CN114460235B

CN114460235B - Energy-saving air quality monitoring device capable of being rapidly deployed

Info

Publication number: CN114460235B
Application number: CN202210128327.1A
Authority: CN
Inventors: 柏振华
Original assignee: Futai Clean Tech Jiang Su Co ltd
Current assignee: Futai Clean Tech Jiang Su Co ltd
Priority date: 2022-02-11
Filing date: 2022-02-11
Publication date: 2023-12-22
Anticipated expiration: 2042-02-11
Also published as: CN114460235A

Abstract

The invention discloses an energy-saving air quality monitoring device capable of being rapidly deployed in the technical field of air quality monitoring, which comprises a square shell, wherein two groups of air monitors which are arranged on the inner side of the square shell in a front-back symmetrical way are arranged on the inner side of the square shell, and a turnover mechanism for driving the two groups of air monitors to turn from the inside of the square shell to the top of the square shell is connected to the front side wall and the rear side wall of the square shell; according to the invention, the two groups of air monitors are accommodated and opened by utilizing the mutual matching of the square shell and the turnover mechanism, so that the air monitors are positioned at the top of the square shell during monitoring, the air is monitored more accurately, the air monitors are horizontally accommodated into the square shell after monitoring is finished, the flushing mechanism only flushes the head of the air monitoring, other mechanisms affecting the air monitors are avoided, the particle impurities remained on the outer surface of the air monitors are taken out, and the accuracy of the next monitoring is improved.

Description

Energy-saving air quality monitoring device capable of being rapidly deployed

Technical Field

The invention relates to the technical field of air quality monitoring, in particular to an energy-saving air quality monitoring device capable of being rapidly deployed.

Background

The air quality is related to the physical health of people, and people discharge various harmful gases in production and life, so that atmospheric pollution is caused. For example, in the processes of industrial production, transportation, house decoration and the like, harmful gases such as hydrogen sulfide, carbon dioxide, carbon monoxide, nitrogen oxides, ozone and the like are easily generated, and the harmful gases bring harm to human health and also have adverse effects on industrial and agricultural production and climate.

When the air monitoring device monitors the air, the monitoring precision is reduced, and the air monitoring device mainly shows two aspects, namely, only one group of monitors are adopted to monitor the air, the acquired data are fewer, the monitoring error is easy to occur, the existing monitors are still exposed in the air for a long time after monitoring, dust or impurities in the air monitoring process possibly remain on the surface or inside of the existing monitors, and the next monitoring is inaccurate.

Based on the above, the invention designs an energy-saving air quality monitoring device capable of being rapidly deployed so as to solve the problems.

Disclosure of Invention

The invention aims to provide an energy-saving air quality monitoring device capable of being rapidly deployed, so as to solve the problems that in the prior art, when an air monitoring device monitors air, the monitoring precision is reduced, the air quality monitoring device mainly comprises only one group of monitors for monitoring air, less acquisition data are acquired, monitoring errors are easy to occur, and the existing monitors are still exposed to air for a long time after monitoring, dust or impurities in the air monitoring process possibly remain on the surface or inside of the existing monitors, and the next monitoring is inaccurate.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy-conserving air quality monitoring devices that can arrange fast, includes the shape of a whole body casing, shape of a whole body casing inboard is equipped with the front and back symmetrical arrangement in shape of a whole body casing inboard two sets of air monitor, be connected with the tilting mechanism that is used for driving two sets of air monitor to turn over to its top from shape of a whole body casing in shape of a whole body casing on the lateral wall around, tilting mechanism makes the air monitor be in shape of a whole body casing's top and keep vertical when monitoring the air, shape of a whole body casing inboard is equipped with the washing mechanism that is used for going into and out clean to horizontal air monitor, tilting mechanism makes the air monitor be in the horizontal state when accomodating the air monitor to shape of a whole body casing inboard and cooperates washing mechanism to clean air monitor;

the turnover mechanism comprises two groups of first connecting plates, each group of two first connecting plates are respectively and fixedly connected to the front side wall and the rear side wall of the rectangular shell, a first rotating rod is connected to the inner side walls of the first connecting plates on the same side in a common rotating mode, the right ends of the two first rotating rods are fixedly connected with first motors, the first motors are fixedly connected to the outer side walls of the rectangular shell, turnover plates are fixedly connected to the outer surfaces of the two first rotating rods, the front side and the rear side of the rectangular shell are sealed by the front turnover plate and the rear turnover plate, two groups of air monitors are respectively connected to the inner side walls of the front turnover plate and the rear turnover plate, the turnover plates are used for driving the air monitors to rotate, and an opening and closing mechanism used for allowing the air monitors to pass through when the air monitors turn over is arranged at the bottom of the rectangular shell and is opened when the air monitors are stored after the air monitors are monitored;

the opening and closing mechanism comprises a plurality of groups of first gas springs which are consistent with the air monitors in number, each group of first gas springs is fixedly connected to the inner top surface of the square shell, the bottoms of the same groups of first gas springs are fixedly connected with U-shaped lifting frames together, the inner left side wall and the inner right side wall of each U-shaped lifting frame are fixedly connected with first extrusion blocks, the outer surface of each air monitor is fixedly connected with a push rod, the push rods are used for jacking the U-shaped lifting frames, a plurality of through grooves which are positioned right below the air monitors are formed in the bottom of the square shell, the through grooves are used for passing through the air monitors when the air monitors overturn, two sealing plates which are connected to the inner side wall of the square shell in a sliding mode are arranged above each through groove, each sealing plate outer side wall is fixedly connected with a first sliding rod, a first supporting block is fixedly connected to the inner bottom surface of the square shell, each first sliding rod penetrates through the first supporting block and is connected with the first extrusion block in a sliding mode, each first sliding rod is sleeved on the outer surface of each first sliding rod and is fixedly connected with a first extrusion block through the first spring, and each first extrusion block is fixedly connected with the first extrusion block through the first extrusion block;

the flushing mechanism comprises a cleaning bag, a plurality of spray heads are fixedly communicated with the bottom of the cleaning bag, two first electric cylinders are fixedly connected to the inner side of the square shell, the two first electric cylinders are respectively positioned on the front side and the rear side of the cleaning bag, extrusion plates are fixedly connected to the inner ends of the two first electric cylinders, and the front extrusion plate and the rear extrusion plate are used for extruding the cleaning bag;

the utility model discloses a pneumatic device, including air monitor, stripper plate, screw rod, screw sleeve, friction plate and friction ring, the air monitor all rotates to be connected on the inside wall of upset board, every equal fixedly connected with friction ring on the air monitor surface, every equal fixedly connected with second connecting plate in stripper plate bottom, every equal fixedly connected with threaded rod on the second connecting plate lateral wall, the cover is equipped with the screw sleeve on the threaded rod surface, rotate on the screw sleeve surface and be connected with first fixed plate, first fixed plate fixed connection is on the inside wall of returning the shape casing, first fixed plate bottom sliding connection has the friction plate, the friction plate with homonymy two friction ring and screw sleeve contact.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, when the air quality is required to be monitored each time, the two groups of air monitors are stored and unfolded by utilizing the mutual matching of the square shell and the turnover mechanism, so that the air monitors are positioned at the top of the square shell during monitoring, the air is monitored more accurately, and after the monitoring is finished, the air monitors are horizontally stored into the square shell, so that the flushing mechanism only flushes the head of the air monitoring, other mechanisms which affect the air monitors excessively are avoided, particle impurities remained on the outer surface of the air monitors are taken out, and the accuracy of the next monitoring is improved.

2. According to the invention, after the air monitor is reset, the two first electric cylinders are started, and the two first electric cylinders simultaneously drive the extrusion plate to extrude the cleaning bag, so that cleaning liquid in the cleaning bag is sprayed out from the spray head, the horizontally arranged air monitor is monitored and washed, particle impurities adhered to the surface of the air monitor are taken out, and the impurities staying on the surface influence the monitoring of the next air monitor, thereby being beneficial to improving the monitoring accuracy of the air monitor.

Drawings

FIG. 1 is a first perspective view of the overall structure of the present invention;

FIG. 2 is a second perspective cross-sectional view of the overall structure of the present invention;

FIG. 3 is a third perspective cross-sectional view of the overall structure of the present invention;

FIG. 4 is a fourth perspective cross-sectional view of the overall structure of the present invention;

FIG. 5 is a fifth perspective cross-sectional view of the overall structure of the present invention;

FIG. 6 is a schematic view of the outside structure of an air detector inside a flipping panel of the present invention;

FIG. 7 is an enlarged view of the structure of FIG. 6 at A;

FIG. 8 is a schematic view of a left portion of the cleaning mechanism of the present invention;

FIG. 9 is a schematic view of the structure of the inclined guide block and inclined plate and sealing plate according to the present invention;

in the drawings, the list of components represented by the various numbers is as follows:

the air monitor 2, the first connecting plate 3, the first rotating rod 4, the first motor 5, the turnover plate 6, the first air spring 7, the U-shaped lifting frame 8, the first extrusion block 9, the ejector rod 10, the through groove 11, the sealing plate 12, the first sliding rod 13, the first supporting block 14, the first spring 15, the first connecting frame 16, the second extrusion block 17, the cleaning bag 18, the first electric cylinder 19, the extrusion plate 20, the friction ring 21, the second connecting plate 22, the threaded rod 23, the threaded sleeve 24, the first fixing plate 25, the friction plate 26, the positioning hole 27, the second supporting plate 28, the positioning rod 29, the first baffle disc 30, the second spring 31, the guide plate 32, the extrusion inclined plate 33, the water outlet groove 34, the water storage groove 35, the inclined guide block 36, the inclined plate 37, the second sliding rod 38, the rectangular lifting plate 39 and the fourth spring 40.

Detailed Description

Referring to fig. 1-9, the present invention provides a technical solution: the utility model provides an air quality monitoring devices that energy-saving can be deployed fast, including returning shape casing 1, returning shape casing 1 inboard is equipped with two sets of air monitor 2 of front and back symmetrical arrangement in returning shape casing 1 inboard, be connected with the tilting mechanism that is used for driving two sets of air monitor 2 to turn over its top from returning shape casing 1 in the lateral wall around returning shape casing 1, tilting mechanism makes air monitor 2 be in returning shape casing 1's top and keep vertical state when monitoring the air, returning shape casing 1 inboard is equipped with the washing mechanism that is used for going into and going out clean to horizontal air monitor 2, tilting mechanism makes air monitor 2 be in the level state when accomodating air monitor 2 to returning shape casing 1 inboard and cooperates washing mechanism to clean air monitor 2;

when external air needs to be monitored, the turnover mechanism is started to drive the air monitor 2 in a horizontal state to slowly cross the bottom of the square shell 1, the air monitor 2 is turned over to the top of the square shell 1, the air monitor 2 is in a vertical state and is ensured to be positioned above the square shell 1, the square shell 1 is prevented from influencing the air monitor 2 in the monitoring process, the monitoring accuracy is improved, when two groups of air monitors 2 are turned over to be right above the square shell 1, the two groups of air monitors 2 are started simultaneously to start to monitor air, the two groups of air monitors 2 send the structure for monitoring the air into the collecting system to perform average calculation, more accurate air values during each monitoring are obtained, the monitoring accuracy is improved, after each monitoring is completed, the turnover mechanism reversely rotates, the air monitor 2 after monitoring is retracted into the back-shaped shell 1 again, the turnover mechanism is in contact with the back-shaped shell 1, a complete closed cavity is formed by closing, dust or particle impurities are prevented from accumulating in the air monitor 2 or on the surface due to the fact that the air monitor 2 is still in contact with outside air after monitoring is completed, the next monitoring is affected, the air monitor 2 is retracted into the back-shaped shell 1 after each monitoring is completed, the air monitor 2 is prevented from being damaged due to collision with other objects in the conveying process, when two groups of air monitors 2 are turned into the back-shaped shell 1, the two groups of air monitors are in a horizontal state, a flushing mechanism positioned right above the head of the air monitor 2 is started, only the head of the air monitor 2 is flushed, clear water is prevented from flowing to other positions of the air monitor 2 in the flushing process, damage air monitor 2 is favorable to guaranteeing that when washing air monitor 2 at every turn, can not too much influence other parts, avoid other parts rainwater damage or rusty condition to appear, after washing mechanism clean completion, air monitor 2 level is arranged and is carried out the air-drying by oneself in returning shape casing 1, and at this moment, be in sealed environment in returning shape casing 1, avoid external dust or then granule impurity pollute air monitor 2 again, be favorable to guaranteeing the degree of accuracy of air monitor 2 monitoring next time, thereby realize when need monitoring air quality at every turn, utilize returning shape casing 1 and tilting mechanism to mutually support and realize the accomodating and opening of two sets of air monitor 2, make air monitor 2 be in returning shape casing 1's top when monitoring, monitor more accurately, monitor air monitor 2 level is accomodate to returning shape casing 1 after the monitoring is accomplished, make washing mechanism wash only the head of air monitor, avoid too much other mechanisms that influence air monitor 2, get rid of granule impurity that stays on the air monitor 2 surface, improve the degree of accuracy of monitoring next time.

As a further scheme of the invention, the turnover mechanism comprises two groups of first connecting plates 3, each group of two first connecting plates 3 are respectively and fixedly connected to the front side wall and the rear side wall of the square shell 1, the inner side walls of the two first connecting plates 3 on the same side are jointly connected with a first rotating rod 4 in a rotating way, the right ends of the two first rotating rods 4 are fixedly connected with a first motor 5, the first motor 5 is fixedly connected to the outer side wall of the square shell 1, the outer surfaces of the two first rotating rods 4 are fixedly connected with turnover plates 6, the front side and the rear side of the square shell 1 are sealed by the front turnover plate 6 and the rear turnover plates 6, the two groups of air monitors 2 are respectively connected to the inner side walls of the front turnover plate 6 and the rear turnover plates 6, the turnover plates 6 are used for driving the air monitors 2 to rotate, the bottom of the square shell 1 is provided with an opening and closing mechanism for the air monitors 2 to pass through when the air monitors 2 are turned over, and the air monitors 2 are closed after being stored after monitoring;

as a further scheme of the invention, the opening and closing mechanism comprises a plurality of groups of first gas springs 7 which are consistent with the air monitors 2 in number, each group of first gas springs 7 are fixedly connected to the inner top surface of the square shell 1, the bottoms of the same groups of first gas springs 7 are fixedly connected with U-shaped lifting frames 8 together, the inner left side wall and the inner right side wall of each U-shaped lifting frame 8 are fixedly connected with first extrusion blocks 9, the outer surface of each air monitor 2 is fixedly connected with ejector rods 10, the ejector rods 10 are used for jacking the U-shaped lifting frames 8, a plurality of through grooves 11 which are positioned right below the air monitors 2 are formed in the bottom of the square shell 1, the through grooves 11 are used for passing through the air monitors 2 when the air monitors 2 are overturned, two sealing plates 12 which are connected to the inner side wall of the square shell 1 in a sliding manner are arranged above each through groove 11, first sliding rods 13 are fixedly connected to the outer side wall of each sealing plate 12, first supporting blocks 14 are fixedly connected to the inner bottom surface of the square shell 1, the first extrusion blocks 13 penetrate through the first supporting blocks 14 and are fixedly connected with the first extrusion blocks 13 in a sliding manner, the outer surfaces of each first sliding rod 13 are sleeved with first extrusion blocks 17 and are fixedly connected with first extrusion blocks 17 through the first sliding blocks 17;

when in work, as the air monitor 2 needs to be overturned to the top of the square shell 1 and is ensured to be in a vertical state, the first motor 5 is started to drive the first rotating rod 4 and the overturning plate 6 to rotate, the overturning plate 6 drives the air monitor 2 connected to the inner side wall of the air monitor 2 to overturn downwards, the ejector rod 10 at the top of the air monitor 2 is driven to move downwards, the ejector rod 10 is separated from the top movement of the U-shaped lifting frame 8, the U-shaped lifting frame 8 moves downwards under the action of the first air spring 7, the two first extrusion blocks 9 are driven to move downwards, the first extrusion blocks slide down the second extrusion blocks 17, the first springs 15 pull the sealing plates 12 to move outwards, the second extrusion blocks 17 drive the first sliding rods 13 and the sealing plates 12 to move outwards through the first connecting frames 16, the two sealing plates 12 of the sealing through grooves 11 are opened to two sides, when the air monitor 2 is driven to turn to the top of the through groove 11, the sealing plate 12 is thoroughly opened, so that the air monitor 2 passes through the through groove 11, after the air monitor 2 passes through the through groove 11, the turning plate 6 continues to rotate, the air monitor 2 is driven to slowly turn to the right above the square shell 1, the turning plate 6 finally turns 270 DEG to be in a horizontal state, the side of the air monitor 2 vertically connected with the turning plate is vertically upwards standing above the square shell 1, the square shell 1 is prevented from blocking the gas flow to influence the monitoring of the air monitor 2, and meanwhile, when the air monitor 2 needs to be retracted, the through groove 11 is always in an open state, when the air monitor 2 is driven to turn to the inside of the square shell 1 again, the ejector rod 10 at the top of the air monitor 2 pushes up the U-shaped lifting plate, the first gas spring 7 is compressed, the first extrusion piece 9 is driven to move upwards, the second extrusion piece 17 is extruded, the second extrusion piece 17 and the first sliding rod 13 are made to move inwards, the first spring 15 is compressed, the first sliding rod 13 drives the sealing plate 12 to move towards the top of the through groove 11, the two sealing plates 12 are made to be closed slowly, when the overturning plate 6 and the air monitor 2 reset, the two sealing plates 12 seal the through groove 11, the outside air is guaranteed to continuously flow into the circular shell 1 after monitoring, the air monitor 2 is polluted, the air is prevented from being accumulated due to the fact that particle impurities are in contact with the air monitor 2 for a long time, and the monitoring result of the air monitor 2 is improved.

As a further scheme of the invention, the flushing mechanism comprises a cleaning bag 18, a plurality of spray heads are fixedly communicated with the bottom of the cleaning bag 18, two first electric cylinders 19 are fixedly connected to the inner side of the square shell 1, the two first electric cylinders 19 are respectively positioned at the front side and the rear side of the cleaning bag 18, extrusion plates 20 are fixedly connected to the inner ends of the two first electric cylinders 19, and the front extrusion plate 20 and the rear extrusion plate 20 are used for extruding the cleaning bag 18; during operation, because the air monitor 2 of water product needs to be washed, after air monitor 2 resets, start two first electric cylinders 19, two first electric cylinders 19 drive stripper plate 20 extrusion clean bag 18 simultaneously, make the inside cleaning solution of clean bag 18 follow shower nozzle blowout, to the air monitor 2 monitoring of horizontal arrangement wash, take out the granule impurity of adhesion at the air monitor surface, the monitoring of air monitor at the next time is influenced to the impurity that the surface stayed, be favorable to improving the accuracy of air monitor 2 monitoring.

As a further scheme of the invention, the air monitors 2 are all rotationally connected to the inner side wall of the turnover plate 6, friction rings 21 are fixedly connected to the outer surface of each air monitor 2, second connecting plates 22 are fixedly connected to the bottom of each extrusion plate 20, threaded rods 23 are fixedly connected to the outer side wall of each second connecting plate 22, threaded sleeves 24 are sleeved on the outer surfaces of the threaded rods 23, first fixing plates 25 are rotationally connected to the outer surfaces of the threaded sleeves 24, the first fixing plates 25 are fixedly connected to the inner side wall of the square shell 1, friction plates 26 are slidingly connected to the bottoms of the first fixing plates 25, and the friction plates 26 are in contact with the two friction rings 21 and the threaded sleeves 24 on the same side; when the air monitor 2 is cleaned by spraying cleaning liquid from the spray head, the bottom part of the air monitor 2 may not be contacted with the cleaning liquid, so that incomplete cleaning of the air monitor 2 is easy to occur, the extrusion plate 20 drives the threaded rod 23 to move inwards through the second connecting plate 22 in the process of extruding water from the cleaning bag 18 inwards through the extrusion plate 20, the threaded sleeve 24 rotates, the outer surface of the threaded sleeve 24 drives the friction plate 26 to move leftwards, the friction plate 26 drives the air monitor 2 to rotate continuously in the cleaning process through the two friction rings 21, and each surface of the air monitor 2 is opposite to the spray head at the top, so that the air monitor 2 can be cleaned more thoroughly.

As a further scheme of the invention, a positioning hole 27 is formed on the outer surface of each air monitor 2, a plurality of second support plates 28 are fixedly connected to the inner side wall of the turnover plate 6, a positioning rod 29 is slidably connected to the inside of each second support plate 28, the positioning rod 29 is used for positioning the air monitor 2 in the positioning hole 27, a first baffle disc 30 is fixedly connected to the outer surface of each positioning rod 29, a second spring 31 positioned between the first baffle disc 30 and the second support plate 28 is sleeved on the outer surface of the positioning rod 29, a guide plate 32 is fixedly connected to the inner end of each positioning rod 29, a plurality of extrusion inclined plates 33 are fixedly connected to the inner side wall of the rectangular shell 1, and the extrusion inclined plates 33 are used for extruding the guide plates 32 to enable the guide plates 32 to move inwards so as to pull the positioning rods 29 out of the positioning holes 27; during operation, because the air monitor 2 rotates to be connected on the turnover plate 6, when it monitors, probably can be driven by external air and spontaneously rotate, can influence the monitoring, when outwards overturning through utilizing the air monitor 2, guide plate 32 slowly breaks away from with extrusion swash plate 33, guide plate 32 breaks away from the extrusion of extrusion swash plate 33, second spring 31 extrudes first fender dish 30, make first fender dish 30, locating lever 29 and guide plate 32 synchronous outwards remove, make locating lever 29 insert in the locating hole 27 of air monitor 2, peg graft air monitor 2 and turnover plate 6 fixedly, avoid air monitor 2 to rotate when monitoring, be favorable to improving air monitor's degree of accuracy.

As a further scheme of the invention, a water outlet groove 34 is formed in the bottom of the square shell 1, a water storage groove 35 is fixedly communicated with the bottom of the square shell 1, the water storage groove 35 is communicated with the water outlet groove 34, two groups of inclined guide blocks 36 positioned on the front side and the rear side of the water outlet groove 34 are fixedly connected to the bottom surface of the inner side of the square shell 1, the inclined guide blocks 36 are used for guiding the cleaned water outlet groove 34 of the water tank, inclined plates 37 are fixedly connected to the outer surface of each sealing plate 12, the inclined plates 37 are slidably connected to the inner side surfaces of the inclined guide blocks 36, the sealing plates 12 are slidably connected with the inclined guide blocks 36, and the inclined guide blocks 36 and the inclined plates 37 on the same side form a sealed guide inclined plane; in operation, since the cleaning liquid will flow in disorder when the flushing mechanism flushes the air monitor 2, the normal movement of other mechanisms arranged on the inner side of the square housing 1 may be affected, and the inclined guide block 36, the sealing plate 12 and the inclined plate 37 are utilized to form a guide inclined plane together, so that the cleaned cleaning liquid tank is guided in the water outlet tank 34 and directly falls into the water storage tank 35 to be collected, and the cleaning liquid is prevented from being dispersed on the inner side of the square housing 1 to affect other structures.

As a further scheme of the invention, the top of the square shell 1 is penetrated with a plurality of second slide bars 38 which are connected with the square shell in a sliding way, the top ends of the second slide bars 38 are fixedly connected with a rectangular lifting plate 39 together, and the outer surface of each second slide bar 38 is sleeved with a fourth spring 40 positioned between the rectangular lifting plate 39 and the square shell 1; because the turnover plate 6 is turned to the top of the square shell 1, collision with the top of the breathing tube shell may occur, and the turnover plate 6 is elastically supported by the fourth spring 40 and the rectangular lifting plate 39 arranged at the top of the square shell 1, so that the turnover plate 6 is prevented from colliding with the arc shell, and the air monitor 2 connected with the turnover plate 6 is protected.

Claims

1. An energy-conserving air quality monitoring device that can deploy fast, includes return shape casing (1), its characterized in that: the inside of the square shell (1) is provided with two groups of air monitors (2) which are arranged on the inside of the square shell (1) in a front-back symmetrical way, the front side wall and the back side wall of the square shell (1) are connected with a turnover mechanism which is used for driving the two groups of air monitors (2) to turn over from the inside of the square shell (1) to the top of the square shell, the turnover mechanism enables the air monitors (2) to be positioned at the top of the square shell (1) and keep a vertical state when monitoring air, the inside of the square shell (1) is provided with a flushing mechanism which is used for cleaning the horizontal air monitors (2), and the turnover mechanism enables the air monitors (2) to be positioned in a horizontal state to be matched with the flushing mechanism to clean the air monitors (2) when the air monitors (2) are stored in the inside of the square shell (1);

the turnover mechanism comprises two groups of first connecting plates (3), each group of two first connecting plates (3) are respectively and fixedly connected to the front side wall and the rear side wall of the turnover shell (1), the two same sides of the turnover plates are respectively connected to the inner side walls of the first connecting plates (3) in a common rotation mode, the two first connecting plates are respectively and fixedly connected with a first motor (5) at the right ends of the first rotating plates (4), the first motors (5) are fixedly connected to the outer side walls of the turnover shell (1), the two turnover plates (6) are respectively and fixedly connected to turnover plates (6) on the outer surfaces of the first rotating plates (4), the front side and the rear side of the turnover shell (1) are respectively connected to the front side wall and the rear side wall of the turnover shell (1), the turnover plates (6) are used for driving the air monitor (2) to rotate, and an opening and closing mechanism for the turnover mechanism when the air monitor (2) turns over is arranged at the bottom of the turnover shell (1), and the opening and closing mechanism is used for opening and closing the air monitor (2) after the air monitor is opened.

2. An energy efficient and rapidly deployable air quality monitoring device according to claim 1, wherein: the opening and closing mechanism comprises a plurality of groups of first gas springs (7) which are consistent with the air monitors (2) in number, each group of first gas springs (7) are fixedly connected to the inner top surface of the square shell (1), the bottoms of the same groups of first gas springs (7) are fixedly connected with U-shaped lifting frames (8) together, each U-shaped lifting frame (8) is fixedly connected with first extrusion blocks (9) on the inner left and right side walls, each air monitor (2) is fixedly connected with ejector rods (10) on the outer surface, the ejector rods (10) are used for jacking the U-shaped lifting frames (8), a plurality of through grooves (11) which are positioned under the air monitors (2) are formed in the bottom of the square shell (1), the through grooves (11) are used for passing through when the air monitors (2) are overturned, two sealing plates (12) which are connected to the inner side walls of the square shell (1) in a sliding mode are arranged above each through groove (11), each sealing plate (12) is fixedly connected with a first ejector rod (10) on the outer side wall of the corresponding sealing plate (12), a first bottom surface (13) is fixedly connected with a first sliding block (14) on the square shell (1) in a sliding mode, the first bottom surface (14) is fixedly connected with the first sliding block (14), each first sliding rod (13) is sleeved with a first spring (15) fixedly connected between the sealing plate (12) and the first supporting block (14), each outer end of each first sliding rod (13) is fixedly connected with a second extrusion block (17) through a first connecting frame (16), and the second extrusion blocks (17) are used for acting with the first extrusion blocks (9).

3. An energy efficient and rapidly deployable air quality monitoring device according to claim 1, wherein: the flushing mechanism comprises a cleaning bag (18), a plurality of spray heads are fixedly communicated with the bottom of the cleaning bag (18), two first electric cylinders (19) are fixedly connected to the inner side wall of the square shell (1), the two first electric cylinders (19) are respectively located on the front side and the rear side of the cleaning bag (18), extrusion plates (20) are fixedly connected to the inner ends of the two first electric cylinders (19), and the front extrusion plate and the rear extrusion plate (20) are used for extruding the cleaning bag (18).

4. An energy efficient and rapidly deployable air quality monitoring device according to claim 1, wherein: the utility model provides an air monitor, air monitor (2) all rotate on the inside wall of upset board (6), every all fixedly connected with friction ring (21) on air monitor (2) surface, every equal fixedly connected with second connecting plate (22) in stripper plate (20) bottom, every all fixedly connected with threaded rod (23) on second connecting plate (22) lateral wall, the cover is equipped with thread bush (24) on threaded rod (23) surface, rotate on thread bush (24) surface and be connected with first fixed plate (25), first fixed plate (25) fixed connection is on the inside wall of return shell body (1), first fixed plate (25) bottom sliding connection has friction plate (26), friction plate (26) with two of homonymy friction ring (21) and thread bush (24) contact.