CN216005262U - Biological wastewater inactivation system - Google Patents

Abstract

The utility model discloses a biological wastewater inactivation system, which comprises a bearing system, a water storage tank system, an inactivation tank system and a control system, wherein the bearing system is connected with the water storage tank system through a pipeline; the water storage tank system comprises a water storage tank body, a water storage tank respirator assembly, a water storage tank water level sensor, a water storage tank cleaning assembly and a water storage tank sewage inlet assembly; water storage tank respirator subassembly, water storage tank wash subassembly and water storage tank sewage inlet subassembly link to each other with the water storage tank jar body respectively, and water storage tank level sensor links to each other with the inside of the water storage tank jar body. The biological wastewater inactivation system has the advantages of better inactivation effect, higher efficiency, automatic operation and small occupied space.

Description

Biological wastewater inactivation system

Technical Field

The utility model relates to the field of machine manufacturing, in particular to a biological wastewater inactivation system.

Background

In the experiment and production process of units such as laboratories of scientific research institutions and the like, a large amount of active biological wastewater is generated, the biological wastewater contains a large amount of living bacteria and viruses and has great harmfulness, the biological wastewater can be discharged into a next-stage sewage treatment system after being inactivated to kill pathogens, and the inactivation refers to a method for killing the viruses, the bacteria and the like by using a physical or chemical means without damaging useful antigens in the bodies of the viruses, the bacteria and the like.

The inactivation jar of traditional biological waste water inactivation lets in steam to containing active biological waste water more, utilizes steam high temperature to kill bacterium in the waste water, and the speed of disinfecting is slow, and bactericidal effect is general, and waste water inactivates jar surface temperature at the in-process of handling too high simultaneously, and operating personnel scalds easily in operation process, has certain potential safety hazard.

There is a need for a biological wastewater inactivation system with better inactivation effect, higher efficiency, automatic operation and small occupied space to solve the above technical problems.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems, the utility model provides a biological wastewater inactivation system which has the advantages of better inactivation effect, higher efficiency, automatic operation and small occupied space.

The utility model solves the technical problems by the following technical scheme:

the utility model provides a biological wastewater inactivation system, which comprises a bearing system, a water storage tank system, an inactivation tank system and a control system, wherein the bearing system is connected with the water storage tank system through a pipeline; the water storage tank system comprises a water storage tank body, a water storage tank respirator assembly, a water storage tank water level sensor, a water storage tank cleaning assembly and a water storage tank sewage inlet assembly; the water storage tank respirator assembly, the water storage tank cleaning assembly and the water storage tank sewage inlet assembly are respectively connected with the water storage tank body, and the water storage tank water level sensor is connected with the inside of the water storage tank body; the inactivation tank system comprises an inactivation tank body, an inactivation tank respirator assembly, a cooling water assembly, a pollution discharge assembly, a heating assembly, an inactivation tank temperature sensor, a sampling port and an inactivation tank water level sensor, wherein the cooling water assembly is arranged on the periphery of the inactivation tank body, the pollution discharge assembly is arranged below the inactivation tank body, the heating assembly is connected with the inactivation tank body, the sampling port is arranged in the middle lower part of the inactivation tank body, and the inactivation tank temperature sensor, the inactivation tank respirator assembly and the inactivation tank water level sensor are respectively communicated with the inside of the inactivation tank body; the water storage tank body and the inactivation tank body are connected through a sewage connecting component; the bearing system is of a box-type structure, the water storage tank system, the inactivation tank system and the control system are all installed in the bearing system, and the control system is respectively communicated with the water storage tank respirator assembly, the water storage tank water level sensor, the water storage tank cleaning assembly, the water storage tank sewage inlet assembly, the inactivation tank respirator assembly, the cooling water assembly, the sewage discharge assembly, the heating assembly, the inactivation tank temperature sensor, the inactivation tank water level sensor and the sewage connection assembly.

In the utility model, the bearing system is used for installing the water storage tank system, the inactivation tank system and the control system;

preferably, a pulley is installed at the bottom of the bearing system, and a braking assembly is installed on the pulley and used for realizing convenient movement of the biological wastewater inactivation system;

preferably, a stainless steel handle is arranged outside the bearing system and used for pulling a control panel of the control system, a sampling door is arranged outside the bearing system and corresponds to the sampling port; the bearing system is provided with a printer, and the printer is connected with the control system.

In the utility model, the water storage tank system is used for introducing and temporarily storing biological sewage and monitoring the internal biological sewage in real time;

preferably, the volume of the water storage tank body is 30L;

preferably, the water storage tank respirator assembly comprises a water storage tank respirator, a water storage tank respirator pipeline and a water storage tank respirator pneumatic butterfly valve, wherein one end of the water storage tank respirator pipeline is communicated with the water storage tank body, and the other end of the water storage tank respirator pipeline is communicated with the water storage tank respirator; the water storage tank cleaning component comprises a water storage tank cleaning pipeline and a water storage tank cleaning pneumatic butterfly valve, the water storage tank cleaning pipeline is communicated with the water storage tank body, and the water storage tank cleaning pneumatic butterfly valve is arranged on the water storage tank cleaning pipeline; the water storage tank sewage inlet assembly comprises a water storage tank sewage pneumatic butterfly valve, a water storage tank sewage inlet pipeline and a water storage tank sewage inlet port, the water storage tank sewage inlet pipeline is communicated with the water storage tank body and the water storage tank sewage inlet port, and the water storage tank sewage pneumatic butterfly valve is installed on the water storage tank sewage inlet pipeline.

In the utility model, the inactivation tank system is used for treating sewage introduced by the water storage tank body;

preferably, the volume of the tank body of the inactivation tank is 10L, and the working volume of the tank body of the inactivation tank is 6L;

preferably, the inactivation tank respirator assembly comprises an inactivation tank respirator, an inactivation tank respirator pipeline and an inactivation tank respirator pneumatic butterfly valve, wherein one end of the inactivation tank respirator pipeline is communicated with the inactivation tank body, and the other end of the inactivation tank respirator pipeline is communicated with the inactivation tank respirator; the cooling water assembly comprises a jacket, a jacket cooling pneumatic butterfly valve, a jacket drainage pipeline, a tap water inlet pipeline, a tap water interface, a cooling water pneumatic butterfly valve and a cooling drainage interface, the tap water inlet pipeline is communicated with the tap water interface and the jacket, the cooling water pneumatic butterfly valve is installed on the tap water inlet pipeline, the jacket drainage pipeline is connected with the jacket and the cooling drainage interface, and the jacket cooling pneumatic butterfly valve is installed on the jacket drainage pipeline; the sewage discharge assembly comprises a sewage discharge port, a sewage discharge pipeline and a sewage discharge pneumatic butterfly valve, the sewage discharge pipeline is communicated with the sewage discharge port and the inactivation tank body, and the sewage discharge pneumatic butterfly valve is arranged on the sewage discharge pipeline;

preferably, an overflow assembly is further connected to the cooling water assembly, the overflow assembly comprises an overflow pipe and an overflow pneumatic butterfly valve, and the overflow assembly is used for preventing the water level of the cooling water in the cooling water assembly from being too high;

preferably, the heating component is an electric heater; the distance between the sampling port and the bottom of the inactivation tank body is 1/3-1/2 of the distance between the sampling port and the top of the inactivation tank body;

preferably, a safety valve is installed at the top of the inactivation tank body;

in the utility model, the sewage connecting assembly is used for communicating the water storage tank body and the inactivation tank body so as to realize the circulation of sewage;

preferably, the sewage coupling assembling includes sewage intercommunication pipeline and sewage intercommunication pneumatic butterfly valve, sewage intercommunication pipe connection the water storage tank body with the inactivation jar body, sewage intercommunication pneumatic butterfly valve install in sewage intercommunication is on the road.

In the utility model, the control system is a conventional PLC control system in the field;

preferably, control system includes control panel and electric board, the electric board with control panel links to each other, the electric board is connected water storage tank system and inactivation jar system, control panel is provided with LCD screen, USB interface, network interface, scram button, switch, alarm indicator and bee calling organ.

The working principle of the biological wastewater inactivation system provided by the utility model is as follows: biological wastewater is temporarily stored in a water storage tank body, a water storage tank respirator assembly filters waste gas and exhausts the waste gas, a cleaning pipeline of a water storage tank cleaning assembly is connected with a universal cleaning ball, a water storage tank water level sensor controls a water level alarm, and high liquid level stops liquid inlet to prevent overflow pollution; water storage tank respirator subassembly is opened and is admitted air, send into the inactivation jar body with sewage by sewage coupling assembling control, heat the inactivation operation after stopping the feed liquor to certain liquid level, the inactivation jar body heaies up to temperature 135 ℃ and controls and lasts 3 minutes, the inactivation is accomplished and is just can discharge into next grade waste water treatment to being less than 50 ℃ by the cooling water subassembly cooling again, waste gas is filtered by inactivation jar respirator subassembly and is discharged, control system is by each pneumatic butterfly valve switch of PLC control, all instrument running state can show at the LCD screen, there is liquid level alarm system, can store and print system operation data record.

The positive progress effect of the utility model is as follows: the biological wastewater inactivation system has the advantages of better inactivation effect, higher efficiency, automatic operation and small occupied space.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic structural diagram of a biological wastewater inactivation system according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the overall structure of a biological wastewater inactivation system according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a control panel according to an embodiment of the present invention;

FIG. 4 is a schematic view of a partial structure of an inactivation tank system of the biological wastewater inactivation system according to the embodiment of the present invention;

FIG. 5 is a schematic view of a partial structure of a biological wastewater inactivation system according to an embodiment of the present invention;

fig. 6 is a schematic structural view of an overflow assembly of the biological wastewater inactivation system according to the embodiment of the present invention.

Description of reference numerals:

1. a water storage tank system; 2. an inactivation tank system;

3. a load bearing system; 4. a control system;

11. a water storage tank body; 12. a water storage tank respirator assembly;

13. a water storage tank water level sensor; 14. a water storage tank cleaning assembly;

15. a water storage tank sewage inlet component; 16. a sewage connection assembly;

21. a tank body of the inactivation tank; 22. an inactivation tank respirator assembly;

23. a cooling water assembly; 24. a blowdown assembly;

25. a heating assembly; 26. a deactivation pot temperature sensor;

27. a sampling port; 28. a water level sensor of the inactivation tank;

29. a safety valve; 241. a sewage draining outlet;

242. a blowdown line; 243. a blowdown pneumatic butterfly valve;

231. a tap water interface; 232. a tap water inlet pipeline;

233. a cooling water pneumatic butterfly valve; 234. a cooling drain interface;

235. a jacket drainage pipeline; 236. a jacket cooling pneumatic butterfly valve;

237. a jacket; 238. an overflow pneumatic butterfly valve;

239. an overflow pipe; 41. a liquid crystal screen;

42. a USB interface; 43. a network interface;

44. an emergency stop button; 45. a power switch;

46. an alarm indicator light; 47. a buzzer;

48. an electric board; 5. a printer;

6. a sampling gate; 7. a stainless steel handle;

8. a pulley.

Detailed Description

The following description of the embodiments of the present invention will be made with reference to the accompanying drawings. The following examples are only for illustrating the technical solutions of the present invention more clearly, and the protection scope of the present invention is not limited thereby.

As shown in fig. 1, 2, 3, 4, 5 and 6, the present embodiment provides a biological wastewater inactivation system, which includes a carrying system 3, a water storage tank system 1, an inactivation tank system 2 and a control system 4; the water storage tank system 1 comprises a water storage tank body 11, a water storage tank respirator component 12, a water storage tank water level sensor 13, a water storage tank cleaning component 14 and a water storage tank sewage inlet component 15; the water storage tank respirator component 12, the water storage tank cleaning component 14 and the water storage tank sewage inlet component 15 are respectively connected with the water storage tank body 11, and the water storage tank water level sensor 13 is connected with the inside of the water storage tank body 11; the inactivation tank system 2 comprises an inactivation tank body 21, an inactivation tank respirator assembly 22, a cooling water assembly 23, a pollution discharge assembly 24, a heating assembly 25, an inactivation tank temperature sensor 26, a sampling port 27 and an inactivation tank water level sensor 28, wherein the cooling water assembly 23 is arranged around the inactivation tank body 21, the pollution discharge assembly 24 is arranged below the inactivation tank body 21, the heating assembly 25 is connected with the inactivation tank body 21, the sampling port 27 is arranged in the middle lower part of the inactivation tank body 21, and the inactivation tank temperature sensor 26, the inactivation tank respirator assembly 22 and the inactivation tank water level sensor 28 are respectively communicated with the inside of the inactivation tank body 21; the water storage tank body 11 and the inactivation tank body 21 are connected through a sewage connecting component 16; bearing system 3 is box structure, and bearing system 3 is all installed in bearing system 3 to water storage tank system 1, inactivation jar system 2 and control system 4, and control system 4 communicates water storage tank respirator subassembly 12, water storage tank level sensor 13, water storage tank cleaning assembly 14, water storage tank sewage inlet subassembly 15, inactivation jar respirator subassembly 22, cooling water subassembly 23, blowdown subassembly 24, heating element 25, inactivation jar temperature sensor 26, inactivation jar level sensor 28 and sewage coupling assembling 16 respectively.

In this embodiment, the carrying system 3 is used for installing the water storage tank system 1, the inactivation tank system 2 and the control system 4; the bottom of the bearing system 3 is provided with a pulley 8, and the pulley 8 is provided with a brake assembly for realizing convenient movement of the biological wastewater inactivation system; a stainless steel handle 7 is arranged outside the bearing system 3 and used for pulling a control panel of the control system 4, a sampling door 6 is arranged outside the bearing system 3, and the sampling door 6 corresponds to the sampling port 27; the bearing system 3 is provided with a printer 5, and the printer 5 is connected with the control system 4.

In this embodiment, the water storage tank system 1 is used for introducing and temporarily storing biological sewage, and monitoring the biological sewage inside in real time; the volume of the water storage tank body 11 is 30L; the water storage tank respirator component 12 comprises a water storage tank respirator, a water storage tank respirator pipeline and a water storage tank respirator pneumatic butterfly valve, one end of the water storage tank respirator pipeline is communicated with the water storage tank body 11, and the other end of the water storage tank respirator pipeline is communicated with the water storage tank respirator; the water storage tank cleaning component 14 comprises a water storage tank cleaning pipeline and a water storage tank cleaning pneumatic butterfly valve, the water storage tank cleaning pipeline is communicated with the water storage tank body 11, and the water storage tank cleaning pneumatic butterfly valve is arranged on the water storage tank cleaning pipeline; water storage tank sewage inlet subassembly 15 includes water storage tank sewage pneumatic butterfly valve, water storage tank sewage inlet pipe and water storage tank sewage input port, and water storage tank sewage inlet pipe communicates water storage tank jar body 11 and water storage tank sewage input port, and water storage tank sewage pneumatic butterfly valve installs on water storage tank sewage inlet pipe.

In this embodiment, the inactivation tank system 2 is used for treating sewage introduced into the water storage tank body 11; the volume of the inactivation tank body 21 is 10L, and the working volume of the inactivation tank body 21 is 6L; the inactivation tank respirator component 22 comprises an inactivation tank respirator, an inactivation tank respirator pipeline and an inactivation tank respirator pneumatic butterfly valve, one end of the inactivation tank respirator pipeline is communicated with the inactivation tank body 21, and the other end of the inactivation tank respirator pipeline is communicated with the inactivation tank respirator; the cooling water assembly 23 comprises a jacket 237, a jacket cooling pneumatic butterfly valve 236, a jacket drainage pipe 235, a tap water inlet pipe 232, a tap water interface 231, a cooling water pneumatic butterfly valve 233 and a cooling drainage interface 234, the tap water inlet pipe 232 is communicated with the tap water interface 231 and the jacket 237, the cooling water pneumatic butterfly valve 233 is mounted on the tap water inlet pipe 232, the jacket drainage pipe 235 is connected with the jacket 237 and the cooling drainage interface 234, and the jacket cooling pneumatic butterfly valve 236 is mounted on the jacket drainage pipe 235; the sewage discharge assembly 24 comprises a sewage discharge port 241, a sewage discharge pipeline 242 and a sewage discharge pneumatic butterfly valve 243, the sewage discharge pipeline 242 is communicated with the sewage discharge port 241 and the inactivation tank body 21, and the sewage discharge pneumatic butterfly valve 243 is arranged on the sheet sewage discharge pipeline 242; the cooling water assembly 23 is further connected with an overflow assembly, which comprises an overflow pipe 239 and an overflow pneumatic butterfly valve 238, and the overflow assembly is used for preventing the water level of the cooling water in the cooling water assembly 23 from being too high; the heating assembly 25 is an electric heater; the distance between the sampling port 27 and the bottom of the inactivation tank body 21 is 1/2 equal to the distance between the sampling port 27 and the top of the inactivation tank body 21; the top of the inactivation tank body 21 is provided with a safety valve 29.

In this embodiment, the sewage connection assembly 16 is used for communicating the water storage tank 11 and the inactivation tank 21 to realize the circulation of sewage; the sewage connecting component 16 comprises a sewage communicating pipeline and a sewage communicating pneumatic butterfly valve, the sewage communicating pipeline is connected with the water storage tank body 11 and the inactivation tank body 21, and the sewage communicating pneumatic butterfly valve is arranged on the sewage communicating pipeline.

In this embodiment, the control system 4 is a conventional PLC control system in the art; the control system 4 comprises a control panel and an electric panel 48, the electric panel 48 is connected with the control panel, the electric panel 48 is connected with the water storage tank system 1 and the inactivation tank system 2, and the control panel is provided with a liquid crystal screen 41, a USB interface 42, a network interface 43, an emergency stop button 44, a power switch 45, an alarm indicator lamp 46 and a buzzer 47.

The working principle of the biological wastewater inactivation system of the embodiment is as follows: biological wastewater is temporarily stored in a water storage tank body, a water storage tank respirator assembly filters waste gas and exhausts the waste gas, a cleaning pipeline of a water storage tank cleaning assembly is connected with a universal cleaning ball, a water storage tank water level sensor controls a water level alarm, and high liquid level stops liquid inlet to prevent overflow pollution; water storage tank respirator subassembly is opened and is admitted air, send into the inactivation jar body with sewage by sewage coupling assembling control, heat the inactivation operation after stopping the feed liquor to certain liquid level, the inactivation jar body heaies up to temperature 135 ℃ and controls and lasts 3 minutes, the inactivation is accomplished and is just can discharge into next grade waste water treatment to being less than 50 ℃ by the cooling water subassembly cooling again, waste gas is filtered by inactivation jar respirator subassembly and is discharged, control system is by each pneumatic butterfly valve switch of PLC control, all instrument running state can show at the LCD screen, there is liquid level alarm system, can store and print system operation data record.

The biological wastewater inactivation system of the embodiment has the advantages of better inactivation effect, higher efficiency, automatic operation and small occupied space.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (10)

1. A biological wastewater inactivation system is characterized by comprising a bearing system, a water storage tank system, an inactivation tank system and a control system; the water storage tank system comprises a water storage tank body, a water storage tank respirator assembly, a water storage tank water level sensor, a water storage tank cleaning assembly and a water storage tank sewage inlet assembly; the water storage tank respirator assembly, the water storage tank cleaning assembly and the water storage tank sewage inlet assembly are respectively connected with the water storage tank body, and the water storage tank water level sensor is connected with the inside of the water storage tank body; the inactivation tank system comprises an inactivation tank body, an inactivation tank respirator assembly, a cooling water assembly, a pollution discharge assembly, a heating assembly, an inactivation tank temperature sensor, a sampling port and an inactivation tank water level sensor, wherein the cooling water assembly is arranged on the periphery of the inactivation tank body, the pollution discharge assembly is arranged below the inactivation tank body, the heating assembly is connected with the inactivation tank body, the sampling port is arranged in the middle lower part of the inactivation tank body, and the inactivation tank temperature sensor, the inactivation tank respirator assembly and the inactivation tank water level sensor are respectively communicated with the inside of the inactivation tank body; the water storage tank body and the inactivation tank body are connected through a sewage connecting component; the bearing system is of a box-type structure, the water storage tank system, the inactivation tank system and the control system are all installed in the bearing system, and the control system is respectively communicated with the water storage tank respirator assembly, the water storage tank water level sensor, the water storage tank cleaning assembly, the water storage tank sewage inlet assembly, the inactivation tank respirator assembly, the cooling water assembly, the sewage discharge assembly, the heating assembly, the inactivation tank temperature sensor, the inactivation tank water level sensor and the sewage connection assembly.

2. The biological wastewater inactivation system of claim 1, wherein a pulley is mounted to a bottom portion of the carrier system, and a brake assembly is mounted to the pulley.

3. The biological wastewater inactivation system of claim 1, wherein a stainless steel handle is mounted to an exterior of the carrier system, and a sampling gate is mounted to an exterior of the carrier system, the sampling gate corresponding to the sampling port; the bearing system is provided with a printer, and the printer is connected with the control system.

4. The biological wastewater inactivation system of claim 1, wherein the volume of the water storage tank is 30L.

5. The biological wastewater inactivation system of claim 1, wherein the water storage tank respirator assembly comprises a water storage tank respirator, a water storage tank respirator conduit, and a water storage tank respirator pneumatic butterfly valve, wherein one end of the water storage tank respirator conduit communicates with the water storage tank, and the other end of the water storage tank respirator conduit communicates with the water storage tank respirator; the water storage tank cleaning component comprises a water storage tank cleaning pipeline and a water storage tank cleaning pneumatic butterfly valve, the water storage tank cleaning pipeline is communicated with the water storage tank body, and the water storage tank cleaning pneumatic butterfly valve is arranged on the water storage tank cleaning pipeline; the water storage tank sewage inlet assembly comprises a water storage tank sewage pneumatic butterfly valve, a water storage tank sewage inlet pipeline and a water storage tank sewage inlet port, the water storage tank sewage inlet pipeline is communicated with the water storage tank body and the water storage tank sewage inlet port, and the water storage tank sewage pneumatic butterfly valve is installed on the water storage tank sewage inlet pipeline.

6. The biological wastewater inactivation system of claim 1, wherein the volume of the inactivation tank body is 10L, and the working volume of the inactivation tank body is 6L.

7. The biological wastewater inactivation system of claim 1, wherein the inactivation tank respirator assembly comprises an inactivation tank respirator, an inactivation tank respirator conduit, and an inactivation tank respirator pneumatic butterfly valve, wherein one end of the inactivation tank respirator conduit communicates with the inactivation tank body, and the other end of the inactivation tank respirator conduit communicates with the inactivation tank respirator; the cooling water assembly comprises a jacket, a jacket cooling pneumatic butterfly valve, a jacket drainage pipeline, a tap water inlet pipeline, a tap water interface, a cooling water pneumatic butterfly valve and a cooling drainage interface, the tap water inlet pipeline is communicated with the tap water interface and the jacket, the cooling water pneumatic butterfly valve is installed on the tap water inlet pipeline, the jacket drainage pipeline is connected with the jacket and the cooling drainage interface, and the jacket cooling pneumatic butterfly valve is installed on the jacket drainage pipeline; the blowdown subassembly includes drain, sewage pipes and blowdown pneumatic butterfly valve, the sewage pipes intercommunication the drain with the inactivation jar body, the blowdown pneumatic butterfly valve install in on the sewage pipes.

8. The biological wastewater inactivation system of claim 1, wherein an overflow assembly is coupled to the cooling water assembly, the overflow assembly comprising an overflow conduit and an overflow pneumatic butterfly valve.

9. The biological wastewater inactivation system of claim 1, wherein the heating assembly is an electric heater; the distance between the sampling port and the bottom of the inactivation tank body is 1/3-1/2 of the distance between the sampling port and the top of the inactivation tank body; and a safety valve is installed at the top of the inactivation tank body.

10. The biological wastewater inactivation system of claim 1, wherein the wastewater connection assembly comprises a wastewater communication line connecting the water storage tank body and the inactivation tank body and a wastewater communication pneumatic butterfly valve mounted on the wastewater communication line; the control system comprises a control panel and an electric board, the electric board is connected with the control panel, the electric board is connected with the water storage tank system and the inactivation tank system, and the control panel is provided with a liquid crystal screen, a USB interface, a network interface, an emergency stop button, a power switch, an alarm indicator lamp and a buzzer.

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