CN206115311U - Collect and purify and monitor in experiment base of an organic whole management platform - Google Patents

Abstract

一种集净化与监控于一体的实验基地管理平台,包括：监控中心、净化机组和气体监测装置，监控中心包括视频采集装置、显示设备和控制台；视频采集装置分布于实验基地的不同实验室内，用于实时采集实验室内的画面信息；净化机组和气体监测装置分别与控制台通讯连接，气体监测装置用于实时监测实验室内有害气体的含量及空气的温度、湿度和压差；控制台根据采集的各种数据信息自动分析处理并开启净化机组运行模式。由于是实时监控，所以视频中不仅可看到实验室内的实验设备的运行情况，还可直观的了解实验室内的环境情况，通过监控可直接控制净化机组运行状态，达到实验基地的监控与净化一体化管理的目的，确保实验设备完好，提高实验教学效率和效果。

An experimental base management platform integrating purification and monitoring, including: a monitoring center, a purification unit and a gas monitoring device. The monitoring center includes a video acquisition device, a display device and a console; the video acquisition devices are distributed in different laboratories of the experimental base Inside, it is used to collect the screen information in the laboratory in real time; the purification unit and the gas monitoring device are respectively connected to the console through communication, and the gas monitoring device is used to monitor the content of harmful gases in the laboratory and the temperature, humidity and pressure difference of the air in real time; The console automatically analyzes and processes the various data information collected and starts the operation mode of the purification unit. Because it is real-time monitoring, not only the operation of the experimental equipment in the laboratory can be seen in the video, but also the environmental conditions in the laboratory can be intuitively understood. Through monitoring, the operating status of the purification unit can be directly controlled to achieve the monitoring and control of the experimental base. The purpose of purification integrated management is to ensure that the experimental equipment is in good condition and to improve the efficiency and effect of experimental teaching.

Description

A kind of Experimental Base management platform for integrating purification and monitoring

Technical field

This utility model is related to Experimental Base management technique field, and in particular to a kind of reality for integrating purification and monitoring Test base management platform.

Background technology

The Experimental Base of industry science class universities and colleges, mainly with precision machine tool, accurate work measuring device tool, computer room, electricity Gong electricity Based on sub- equipment, industrial robot etc..Due to the particularity of equipment, it is desirable to indoor maintaining constant temperature, drying, remove removing and harmful gas, It is little so as to reach Precision Machining, accurate measurement error to guarantee that it is intact that machine, work measuring device have.Because the change of ambient temperature Expanding with heat and contract with cold for equipment (metal material), humidity can be caused to cross conference and cause lathe, the corrosion of work measuring device tool and electronic component The change of resistance value.Plus the heat in metal cutting that man-hour produces can produce harmful gass, and add the harmful gas of cutting fluid machining then more Very.At present, because monitoring system and the cleaning system of Experimental Base are to work independently, due to monitoring fail with purification it is integrated Management, in Surveillance center Laboratory Air situation can not be in real time understood, and machine failure, precision are frequently can lead in experimentation It is not up to standard, measurement work measuring device tool can not be used normally, measurement data is inaccurate etc..The loss of school's resource is not only caused, and Have a strong impact on normal teaching.

The content of the invention

Purification and monitoring for Experimental Base works independently, and fails the problem of integrated management, and the application provides a kind of Integrate purification and the Experimental Base management platform for monitoring, including：Surveillance center, for the purification of air in cleaning laboratory Unit and the gas controlling device for monitoring Laboratory Air, Surveillance center include video acquisition device, display device and Control station；

Video acquisition device is distributed in the different experiments room of Experimental Base, and for Real-time Collection indoor picture letter is tested Breath, and image information is transmitted to control station, control station transmits image information to display device；

The gentle body monitoring device of purification unit is connected respectively with console communication, and gas controlling device is used for real-time monitoring reality The content of indoor harmful gas and the temperature of air, humidity and pressure reduction are tested, and by monitor value real-time Transmission to control station；

Control station transmits the temperature of the content for testing indoor harmful gas and air, humidity and pressure reduction to display device, And control station is according to image information, the temperature of the content of experiment indoor harmful gas and air, humidity and pressure reduction control clearing machine The running status of group.

In a kind of embodiment, gas controlling device includes the first humiture pressure reduction monitor, monitoring harmful gases instrument and the One PLC；

First humiture pressure reduction monitor and monitoring harmful gases instrument are connected respectively with the first PLC, PLC controls Device processed is connected with console communication；

First humiture pressure reduction monitor is used for the temperature of real-time monitoring Laboratory Air, humidity and pressure reduction, and by sky The temperature of gas, humidity and pressure reduction are transmitted to the first PLC；

Monitoring harmful gases instrument is used for the content that real-time monitoring tests indoor harmful gas, and the content of harmful gass is passed Transport to the first PLC.

In a kind of embodiment, purification unit includes：Air intake passage and air exhaust passage；

Air intake passage is sequentially provided with fresh inlet, fresh inlet roughing efficiency air filter, recovery tubes, sky by fresh air air intake direction Water transfer pipe, air inlet fan, heating control cabinet, fresh inlet medium effeciency filter, humidification switch board, fresh air outlet and blast pipe；

Air exhaust passage is sequentially provided with exhaust duct, air draft import, air draft import roughing efficiency air filter, recuperation of heat according to air draft direction Pipe, exhaust blower and wind exhausting outlet.

In a kind of embodiment, purification unit also includes the second PLC, the air intake for controlling air inlet fan running status Machine switch board and the exhaust blower switch board for controlling exhaust blower running status；

Second PLC is connected respectively with the first PLC and console communication；

Control station controls the second PLC and is turned on and off air inlet fan switch board and exhaust blower switch board.

In a kind of embodiment, purification unit also includes pressure reduction alarm device, and pressure reduction alarm device is respectively arranged in fresh air and enters In mouth roughing efficiency air filter, fresh inlet medium effeciency filter and air draft import roughing efficiency air filter, pressure reduction alarm device and the 2nd PLC are controlled Device connection processed.

In a kind of embodiment, purification unit also includes the second humiture pressure reduction monitor for monitoring blast pipe endogenous wind, And for monitoring the 3rd humiture pressure reduction monitor of exhaust duct endogenous wind.

In a kind of embodiment, the outfan of the second humiture pressure reduction monitor and the 3rd humiture pressure reduction monitor is all connected with In the second PLC.

In a kind of embodiment, the second humiture pressure reduction monitor is installed on the blast pipe near the fresh air port of export, and the 3rd is warm Humidity pressure reduction monitor is installed on the exhaust duct near air draft entrance point.

In a kind of embodiment, purification unit also includes that air draft air-quantity measuring device and intake volume determine device, air draft wind Amount determining device and intake volume determine the outfan of device and are all connected to the second PLC.

In a kind of embodiment, Surveillance center also includes alarm device, and alarm device is connected with control station.

According to the Experimental Base management platform of above-described embodiment, because the display device of Surveillance center not only shows each reality Test the real-time pictures information of interior, meanwhile, also show the mass parameter of each Laboratory Air, such as the content of harmful gass, Air themperature, humidity, pressure reduction etc. so that, the indoor ambient conditions of experiment can be got information about in monitored picture, and, lead to The ambient conditions of the real-time pictures information and experiment interior of crossing monitoring directly controls to purify the running status of unit, reaches experiment base The purpose of monitoring with the purification integrated management on ground, it is ensured that the intact and normal order in education of equipment.

Description of the drawings

Fig. 1 is the Experimental Base management platform artwork for integrating purification with monitoring；

Fig. 2 is the Experimental Base management platform partial circuit diagram for integrating purification with monitoring；

Fig. 3 is purification unit circuit diagram.

Specific embodiment

Accompanying drawing is combined below by specific embodiment to be described in further detail this utility model.

In this utility model embodiment, by by the monitoring system of Experimental Base and cleaning system integrated management, reaching To the risk reduced in experimentation.

To reach above-mentioned purpose, this example provides a kind of Experimental Base management platform for integrating purification and monitoring, and it is former Reason figure is as shown in figure 1, partial circuit diagram is as shown in Fig. 2 including Surveillance center 1, for the clearing machine of air in cleaning laboratory Group 2 and the gas controlling device 3 for monitoring Laboratory Air.

Surveillance center 1 includes video acquisition device 11, display device 12, control station 13 and alarm device 14, harvester 11 can be dome type camera and with any one of head dome type camera or the combination of the two, 11 points of harvester It is distributed in the different experiments room of Experimental Base, for Real-time Collection indoor image information is tested, and the image information is transmitted To control station 13, then, control station 13 again transmits the image information to display device 12, and display device 12 is liquid crystal display Device, can simultaneously show the image information in different experiments room, in order to operator's viewing.

Purification unit 2 and gas controlling device 3 are mounted on experiment interior, and purification unit 2 and gas controlling device 3 are distinguished It is connected with the communication of control station 13, specifically, gas controlling device 3 is supervised including the first humiture pressure reduction monitor 31, harmful gass Instrument and the first PLC 32 are surveyed, the first humiture pressure reduction monitor 31 and monitoring harmful gases instrument are respectively arranged in laboratory Interior, the first humiture pressure reduction monitor 31 is used for temperature, humidity and the pressure reduction of real-time monitoring Laboratory Air, harmful gass prison Surveying instrument is used for the content that real-time monitoring tests indoor harmful gas, the first humiture pressure reduction monitor 31 and monitoring harmful gases instrument It is connected with the first PLC 32 respectively, by the temperature of the content of the experiment indoor harmful gas of monitoring and air, humidity and pressure , to the first PLC 32, the first PLC 32 is by WEB server by these information transfers to control for difference real-time Transmission Platform 13, control station 13 transmits the temperature of the content for testing indoor harmful gas and air, humidity and pressure reduction to display device 12, Monitoring personnel not only can understand the indoor image information of experiment by display device 12, can also in real time understand experiment interior Air conditions, when monitoring personnel recognizes that the indoor harmful gass content of a certain experiment is held more than human body by display device 12 When being measured, or, when testing indoor temperature more than the temperature that test tube is born, monitoring personnel can pass through control station 13 The running status of the indoor purification unit 2 of the experiment is directly controlled, e.g., the supply and exhaust air quantity of purification unit 2 is increased, is had to dilute Evil gas content, or reduce indoor temperature.

In order to realize purifying the Automatic Control of unit 2, the purification unit 2 of this example includes air intake passage 21 and air exhaust passage 22, its circuit diagram is as shown in Figure 3；Air intake passage 21 is imitated as at the beginning of fresh air air intake direction is sequentially provided with fresh inlet 211, fresh inlet Filter 212, recovery tubes A213, air-conditioning water pipe 214, air inlet fan 215, heating control cabinet 216, fresh inlet medium effeciency filter 217th, switch board 218, fresh air outlet 219 and blast pipe 210 are humidified；Air exhaust passage 22 is sequentially provided with exhaust duct according to air draft direction 221st, air draft import 222, air draft import roughing efficiency air filter 223, recovery tubes B224, exhaust blower 225 and wind exhausting outlet 226；Its In, recovery tubes A213 are connected with the sealing of recovery tubes B224, and the outlet of blast pipe 210 is indoor in experiment, exhaust duct 221 Entrance be communicated in that experiment is indoor, reach purification unit 2 to the purpose of the indoor input fresh air of experiment.

Further, purifying unit 2 also includes the second PLC 23, the air inlet fan for controlling air inlet fan running status Switch board 24 and the exhaust blower switch board 25 for controlling exhaust blower running status；Second PLC 23 respectively with a PLC Controller 32 and the communication connection of control station 13, PLC controls 32 only transmit the temperature of Laboratory Air, humidity and pressure reduction To the second PLC 23, in order to the second PLC 23 is according to the feedack of the first PLC 32 to clearing machine The temperature and humidity of the air intake of group 2 is controlled, meanwhile, control station 13 controls the second PLC 23 and is turned on and off air intake Machine switch board 24 and exhaust blower switch board 25, all of purification unit 2 is normally open at Surveillance center 1, in order to supervise Control personnel can directly control the opening and closing for purifying unit 2 in Surveillance center 1.

Purification unit 2 also includes pressure reduction alarm device 26, and pressure reduction alarm device 26 was imitated at the beginning of being respectively arranged in fresh inlet In filter 212, fresh inlet medium effeciency filter 217 and air draft import roughing efficiency air filter 223, pressure reduction alarm device 26 is controlled with PLC Device processed 23 connects, due to fresh inlet roughing efficiency air filter 212, fresh inlet medium effeciency filter 217 and air draft import primarily efficient filter Device 223 hinders respectively gas flowing, generates resistance, and the resistance is exactly pressure differential, abbreviation pressure reduction, and, at the beginning of fresh inlet Effect filter 212, fresh inlet medium effeciency filter 217 and air draft import roughing efficiency air filter 223 are equipped with each normal operation Positive normal pressure difference, when the pressure reduction that pressure reduction alarm device 26 is measured be more than positive normal pressure difference when, illustrate filter need clean or Change, pressure reduction alarm device 26 to PLC 23 sends alarm signal, the alarm signal is sent to control by PLC controls 23 Platform 13, the control alarm device 14 of control station 13 is reported to the police.

Purification unit 2 also includes the second humiture pressure reduction monitor 27 for monitoring the endogenous wind of blast pipe 210, and for supervising Survey the 3rd humiture pressure reduction monitor 28 of the endogenous wind of exhaust duct 221, the second humiture pressure reduction monitor 27 and the 3rd humiture pressure The outfan of difference monitor 28 is all connected to the second PLC 23, and the second humiture pressure reduction monitor 27 is installed near new Wind exports the blast pipe 210 at 219 ends, and the 3rd humiture pressure reduction monitor 28 is installed on the exhaust duct near the end of air draft import 222 221, the second humiture pressure reduction monitor 27 and the 3rd humiture pressure reduction monitor 28 are respectively by the humiture feedback of the wind of monitoring The Laboratory Air fed back according to the first PLC 32 in the second PLC 23, the second PLC 23 it is warm and humid The fortune of the output, the running status of control heating control cabinet 216 and control humidification switch board 218 of degree control air-conditioning water pipe 214 Row state, e.g., opens, constantly running state, to reach the temperature for improving Laboratory Air, humidity and pressure reduction.

Further, purifying unit 2 also includes that air draft air-quantity measuring device 29 and intake volume determine device 20, air draft air quantity The outfan for determining device 29 and intake volume measure device 20 is all connected to the second PLC 23, the second PLC 23 Device 20 can be determined according to the feedack of the first PLC 32 and air draft air-quantity measuring device 29 and intake volume to determine The information of air quantity, controls supply and exhaust air quantity, to reach the purpose for automatically controlling the purification row's air-supply air quantity of unit 2.

The operation principle of the Experimental Base management platform of this example is：Purification unit 2 opens the gas in exchange test room, when When experiment interior is tested, the Real-time Collection of harvester 11 tests indoor image information, the first PLC to experimenter 32 in real time transmit the temperature of the content of experiment indoor harmful gas and air, humidity and pressure reduction to control station 13, display device 12 real-time display picture information, the temperature of the content of experiment indoor harmful gas and air, humidity and pressure reduction, when monitoring personnel is led to When the parameter information for crossing the display of display device 12 observes that the indoor harmful gass content of a certain experiment exceedes human body institute amount of bearing, Monitor can send a control information by control station 13 to the second PLC 23, and the second PLC 23 is directly controlled The supply and exhaust air quantity of purification unit 2, to dilute harmful gass content, during experiment, PLC controls 32 only will experiment The temperature of room air, humidity and pressure reduction are transmitted to the second PLC 23, and the second PLC 23 is controlled according to a PLC The air information and the second humiture pressure reduction monitor 27 and the 3rd humiture pressure reduction monitor 28 of the experiment interior of the feedback of device 32 The humiture differential pressure information of the purification endogenous wind of unit 2 of feedback, the water supply of the real-time control air-conditioning water pipe 214 of the second PLC 23 The running status of amount, the running status of control heating control cabinet 216 and control humidification switch board 218, to reach laboratory is improved The temperature of interior air, humidity and pressure reduction.

Use above specific case is illustrated to this utility model, is only intended to help and understands this utility model, and Not to limit this utility model.For this utility model person of ordinary skill in the field, according to think of of the present utility model Think, some simple deductions, deformation can also be made or replaced.

Claims (10)

1.一种集净化与监控于一体的实验基地管理平台，其特征在于，包括：监控中心、用于净化实验室内空气的净化机组和用于监测实验室内空气的气体监测装置，所述监控中心包括视频采集装置、显示设备和控制台；1. An experimental base management platform integrating purification and monitoring, characterized in that it includes: a monitoring center, a purification unit for purifying the air in the laboratory and a gas monitoring device for monitoring the air in the laboratory, the The monitoring center includes a video acquisition device, a display device and a console; 所述视频采集装置分布于实验基地的不同实验室内，用于实时采集实验室内的画面信息，并将所述画面信息传输至所述控制台，所述控制台将所述画面信息传输至所述显示设备；The video acquisition devices are distributed in different laboratories of the experimental base, and are used to collect the picture information in the laboratory in real time, and transmit the picture information to the console, and the console transmits the picture information to the said display device; 所述净化机组和气体监测装置分别与所述控制台通讯连接，所述气体监测装置用于实时监测实验室内有害气体的含量及空气的温度、湿度和压差，并将监测值实时传输至所述控制台；The purification unit and the gas monitoring device are connected to the console respectively, and the gas monitoring device is used to monitor the content of harmful gases in the laboratory and the temperature, humidity and pressure difference of the air in real time, and transmit the monitored values to the said console; 所述控制台将所述实验室内有害气体的含量及空气的温度、湿度和压差传输至所述显示设备，且所述控制台根据所述画面信息、实验室内有害气体的含量及空气的温度、湿度和压差控制所述净化机组的运行状态。The console transmits the content of harmful gases in the laboratory and the temperature, humidity and pressure difference of the air to the display device, and the console transmits the content of harmful gases in the laboratory and the air temperature according to the screen information, the content of harmful gases in the laboratory and the air temperature The temperature, humidity and pressure difference control the operating state of the purification unit. 2.如权利要求1所述的实验基地管理平台，其特征在于，所述气体监测装置包括第一温湿度压差监测仪、有害气体监测仪和第一PLC控制器；2. The experimental base management platform according to claim 1, wherein the gas monitoring device comprises a first temperature, humidity and pressure difference monitor, a harmful gas monitor and a first PLC controller; 所述第一温湿度压差监测仪和有害气体监测仪分别与第一PLC控制器连接，所述第一PLC控制器与所述控制台通讯连接；The first temperature, humidity and pressure difference monitor and the harmful gas monitor are respectively connected to a first PLC controller, and the first PLC controller is connected to the console through communication; 所述第一温湿度压差监测仪用于实时监测实验室内空气的温度、湿度和压差，并将所述空气的温度、湿度和压差传输至所述第一PLC控制器；The first temperature, humidity and pressure difference monitor is used to monitor the temperature, humidity and pressure difference of the air in the laboratory in real time, and transmit the temperature, humidity and pressure difference of the air to the first PLC controller; 所述有害气体监测仪用于实时监测实验室内有害气体的含量，并将所述有害气体的含量传输至所述第一PLC控制器。The harmful gas monitor is used to monitor the content of harmful gas in the laboratory in real time, and transmit the content of harmful gas to the first PLC controller. 3.如权利要求2所述的实验基地管理平台，其特征在于，所述净化机组包括：进风通道和排风通道；3. The experimental base management platform according to claim 2, wherein the purification unit comprises: an air inlet passage and an air exhaust passage; 所述进风通道按新风进风方向依次设有新风进口、新风进口初效过滤器、热回收管、空调水管、进风机、加热控制柜、新风进口中效过滤器、加湿控制柜、新风出口和进风管；According to the fresh air inlet direction, the air inlet channel is provided with fresh air inlet, fresh air inlet primary filter, heat recovery pipe, air-conditioning water pipe, air inlet fan, heating control cabinet, fresh air inlet medium-efficiency filter, humidification control cabinet, and fresh air outlet. and air intake pipe; 所述排风通道按照排风方向依次设有排风管、排风进口、排风进口初效过滤器、热回收管、排风机和排风出口。According to the exhaust direction, the exhaust channel is sequentially provided with an exhaust pipe, an exhaust inlet, an exhaust inlet primary filter, a heat recovery pipe, an exhaust fan and an exhaust outlet. 4.如权利要求3所述的实验基地管理平台，其特征在于，所述净化机组还包括第二PLC控制器、用于控制进风机运行状态的进风机控制柜和用于控制排风机运行状态的排风机控制柜；4. experimental base management platform as claimed in claim 3, is characterized in that, described purification unit also comprises the second PLC controller, is used to control the inlet fan control cabinet of inlet fan operating state and is used to control exhaust fan operating state exhaust fan control cabinet; 所述第二PLC控制器分别与所述第一PLC控制器和所述控制台通讯连接；The second PLC controller is communicated with the first PLC controller and the console respectively; 所述控制台控制所述第二PLC控制器开启或关闭所述进风机控制柜和排风机控制柜。The console controls the second PLC controller to turn on or off the intake fan control cabinet and the exhaust fan control cabinet. 5.如权利要求4所述的实验基地管理平台，其特征在于，所述净化机组还包括压差报警装置，所述压差报警装置分别安装于所述新风进口初效过滤器、新风进口中效过滤器和排风进口初效过滤器内，所述压差报警装置与所述第二PLC控制器连接。5. The experimental base management platform as claimed in claim 4, characterized in that, the purification unit also includes a differential pressure alarm device, and the differential pressure alarm device is respectively installed in the primary effect filter of the fresh air inlet and the fresh air inlet. effect filter and exhaust air inlet primary effect filter, the pressure difference alarm device is connected with the second PLC controller. 6.如权利要求4所述的实验基地管理平台，其特征在于，所述净化机组还包括用于监测所述进风管内风的第二温湿度压差监测仪，及用于监测所述排风管内风的第三温湿度压差监测仪。6. The experimental base management platform as claimed in claim 4, wherein the purification unit also includes a second temperature, humidity and pressure difference monitor for monitoring the wind in the air inlet pipe, and a second temperature, humidity and pressure difference monitor for monitoring the exhaust air. The third temperature, humidity and pressure difference monitor for the wind in the air duct. 7.如权利要求6所述的实验基地管理平台，其特征在于，所述第二温湿度压差监测仪和第三温湿度压差监测仪的输出端均连接于所述第二PLC控制器。7. The experimental base management platform as claimed in claim 6, wherein the outputs of the second temperature, humidity and pressure difference monitor and the third temperature, humidity and pressure difference monitor are all connected to the second PLC controller . 8.如权利要求6所述的实验基地管理平台，其特征在于，所述第二温湿度压差监测仪安装于靠近所述新风出口端的进风管，所述第三温湿度压差监测仪安装于靠近所述排风进口端的排风管。8. The experimental base management platform according to claim 6, wherein the second temperature, humidity and pressure difference monitor is installed in the air inlet pipe near the outlet of the fresh air, and the third temperature, humidity and pressure difference monitor Installed on the exhaust pipe close to the exhaust air inlet end. 9.如权利要求7所述的实验基地管理平台，其特征在于，所述净化机组还包括排风风量测定装置和进风风量测定装置，所述排风风量测定装置和进风风量测定装置的输出端均连接于所述第二PLC控制器。9. experimental base management platform as claimed in claim 7, is characterized in that, described purification unit also comprises exhaust air volume measuring device and inlet air volume measuring device, the exhaust air volume measuring device and inlet air volume measuring device The output terminals are all connected to the second PLC controller. 10.如权利要求8所述的实验基地管理平台，其特征在于，所述监控中心还包括报警装置，所述报警装置与所述控制台连接。10. The experimental base management platform according to claim 8, wherein the monitoring center further comprises an alarm device connected to the console.