CN108645977B

CN108645977B - Exhaust emission on-line monitoring system

Info

Publication number: CN108645977B
Application number: CN201810650542.1A
Authority: CN
Inventors: 张尧
Original assignee: Foshan Hanshou Environmental Technology Service Co ltd
Current assignee: Foshan Hanshou Environmental Technology Service Co ltd
Priority date: 2018-06-22
Filing date: 2018-06-22
Publication date: 2024-04-26
Anticipated expiration: 2038-06-22
Also published as: CN108645977A

Abstract

The invention discloses an online monitoring system for exhaust emission, which comprises a monitoring device, a data transmission machine station, a data storage cloud and a data processing background, wherein the monitoring device is used for monitoring the exhaust emission; the monitoring device is arranged on the exhaust gas discharge pipe and used for carrying out online continuous monitoring on the exhaust gas discharge pipe, generating monitoring data in real time, forming a signal by the monitoring data, and sending the signal to the data transmission machine station; the data transmission machine station receives signals of the monitoring devices in the coverage range of the data transmission machine station and uploads data obtained by online continuous monitoring to the data storage cloud; the data storage cloud transmits data to a data processing background through a cloud processor, the monitoring data is processed and tidied through the data processing background, a data form convenient to browse is generated, and the tidied data and the generated data form are transmitted to a user terminal so that a user can monitor and manage exhaust emission in real time and in a local manner. The online monitoring system for exhaust emission realizes online monitoring of exhaust and automatic continuous accurate monitoring.

Description

Exhaust emission on-line monitoring system

Technical Field

The invention relates to the field of pollutant emission monitoring systems, in particular to an online monitoring system for exhaust emission.

Background

On the market, most of the existing exhaust emission monitoring systems cannot meet the requirement of on-line continuous monitoring, and the problems of false data and inaccurate measurement may exist, so that even if the exhaust emission monitoring system is used for monitoring the exhaust emission, the monitoring data lacks sufficient evidence.

Disclosure of Invention

The invention aims to provide an online exhaust emission monitoring system for automatically and continuously and accurately monitoring exhaust gas.

In order to achieve the above purpose, the present invention provides the following technical solutions:

The exhaust emission online monitoring system comprises a monitoring device, a data transmission machine station, a data storage cloud end and a data processing background; the monitoring device is arranged on the exhaust gas discharge pipe and used for carrying out online continuous monitoring on the exhaust gas discharge pipe, generating monitoring data in real time, forming a signal by the monitoring data, and sending the signal to the data transmission machine station; the data transmission machine station receives signals of the monitoring devices in the coverage range of the data transmission machine station and uploads data obtained by online continuous monitoring to the data storage cloud; the data storage cloud transmits data to a data processing background through a cloud processor, the monitoring data is processed and tidied through the data processing background, a data form convenient to browse is generated, and the tidied data and the generated data form are transmitted to a user terminal so that a user can monitor and manage exhaust emission in real time and in a local manner.

As a further technical scheme of the invention: the monitoring device comprises a monitoring box and a fixing frame structure for mounting the monitoring box on an exhaust emission pipe, the monitoring box is provided with a box body, a signal transmitter is fixedly arranged at the top end of the box body, the box body is provided with a cavity, a high-efficiency storage battery, an electrifying switch assembly, a voltage control assembly, an intelligent chip and a router are arranged in the cavity, the high-efficiency storage battery is used for storing electric energy and supplying energy, the electrifying switch assembly is used for opening or closing the energy supply of the high-efficiency storage battery, the voltage control assembly is used for controlling the energy supply voltage of the high-efficiency storage battery, the intelligent chip is used for reading monitoring data to form a signal, the signal transmitter sends out the signal, and the router is used for connecting a data storage cloud.

As a further technical scheme of the invention: the box is equipped with micro generator in the rear end face, micro generator is aerogenerator to when exhaust gas discharge pipe discharges waste gas, turn into the electric energy with wind energy, and store the electric energy that converts into high-efficient battery.

As a further technical scheme of the invention: the bottom of the box body is provided with a vent hole.

As a further technical scheme of the invention: the monitoring box is provided with a box door, and the box door is arranged on the front end face of the box body and can be opened and closed relative to the box body.

As a further technical scheme of the invention: the monitoring device is provided with a two-dimensional code in a cavity of the monitoring box, so that a user can sweep the two-dimensional code through a mobile phone or other mobile terminal equipment, the mobile phone or other mobile terminal equipment is bound with the monitoring device, and the tidied data and the generated data form are sent to a user terminal bound by the user from a data processing background, so that the user can conveniently view the data.

Compared with the prior art, the invention has the beneficial effects that: the invention provides an online monitoring system for exhaust emission, which realizes online monitoring and automatic continuous accurate monitoring of exhaust gas by matching among a monitoring device, a data transmission machine station, a data storage cloud and a data processing background.

Drawings

FIG. 1 is a schematic diagram of an exhaust emission on-line monitoring system.

Fig. 2 is a perspective view of the monitoring device.

Fig. 3 is a structural diagram of the monitoring device.

Detailed Description

The following describes specific embodiments of the present invention in detail with reference to the drawings. It should be understood that the detailed description and specific examples, while indicating and illustrating the invention, are not intended to limit the scope of the invention.

Referring to fig. 1, an online monitoring system for exhaust emission includes a monitoring device 10, a data transmitter station 20, a data storage cloud 30, and a data processing background 40; the monitoring device 10 is mounted on the exhaust gas discharge pipe 101, and is used for continuously monitoring the exhaust gas discharge pipe 101 on line, generating monitoring data in real time, forming a signal by the monitoring data, and sending the signal to the data transmission machine station 20; the data transmitter station 20 receives signals of the monitoring device 10 in the coverage area thereof, and uploads data obtained by online continuous monitoring to the data storage cloud 30; the data storage cloud 30 transmits data to the data processing background 40 through the cloud processor, processes and sorts the monitored data through the data processing background 40, generates a real-time exhaust emission monitoring table, an exhaust emission history trend table and other data tables which are convenient to browse, and sends the sorted data, the generated data tables and the like to the mobile phone, the computer and the like of the user terminal 50 so that a user can monitor and manage the exhaust emission in real time and in a local manner.

Referring to fig. 2 and 3, the monitoring device 10 includes a monitoring box 11 and a fixing frame structure 12 for mounting the monitoring box 11 on the exhaust gas discharge pipe 101, the exhaust gas discharge pipe 101 is provided with a mounting opening for mounting the monitoring box 11, the monitoring box 11 is embedded on the exhaust gas discharge pipe 101 from the mounting opening through the fixing frame structure 12, a partial or whole rear end of the monitoring box 11 is disposed in the exhaust gas discharge pipe 101, a gap between the monitoring box 11 and a periphery of the mounting opening is sealed by sealant, leakage of exhaust gas from the gap between the monitoring box 11 and the periphery of the mounting opening is prevented, and connection between the monitoring box 11 and the exhaust gas discharge pipe 101 is reinforced.

The monitoring box 11 has a box body 111 and a box door 112 disposed on a front end surface of the box body 111, the box door 112 can be opened and closed relative to the box body 111, and a door lock (not shown) is disposed on the box door 112, so that when the box door 112 is closed relative to the box body 111, the box door 112 is locked on the box body 111 through the door lock. The top end of the box 111 is fixedly provided with a signal transmitter 201, the box 111 is provided with a chamber 113, a high-efficiency storage battery (not shown), an energizing switch component (not shown), a voltage control component (not shown), an intelligent chip (not shown) and a router (not shown) are arranged in the chamber 113, the high-efficiency storage battery is used for storing electric energy and supplying energy, the energizing switch component is used for starting or closing the energy supply of the high-efficiency storage battery, the voltage control component is used for controlling the energy supply voltage of the high-efficiency storage battery, the intelligent chip is used for reading monitoring data to form a signal, the signal transmitter 201 is used for sending the signal, and the signal is connected with the data storage cloud 30 through the router as a medium; the monitoring box 11 is provided with a mounting block 114 on the rear end face, the top end of the mounting block 114 is inwards recessed to form a mounting groove 115, the bottom of the mounting groove 115 of the mounting block 114 is provided with a dust probe 116 and a voc probe 117, so that when the monitoring box 11 is mounted on the exhaust gas discharge pipe 101, the mounting block 114 is arranged in the exhaust gas discharge pipe 101, the waste gas is monitored in the mounting groove 115 through the dust probe 116 and the voc probe 117, and the generated monitoring data is transmitted to the intelligent chip; the rear end face of the monitoring box 11 is provided with an exhaust fan 118 at the position corresponding to the mounting block 114, so that when the exhaust gas discharge pipe 101 stops discharging exhaust gas, the exhaust fan 118 operates, air in the cavity 113 is discharged into the mounting groove 115, the dust probe 116 and the voc probe 117 are cleaned, dust, waste gas residues and the like remained in the dust probe 116 and the voc probe 117 are cleaned, sensing of the dust probe 116 and the voc probe 117 is cleared, accuracy of monitoring generated data is ensured in the next exhaust, and accuracy of monitoring data is improved.

The case 111 is provided with a micro-generator (not shown) on the rear end surface, the micro-generator is a wind power generator, and when the monitoring device 10 is mounted on the exhaust gas discharge pipe 101, the micro-generator is disposed in the exhaust gas discharge pipe 101 through the mounting opening, so that when the exhaust gas discharge pipe 101 discharges the exhaust gas, wind energy is converted into electric energy, and the converted electric energy is stored in the high-efficiency storage battery.

Further, the bottom end of the case 111 is provided with a vent 119.

Further, the fixing frame structure 12 includes a fixing hoop 121 and a bracket 122, the fixing hoop 121 is disposed at the rear end of the box 111, the head end of the fixing hoop 121 is connected to the rear end surface of the box 111, the tail end of the fixing hoop 121 is abutted to the head end, and a fixing hole (not shown) is defined in the center for accommodating and locking the exhaust gas discharge pipe 101 when the monitoring box 11 is mounted on the exhaust gas discharge pipe 101; the bracket 122 is provided below the housing 111, and connects the bottom surface of the housing 111 with the exhaust gas discharge pipe 101.

Further, the monitoring device 10 includes two light bands 102, and the two light bands 102 have different colors of the lighted lights and are powered by the high-efficiency storage battery; in this embodiment, the light color of one light band 102 is green, and the light color of the other light band 102 is white; two lamp strips 102 are disposed on the exhaust gas discharge pipe 101 and above the monitor box 11, for indicating whether the exhaust gas discharge pipe 101 is exhausting. When the exhaust gas discharge pipe 101 is exhausting, the lamp strip 102 with green light color is lighted, and the other lamp strip 102 is not lighted; when the exhaust gas discharge pipe 102 is not exhausted, the lamp strip 102 with white lamplight color is lighted, and the other lamp strip 102 is not lighted; when the two lamp strips 101 are not on, the monitoring box 11 is not started, so that the environmental protection agency personnel monitoring the exhaust emission can judge whether the enterprise to which the exhaust emission pipe 101 belongs is in exhaust or not and whether the monitoring box 11 is started to monitor the exhaust in the exhaust process or not through the color identification of the lamp strips 102, and the monitoring force of the environmental protection agency personnel on the enterprise is effectively increased.

Further, the monitoring device 10 is provided with a two-dimensional code (not shown) in the chamber 113 of the monitoring box 11, so that the user can sweep the two-dimensional code through his mobile phone or other mobile terminal devices, and bind the mobile phone or other mobile terminal devices with the monitoring device 10, so that the data after arrangement and the generated data table and the like can be sent from the data processing background 40 to the user terminal 50 bound by the user, and the user can conveniently view.

In summary, the exhaust emission online monitoring system of the present invention realizes online monitoring and automatic continuous accurate monitoring of exhaust emission through the cooperation among the monitoring device 10, the data transmission station 20, the data storage cloud 30 and the data processing background 40.

Any combination of the various embodiments of the invention should be considered as being within the scope of the present disclosure, as long as the inventive concept is not violated; within the scope of the technical idea of the invention, any combination of various simple modifications and different embodiments of the technical proposal without departing from the inventive idea of the invention should be within the scope of the invention.

Claims

1. The exhaust emission on-line monitoring system is characterized in that: the system comprises a monitoring device (10), a data transmission machine station (20), a data storage cloud (30) and a data processing background (40); the monitoring device (10) is arranged on the exhaust gas discharge pipe (101) and is used for continuously monitoring the exhaust gas discharge pipe (101) on line, generating monitoring data in real time, forming a signal by the monitoring data and sending the signal to the data transmission machine station (20); the data transmission machine station (20) receives signals of the monitoring device (10) in the coverage range of the data transmission machine station, and uploads data obtained by online continuous monitoring to the data storage cloud (30); the data storage cloud (30) transmits data to the data processing background (40) through the cloud processor, the monitoring data is processed and tidied through the data processing background (40), a data form convenient to browse is generated, and the tidied data and the generated data form are transmitted to the user terminal (50) so that a user can monitor and manage the exhaust emission in real time and anywhere;

The monitoring device (10) comprises a monitoring box (11) and a fixing frame structure (12) for mounting the monitoring box (11) on an exhaust emission pipe (101), wherein the monitoring box (11) is provided with a box body (111), a signal emitter (201) is fixedly arranged at the top end of the box body (111), the box body (111) is provided with a cavity (113), a high-efficiency storage battery, an electrifying switch assembly, a voltage control assembly, an intelligent chip and a router are arranged in the cavity (113), the high-efficiency storage battery is used for storing electric energy and supplying energy, the electrifying switch assembly is used for starting or stopping the energy supply of the high-efficiency storage battery, the voltage control assembly is used for controlling the energy supply voltage of the high-efficiency storage battery, the intelligent chip is used for reading monitoring data to form a signal, the signal emitter (201) is used for sending out a signal, and the router is used for media connection with a data storage cloud (30);

The exhaust gas discharge pipe (101) is provided with a mounting port for mounting the monitoring box (11), the monitoring box (11) is embedded on the exhaust gas discharge pipe (101) from the mounting port through the fixing frame structure (12), the local or whole rear end of the monitoring box (11) is arranged in the exhaust gas discharge pipe (101), and a gap between the monitoring box (11) and the periphery of the mounting port is sealed by sealant;

The monitoring box (11) is provided with a mounting block (114) on the rear end face, the mounting block (114) is inwards sunken at the top end to form a mounting groove (115), the bottom of the mounting groove (115) of the mounting block (114) is provided with a dust probe (116) and a voc probe (117) so that when the monitoring box (11) is mounted on the waste gas discharge pipe (101), the mounting block (114) is arranged in the waste gas discharge pipe (101), waste gas is monitored in the mounting groove (115) through the dust probe (116) and the voc probe (117), and generated monitoring data are transmitted to the intelligent chip;

An exhaust fan (118) is arranged at the rear end face of the monitoring box (11) at the position corresponding to the mounting block (114) so that when the exhaust gas discharge pipe (101) stops discharging exhaust gas, the exhaust fan (118) operates to discharge air in the cavity (113) into the mounting groove (115), the dust probe (116) and the voc probe (117) are cleaned, dust and exhaust gas residues remained in the dust probe (116) and the voc probe (117) are cleaned, and sensing zero clearing of the dust probe (116) and the voc probe (117) is ensured, so that the accuracy of monitoring generated data is ensured when the exhaust gas is discharged next time, and the accuracy of monitoring data is improved;

The box body (111) is provided with a micro-generator on the rear end face, and the micro-generator is a wind power generator for converting wind energy into electric energy and storing the converted electric energy into a high-efficiency storage battery when the waste gas is discharged from the waste gas discharge pipe (101);

the bottom end of the box body (111) is provided with a vent hole (119);

The monitoring box (11) is provided with a box door (112), and the box door (112) is arranged on the front end surface of the box body (111) and can be opened and closed relative to the box body (111);

The monitoring device (10) is provided with a two-dimensional code in a cavity (113) of the monitoring box (11) so that a user can sweep the two-dimensional code through a mobile phone or other mobile terminal equipment, the mobile phone or other mobile terminal equipment is bound with the monitoring device (10), and the tidied data and the generated data form are sent to a user terminal (50) bound by the user from a data processing background (40) so as to facilitate the user to check.