CN212818870U

CN212818870U - Intelligent dry fog dust suppression system of automobile receiving groove

Info

Publication number: CN212818870U
Application number: CN202022950732.0U
Authority: CN
Inventors: 俞斌; 吴成刚; 余海; 代文政; 张晓茹; 张淼
Original assignee: Beijing Muzhi Technology Co ltd
Current assignee: Beijing Muzhi Technology Co ltd
Priority date: 2020-12-08
Filing date: 2020-12-08
Publication date: 2021-03-30
Anticipated expiration: 2030-12-08

Abstract

The utility model discloses an intelligent dry fog dust suppression system of an automobile receiving groove, which comprises a control system, and an air supply system, a water supply system and a dust inhibitor supply system which are in communication connection with the control system, wherein the control system regulates and controls the integral switch and the mixing ratio work of the air supply system, the water supply system and the dust inhibitor supply system according to the change of dust concentration data collected at a working site; the dust inhibitor supply system and the water supply system are connected through a mixing and adjusting assembly to obtain a constant-pressure mixed liquid containing a dust inhibitor, the mixing and adjusting assembly is connected with the gas supply system through a gathering and adjusting assembly, the gathering and adjusting assembly is connected with a terminal spraying pipeline, and the mixing and adjusting assembly and the gathering and adjusting assembly are respectively connected with the control system through a control loop; the utility model discloses an intelligent control dust inhibitor's concentration chooses the most reasonable dust inhibitor ratio for use according to different dust properties and different dust concentrations, has both guaranteed to press down dirt effect, has compromise economic nature again.

Description

Intelligent dry fog dust suppression system of automobile receiving groove

Technical Field

The utility model relates to a press down dirt technical field of system, concretely relates to car receives intelligence dry fog of silo and presses down dirt system.

Background

Dust is raised in the operation process of an automobile receiving groove in sintering and mineral separation engineering. Most projects on the automobile material receiving groove are of open structures and cannot be integrally closed, the material receiving groove receives a large amount of materials at one time, and dust raising phenomenon on the groove is serious when the automobile discharges dry materials. The upper part of the automobile receiving groove is an open dust source, and the treatment is difficult mainly due to the following two reasons: firstly, one side of the automobile is required to be reserved on the top of a receiving groove, and the automobile cannot be integrally closed; secondly, a large amount of materials are unloaded from the automobile to the receiving groove, the fall is large, the surrounding air is induced by the materials falling at high speed to enter the receiving groove, the materials fall and splash to enable the air pressure in the receiving groove to rise rapidly, and strong impact air flow of the materials drives a large amount of dust to diffuse upwards and around immediately.

The conventional dust treatment mode generated in the existing automobile material receiving process is as follows:

1) and (5) wet dust suppression measures. Generally, the efficiency of directly capturing fine dust is not high mainly by sprinkling water and suppressing dust, because fog drops sprayed by a conventional nozzle are thick and the efficiency of capturing respirable dust with the particle size of less than 5 mu m is less than 30%. Not only the dust removal effect is not good, but also water pollution is easy to generate, and the rhythm of the production process is influenced.

2) And (5) air draft dust removal measures. In order to prevent dust from using a dust remover, the negative pressure of the air volume required by local dust removal is large, and the operation cost is very high.

Disclosure of Invention

An object of the utility model is to provide a car receives intelligence dry fog of silo to press down dirt system to solve among the prior art dust removal effect not good, cause the very high technical problem of running cost.

In order to solve the above technical problem, the utility model particularly provides the following technical scheme:

an intelligent dry fog dust suppression system of an automobile receiving groove comprises a control system, and an air supply system, a water supply system and a dust inhibitor supply system which are in communication connection with the control system, wherein the control system regulates and controls the integral switching and mixing proportioning work of the air supply system, the water supply system and the dust inhibitor supply system according to the change of dust concentration data collected on a working site;

the dust inhibitor supply system and the water supply system are connected through a mixing and adjusting assembly to obtain a constant-pressure mixed liquid containing a dust inhibitor, the mixing and adjusting assembly is connected with the gas supply system through a gathering and adjusting assembly, the using times of the gathering and adjusting assembly are the same as the dust raising points of the working site, the gathering and adjusting assembly is connected with a terminal spraying pipeline, and the mixing and adjusting assembly and the gathering and adjusting assembly are respectively connected with the control system through a control loop;

the control system adjusts the mixing and adjusting assembly and the summarizing and adjusting assembly to work according to dust concentration data collected in a working site in real time, and constant-pressure mixed liquid containing a dust inhibitor and compressed air are mixed in the terminal spraying pipeline to form micron-sized dry fog containing the dust inhibitor.

As a preferred scheme of the utility model, monitoring unit is all installed respectively to air supply system, water supply system and dust inhibitor supply system, monitoring unit with control system communication connection, control system utilizes monitoring unit real time monitoring air supply system, water supply system and dust inhibitor supply system's safe work, wherein monitoring unit includes but not limited to the control to pressure, flow, liquid level and temperature.

As a preferred scheme of the utility model, control system passes through data acquisition unit real-time supervision collection the dust concentration data of job site's different dust distribution positions are in order to confirm the raise dust point, control system utilizes the dust concentration and the dust concentration data that data processing module will gather to carry out analysis and processing, just control system basis data acquisition unit with monitor unit's comprehensive data utilization control circuit issues the instruction regulation and control mix the adjusting part with the adjusting part work of gathering is in order to generate micron order dry fog.

As a preferred scheme of the utility model, dust inhibitor supply system is including the liquid medicine case, first force pump and the first regulating valve group that are equipped with the dust inhibitor, the liquid medicine case through first connecting line with mix the regulating assembly and connect, first force pump is used for the regulation and control the invariable water pressure of liquid medicine case, first regulating valve group is used for opening or closing the output of the dust inhibitor in the first connecting line is always operated.

As an optimal scheme of the utility model, water supply system includes water tank, second force pump and second regulating valve group, the water tank pass through the second connecting tube with mixed adjusting part connects, the second force pump is used for the regulation and control the invariable water pressure of water tank, the second regulating valve group is used for opening or closing the output total operation of pure water in the second connecting tube.

As a preferred embodiment of the present invention, the mixing and adjusting assembly includes a mixing liquid pipeline respectively communicated with the first connecting pipeline and the second connecting pipeline, and the first connecting pipeline and the second connecting pipeline are provided with flow regulating and controlling valves, and the control system controls the flow of the purified water in the water tank and the dust inhibitor in the liquid medicine tank according to a ratio by managing the flow regulating and controlling valves;

the first adjusting valve group and the second adjusting valve group are respectively arranged at the starting ends of the first connecting pipeline and the second connecting pipeline, and the first adjusting valve group and the second adjusting valve group are used for regulating and controlling a master switch of the first connecting pipeline and a master switch of the second connecting pipeline.

As a preferred scheme of the utility model, gas supply system include the air compressor machine, with filter, gas holder and the gas circuit valves that the air compressor machine is connected, the gas holder pass through the third connecting tube with the adjusting part that gathers connects, third connecting tube output quantitative high-pressure gas with the mixed liquid of constant voltage fuses so that the high-pressure mixes the liquid and is in form the micron order dry fog in the terminal spray pipe.

As a preferred embodiment of the present invention, the mixing and adjusting assembly is connected to the collecting and adjusting assembly through a fourth connecting line, the collecting and adjusting assembly includes a final pipe for combining the third connecting line and the fourth connecting line, and a combination valve set respectively disposed on the third connecting line and the fourth connecting line, wherein,

the number of the final pipelines is the same as that of the dust raising points of the working site, the number of the third connecting pipelines and the number of the fourth connecting pipelines are respectively the same as that of the final pipelines, and the dust inhibitor concentration of the constant-pressure mixed liquid in each final pipeline corresponds to the dust concentration data of the dust raising points one by one;

the comprehensive valve group is used for regulating and controlling the constant-pressure mixed liquid and the compressed gas to be metered and proportioned according to a plurality of dust raising points of the working site so as to form micron-sized dry fog.

As an optimized scheme of the utility model, terminal spraying pipe include with ultimate pipe connection's workshop pipeline, and set up the terminal spraying nozzle of workshop pipeline, the workshop pipeline basis the raise dust point of job site forms a plurality of sprinkler heads, spraying nozzle installs sprinkler head end and will contain the dust inhibitor the mixed liquid of constant pressure mixes and the compressed air is mixed and is converted into the dry fog that the particle diameter is 1 ~ 10 mu m and spouts to the raise dust point.

As the utility model discloses a preferred scheme, control system is connected with human-computer interaction interface, human-computer interaction interface is used for showing in real time job site's dust concentration data and change and monitoring unit's monitoring parameter.

Compared with the prior art, the utility model following beneficial effect has:

the utility model discloses an intelligent control dust inhibitor's concentration chooses the most reasonable dust inhibitor ratio for use according to different dust properties and different dust concentrations, has both guaranteed to press down dirt effect, has compromise economic nature again.

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. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic structural diagram of a dust suppression system according to an embodiment of the present invention.

The reference numerals in the drawings denote the following, respectively:

1-dust suppressant supply system; 2-a water supply system; 3-a gas supply system; 4-a mixing and adjusting assembly; 5-a summary adjustment component; 6-terminal spraying pipeline; 7-a data processing module; 8-a control system; 9-a data acquisition unit; 10-human-computer interaction interface; 11-a monitoring unit; 12-a first connecting line; 13-a second connecting line; 14-a third connecting line; 15-a fourth connecting line;

401-mixed liquor pipe; 402-a flow regulating valve element;

501-final pipeline; 502-integrated valve group;

601-workshop pipeline; 602-spray nozzle.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

As shown in fig. 1, the utility model provides an intelligence dry fog of car receiving groove presses down dirt system, including air supply system 3, water supply system 2, dust inhibitor supply system 1 and control system 8, control system 8 regulates and control air supply system 3, water supply system 2, dust inhibitor supply system 1's whole switch and mixed ratio work according to the dust concentration data of gathering at the job site.

That is to say, the most reasonable inhibitor proportion is selected according to the dust with different properties and concentrations, so that the dust suppression effect is ensured, and the economy is also considered.

Dust inhibitor supply system 1 and water supply system 2 are connected through mixing adjusting part 4 in order to obtain the constant voltage that contains the dust inhibitor and mix the liquid, mix adjusting part 4 and air supply system 2 and are connected through gathering adjusting part 5, gather adjusting part 5 and be connected with terminal spraying pipe way 6, mix adjusting part 4 and gather adjusting part 5 and all be connected with control system 8 through control circuit respectively.

The control system 8 is used for regulating and controlling the mixing and adjusting component 4 and the summarizing and adjusting component 5 to mix the constant-pressure mixed liquid containing the dust inhibitor and the compressed air in the terminal spraying pipeline 6 to form micron-sized dry fog containing the dust inhibitor according to the change of dust concentration data in a real-time collection working site.

When the dust concentration collected in real time is high, the flow of the constant-pressure mixed liquid and the compressed air is increased, so that the dust suppression work with continuous high water content is realized;

when the dust concentration collected in real time is small, the flow of the constant-pressure mixed liquid and the compressed air is reduced, so that the small-water-amount and even discontinuous dust suppression work is realized.

It should be added that the control system 8 monitors and acquires dust concentration data and dust distribution of a working site in real time through the data acquisition unit 9 to determine a dust raising point, the control system 8 analyzes and processes the acquired dust concentration and dust distribution data through the data processing module 7 to determine the concentration and flow rate of a dust inhibitor of dry fog, and then the control system 8 issues an instruction to regulate the mixing regulation component 4 and the summarizing regulation component 5 through a control loop according to comprehensive data of the data acquisition unit 9 and the monitoring unit 11 to determine the raw material proportion and the measurement of micron-sized dry fog.

The data acquisition system 9 includes a dust concentration monitoring device and a visual recognition device, both of which are commercially available. The dust concentration monitoring device adopts an online dust concentration monitoring device based on a light scattering principle or a light absorption principle, and the monitoring range is 0-10mg/m 3. The visual recognition device is a remote monitoring camera, can shoot raised dust to form a dust image, generates regional real-time dust content data through image analysis and feeds the regional real-time dust content data back to the data processing module 7.

Therefore, the embodiment can aim at a plurality of dust raising points and the dust concentration of each dust raising point of the same working scene (such as an automobile receiving groove), the most reasonable inhibitor proportion is selected according to dust with different properties and concentrations, and the raw material proportion and the measurement of micron-sized dry fog corresponding to each dust raising point are independently adjusted, so that the dust suppression effect is guaranteed, and the economical efficiency is considered.

The gas supply system 3, the water supply system 2 and the dust inhibitor supply system 1 are respectively provided with a monitoring unit 11, the monitoring units 11 are in communication connection with the control system 8, the control system 8 utilizes the monitoring units 11 to monitor the safe operation of the gas supply system 3, the water supply system 2 and the dust inhibitor supply system 1 in real time, wherein the monitoring units 11 include but are not limited to monitoring pressure, flow, liquid level and temperature.

The control system 8 processes pressure, flow, liquid level meter and temperature data collected by the monitoring system 11, and regulates and controls the generation amount of dry fog according to the surplus of the raw materials, so as to realize the functions of pressure regulation, flow regulation, water shortage alarm, heating start and the like of water, gas and dust inhibitors in the supply process.

That is to say, the control system 8 can find the water pressure, the water volume, the temperature and other conditions in the water tank and the liquid medicine tank through the monitoring system 11, and the control system 8 performs the functions of pressure regulation, flow regulation, water shortage alarm, heating start and the like on the air supply system 3, the water supply system 2 and the dust inhibitor supply system 1 according to the monitoring result, then the control system 8 adjusts the overall switch and the mixing proportioning work mode of the air supply system 3, the water supply system 2 and the dust inhibitor supply system 1, on one hand, the pressure regulation and the flow regulation of the air supply system 3, the water supply system 2 and the dust inhibitor supply system 1 are adjusted, on the other hand, the micron-sized dry fog is generated through the flow control of the mixing regulation component 4 and the summarizing regulation component 5.

In addition, it should be noted that the control system 8 is connected to a human-computer interface 10, the human-computer interface 10 is used for displaying dust concentration data and changes of a working site and monitoring parameters of a monitoring unit in real time, and a user can control the concentration of the dust suppressant by operating each valve of the dust suppression system through the human-computer interface 10.

Wherein, dust inhibitor supply system 1 has self-heating function and is equipped with dust inhibitor's liquid medicine case, first force pump and first regulating valve group, and the liquid medicine case is connected with mixed adjusting part 4 through first connecting line 12, and first force pump is used for the invariable water pressure of regulation and control liquid medicine case, and first regulating valve group is used for opening or closing the output total operation of the dust inhibitor in first connecting line 12.

It needs to be supplemented and explained that the dust inhibitor reduces the surface tension, so that the dust adsorption capacity of water is improved by more than 10 times, the inhibitor product produced by the prior art can be rapidly decomposed in the natural environment, is completely nontoxic and harmless, is a genuine green product, and can be safely used in the environment operated by people. The dust suppressant used is mainly composed of an anionic surfactant. The surfactant has good foaming power and microbial decomposition performance, and can not pollute soil and a water system. The amount of water used is significantly reduced compared to previous methods.

The water supply system 2 comprises a water tank, a second pressure pump and a second regulating valve group, the water tank is connected with the mixing regulating assembly 4 through a second connecting pipeline 13, the second pressure pump is used for regulating and controlling the constant water pressure of the water tank, and the second regulating valve group is used for opening or closing the output total operation of purified water in the second connecting pipeline 13.

The mixing and adjusting assembly 4 comprises a mixed liquid pipeline 401 which is respectively communicated with the first connecting pipeline 12 and the second connecting pipeline 13, flow regulating and controlling valves 402 are arranged on the first connecting pipeline 12 and the second connecting pipeline 13, and the control system 8 controls the flow of purified water in the water tank and dust inhibitors in the liquid medicine tank through managing the flow regulating and controlling valves 402. The flow control valve 402 includes a solenoid valve and a manual valve, and the flow control can be performed manually or automatically.

The concentration of the dust inhibitor is mixed and controlled by the dust inhibitor and the purified water in the mixing and regulating component 4, and the flow of the dust inhibitor and the purified water is regulated by the flow regulating valve 402 according to the proportion, so that the flow of the mixed liquid in unit time is regulated and controlled to realize the regulation and control of the generation amount of the dry fog, and therefore, the release amount of the flow regulating valve 402 is managed according to the dust with different concentrations.

The first and second regulating valve sets are respectively installed at the starting ends of the first and second connecting

pipelines

12 and 13, and are used for regulating and controlling the main switches of the first and second connecting

pipelines

12 and 13.

Air supply system 3 includes the air compressor machine, the filter of being connected with the air compressor machine, gas holder and gas circuit valves, the gas holder passes through third connecting line 14 and gathers adjusting part 5 and be connected, the gas circuit valves is by jetting with main gas circuit valves, control gas circuit valves, sweep with the gas circuit valves, just blow or the blowback gas circuit valves is constituteed, main gas circuit valves sets up on the pipeline between air compressor machine and gas holder and is used for providing the gas of spraying, control gas circuit valves sets up on third connecting line 14, an atmospheric pressure for controlling compressed air, sweep with gas circuit valves setting on terminal spraying pipe and stopping spraying back work, just blow or blowback gas circuit valves sets up on second connecting line 13 and work after stopping spraying, a pipeline blockage is sprayed in the prevention terminal, and prevent that mixed liquid pipeline 401 from freezing in winter.

It should be noted that, the structures of the gas supply system 3, the water supply system 2, the box body of the dust suppressant supply system 1, the gas tank, etc. can all use the existing gas supply system 3, water supply system 2, dust suppressant supply system 1 with reference to the gas tank, water storage tank, pressure pump and valve structures in the prior art.

The technical characteristics of the embodiment are as follows: the flow and the dust suppressant ratio of the spraying systems with different dust raising points are regulated and controlled by detecting the dust distribution of a working site, and parameters such as liquid levels and pressures of the gas supply system 3, the water supply system 2 and the dust suppressant supply system 1 are monitored to ensure the stability of generating mixed spraying.

The mixing and regulating assembly 4 is connected with the summarizing and regulating assembly 5 through a fourth connecting pipeline 15, and the summarizing and regulating assembly 5 comprises a comprehensive valve group 502 which is used for combining the third connecting pipeline 14 and the fourth connecting pipeline 15 on an ultimate pipeline 501 and respectively arranged on the third connecting pipeline 14 and the fourth connecting pipeline 15.

As an innovative point of the present embodiment, the number of the final pipes 501 is the same as the number of the dust-raising points in the work site, the number of the third connecting pipes 14 and the number of the fourth connecting pipes 15 are respectively the same as the number of the final pipes 501, the dust inhibitor concentration of the constant-pressure mixed liquid in each final pipe 501 corresponds to the dust concentration data of the dust-raising points one by one, and the comprehensive valve group 502 is used for regulating and controlling the metering and proportioning of the constant-pressure mixed liquid and the compressed gas according to the dust-raising points in the plurality of work sites to form the micron-sized dry fog.

When the dry fog and the dust particles are contacted and collided with each other, the dust particles are mutually bonded, condensed and enlarged, and are settled under the action of self gravity, so that the effect of dust suppression is achieved.

The comprehensive valve group 502 is used for distributing, adjusting and metering the mixed liquid pipeline 401 and the fourth connecting pipeline 15 according to the number of the dust raising points, meeting the dust raising point requirements of a terminal spraying system, and adjusting and controlling the proportion and the metering of the constant-pressure mixed liquid and the compressed gas in the final pipeline 501 corresponding to the dust raising points according to the dust concentration of different dust raising points, so that the dust suppression adjustment and control of a single dust raising point are realized.

The terminal spraying pipeline 6 comprises a workshop pipeline 601 connected with the terminal pipeline and a spraying nozzle 602 arranged at the tail end of the workshop pipeline 601, the workshop pipeline 601 forms a plurality of spraying head ends according to dust raising points of a working site, the spraying nozzle 602 is installed at the spraying head ends and is used for mixing constant-pressure mixed liquid containing dust inhibitors with compressed air and converting the mixed liquid into dry mist with the particle diameter of 1-10 mu m to be sprayed to the dust raising points.

Therefore, in a macroscopic sense, the most reasonable inhibitor proportion can be selected according to the dust properties and the dust concentrations of different batches of operation of the automobile receiving groove, the dust suppression effect is guaranteed, the economy is considered, meanwhile, in a microscopic sense, the inhibitor proportion can be changed for the dust properties and the dust concentrations of different positions of the automobile receiving groove in single operation, and the economy is further improved.

The above embodiments are only exemplary embodiments of the present application, and are not intended to limit the present application, and the protection scope of the present application is defined by the claims. Various modifications and equivalents may be made by those skilled in the art within the spirit and scope of the present application and such modifications and equivalents should also be considered to be within the scope of the present application.

Claims

1. The utility model provides an intelligence dry fog dust suppression system that car received the silo which characterized in that: the dust concentration monitoring system comprises a control system (8), and an air supply system (3), a water supply system (2) and a dust inhibitor supply system (1) which are in communication connection with the control system (8), wherein the control system (8) regulates and controls the integral switching and mixing proportioning work of the air supply system (3), the water supply system (2) and the dust inhibitor supply system (1) according to the change of dust concentration data collected on a working site;

the dust inhibitor supply system (1) and the water supply system (2) are connected through a mixing adjusting component (4) to obtain a constant-pressure mixed liquid containing a dust inhibitor, the mixing adjusting component (4) is connected with the air supply system (3) through a summarizing adjusting component (5), the using frequency of the summarizing adjusting component (5) is the same as the dust raising point of a working site, the summarizing adjusting component (5) is connected with a terminal spraying pipeline (6), and the mixing adjusting component (4) and the summarizing adjusting component (5) are respectively connected with the control system (8) through a control loop;

the control system (8) adjusts the mixing and adjusting component (4) and the summarizing and adjusting component (5) to work according to dust concentration data collected in a working site in real time, and mixes constant-pressure mixed liquid containing dust inhibitors and compressed air in the terminal spraying pipeline (6) to form micron-sized dry fog containing the dust inhibitors.

2. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 1, wherein: monitoring unit (11) are all installed respectively to gas supply system (3), water supply system (2) and dust inhibitor supply system (1), monitoring unit (11) with control system (8) communication connection, control system (8) utilize monitoring unit (11) real time monitoring gas supply system (3), water supply system (2) and dust inhibitor supply system's (1) safe work, wherein monitoring unit (11) include but are not limited to the control to pressure, flow, liquid level and temperature.

3. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 2, wherein: the dust concentration data of different dust distribution positions of a work site are monitored and collected in real time through a data collection unit (9) by the control system (8) so as to determine dust lifting points, the collected dust concentration and dust concentration data are analyzed and processed by the control system (8) through a data processing module (7), and the control system (8) sends an instruction to regulate and control the mixing regulation component (4) and the summarizing regulation component (5) to work so as to generate micron-sized dry fog according to the comprehensive data of the data collection unit (9) and the monitoring unit (11).

4. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 1, wherein: dust inhibitor supply system (1) including the liquid medicine case, first force pump and the first regulating valve group that are equipped with the dust inhibitor, the liquid medicine case through first connecting line (12) with mix regulating assembly (4) and connect, first force pump is used for regulation and control the invariable water pressure of liquid medicine case, first regulating valve group is used for opening or closing the output total operation of the dust inhibitor in first connecting line (12).

5. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 4, wherein: the water supply system (2) comprises a water tank, a second pressure pump and a second regulating valve group, the water tank is connected with the mixing and regulating assembly (4) through a second connecting pipeline (13), the second pressure pump is used for regulating and controlling the constant water pressure of the water tank, and the second regulating valve group is used for opening or closing the output total operation of purified water in the second connecting pipeline (13).

6. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 5, wherein: the mixing and adjusting assembly (4) comprises a mixed liquid pipeline (401) which is respectively communicated with the first connecting pipeline (12) and the second connecting pipeline (13), flow regulating and controlling valves (402) are arranged on the first connecting pipeline (12) and the second connecting pipeline (13), and the control system (8) controls the flow of purified water in the water tank and the dust inhibitor in the liquid medicine tank according to a proportion by managing the flow regulating and controlling valves (402);

the first regulating valve group and the second regulating valve group are respectively arranged at the starting ends of the first connecting pipeline (12) and the second connecting pipeline (13), and are used for regulating and controlling the main switches of the first connecting pipeline (12) and the second connecting pipeline (13).

7. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 4, wherein: air supply system (3) include the air compressor machine, with filter, gas holder and the gas circuit valves that the air compressor machine is connected, the gas holder pass through third connecting line (14) with it connects to gather adjusting part (5), third connecting line (14) output quantitative high-pressure gas with the liquid fusion of mixed liquid of constant pressure is so that the high-pressure mixed liquid is in form the micron order dry fog in terminal spray pipe way (6).

8. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 7, wherein: the mixing regulation assembly (4) is connected with the collective regulation assembly (5) by a fourth connecting line (15), the collective regulation assembly (5) comprising a final pipe (501) for combining the third connecting line (14) and the fourth connecting line (15), and a comprehensive valve group (502) respectively disposed on the third connecting line (14) and the fourth connecting line (15), wherein,

the number of the final pipelines (501) is the same as that of dust raising points of a working site, the number of the third connecting pipelines (14) and the number of the fourth connecting pipelines (15) are respectively the same as that of the final pipelines (501), and the dust inhibitor concentration of the constant-pressure mixed liquid in each final pipeline (501) corresponds to the dust concentration data of the dust raising points one by one;

the comprehensive valve group (502) is used for regulating and controlling the constant-pressure mixed liquid and the compressed gas to be metered and proportioned according to a plurality of dust raising points of the working site so as to form micron-sized dry fog.

9. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 8, wherein: terminal spraying pipe way (6) include with workshop pipeline (601) that ultimate pipe connected, and set up and be in workshop pipeline (601) terminal spray nozzle (602), workshop pipeline (601) basis the raise dust point of job site forms a plurality of sprinkler heads, spray nozzle (602) are installed the sprinkler head end just will contain the dust inhibitor the mixed liquid of constant pressure mixes and the compressed air mixes and converts the dry fog that the particle diameter is 1 ~ 10 mu m to spout to the raise dust point.

10. The intelligent dry fog dust suppression system of the automobile receiving tank as claimed in claim 2, wherein: the control system (8) is connected with a human-computer interaction interface (10), and the human-computer interaction interface (10) is used for displaying dust concentration data and changes of the working site and monitoring parameters of the monitoring unit in real time.