplitude of the stirring device of the reaction kettle, and judges whether the vibration amplitude is within a certain interval or not, so that whether the stirring device of the reaction kettle is normal or not can be judged.

Further, the terminal equipment comprises a data receiver, a display screen and a data processor; the data receiver is connected with the data processor through a linear connection, and the display screen is connected with the data receiver through a linear connection; the data receiving device is convenient for receiving signals from the A/D converter, further is convenient for displaying the signals received from the A/D converter on a display screen, transmits the signals received from the A/D converter to the data processor for processing, transmits a data processing structure to the signal transceiving base station, and the display screen is convenient for displaying the measuring results of the temperature sensor, the pressure sensor and the vibration monitor.

Furthermore, an audio alarm and a light alarm are arranged in the alarm device, and the audio alarm and the light alarm are linearly connected with the alarm control mechanism; sound alarm is convenient for take place when reation kettle is unusual to sounding, thereby can remind staff reation kettle to have unusually, the staff of being convenient for makes timely processing to reation kettle, avoid reation kettle to appear unusually not in time discovering and the problem that leads to reation kettle to damage, the fluorescent tube alarm is convenient for send light when reation kettle goes wrong, and then can indicate reation kettle where go out the problem, the staff of being convenient for can be quick handles according to the problem that reation kettle goes out, the convenient quick problem solution with reation kettle, avoid delaying reation kettle's delivery time because reation kettle goes wrong.

Furthermore, the light alarm is provided with a red flashing lamp, a green flashing lamp and a yellow flashing lamp, and the red flashing lamp, the green flashing lamp and the yellow flashing lamp are connected with the control device of the light alarm; red flashing lamp is convenient for send the scintillation when the temperature appears unusually, thereby it is the convenient problem that appears of temperature to be convenient for the staff to have solved the reation kettle fast, green flashing lamp is convenient for send the light scintillation when the pressure appears unusually, the staff of being convenient for in time masters reation kettle pressure problem, and then make things convenient for the staff to locate fast and make the processing to reation kettle, yellow flashing lamp is convenient for instruct reation kettle agitating unit vibration unusual, the staff of being convenient for can be timely generate heat agitating unit to reation kettle and repair, and then can improve reation kettle's detection efficiency, avoid postponing delivery time, thereby cause and the customer between the problem of violating the contract.

The using method of the safety production detection equipment comprises the following specific steps:

s1: the program of the range of vibration errors related to temperature, pressure and the stirring main shaft of the reaction kettle is edited in the terminal equipment in advance before the use, so that the alarm can be given out after the temperature, the pressure and the vibration amplitude are in problem at the monitoring position in the later period.

S2: and then, the pressure probe is hermetically connected with the reaction kettle, the temperature probe is inserted into the reaction kettle, the sealing performance of the joint of the temperature probe and the reaction kettle is ensured to be good, and finally, the vibration meter is clamped on a stirring main shaft of the reaction kettle.

S3; opening a reaction kettle provided with a temperature probe, a pressure probe and a vibration meter, filling a certain amount of tap water into the kettle body of the reaction kettle, then hermetically connecting a kettle cover of the reaction kettle and the kettle body together through bolts, and finally placing the reaction kettle into a heating furnace.

S4: and connecting the temperature probe with the temperature sensor, connecting the pressure probe with the pressure sensor, and finally connecting the vibration meter with the vibration monitoring device.

S5: and opening the reaction kettle temperature controller, setting a program about the temperature and time to be tested for the reaction kettle temperature controller, and connecting the temperature controller with the temperature probe.

S6: the heating furnace and the stirring device of the reaction kettle are electrified, the reaction kettle is started to be subjected to burning test detection, the monitoring device can transmit the condition of the reaction kettle to the A/D converter in the burning test detection process, the A/D converter converts the condition and transmits the signal to the terminal equipment for analysis and judgment, the terminal equipment reacts the received signal on a display screen after the analysis and judgment are finished, if the terminal equipment judges that the reaction kettle is abnormal, the terminal equipment sends the signal to the signal receiving and transmitting base station, the signal receiving and transmitting base station can receive the signal and send the signal to the controller, and the controller gives an instruction to the alarm device and the automatic power switching device according to the appeared problems.

Before use, a program related to the temperature, the pressure and the vibration error range of a stirring main shaft of a reaction kettle is edited in a terminal device in advance, so that an alarm can be given out after the temperature, the pressure and the vibration amplitude at a monitoring position are in a problem at a later stage, then the pressure probe is hermetically connected with the reaction kettle, the temperature probe is inserted into the reaction kettle, the sealing performance of the connecting position of the temperature probe and the reaction kettle is ensured to be good, finally a vibration meter is clamped on the stirring main shaft of the reaction kettle, so that the reaction kettle is monitored in real time and data is transmitted out, then the reaction kettle provided with the temperature probe, the pressure probe and the vibration meter is opened, a certain amount of tap water is filled into the kettle body of the reaction kettle, then a reaction kettle cover and the kettle body are hermetically connected together through bolts, finally the reaction kettle is placed into a heating furnace, and then the temperature probe is connected with a temperature sensor, the pressure probe is connected with the pressure sensor, the vibration meter is connected with the vibration monitoring device, the reaction kettle temperature control instrument is opened, a program about the temperature and time to be tested is set for the reaction kettle temperature control instrument, the temperature control instrument is connected with the temperature probe, the heating furnace and the stirring device of the reaction kettle are electrified to start to test the reaction kettle, the monitoring device transmits the condition of the reaction kettle to the A/D converter in the test process, the A/D converter converts the condition of the reaction kettle and transmits the signal to the terminal device for analysis and judgment, the terminal device reacts the received signal on the display screen after the analysis and judgment is finished, if the terminal device judges that the reaction kettle is abnormal, the signal is transmitted to the signal transceiving base station, and the signal transceiving base station receives and transmits the signal to the controller, therefore, the controller gives instructions to the alarm device and the automatic power supply switching device according to the problems, so that the burning test of the reaction kettle is monitored in real time, and the reaction kettle can be timely treated when the problems occur.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, through improving the safety production detection equipment, the safety production detection equipment can monitor the burning test condition of the reaction kettle in real time when the reaction kettle detects the burning test, and can send out early warning in time when the reaction kettle is abnormal, so that a worker can conveniently and timely master the condition of the reaction kettle, the worker can conveniently and rapidly handle the abnormality of the reaction kettle, and the problem that the reaction kettle is damaged due to the fact that the abnormality cannot be timely found is avoided.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it being understood that the following drawings illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and that for a person skilled in the art, other relevant drawings can be obtained from these drawings without inventive effort.

FIG. 1 is a schematic structural diagram of an overall structural block diagram of a safety production apparatus of the present invention;

FIG. 2 is a schematic structural diagram of a structural block diagram of a terminal device according to the present invention;

FIG. 3 is a schematic diagram of a monitoring signal receiving block diagram of the monitoring apparatus of the reactor of the present invention;

FIG. 4 is a schematic structural diagram of a structural block diagram of an alarm device of the present invention;

FIG. 5 is a schematic structural diagram of a structural block diagram of the light alarm of the present invention;

in the figure: 1-a temperature sensor; 11-temperature probe; 2-a pressure sensor; 21-a pressure probe; 3-vibration monitor; 31-a vibration meter; a 4-A/D converter; 5-a terminal device; 51-a data receiver; 52-display screen; 53-a data processor; 6-a signal transceiving base station; 7-a control unit; 8-automatic power switching device; 9-an alarm device; 91-an audible alarm; 92-light alarm; 921-red flashing light; 922-green flashing light; 923-yellow flashing lamp; 10-a reactor power supply;

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the invention, as claimed, but is merely representative of selected embodiments of the invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention.

Example (b): referring to FIG. 1: a safety production detection device and a using method thereof comprise a temperature sensor 1, a pressure sensor 2, a vibration monitor 3, an A/D converter 4, a terminal device 5, a signal receiving and transmitting base station 6, a control unit 7, a power supply automatic switching device 8, an alarm device 9 and a reaction kettle power supply 10; the temperature sensor 1, the pressure sensor 2 and the vibration monitor 3 are all connected with an A/D converter 4, the A/D converter 4 is in linear connection with a terminal device 5, the terminal device 5 is in linear connection with a signal receiving and transmitting base station 6, the signal receiving and transmitting base station 6 is in linear connection with a control unit 7, the control unit 7 is connected with an automatic power supply switching device 8 and an alarm device 9, and the automatic power supply switching device 8 is connected with a reaction kettle power supply 10; the temperature sensor 1 is convenient for measuring and monitoring the temperature in the reaction kettle in real time, and is convenient for finding and taking counter measures in time when the temperature is abnormal, the pressure sensor 2 is convenient for monitoring the temperature change in the reaction kettle during the burning test period of the reaction kettle, and is further convenient for detecting the pressure of the reaction kettle, and is convenient for workers to judge the air tightness of the reaction kettle by analyzing the monitoring result, thereby being convenient for judging whether the air tightness of the reaction kettle is qualified or not, the vibration monitor 3 is convenient for monitoring whether the stirring device of the reaction kettle is abnormal or not, and is convenient for judging whether the stirring device of the reaction kettle is qualified or not through the vibration amplitude of the stirring device of the reaction kettle, thereby ensuring that the reaction kettle is safe during working, the A/D converter 4 is convenient for converting the analog quantity transmitted by the temperature sensor 1, the pressure sensor 2 and the vibration monitor 3 into a discrete signal, and then conveniently transmit the signal to the terminal equipment 5 for processing, the signal transceiving base station 6 is convenient for receiving the signal processed by the terminal equipment 5 and sending the signal to the control unit 7, the control unit 7 is convenient for reacting to the reaction problem, the control unit 7 is convenient for controlling the automatic power switching device 8 and the alarm device 9, and further is convenient for handling the abnormal problem of the reaction kettle, the automatic power switching device 8 is convenient for disconnecting the power supply 10 of the reaction kettle when the reaction kettle is abnormal, the alarm device 9 is convenient for giving an alarm when the reaction kettle is abnormal, so that the problem of the reaction kettle can be timely processed by a worker, the power supply 10 of the reaction kettle is convenient for supplying power to the reaction kettle, and the reaction kettle can be conveniently heated and stirred, the safety production detection equipment with the structure enables the safety production detection equipment to monitor the burning test condition of the reaction kettle in real time when the burning test of the reaction kettle is detected, and can in time send the early warning when reation kettle takes place unusually, the staff of being convenient for in time masters reation kettle's the condition, makes things convenient for the staff can be quick handles reation kettle's unusualness, avoids reation kettle because can not in time discover unusually and lead to the problem that reation kettle damaged.

Referring to FIG. 3: the temperature sensor 1 is provided with a temperature probe 11, and the temperature probe 11 is inserted into the reaction kettle; the temperature probe 11 is convenient for measuring the temperature inside the reaction kettle and the temperature sensor 1 is convenient for transmitting the temperature data to the A/D converter 4; the pressure sensor 2 is provided with a pressure probe 21, and the pressure probe 21 is hermetically connected with the reaction kettle; the pressure probe 21 is convenient for detecting the pressure inside the reaction kettle, so that the pressure sensor 2 can conveniently transmit data to the A/D converter 4 and then enter a terminal for analysis, and the air tightness of the reaction kettle can be conveniently judged by analyzing the data; the vibration monitor 3 is connected with a vibration meter 31, and the vibration meter 31 is connected with a main shaft of the reaction kettle stirring device; the vibration meter 31 is convenient for measuring the vibration amplitude of the stirring device of the reaction kettle, and judges whether the vibration amplitude is within a certain interval, so as to judge whether the stirring device of the reaction kettle is normal.

Referring to FIG. 2: the terminal device 5 includes a data receiver 51, a display screen 52 and a data processor 53; the data receiver 51 is connected with the data processor 53 through a linear connection, and the display screen 52 is connected with the data receiver 51 through a linear connection; the data receiving device is convenient for receiving signals from the A/D converter 4, further convenient for displaying the signals received from the A/D converter 4 on the display screen 52, transmitting the signals received from the A/D converter 4 to the data processor 53 for processing, and transmitting the data processing structure to the signal receiving and transmitting base station 6, and the display screen 52 is convenient for displaying the results measured by the temperature sensor 1, the pressure sensor 2 and the vibration monitor 3.

Referring to fig. 4 and 5: the alarm device 9 is internally provided with a sound alarm 91 and a light alarm 92, and the sound alarm 91 and the light alarm 92 are linearly connected with the alarm control mechanism; the sound alarm 91 is convenient for sounding when the reaction kettle is abnormal, so that a worker can be reminded that the reaction kettle is abnormal, the worker can process the reaction kettle in time, and the problem that the reaction kettle is damaged due to the fact that the reaction kettle is not found in time due to the fact that the reaction kettle is abnormal is avoided; the light alarm 92 is provided with a red flashing lamp 921, a green flashing lamp 922 and a yellow flashing lamp 923, and the red flashing lamp 921, the green flashing lamp 922, the yellow flashing lamp 923 are connected with the control device of the light alarm 92; red flashing lamp 921 is convenient for send the scintillation when the temperature is unusual, thereby be convenient for down the staff can have solved the reation kettle fast and be the convenient problem that appears of temperature, green flashing lamp 922 is convenient for send the light scintillation when the pressure appears unusually, the staff of being convenient for in time masters reation kettle pressure problem, and then make things convenient for the quick department of staff to make treatment to reation kettle, yellow flashing lamp 923 is convenient for instruct reation kettle agitating unit vibration unusual, the staff of being convenient for can be timely generate heat agitating unit to reation kettle and repair, and then can improve reation kettle's detection efficiency, avoid postponing delivery time, thereby cause and the customer between the problem of occurrence of default.

The working principle is as follows: before use, a program related to the temperature, the pressure and the vibration error range of a stirring main shaft of a reaction kettle is edited in a terminal device 5 in advance, so that an alarm can be given out after the temperature, the pressure and the vibration amplitude at a monitoring position are in a problem at a later stage, then a pressure probe 21 is hermetically connected with the reaction kettle, the temperature probe 11 is inserted into the reaction kettle, the sealing performance of the connecting position of the temperature probe 11 and the reaction kettle is ensured to be good, finally a vibration meter 31 is clamped on the stirring main shaft of the reaction kettle, so that the reaction kettle is monitored in real time and data are transmitted out, then the reaction kettle provided with the temperature probe 11, the pressure probe 21 and the vibration meter 31 is opened, a certain amount of tap water is filled into the kettle body of the reaction kettle, then a kettle cover and the kettle body are hermetically connected together through bolts, and finally the reaction kettle is placed into a heating furnace, then connect the temperature probe 11 with the temperature sensor 1, the pressure probe 21 with the pressure sensor 2, finally connect the vibration meter 31 with the vibration monitoring device, then open the temperature controller of the reaction kettle, then set the program of the temperature and time to be burned for the temperature controller of the reaction kettle, then connect the temperature controller with the temperature probe 11, finally electrify the heating furnace and the stirring device of the reaction kettle, start the burning test detection of the reaction kettle, the monitoring device will transmit the condition of the reaction kettle to the A/D converter 4 during the burning test detection, transmit the signal to the terminal device 5 for analysis and judgment after the A/D converter 4 converts the condition, the terminal device 5 will receive the signal on the display screen 52 after the analysis and judgment, if the terminal device 5 judges the reaction kettle is abnormal, will send the signal to the signal receiving and sending base station 6, the signal receiving and transmitting base station 6 can receive and transmit signals to the controller, so that the controller gives instructions to the alarm device 9 and the automatic power supply switching device 8 according to the problems, real-time monitoring on the burning test detection of the reaction kettle is achieved, and the reaction kettle can be timely when the problems occur

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims

1. The utility model provides a safety in production check out test set which characterized in that: comprises a temperature sensor (1), a pressure sensor (2), a vibration monitor (3), an A/D converter (4), end equipment, a signal receiving and transmitting base station (6), a control unit (7), an automatic power switching device (8), an alarm device (9) and a reaction kettle power lamp (10), the temperature sensor (1), the pressure sensor (2) and the vibration monitor (3) are all connected with an A/D converter (4), the A/D converter (4) is connected with a terminal device (5) in a linear way, the terminal equipment (5) is in linear connection with the signal transceiving base station (6), the signal receiving and transmitting base station (6) is in linear connection with a control unit (7), the control unit (7) is connected with an automatic power switching device (8) and an alarm device (9), the power supply automatic switching device (8) is connected with a power supply lamp (10) of the reaction kettle.

2. The safety production detection device according to claim 1, wherein the temperature sensor (1) is provided with a temperature probe (11), and the temperature probe (11) is inserted into the reaction kettle.

3. The safety production detection device according to claim 2, wherein the pressure sensor (2) is provided with a pressure probe (21), and the pressure probe (21) is hermetically connected with the reaction kettle.

4. The safety production detection device according to claim 3, wherein the vibration monitor (3) is connected with a vibration meter (31), and the vibration meter (31) is connected with a main shaft of the reaction kettle stirring device.

5. The safety production detection device according to claim 4, wherein the terminal device (5) comprises a data receiver (51), a display screen (52) and a data processor (53); the data receiver (51) is connected with the data processor (53) through a linear connection, and the display screen (52) is connected with the data receiver (51) through a linear connection.

6. The safety production detection device according to claim 5, wherein an audible alarm (91) and a light alarm (92) are arranged in the alarm device (9), and the audible alarm (91) and the light alarm (92) are connected with the alarm control mechanism through linear connection.

7. The safety in production detection device of claim 6, characterized in that, light alarm (92) are equipped with red flashing lamp (921), green flashing lamp (922) and yellow flashing lamp (923), the controlling means of red flashing lamp (921), green flashing lamp (922) and yellow flashing lamp (923) and light alarm (92) is connected.

8. The use method of the safety production detection equipment according to claim 7, characterized in that the use method of the safety production detection equipment comprises the following specific steps:

s1: the program of the range of the vibration error of the stirring main shaft of the reaction kettle, which is related to the temperature, the pressure and the pressure, is edited in the terminal equipment (5) in advance before the use, so that the alarm can be given after the temperature, the pressure and the vibration amplitude are in problem at the monitoring position in the later period.

S2: then, the pressure probe (21) is hermetically connected with the reaction kettle, the temperature probe (11) is inserted into the reaction kettle, the sealing performance of the joint of the temperature probe (11) and the reaction kettle is ensured to be good, and finally, the vibration meter (31) is clamped on a stirring main shaft of the reaction kettle.

S3; opening a reaction kettle provided with a temperature probe (11), a pressure probe (21) and a vibration meter (31), filling a certain amount of tap water into the kettle body of the reaction kettle, then hermetically connecting a kettle cover of the reaction kettle and the kettle body together through bolts, and finally placing the reaction kettle into a heating furnace.

S4: the temperature probe (11) is connected with the temperature sensor (1), the pressure probe (21) is connected with the pressure sensor (2), and finally the vibration meter (31) is connected with the vibration monitoring device.

S5: the reaction kettle temperature controller is opened, then a program about the temperature and time to be burned is set for the reaction kettle temperature controller, and then the temperature controller is connected with the temperature probe (11).

S6: the heating furnace and the stirring device of the reaction kettle are electrified, the reaction kettle is started to be subjected to burning test detection, the monitoring device can transmit the condition of the reaction kettle to the A/D converter (4) in the burning test detection process, the A/D converter (4) converts the condition and transmits the signal to the terminal device (5) for analysis and judgment, the terminal device (5) reacts the received signal on the display screen (52) after the analysis and judgment are completed, if the terminal device (5) judges that the reaction kettle is abnormal, the signal is transmitted to the signal receiving and transmitting base station (6), the signal receiving and transmitting base station (6) can receive and transmit the signal to the controller, and the controller gives instructions to the alarm device (9) and the automatic power supply switching device (8) according to the problems.