CN219891028U - Environment detection device for dust environment - Google Patents

Abstract

The environment detection device for the dust environment comprises a base mechanism and a detection mechanism, wherein the detection mechanism is arranged above the base mechanism, one side of a device outer shell is provided with a display screen, one side of the device outer shell is provided with two identical air inlet mechanisms, the other side of the device outer shell is provided with two identical air outlet mechanisms, a battery and a device inner shell are arranged in the device outer shell, an electrostatic dust removing mechanism is arranged between one side of the device inner shell and the air outlet mechanisms, a device lining is arranged in the device inner shell, and the device lining is communicated with the air inlet mechanisms and the air outlet mechanisms; when the dust collection device works, dust data in a certain volume and dust data in an air flowing process can be detected, comparison of the two data can be realized more accurately, when dust is cleaned, the dust can be cleaned by multiple and multiple directions of the air inlet and outlet and the inner chamber, and dust can be cleaned by brushing dust for the detection probe independently.

Description

Environment detection device for dust environment

Technical Field

The utility model belongs to the technical field of environment detection, and particularly relates to an environment detection device for a dust environment.

Background

The existing dust environment monitoring device has the following problems in the use process: 1) Most of the air outlet holes of the existing dust environment detection mechanism are provided with anti-blocking designs, dust is adsorbed, and the air outlet holes are blocked even if the service time is too long; 2) The existing dust environment detection mechanism is used for detecting dust data in a single chamber, only one detection method can be provided, and the accuracy of the detection data cannot be compared and verified.

Through retrieval, the prior art CN114712962a discloses an environment detection device for dust environment, which comprises an environment detection mechanism body, wherein an anti-blocking mechanism is fixedly arranged on the upper side of the environment detection mechanism body, the anti-blocking mechanism comprises a dispersion wheel ring, an anti-blocking pipe mechanism is fixedly arranged on the inner side of the dispersion wheel ring, the anti-blocking pipe mechanism comprises a spiral wheel page, and a dust removal mechanism is fixedly arranged in the environment detection mechanism body; however, the above scheme has the following problems 1) that although the dust scraping mechanism is arranged at the air inlet end of the air inlet pipe, the inner area of the pipeline is larger by the spiral blade, so that dust is easily adsorbed on the spiral blade, the dust content in the entering air is reduced, and the detection data is inaccurate; 2) The air outlet end is provided with an adsorption device, but the air outlet end can be blocked or the air outlet effect is poor after long-time use.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides an environment detection device for a dust environment.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the environment detection device for the dust environment comprises a base mechanism and a detection mechanism, wherein the detection mechanism is arranged above the base mechanism.

The base mechanism comprises a fixing frame, a hydraulic cylinder, a base and movable wheels, wherein the movable wheels are arranged below the base, the whole device can move at multiple angles easily, the fixing frame is fixedly connected above the base, the hydraulic cylinder is arranged above the base, the extending end of the hydraulic cylinder penetrates through an upper fixing plate of the fixing frame, and the hydraulic cylinder can be fixed by the fixing frame, so that the hydraulic cylinder can be stably stretched.

The detection mechanism comprises a display screen, an air inlet mechanism, a battery, a device outer shell, a device inner liner, a standing cavity mechanism, a flow cavity mechanism, an electrostatic dust removing mechanism and an air outlet mechanism, wherein the display screen is arranged on one side of the device outer shell and can operate equipment; the device comprises an outer shell, a device inner liner, a separation mechanism, a standing cavity mechanism and a flowing cavity mechanism, wherein the two identical air inlet mechanisms are arranged on one side of the device outer shell, the two identical air outlet mechanisms are arranged on the other side of the device outer shell, a battery and the device inner shell are arranged in the device inner shell, an electrostatic dust removing mechanism is arranged between one side of the device inner shell and the air outlet mechanism, the device inner liner is arranged in the device inner shell, the device inner liner is divided into the standing cavity mechanism and the flowing cavity mechanism through the separation mechanism, and the device inner liner is communicated with the air inlet mechanism and the air outlet mechanism.

The utility model provides a novel dust removing and dust removing device for the air inlet of the air conditioner, which comprises an air inlet pipeline, an outer flaring scraper blade, a first support, a first lead screw, a first chute, an in-tube annular scraper blade, a lug, a second support and a first electric fan, wherein the flaring shape is arranged at the air inlet end of the air inlet pipeline, so that air can smoothly enter the air inlet pipeline, the outer flaring scraper blade is arranged at the air inlet end of the air inlet pipeline, dust can be scraped off the inner wall of the air inlet pipeline, a first support and a second support are arranged at one side of the outer flaring scraper blade, the first support and the second support are fixedly connected in the air inlet pipeline, the end part of the first lead screw passes through the first support and is fixedly connected with the outer flaring scraper blade, the power is provided for the outer flaring scraper blade, the in-tube annular scraper blade is arranged on the first lead screw, dust removing and dust scraping can be performed on the inner wall of the air inlet pipeline, symmetrical lugs are arranged at the outer circle of the in the air inlet pipeline, the lug is movably mounted in the first chute, the in-tube annular scraper blade can reciprocate between the first support and the second support through the first lead screw, a motor is arranged at one side of the second support, the motor is fixedly connected with the first support, the other side of the motor is arranged at the output end, and the outside of the first support is provided with the electric fan.

The utility model discloses a motor, including the device inner shell, keep still chamber mechanism, the device inner shell, keep still chamber mechanism includes first dust removal mechanism, last brush board, first motor, second lead screw, goes up the blowpipe, first test probe, separating mechanism, fixed separation blade, gear motor, movable blade, first flexible trachea mechanism, first air inlet, first flexible pipe, keep still chamber heater, be equipped with the chamber heater that keeps still between the device inner shell outside the chamber mechanism that keeps still, keep still the chamber mechanism top and establish first dust removal mechanism, and keep still and be equipped with first test probe in the chamber mechanism that keeps still, first test probe model is HMTM-24, accessible private customization or direct purchase obtain, and first test probe one end passes last brush board, and other end fixed mounting is on the device inner shell, go up the blowpipe on fixed connection in brush board both ends, go up blowpipe one end and connect first flexible pipe, and first flexible trachea mechanism is established in the device inner liner inboard, first flexible trachea mechanism one side is equipped with first air inlet pipe, go up brush board movable mounting is on first flexible trachea mechanism, second end motor inner shell pass first output end fixed connection in the fixed output blade fixed mounting is in the device inner shell, the fixed output blade fixed in the fixed lead screw, the fixed mounting is separated in the movable lead screw.

The flow cavity mechanism comprises a second dust removing mechanism, a lower hairbrush plate, a second motor, a third lead screw, a lower blowing pipe, a second detection probe, a second telescopic air pipe mechanism, a second air inlet and a second telescopic pipe, wherein the air outlet mechanism is arranged on one side of the flow cavity mechanism, the second dust removing mechanism is arranged below the flow cavity mechanism, the second detection probe is arranged in the flow cavity mechanism, the type of the second detection probe is HMTM-24, the second detection probe can be obtained through private customization or direct purchase, one end of the second detection probe penetrates through the lower hairbrush plate, the other end of the second detection probe is fixedly arranged on the inner shell of the device, the two ends of the lower hairbrush plate are fixedly connected with the lower blowing pipe, one end of the lower blowing pipe is connected with the second telescopic pipe, the second telescopic pipe is arranged on the inner side of the device liner, the second telescopic pipe is fixedly arranged on the second telescopic air pipe mechanism, the second telescopic air pipe mechanism is arranged on the outer side of the device liner, the lower hairbrush plate is movably arranged on the third lead screw, one end of the third lead screw penetrates through the inner shell of the device and is fixedly connected with the output end of the second motor, and the second motor is fixedly arranged on the outer side of the inner shell of the device.

The electrostatic dust collection mechanism comprises a scraping plate mechanism, a movable rod, a blade scraping plate, a movable frame, an electrostatic dust collector, an anode rod, a cathode blade, a unidirectional movable sheet, an electrostatic dust collector frame, a fourth screw rod, a third motor, an electrostatic dust collection shell and a second chute, wherein a plurality of anode rods are arranged in the electrostatic dust collector and are composed of a plurality of cathode blades and the electrostatic dust collector frame, the electrostatic dust collection shell is arranged outside the electrostatic dust collector, a dust collection box is arranged below the electrostatic dust collector, the type of the electrostatic dust collector is TA400, and the electrostatic dust collection mechanism can be obtained through private customization or direct purchase; the two sides of the electrostatic precipitator are fixedly provided with third motors, the output ends of the third motors are connected with fourth screw rods, the fourth screw rods are movably arranged in a movable frame, and the movable frame is movably arranged in a second chute arranged on the electrostatic precipitator shell; the upper side of the electrostatic precipitator is provided with a scraping plate mechanism, the blade scraping plates are arranged between the negative blades and are made of non-conductive materials, the upper parts of the blade scraping plates are fixedly connected with movable rods, the movable rods are fixedly arranged on a movable frame, and the movable frame can be made to reciprocate by rotating a fourth screw rod through a third motor, so that dust attached to the negative blades and the positive pole rods is scraped by the blade scraping plates; the unidirectional movable piece is arranged below the electrostatic dust collection frame, so that dust scraped by the blade scraping plate can enter the dust storage box through the unidirectional movable blade, and the dust in the dust storage box cannot enter the electrostatic dust collection mechanism again.

The air outlet mechanism comprises an air outlet pipe, a third bracket, a second electric fan, a fourth bracket, a fourth motor, an arc scraping plate and an air outlet screen plate, wherein the air outlet screen plate is arranged at one end of the air outlet pipe, and the arc scraping plate is arranged in the air outlet screen plate and can remove ash on the inner wall of the air outlet screen plate to prevent blockage; the arc scraping plate is fixedly connected with the output end of a fourth motor, the third motor is fixedly arranged on a fourth bracket, and the fourth bracket is fixedly arranged on the inner wall of the air outlet pipe; the inside fixed mounting of outlet duct other end has the third support, and fixed mounting second electric fan on the third support can extract the air in the exhaust device inside lining.

Compared with the prior art, the utility model has the beneficial effects that:

1) An air inlet mechanism; a motor is fixed on a second support in the air inlet pipeline to drive a first screw rod to enable the annular scraping plate in the pipe to reciprocate, and meanwhile, the first screw rod penetrates through the first support to be fixedly connected with the outer flaring scraping plate for scraping dust attached to the inner wall of the pipe and the inner wall of the outer flaring of the air inlet end, and the dust is scattered and sucked into the cavity by a first fan to be detected.

2) A flow chamber mechanism; the second detection probe is used for collecting data of dust in the process of detecting air flow under the flowing action of the air; when the flow cavity mechanism is cleaned, high-pressure gas enters the second telescopic air pipe mechanism through the second air inlet and is sprayed out from the lower blowing pipe, the lower blowing pipe is fixedly connected with the lower brush plate, at the moment, the lower brush plate and the lower blowing pipe are driven to move up and down through the third screw rod rotated by the second motor, the lower brush plate brushes dust and removes ash on the second detection probe, dust on the inner wall is cleaned on the side of the lower blowing pipe, and cleaned dust can be discharged through the electrostatic dust removing mechanism and the air outlet mechanism.

3) An electrostatic dust removing mechanism; during operation electrostatic precipitator mechanism can be to stewing chamber mechanism and flowing chamber mechanism exhaust gas and remove dust, mainly be equipped with a plurality of positive pole and a plurality of negative pole blade on the electrostatic precipitator frame and adsorb the dust, scraper blade mechanism is installed to electrostatic precipitator top after adsorbing, make the adjustable shelf reciprocate in the second spout that electrostatic precipitator shell established through the rotatory fourth lead screw of third motor, and the adjustable shelf drives a plurality of movable rod, movable rod one end fixed mounting blade scraper blade scrapes ash removal effect to positive pole and negative pole blade, and the dust of clearance gets into the dust removal box through one-way movable piece when scraper blade downstream, and one-way movable piece can not make the dust in the dust storage box get into electrostatic precipitator again in.

Drawings

FIG. 1 is a schematic view of an environment detection device for dust environment according to the present utility model;

FIG. 2 is a schematic diagram of a detecting mechanism in an environment detecting device for dust environment according to the present utility model;

FIG. 3 is a schematic cross-sectional view of an air intake mechanism in an environment detection device for dust environment according to the present utility model;

FIG. 4 is a schematic cross-sectional view of a liner in an environment inspection device for dust environment according to the present utility model;

FIG. 5 is a schematic view showing the internal structure of a lining in an environment detection device for dust environment according to the present utility model;

FIG. 6 is a schematic view of a separation mechanism in an environment detection device for dust environment according to the present utility model;

FIG. 7 is a schematic cross-sectional side view of a liner in an apparatus for an environmental detection apparatus for a dust environment in accordance with the present utility model;

FIG. 8 is a schematic view of an exhaust treatment structure in an environment detection device for dust environment according to the present utility model;

FIG. 9 is a schematic view of the electrostatic precipitator used in the environment detection device for dust environment according to the present utility model;

FIG. 10 is a schematic diagram of a structure of an air outlet mechanism in an environment detection device for dust environment according to the present utility model;

in the figure: 1. a base mechanism; 11. a fixing frame; 12. a hydraulic cylinder; 13. a base; 14. a movable wheel; 2. a detection mechanism; 21. a display screen; 22. an air inlet mechanism; 221. an air intake duct; 222. an outer flaring scraper; 223. a first bracket; 224. a first lead screw; 225. a first chute; 226. an annular scraping plate in the pipe; 2261. a bump; 227. a second bracket; 228. a first electric fan; 23. a battery; 24. a device housing; 25. an inner housing of the device; 251. a device liner; 26. a standing cavity mechanism; 261. a first dust removing mechanism; 2611. a hairbrush plate is arranged; 2612. a first motor; 2613. a second lead screw; 2614. an upper blow pipe; 262. a first detection probe; 263. a partition mechanism; 2631. fixing the separation blades; 2632. a speed reducing motor; 2633. a movable blade; 264. a first telescopic tracheal mechanism; 2641. a first air inlet; 2642. a first telescopic tube; 265. a stationary cavity heater; 27. a flow chamber mechanism; 271. a second dust removing mechanism; 2711. a lower brush plate; 2712. a second motor; 2713. a third lead screw; 2714. a lower blow pipe; 272. a second detection probe; 273. a second telescopic air tube mechanism; 2731. a second air inlet; 2732. a second telescopic tube; 28. an electrostatic dust removing mechanism; 281. a scraper mechanism; 2811. a movable rod; 2812. a blade scraper; 282. a movable frame; 283. an electrostatic precipitator; 2831. a positive electrode rod; 2832. a negative electrode blade; 2833. a one-way movable plate; 2834. an electrostatic precipitator frame; 284. a fourth screw rod; 285. a third motor; 286. an electrostatic dust collection housing; 287. a second chute; 288. a dust storage box; 29. an air outlet mechanism; 291. an air outlet pipe; 292. a third bracket; 293. a second electric fan; 294. a fourth bracket; 295. a fourth motor; 296. an arc-shaped scraping plate; 297. and (5) a gas outlet sieve plate.

Detailed Description

The technical scheme of the present utility model will be further specifically described below with reference to fig. 1 to 10 for the convenience of understanding of those skilled in the art.

An environment detection device for dust environment comprises a base mechanism 1 and a detection mechanism 2, wherein the detection mechanism 2 is arranged above the base mechanism 1.

The base mechanism 1 comprises a fixing frame 11, a hydraulic cylinder 12, a base 13 and movable wheels 14, wherein the movable wheels 14 are arranged below the base 13, the whole device can move easily at multiple angles, the fixing frame 11 is fixedly connected above the base 13, the hydraulic cylinder 12 is arranged above the base 13, the extending end of the hydraulic cylinder 12 penetrates through a fixing plate on the fixing frame 11, and the hydraulic cylinder 12 can be fixed on the fixing frame 11 to enable the fixing frame to stretch stably.

The detection mechanism 2 comprises a display screen 21, an air inlet mechanism 22, a battery 23, a device outer shell 24, a device inner shell 25, a device inner liner 251, a standing cavity mechanism 26, a flow cavity mechanism 27, an electrostatic dust removing mechanism 28 and an air outlet mechanism 29, wherein the display screen 21 is arranged on one side of the device outer shell 24 and can operate equipment; the device comprises an outer shell 24, two identical air inlet mechanisms 22, two identical air outlet mechanisms 29, a battery 23 and an inner shell 25, an electrostatic dust removing mechanism 28 between one side of the inner shell 25 and the air outlet mechanisms 29, a device liner 251 inside the inner shell 25, and a separating mechanism 263 inside the device liner 251 to separate the device liner 251 into a standing cavity mechanism 26 and a flowing cavity mechanism 27, wherein the device liner 251 is communicated with the air inlet mechanisms 22 and the air outlet mechanisms 29.

The air inlet mechanism 22 comprises an air inlet pipeline 221, an outer flaring scraper 222, a first support 223, a first lead screw 224, a first sliding groove 225, an in-pipe annular scraper 226, a convex block 2261, a second support 227 and a first electric fan 228, wherein the air inlet end of the air inlet pipeline 221 is provided with a flaring shape, so that air can smoothly enter the air inlet pipeline 221, the air inlet end of the air inlet pipeline 221 is provided with the outer flaring scraper 222, dust can be scraped on the inner wall of the air inlet pipeline, one side of the outer flaring scraper 222 is provided with the first support 223 and the second support 227, the first support 223 and the second support 227 are fixedly connected in the air inlet pipeline 221, the end part of the first lead screw 224 penetrates through the first support 223 and is fixedly connected with the outer flaring scraper 222, power is provided for the outer flaring scraper 222, the first lead screw 224 is provided with the in-pipe annular scraper 226, dust can be removed from the inner wall of the air inlet pipeline 221, the outer circle of the in-pipe annular scraper 226 is provided with a symmetrical convex block 2261, the convex block 2261 is movably arranged in the first sliding groove 225 arranged in the air inlet pipeline 221, the inner annular scraper 226 can scrape dust on the inner wall of the air inlet pipeline, the first sliding groove 226 is acted by the first lead screw 224, the first lead screw can be driven by the first motor and the first support 227 and the second support 227 can be driven by the first lead screw 227, and the first lead screw 227 is fixedly connected with the first lead screw and the second lead screw 224.

The standing cavity mechanism 26 comprises a first dust removing mechanism 261, an upper brush plate 2611, a first motor 2612, a second lead screw 2613, an upper blowing pipe 2614, a first detection probe 262, a separation mechanism 263, a fixed separation blade 2631, a speed reducing motor 2632, a movable blade 2633, a first telescopic air pipe mechanism 264, a first air inlet 2641, a first telescopic pipe 2642 and a standing cavity heater 265, the standing cavity heater 265 is arranged between the outer side of the standing cavity mechanism 26 and the inner shell 25 of the device, the first dust removing mechanism 261 is arranged above the standing cavity mechanism 26, the first detection probe 262 is arranged in the standing cavity mechanism 26, the model of the first detection probe 262 is HMTM-24 and can be obtained through private customization or direct purchase, one end of the first detection probe 262 penetrates through the upper brush plate 2611, the other end of the first detection probe 2633 is fixedly arranged on the inner shell 25 of the device, the two ends of the upper brush plate 2611 are fixedly connected with the upper blowing pipe 2614, the first flexible pipe 2642 is connected to one end of the upper blowing pipe 2614, the first flexible pipe 2642 is arranged on the inner side of the device lining 251, the first flexible pipe 2642 is fixedly arranged on the first flexible pipe mechanism 264, the first flexible pipe mechanism 264 is arranged on the outer side of the device lining 251, a first air inlet 2641 is arranged on one side of the first flexible pipe mechanism 264, the upper hairbrush plate 2611 is movably arranged on the second lead screw 2613, one end of the second lead screw 2613 penetrates through the device inner shell 25 and is fixedly connected to the output end of the first motor 2612, the first motor 2612 is fixedly arranged on the outer side of the device inner shell 25, the other end of the second lead screw 2613 is movably arranged on the separation mechanism 263, the fixed separation blade 2631 is fixedly arranged in the device lining 251, a movable blade 2633 is arranged in the middle of the fixed separation blade 2631, the movable blade 2633 is fixedly arranged on the output end of the speed reducing motor 2632, and the speed reducing motor 2632 is fixedly arranged in the fixed separation blade 2631.

The flow cavity mechanism 27 comprises a second dust removing mechanism 271, a lower brush plate 2711, a second motor 2712, a third lead screw 2713, a lower blowing tube 2714, a second detection probe 272, a second telescopic air pipe mechanism 273, a second air inlet 2731 and a second telescopic pipe 2732, an air outlet mechanism 29 is arranged on one side of the flow cavity mechanism 27, the second dust removing mechanism 271 is arranged below the flow cavity mechanism 27, the second detection probe 272 is arranged in the flow cavity mechanism 27, the type of the second detection probe 272 is HMTM-24 and can be obtained through private customization or direct purchase, one end of the second detection probe 272 passes through the lower brush plate 2711, the other end of the second detection probe is fixedly arranged on the inner shell 25 of the device, two ends of the lower brush plate 2711 are fixedly connected with the lower blowing tube 2714, one end of the lower blowing tube 2714 is connected with the second telescopic pipe 2732, the second telescopic air pipe mechanism 273 is fixedly arranged on the second telescopic air pipe mechanism 273, the second telescopic air pipe mechanism 273 is arranged on the outer side of the inner shell 251 of the device, the lower brush plate 1 is movably arranged on the third motor 2713, the other end of the third lead screw 2712 passes through the third lead screw 2712 and is fixedly arranged on the outer shell 25 of the inner shell of the device.

The electrostatic dust removing mechanism 28 comprises a scraping plate mechanism 281, a movable rod 2811, a blade scraping plate 2812, a movable frame 282, an electrostatic dust remover 283, an anode rod 2831, a cathode blade 2832, a unidirectional movable plate 2833, an electrostatic dust remover frame 2834, a fourth screw 284, a third motor 285, an electrostatic dust removing shell 286 and a second chute 287, wherein a plurality of anode rods 2831 are arranged in the electrostatic dust remover 283 to be composed of a plurality of cathode blades 2832 and the electrostatic dust remover frame 2834, the electrostatic dust remover shell 286 is arranged on the outer side of the electrostatic dust remover 283, a dust removing box is arranged below the electrostatic dust remover 283, the model of the electrostatic dust remover 283 is TA400, and the electrostatic dust remover can be obtained through private customization or direct purchase; the two sides of the electrostatic dust collector 283 are fixedly provided with a third motor 285, the output end of the third motor 285 is connected with a fourth screw 284, the fourth screw 284 is movably arranged in a movable frame 282, and the movable frame 282 is movably arranged in a second chute 287 arranged in an electrostatic dust collector shell 286; the upper side of the electrostatic precipitator 283 is provided with a scraping plate mechanism 281, the blade scraping plate 2812 is arranged between the negative blades 2832 and is made of a non-conductive material, a movable rod 2811 is fixedly connected above the blade scraping plate 2812, the movable rod 2811 is fixedly arranged on the movable frame 282, and the movable frame 282 can reciprocate by rotating a fourth screw rod 284 through a third motor 285, so that dust attached to the negative blades 2832 and the positive rods 2831 is scraped by the blade scraping plate 2812; the unidirectional movable piece 2833 is arranged below the electrostatic dust collection frame, so that dust scraped by the blade scraper 2812 can enter the dust storage box 288 through the unidirectional movable blade 2633, and the dust in the dust storage box 288 cannot enter the electrostatic dust collection mechanism 28 again.

The air outlet mechanism 29 comprises an air outlet pipe 291, a third bracket 292, a second electric fan 293, a fourth bracket 294, a fourth motor 295, an arc scraping plate 296 and an air outlet sieve plate 297, wherein one end of the air outlet pipe 291 is provided with the air outlet sieve plate 297, and the arc scraping plate 296 is arranged in the air outlet sieve plate 297, so that the inner wall of the air outlet sieve plate 297 can be ash-removed, and the blockage is prevented; the arc scraping plate 296 is fixedly connected with the output end of the fourth motor 295, the third motor 285 is fixedly installed on the fourth bracket 294, and the fourth bracket 294 is fixedly installed on the inner wall of the air outlet pipe 291; a third bracket 292 is fixedly installed in the other end of the air outlet pipe 291, and a second electric fan 293 is fixedly installed on the third bracket 292, so that air in the inner liner 251 of the exhaust device can be extracted.

An environment detection device for dust environment, the working process is as follows:

when the dust environment is detected, the movable wheels are arranged below the base mechanism, the multi-angle and multi-direction movement detection mechanism is arranged above the base, the data of the dust environments with different heights can be detected, and the hydraulic cylinders are supported by the fixing frame, so that the hydraulic cylinders can stably run when stretching and contracting and do not roll.

The device shell one side of detection mechanism is equipped with the display screen, can operate equipment, and device shell one side is equipped with two identical inlet air mechanisms, and the opposite side is equipped with two identical mechanisms of giving vent to anger, is equipped with battery and device inner shell inside, is equipped with electrostatic precipitator mechanism between device inner shell one side and the mechanism of giving vent to anger, and the inside device lining that is equipped with of device inner shell, device lining inside divide into through separating mechanism, with device lining standing chamber mechanism and flow chamber mechanism, device lining intercommunication inlet air mechanism and mechanism of giving vent to anger.

During operation, the fixed motor on the second support in the air inlet pipeline drives the first lead screw to enable the annular scraping plate in the pipe to reciprocate, and meanwhile, the first lead screw penetrates through the first support to be fixedly connected with the outer flaring scraping plate for scraping dust attached to the inner wall of the pipe and the outer flaring inner wall of the air inlet end, and the dust is scattered and sucked into the cavity by the first fan to be detected.

The static cavity mechanism is characterized in that a cavity with only an air inlet mechanism and no air outlet mechanism is formed in the inner lining of the device through a separation mechanism, so that the static cavity mechanism is used as a fixed cavity with a certain volume for detecting dust data under a certain volume when the detection mechanism operates, and a static cavity heater is arranged between the outer side of the static cavity mechanism and the inner shell of the device, so that cold air or humid air in the static cavity can be heated or dehumidified, and the dust data detection is more accurate; when the cavity mechanism is kept still in the clearance, high-pressure gas enters the first telescopic air pipe mechanism through the first air inlet, then is sprayed out from the upper blowpipe, and the upper blowpipe is fixedly connected with the upper hairbrush plate, at the moment, the second lead screw is rotated through the first motor to drive the upper hairbrush plate to move up and down with the upper blowpipe, the upper hairbrush plate brushes dust and removes dust on the first detection probe, the upper blowpipe side is used for cleaning dust on the inner wall, meanwhile, the movable blade enables the cavity to be kept still and communicated with the flowing cavity under the action of the gear motor, and the cleaned dust can be processed from the air outlet mechanism in the flowing cavity so as to ensure the cleanness of the interior of the cavity mechanism.

When the flow cavity mechanism works, the air inlet mechanism and the two air outlet mechanisms are arranged, the air inlet mechanism sucks air, the air outlet mechanism carries out air outlet, and the second detection probe carries out data acquisition for detecting dust in the air flow process under the flowing action of the air; when the flow cavity mechanism is cleaned, high-pressure gas enters the second telescopic air pipe mechanism through the second air inlet and is sprayed out from the lower blowing pipe, the lower blowing pipe is fixedly connected with the lower brush plate, at the moment, the lower brush plate and the lower blowing pipe are driven to move up and down through the third screw rod rotated by the second motor, the lower brush plate brushes dust and removes ash on the second detection probe, dust on the inner wall is cleaned on the side of the lower blowing pipe, and cleaned dust can be discharged through the electrostatic dust removing mechanism and the air outlet mechanism.

The electrostatic dust removing mechanism is arranged between the flowing cavity mechanism and the air outlet mechanism, the electrostatic dust removing mechanism can remove dust from the air exhausted by the flowing cavity mechanism and the static dust removing mechanism when in operation, a plurality of positive poles and a plurality of negative pole blades are arranged on a frame of the electrostatic dust remover, a scraping plate mechanism is arranged above the electrostatic dust remover after the dust remover is adsorbed, a movable frame is enabled to move up and down in a second sliding groove formed in an electrostatic dust removing shell by rotating a fourth screw rod through a third motor, the movable frame drives a plurality of movable rods, a blade scraping plate is fixedly arranged at one end of each movable rod to scrape dust from the positive poles and the negative pole blades, and cleaned dust enters a dust removing box through a unidirectional movable piece when the scraping plate moves downwards, and the unidirectional movable piece cannot enable dust in the dust storing box to enter the electrostatic dust remover again.

When the air outlet mechanism works, the second electric fan fixedly arranged on the third bracket in the air outlet pipe always runs to exhaust air in the inner lining of the device, and the fourth motor fixedly arranged on the fourth bracket always drives the arc scraping plate to scrape ash on the air outlet sieve plate so as to prevent the air outlet sieve plate from being blocked.

The above is only an example and explanation of the structure of the present utility model, and the present utility model relates to a circuit component in the prior art, in which the display screen, the first electric fan, the battery, the first detection probe, the first motor, the gear motor, the stationary cavity heater, the second motor, the second detection probe, the electrostatic precipitator, the third motor, the second electric fan, and the fourth motor are all arranged in the detection mechanism, and the electrical connection between the circuit components is conventional circuit connection in the prior art, which is not the protection scope of the present utility model.

The foregoing is merely illustrative and explanatory of the utility model, as it is well within the scope of the utility model as claimed, as it relates to various modifications, additions and substitutions for those skilled in the art, without departing from the inventive concept and without departing from the scope of the utility model as defined in the accompanying claims.

Claims (4)

1. The environment detection device for the dust environment comprises a base mechanism and a detection mechanism, wherein the detection mechanism is arranged above the base mechanism;

the detection mechanism comprises a display screen, an air inlet mechanism, a battery, a device outer shell, a device inner liner, a standing cavity mechanism, a flow cavity mechanism, an electrostatic dust removing mechanism and an air outlet mechanism, wherein the display screen is arranged on one side of the device outer shell;

the static cavity mechanism comprises a first dust removing mechanism, an upper hairbrush plate, a first motor, a second lead screw, an upper blowing pipe, a first detection probe, a separation mechanism, a fixed separation blade, a speed reducing motor, a movable blade, a first telescopic air pipe mechanism, a first air inlet, a first telescopic pipe and a static cavity heater, wherein the static cavity heater is arranged between the outer side of the static cavity mechanism and an inner shell of the device;

the flow cavity mechanism comprises a second dust removing mechanism, a lower hairbrush plate, a second motor, a third lead screw, a lower blowing pipe, a second detection probe, a second telescopic air pipe mechanism, a second air inlet and a second telescopic pipe, wherein an air outlet mechanism is arranged on one side of the flow cavity mechanism, the second dust removing mechanism is arranged below the flow cavity mechanism, the second detection probe is arranged in the flow cavity mechanism, one end of the second detection probe penetrates through the lower hairbrush plate, the other end of the second detection probe is fixedly arranged on an inner shell of the device, the two ends of the lower hairbrush plate are fixedly connected with the lower blowing pipe, one end of the lower blowing pipe is connected with the second telescopic pipe, the second telescopic pipe is arranged on the inner side of the device, the second telescopic pipe is fixedly arranged on the second telescopic air pipe mechanism, the second telescopic air pipe mechanism is arranged on the outer side of the inner liner of the device, the lower hairbrush plate is movably arranged on the third lead screw, one end of the third lead screw penetrates through the inner shell and is fixedly connected with the output end of the second motor, and the second motor is fixedly arranged on the outer side of the inner shell of the device;

the electrostatic dust collection mechanism comprises a scraping plate mechanism, a movable rod, a blade scraping plate, a movable frame, an electrostatic dust collector, an anode rod, a cathode blade, a unidirectional movable sheet, an electrostatic dust collector frame, a fourth screw rod, a third motor, an electrostatic dust collection shell and a second chute, wherein a plurality of anode rods are arranged in the electrostatic dust collector and are formed by the anode rods, the cathode blades and the electrostatic dust collector frame, the electrostatic dust collection shell is arranged on the outer side of the electrostatic dust collector, and a dust collection box is arranged below the electrostatic dust collector; the two sides of the electrostatic precipitator are fixedly provided with third motors, the output ends of the third motors are connected with fourth screw rods, the fourth screw rods are movably arranged in a movable frame, and the movable frame is movably arranged in a second chute arranged on the electrostatic precipitator shell; the electrostatic precipitator upside is equipped with scraper blade mechanism, the blade scraper blade is located between the negative pole blade, blade scraper blade top fixed connection movable rod, movable rod fixed mounting is on the movable frame, electrostatic precipitator frame below is equipped with one-way movable piece.

2. The environment detection device for dust environment according to claim 1, wherein the base mechanism comprises a fixing frame, a hydraulic cylinder, a base and a movable wheel, the movable wheel is arranged below the base, the fixing frame is fixedly connected above the base, the hydraulic cylinder is arranged above the base, and the extending end of the hydraulic cylinder penetrates through the fixing plate on the fixing frame.

3. The environment detection device for dust environment according to claim 1, wherein the air inlet mechanism comprises an air inlet pipeline, an outer flaring scraper, a first support, a first screw rod, a first sliding groove, an inner annular scraper, a convex block, a second support and a first electric fan, the air inlet end of the air inlet pipeline is provided with a flaring shape, the air inlet end of the air inlet pipeline is provided with the outer flaring scraper, one side of the outer flaring scraper is provided with the first support and the second support, the first support and the second support are fixedly connected in the air inlet pipeline, the end part of the first screw rod penetrates through the first support and is fixedly connected with the outer flaring scraper and provides power for the outer flaring scraper, the inner annular scraper is arranged on the first screw rod, symmetrical convex blocks are arranged on the outer circle of the inner annular scraper, the convex blocks are movably arranged in the first sliding groove arranged in the air inlet pipeline, the inner annular scraper is acted by the first screw rod, one side of the second support is provided with a motor, the output end of the motor is fixedly connected with the first screw rod, and the other side of the second support is provided with the electric fan.

4. The environment detection device for the dust environment according to claim 1, wherein the air outlet mechanism comprises an air outlet pipe, a third bracket, a second electric fan, a fourth bracket, a fourth motor, an arc scraping plate and an air outlet screen plate, wherein one end of the air outlet pipe is provided with the air outlet screen plate, the arc scraping plate is arranged in the air outlet screen plate, the arc scraping plate is fixedly connected with the output end of the fourth motor, the third motor is fixedly arranged on the fourth bracket, and the fourth bracket is fixedly arranged on the inner wall of the air outlet pipe; a third bracket is fixedly arranged in the other end of the air outlet pipe, and a second electric fan is fixedly arranged on the third bracket.