CN209118116U - Heat exchange station electromechanical equipment Internet of Things multi-path monitoring device - Google Patents

Abstract

The utility model relates to a kind of heat exchange station electromechanical equipment Internet of Things multi-path monitoring devices, the wireless bridge including heat exchange station scene and the distal end centralized control center being arranged in outside heat exchange station and connection scene and distal end centralized control center；The instrument group unit at scene is the one group of instrument for connecting the concentration of pipe network and being arranged side by side, wind speed instrument including connecting motor speed sensing unit, first digital camera is placed in the right opposite of instrument group unit, the front sound of acquisition instrument group unit, video, the acquisition of third digital camera is mounted on the live sound of flabellum airspeedometer or cup anemometer or wind speed ribbon near motor, video data, second digital camera acquires global information, the data of above-mentioned acquisition are sent to distal end centralized control center by wireless bridge via live local area network in real time, monitor screen curtain wall is thrown to via video server；The program realizes the cheap convenient and fast video monitoring function of sound, video to the motor device at scene, enhances the safety at scene, reduces management cost.

Description

Heat exchange station electromechanical equipment Internet of Things multi-path monitoring device

Technical field

The utility model belongs to heat exchange station wireless monitor and control system control field, more particularly, to a kind of heat exchange station and The multiple wireless of motor operational situation monitors and controls system in standing.

Background technique

To adapt to the energy-saving and emission-reduction of country and the requirement of environmental protection aspect, traditional dispersion heating is gradually transformed into central heating Mode, steam or hot water is delivered near subscriber unit by heating plant by main pipeline, via heat exchange station heat exchange and it is secondary plus Pressure, to meet the requirement of user, in winter, workload is big for heat exchange station, and requirement to safety is high, once occur motor, power supply, The failures such as valve either pipeline, will be influenced at hundred thousands of users by heat supply, and each heating plant usually connects ten numbers Even dozens of heat exchange station, this management for just exchange heat stations propose very high requirement, at this stage many heat exchange stations pass through network with And automation realizes long-range unattended, multiple heat exchange stations are connected to the network by optical fiber, zigbee, 3-4G into monitoring The heart, or even connect the machine operating condition at heat exchange station scene, such as whether the data such as operating and revolving speed, can be transferred through transmission of network It to the main control computer of distal end centralized control center, shows in the form of symbols, or even makes control feedback, but long-range control at this stage There are following safety problems for the heat exchange station of system:

1, the high sensitive data of security requirement can not be intensively directed to, such as: pressure, flow, temperature, liquid level instrument Do intuitive judgement, the operating condition of the especially motor device at heat exchange station scene does the intuitive judgment of vision and by relevant parameter Information does long-range push；

2, data transmission cost is high, limited by the monitoring control signal bandwidth of gprs network transmission, and special 24 hours Sound, video monitoring signal, high campus network can be generated, to contain the use of video monitoring；

3, high to the competency profiling of administrative staff, the heat exchange station data information that monitoring center obtains is not intuitive enough, can not obtain Live state information to other than the parameters such as the pressure flow of heat exchange station pipe network and temperature, this is just to monitoring client monitoring personnel quality It puts forward higher requirements, ordinary person realizes that digital signal is done simply directly at the scene that monitoring center cannot expertly exchange heat stations The judgement of sight.

Summary of the invention

For overcome the deficiencies in the prior art, the utility model provides a kind of heat exchange station Internet of Things multi-path monitoring control system System, it is special by the way of the three road monitoring mode parallel connection of number, simulation and audio-video to the dress system that field device is controlled It is not the motor operation operating condition to scene, the monitoring data for solving field working conditions are not accurately comprehensive, control feedback not in time, with And to the demanding problem of monitoring center personnel's proficiency, to improve the stability and safety coefficient of heat exchange station equipment operation.

Concrete implementation technical solution is such that

Heat exchange station electromechanical equipment Internet of Things multi-path monitoring device, including heat exchange station scene and the distal end being arranged in outside heat exchange station Centralized control center, and the network unit at connection heat exchange station scene and distal end centralized control center；Heat exchange station scene includes data servo list Member, sensor data acquisition unit, video data acquiring unit, control unit, live local area network；Distal end centralized control center includes remote Hold local area network, data analytics server, video server, storage server；The sensor data acquisition unit at heat exchange station scene The data of acquisition are sent to distal end centralized control center via network unit, by data analysis service by data servo cell processing Device processing；The control instruction of distal end centralized control center is sent to corresponding heat exchange station field data servo unit by network unit Control unit sends corresponding control instruction to field device；

The network unit is collected in control using the live local area network at wireless bridge connection heat exchange station scene with distal end is placed in The distal end local area network of the heart；

Heat exchange station scene further includes motor speed sensing unit, and the motor speed sensing unit is flabellum airspeedometer or wind Cup one of anemobiagraph or wind speed ribbon or a variety of combinations, motor speed sensing unit are placed in the motor for needing to monitor Machine shaft or motor radiating fan near；

The video data acquiring unit includes third digital camera, is turned by the motor that third digital camera acquires The sound of fast sensing unit, video information are sent in the collection control of distal end in real time by live local area network and the wireless bridge The heart is thrown to monitor screen curtain wall via the processing and cutting of video server；

The network unit connects live local area network and distal end local area network using wireless bridge, instead of wired optical cable Or cable or 3-4G signal, use cost sharp fall is flexible arrangement, simple, and has saved flow cost of use；Nothing Gauze bridge microwave power is high, and redundancy is big, strong interference immunity, reduces suspension bring maintenance cost, enhances safety；

Motor rotation causes the disturbance of neighbouring air to drive flabellum airspeedometer, cup anemometer or the rotation of wind direction streamer device Or wave, and real-time transmission in the form of video, the induction relative to magnetic, electric induction circuit road, infrared ray etc. to motor operating condition Mode, installation is simpler, effect is more intuitive obviously, input cost is lower；

Distal end centralized control center is placed in the motor speed sensing unit shape at scene by screen wall, intuitive monitoring in real time State more comprehensively, is reduced to employee in conjunction with the digital supervision of remote side administration unit so that live motor work information is more intuitive The complexity of operation, to reduce the requirement to employee's technology, screen wall passes through the cutting and forwarding of video server, can be with The alternative key monitoring for realizing monitoring area improves global safety by flexible screen combination.

Further, heat exchange station scene further includes instrument group unit, and the instrument group unit is to connect the concentration of pipe network simultaneously One group of instrument of arrangement, the instrument group unit also include the wind speed instrument for connecting flabellum airspeedometer or cup anemometer, The wind speed instrument and other instrument concentrate arrangement side by side；

The video data acquiring unit includes the first digital camera, is placed in the right opposite of instrument group unit, is used for The positive plane video of acquisition instrument group unit, sound, the video data of the first digital camera acquisition via live local area network pass through institute The wireless bridge stated is sent to distal end centralized control center in real time, via the processing and cutting of video server, is thrown to monitor screen Curtain wall；

Distal end centralized control center is by screen wall, and intuitive monitoring in real time is placed in the instrument at scene, in conjunction with remote side administration list The digital supervision of member reduces the complexity to employee's operation so that field data is more intuitive, more comprehensively, to reduce pair The requirement of employee's technology；Screen wall passes through the cutting and forwarding of video server, and the alternative of monitoring area may be implemented Key monitoring improves global safety by flexible screen combination.

Further, the distal end centralized control center also sets up sound and light alarm module, and the data at each heat exchange station scene are watched The signal that unit is acquired and transmitted is taken, triggers the acousto-optic report after data analytics server judgement touches preset alarm threshold value Alert module sound, the same alarm of light；

The triggering of automation is alarmed, and the labor intensity of operator is reduced, while also enhancing global safety, is subtracted Security risk is lacked.

Further, the wireless bridge uses frequency for the high-power remote orientation parabola antenna of 5.8Ghz；

The free frequency of 5.8Ghz avoids the interference of the 2.4G segment signal such as wifi, bluetooth, micro-wave oven, uploads lower scanning frequency Rate is up to 300Mbps, the parallel remote transmission for meeting live multi-path monitoring, controlling data.

Further, the video data acquiring unit includes the second digital camera, which acquires heat exchange station The video image data of the global space video image at scene, acquisition is transmitted via live local area network by wireless bridge in real time To distal end centralized control center, monitor screen curtain wall is by video server cutting image, and each heat exchange station of split screen display available is live in real time The second data monitor sound, video data；

Distal end centralized control center is by screen wall, and the overall situation that intuitive, monitoring in real time is placed in scene is live, in conjunction with distal tube The digital supervision of unit is managed, so that field data is more intuitive, more comprehensively, the complexity to employee's operation is reduced, to reduce Requirement to employee's technology, screen wall pass through the cutting and forwarding of video server, the optional of monitoring area may be implemented Selecting property key monitoring improves global safety by flexible screen combination.

Further, the communication unit includes firewall；

Firewall device realizes that the individual channel of signal transmission maintains secrecy by doing the encryption process to number and vision signal Function, it is ensured that the safety for the tiny node that exchanges heat.

Further, the wireless bridge Real-time and Concurrent is wrapped bidirectionally with the transmission of multiple heat exchange stations, reception multichannel data Include sensor data acquisition unit, sound, the video of the control signal that data analytics server is sent and multi-path digital video camera Signal；

The pressure sensor at the sensor data acquisition unit connection heat exchange station scene, temperature sensor, liquid level pass Sensor, outdoor temperature sensors and flow sensor；

The parameters such as temperature sensor senses water supply, return water temperature, circulating water supply, circulating backwater temperature and outdoor temperature；

Pressure sensor incudes water supply, pressure of return water, circulating water supply, circulating backwater pressure and other parameters；

Flow sensor incudes 1,2 flow of pipe network and the flow parameter of water supply pipe；

The control signal issues control and refers to water circulating pump frequency converter, relief valve, constant pressure supply water pump, electric control valve It enables；

The bandwidth of wireless bridge can meet the demand of the various Data Concurrents communication at scene almost without limitation, thus Increase monitoring path, enhances the comprehensive of monitoring.

The technological progress of the utility model is:

The intensively sensitive data high for security requirement, such as: pressure, flow, temperature, liquid level instrument are done intuitively Monitoring；The communication fee of heat exchange station scene and distal end centralized control center reduces, and realizes the global video and instrument list at scene 24 hours continual real time monitorings of the high resolution audio and video signal of first video monitoring, meanwhile, 5.8Ghz microwave section it is wireless Bridge is low-cost, high bandwidth, uninterrupted, interference resistance is strong, maximumlly realizes the concurrent of multi-path monitoring type and control It is comprehensive；The competency profiling of administrative staff is substantially reduced simultaneously, the heat exchange station data information that monitoring center obtains is by original Heat exchange station pipe network pressure flow and the digital parameters such as temperature, increase the intuitive live state information such as image, audio, especially The such key equipment of motor, used it is at low cost, be easily installed, the multi-faceted real time monitoring of intuitive display, reduce monitoring Monitoring personnel competency profiling is held, ordinary person also can do simple, intuitive in the operating condition at the scene that monitoring center expertly exchanges heat stations Judgement；In conjunction with Multi-stage alarmings triggering modes such as alarm sound, light alarms, so that the personnel labor intensity of monitoring center drops It is low, operator need not by attention in real time high concentration checking monitoring screen field data, reduce recruitment cost Safety is enhanced while spending.

Detailed description of the invention

Attached drawing herein is used to provide the further explanation to the utility model, constitutes part of this application, this is practical Novel illustrative embodiments and their description are used to explain the utility model, not constitute improper limits to the present invention.

Fig. 1 is the network connection schematic diagram of heat exchange station Yu distal end centralized control center.

Fig. 2 is the first digital camera and instrument group cellular construction schematic diagram.

Fig. 3 is distal end centralized control center schematic diagram.

Fig. 4 is operation principle schematic diagram.

Fig. 5 is the schematic diagram motor of motor speed sensing units sense motor operating condition.

In figure: 1- heat exchange station scene, 11- data servo unit, 12- sensor data acquisition unit, 13- video data are adopted Collection unit, the first digital camera of 131-, the second digital camera of 132-, 133- third digital camera, 14- control unit, 15- instrument group unit, 16- motor speed sensing unit, 161- flabellum airspeedometer, 162- cup anemometer, 163- wind speed ribbon, 164- wind speed instrument, 17- motor, 171- machine shaft, 172- motor radiating fan, the distal end 2- centralized control center, the analysis of 21- data Server, 22- video server, 23- storage server, 24- sound and light alarm module, 25- monitor screen curtain wall, 3- network unit, The scene 31- local area network, the distal end 32- local area network, 33- wireless bridge, 34- firewall.

Specific embodiment

In order to make those skilled in the art better understand the utility model, below in conjunction with reference attached drawing and in conjunction with the embodiments Further clear, complete explanation is made to the utility model.It should be noted that in the absence of conflict, in the application Feature in embodiment and embodiment can be combined with each other, in the description of the present invention, it should be noted that unless otherwise Specific regulation and restriction, term " installation ", " connected ", " connection " shall be understood in a broad sense, for example, it may be fixedly connected, It can be and be detachably connected, or be integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, The connection inside two elements can be can be indirectly connected through an intermediary.For those of ordinary skill in the art and Speech, can understand the concrete meaning of above-mentioned term in the present invention by concrete condition.

By taking the remote monitoring and administration of the heating plant in China, city, North China exchange heat stations as an example, the heating in the winter of this area Phase is 5 months, and heating plant provides the central heating of more than 20 a units in city the north, a pipe network of heating plant by hot steam or After hot water is delivered to the heat exchange station of unit by pipe network, exchanged heat by heat exchange station and after moisturizing of pressurizeing provide unit near cell or Person's unit heat supply, the heat exchange station 10km farthest apart from heating plant, average distance 4.5km, traditional remote management mode is to pass through Fiber cluster realizes two-way data transmission, and heating plant is in suburb, and since heat exchange station noise is big, heat exchange station is in cell mostly The more remote corner with school or unit, defect are that track laying cost is very high, or are realized with gprs networking two-way Data transmission, defect are that sound, video data transmission are at high cost, and in long-range management project at the scene, live motor operating condition is The most important thing, switch control and monitoring including motor, the work condition abnormality of especially revolving speed are the principal element that takes place frequently of accident, mesh It is preceding that there are no cheap and effective monitoring instruments can be used, if using the modes such as speed probe or acousto-optic induction, Cost is high, and not intuitive enough.

In order to overcome the above problems, specific this programme is to use heat exchange station electromechanical equipment Internet of Things multi-path monitoring to fill It sets, as shown in Fig. 1,3,4,5, including the distal end centralized control center 2 heat exchange station live 1 and be arranged in outside heat exchange station, and connection The network unit 3 at heat exchange station scene 1 and distal end centralized control center 2；

Heat exchange station scene 1 includes data servo unit 11, sensor data acquisition unit 12, video data acquiring unit 13, control unit 14, live local area network 31；

Distal end centralized control center 2 includes distal end local area network 32, data analytics server 21, video server 22, storage service Device 23；

The data that the sensor data acquisition unit 12 at heat exchange station scene 1 acquires are handled by data servo unit 11, warp Distal end centralized control center 2 is sent to by network unit 3, is handled by data analytics server 21, the control instruction of distal end centralized control center 2 It is sent to the control unit 14 of the live 1 data servo unit 11 of corresponding heat exchange station by network unit 3, field device is sent Corresponding control instruction；

The network unit 3 connects the live local area network 31 at heat exchange station scene 1 using wireless bridge 33 and is placed in distal end The distal end local area network 32 of centralized control center 2；

Heat exchange station scene further includes motor speed sensing unit 16, and the motor speed sensing unit 16 is flabellum airspeedometer 161 or one of cup anemometer 162 or wind speed ribbon 163 or a variety of combinations, motor speed sensing unit 16 place Near the machine shaft 171 or motor radiating fan 172 for needing to monitor motor 17；

The video data acquiring unit 13 includes third digital camera 133, is acquired by third digital camera 133 The sound of motor speed sensing unit 16, video information, passed in real time by live local area network 31 and the wireless bridge 33 It send to distal end centralized control center 2, via the processing and cutting of video server 22, is thrown to monitor screen curtain wall 25.

Preferably, as shown in Figure 2, heat exchange station scene 1 further includes instrument group unit 15, and the instrument group unit 15 is to connect One group of instrument that the concentration of adapter tube net is arranged side by side, the instrument group unit 15 is also comprising connection flabellum airspeedometer 161 or wind The wind speed instrument 164 of cup anemobiagraph 162, the wind speed instrument 164 and other instrument concentrate arrangement side by side；

The video data acquiring unit 13 includes the first digital camera 131, is placed in the face of instrument group unit 15 Face, for the positive plane video of acquisition instrument group unit 15, the sound of the first digital camera 131 acquisition, video data are via scene Local area network 31 is sent to distal end centralized control center 2 by wireless bridge 33 in real time, via the processing and cutting of video server 22, It is thrown to monitor screen curtain wall 25.

In the present embodiment, as shown in Figure 5, flabellum airspeedometer 161, cup anemometer 162 is placed on machine shaft two Side, wind speed ribbon 163 are placed on the side of motor radiating fan 172, and flabellum airspeedometer 161, cup anemometer 162, wind speed Ribbon 163 is all in the monitoring range of third digital supervision 133, wherein flabellum airspeedometer 161 is mounted on by signal wire connection On the wind speed instrument 164 of instrument group unit 15.

Each instrument of instrument group is number or pointer instrument, and by connecting pipe of pipeline net, display is interior to include pipe The numerical value such as temperature, pressure, the flow of net, take point for convenience, at the free time of each instrument, words identification are pasted, with convenient The ownership and type of instrument are quickly distinguished, monitoring control centre can more intuitively monitor.

Preferably, as shown in Figure 3, the distal end centralized control center 2 also sets up sound and light alarm module 24, in each heat exchange station The signal that the data servo unit 11 at scene 1 is acquired and transmitted touches preset alarm threshold value through the judgement of data analytics server 21 24 sound of sound and light alarm module, the same alarm of light are triggered afterwards, which can leave monitoring screen in monitoring personnel sight When, security risk is reduced, while reducing the working strength of monitoring personnel.

Preferably, wireless bridge 33 uses frequency for the high-power remote orientation parabola antenna of 5.8Ghz；Part is changed There are residential quarters in the signal institute of heat stations through place, school, factory etc. is wireless intensive region, and the free frequency of 5.8G is avoided Interfering with each other for the 2.4G segment signals such as wifi, bluetooth, micro-wave oven, according to the heat exchange station of different distance, sets certain redundancy Power, farthest heat exchange station use the wireless bridge not less than 500mW power, and it is high not only to meet the heat exchange station scene multichannel The transmission bandwidth requirement of clear video, also sets certain redundancy.

Preferably, the video data acquiring unit 13 includes the second digital camera 132, video camera acquisition heat exchange The video image data of the global space video image at the scene of standing 1, acquisition is real by wireless bridge 33 via live local area network 31 When be sent to distal end centralized control center 2, monitor screen curtain wall 25 is by 22 cutting image of video server, and split screen display available is every in real time Sound, the video data of second digital camera 132 at a heat exchange station scene 1；

Digital camera can also transmit sound in addition to that can transmit image, can be more intuitive for sensor The sound of ground monitoring site, such as motor abnormal sound keep monitoring more comprehensive, promote safety.

In the present embodiment, the data of the first, second and third digital camera are stored by storage server 23 and are backed up；

Preferably, communication unit includes firewall；Firewall device is by doing the encryption process number and vision signal Realize the individual channel function of keeping secret of signal transmission, the interference in addition to avoiding unrelated wireless monitor on the way can also be taken precautions against and divulge a secret.

Preferably, 33 Real-time and Concurrent of wireless bridge bidirectionally transmits with multiple heat exchange stations, receives multichannel data, including sensing The control signal and multi-path digital video camera that upload data, the data analytics server 21 of device data acquisition unit 12 is sent Sound, vision signal；

Wherein, sensor data acquisition unit 12 connects pressure, temperature, liquid level, outdoor temperature and the stream at heat exchange station scene 1 The sensed data of quantity sensor, temperature sensor senses water supply, return water temperature, circulating water supply, circulating backwater temperature and outdoor The parameters such as temperature；Pressure sensor incudes water supply, pressure of return water, circulating water supply, circulating backwater pressure and other parameters；Flow sensor Incude the flow of first and second pipe network and the flow parameter of water supply pipe；Wireless bridge 33 is simultaneously to the number of distal end centralized control center 2 The control signal sent according to Analysis server 21 is sent to control unit 14, is mended to water circulating pump frequency converter, relief valve, level pressure Water pump, electric control valve issue control instruction；The high bandwidth and high power redundancy of the wireless bridge 33 of 5.8G, can be to greatest extent The demand that ground meets the various Data Concurrents communication of various distance fields reduces to increase monitoring path and postpones and enhance prison What is controlled is comprehensive.

The range of the requires of the utility model protection is not limited to the above specific embodiment, for those skilled in the art Speech, the utility model can be all made within the design and principle of the utility model any to repair there are many deformation and change Change, improve and equivalent replacement should be all included within the scope of protection of this utility model.

Claims (8)

1. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device including heat exchange station live (1) and is arranged in remote outside heat exchange station It holds centralized control center (2), and the network unit (3) of connection heat exchange station live (1) and distal end centralized control center (2)；

Heat exchange station scene (1) includes data servo unit (11), sensor data acquisition unit (12), video data acquiring unit (13), control unit (14), live local area network (31)；

Distal end centralized control center (2) includes distal end local area network (32), data analytics server (21), video server (22), storage Server (23)；The data of sensor data acquisition unit (12) acquisition at heat exchange station scene (1), pass through data servo unit (11) it handles, is sent to distal end centralized control center (2) via network unit (3), handled by data analytics server (21), distal end collects The control instruction at control center (2) is sent to live (1) the data servo unit (11) of corresponding heat exchange station by network unit (3) Control unit (14) sends corresponding control instruction to field device；

It is characterized in that, live local area network of the network unit (3) using wireless bridge (33) connection heat exchange station live (1) (31) and it is placed in the distal end local area network (32) of distal end centralized control center (2)；

Heat exchange station scene further includes motor speed sensing unit (16), and the motor speed sensing unit (16) is flabellum airspeedometer (161) or one of cup anemometer (162) or wind speed ribbon (163) or a variety of combinations, motor speed sensing unit (16) it is placed near the machine shaft (171) or motor radiating fan (172) for needing to monitor motor (17)；

The video data acquiring unit (13) includes third digital camera (133), is adopted by third digital camera (133) The sound of the motor speed sensing unit (16) of collection, video information pass through live local area network (31) and the wireless bridge (33) It is sent to distal end centralized control center (2) in real time, via the processing and cutting of video server (22), is thrown to monitor screen curtain wall (25).

2. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that heat exchange station is existing Field (1) further includes instrument group unit (15), and the instrument group unit (15) is the one group of instrument for connecting the concentration of pipe network and being arranged side by side Table, the instrument group unit (15) the also wind speed instrument comprising connection flabellum airspeedometer (161) or cup anemometer (162) (164), the wind speed instrument (164) and other instrument concentrate arrangement side by side；

The video data acquiring unit (13) includes the first digital camera (131), is being placed in instrument group unit (15) just Opposite is used for the positive plane video of acquisition instrument group unit (15), sound, the video data warp of the first digital camera (131) acquisition By live local area network (31) distal end centralized control center (2) are sent to by the wireless bridge (33) in real time, are taken via video The processing and cutting of business device (22), are thrown to monitor screen curtain wall (25).

3. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that the distal end Centralized control center (2) also sets up sound and light alarm module (24), acquires simultaneously in the data servo unit (11) of each heat exchange station live (1) The signal of transmission triggers the sound and light alarm module after data analytics server (21) judgement touches preset alarm threshold value (24) the same alarm of sound, light.

4. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that the nothing Gauze bridge (33) uses frequency for the frequency range of 5.8Ghz.

5. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 4, which is characterized in that the nothing Gauze bridge (33) is high-power remote orientation parabola antenna.

6. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that the view Frequency data acquisition unit (13) includes the second digital camera (132), which acquires the global space of heat exchange station live (1) The video image data of video image, acquisition is sent to distal end by wireless bridge (33) via live local area network (31) in real time Centralized control center (2), monitor screen curtain wall (25) pass through video server (22) cutting image, in real time each heat exchange station of split screen display available Sound, the video data of second digital camera (132) of live (1).

7. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that the net Network unit (3) includes firewall (34).

8. heat exchange station electromechanical equipment Internet of Things multi-path monitoring device according to claim 1, which is characterized in that the nothing Gauze bridge (33) Real-time and Concurrent bidirectionally transmits with multiple heat exchange stations, receives multichannel data, including sensor data acquisition unit (12), sound, the vision signal of data analytics server (21) is sent control signal and multi-path digital video camera.