CN116477304A - Dust accumulation cleaning device for conveyor belt - Google Patents

Abstract

The invention relates to a conveyor belt dust collection cleaning device, which comprises a cleaning structure and a dust collection structure; the cleaning structure is arranged below the backward end of the conveyor belt of the conveyor, and the cleaning rollers are driven to synchronously rotate when the conveyor belt moves; the cleaning roller is positioned right above the cleaning structure, and when the cleaning roller is driven by the conveyor belt to rotate, the cleaning roller adsorbs dust on the surface of the conveyor belt and falls into the dust accumulation structure; when the conveyor works, dust on the conveying surface of the conveyor belt falls onto the cleaning structure when returning, the dust is scanned into the dust accumulation structure by the cleaning structure, and the dust is collected by the dust accumulation structure; further, dust on the surface of the conveyor belt is adsorbed by the cleaning roller and falls into the dust accumulation structure; therefore, the dust on the working surface of the conveyor belt is efficiently removed, and the pollution of the dust is effectively reduced.

Description

Dust accumulation cleaning device for conveyor belt

Technical Field

The invention relates to the technical field of conveyor belt ash removal, in particular to a conveyor belt ash deposition cleaning device.

Background

In field practical application, the dust on the working surface cannot be effectively cleaned by the original scraper type sweeper, the dust is scattered on the tension position along the line and heavy sagging of the belt conveyor through the return belt, the problem of conveying the belt conveyor is always solved, the dust on the return of the belt conveyor can cause pollution to the field environment, and the dust on the return of the belt conveyor has serious fire hazard, so that a large amount of manpower and material resources and time are consumed during cleaning; therefore, there is a need for an efficient conveyor belt dust collection cleaning apparatus to replace manual dust collection.

Disclosure of Invention

The invention aims to solve the technical problem of providing the dust collection cleaning device for the conveyor belt, which has high working efficiency and small pollution and aims to overcome the defects in the prior art.

The technical scheme adopted for solving the technical problems is as follows:

constructing a conveyor belt dust collection cleaning device, which comprises a cleaning structure and a dust collection structure; the dust collecting device comprises a cleaning structure, a dust collecting structure and a dust collecting device, wherein the cleaning structure is arranged below the backward end of a conveying belt of a conveyor, dust on the conveying surface of the conveying belt of the conveyor falls onto the cleaning structure when the dust returns, and is swept into the dust collecting structure by the cleaning structure, and the dust collecting structure collects the dust;

the cleaning rollers are arranged below the backward end of the conveyor belt of the conveyor, and the conveyor belt drives the cleaning rollers to synchronously rotate when moving;

the cleaning roller is positioned right above the cleaning structure, and when the cleaning roller is driven by the conveyor belt to rotate, the cleaning roller adsorbs dust on the surface of the conveyor belt and falls into the dust accumulation structure.

The invention relates to a conveyor belt dust collection cleaning device, wherein the cleaning structure comprises a plurality of quadrilateral sliding grooves, a plurality of sliding columns and a cleaner;

one end of the sliding column circularly slides in the quadrangular chute in a counterclockwise direction, and the sweeper is fixed on the sliding column with the sweeping surface facing downwards;

the upper chute and the lower chute of the quadrangular chute are mutually parallel to the sweeper; the sliding column is perpendicular to the quadrangular sliding groove and parallel to the cleaning roller.

The invention relates to a dust collection cleaning device for a conveyor belt, wherein the cleaner comprises a plurality of connecting rods and a plurality of scraping plates, and the connecting rods are transversely arranged and fixedly connected to a plurality of sliding columns;

the upper chute and the lower chute of the quadrangular chute are mutually parallel to the connecting rod;

the scrapers are parallel to the sliding columns and fixedly connected with the connecting rods, and gaps are reserved between the scrapers and the adjacent scrapers;

the scraping plate is perpendicular to the connecting rod, the scraping opening faces downwards, and the scraping plate is clung to the surface of the ash accumulation plate when the sliding column is positioned in the lower chute of the quadrangular chute.

The invention relates to a conveyor belt dust collection cleaning device, wherein a plurality of quadrilateral sliding grooves at least comprise a first quadrilateral sliding groove and a second quadrilateral sliding groove;

the first ends and the second ends of the sliding columns are positioned in the first quadrilateral sliding groove and the second quadrilateral sliding groove one by one;

the first quadrilateral sliding groove and the second quadrilateral sliding groove are in mirror image arrangement and are matched with each other to clamp the sliding column.

The invention relates to a conveyor belt dust collection cleaning device, wherein a first quadrilateral sliding chute and a second quadrilateral sliding chute form a sliding group, and a sliding column slides on the sliding group;

the sliding groups are arranged in parallel and positioned on the same plane; the sliding columns slide on the sliding groups one by one.

The invention relates to a conveyor belt dust collection cleaning device, wherein the dust collection structure comprises a dust collection plate, and the dust collection plate is parallel to a lower chute of a quadrangular chute;

the dust passes through the cleaning structure and falls onto the dust collecting plate, a plurality of dust outlets are formed in the dust collecting plate, and the sliding column pushes dust on the dust collecting plate into the dust outlets when moving from left to right on the lower chute of the quadrangular chute.

The invention relates to a conveyor belt dust collection cleaning device, wherein the dust collection structure further comprises dust collection funnels, and the dust collection funnels are positioned below a plurality of dust outlets and are sealed with dust collection plates;

be equipped with a plurality of air blowing nozzles on the lateral wall of deposition funnel, a plurality of air blowing nozzles are all fixed connection be in the inside wall of deposition funnel, the air blowing nozzle orientation deposition funnel's discharge gate, will dust on the deposition funnel inside wall blows to deposition funnel's discharge gate.

The invention relates to a conveyor belt dust collection cleaning device, wherein a dust outlet is fixedly connected to a dust collection funnel, the dust outlet is obliquely arranged, and a dust inlet end is opposite to a discharge hole;

the dust depositing structure further comprises a blower, and an air outlet of the blower penetrates through the side wall of the dust depositing funnel to blow air into the dust outlet nozzle.

The invention relates to a cleaning device for dust accumulation on a conveyor belt, wherein the cleaning structure further comprises a first guide check block and a second guide check block;

the sliding column is pushed to rotate anticlockwise when moving from left to right on the lower chute of the quadrangular chute, the first guiding check block rotates clockwise to restore the position when moving to the rightmost end of the lower chute of the quadrangular chute, the sliding column is guided into the right chute of the quadrangular chute by the inclined surface of the first guiding check block, and the first guiding check block can only rotate anticlockwise when in a restoring state;

the second guide check block is rotatable, the sliding column is pushed to rotate clockwise when moving from right to left on the upper chute of the quadrangular chute, when the sliding column moves to the leftmost end of the upper chute of the quadrangular chute, the second guide check block rotates anticlockwise to reset, the sliding column is guided into the left chute of the quadrangular chute by the inclined plane of the second guide check block, and the second guide check block can only rotate clockwise when in a reset state.

The invention relates to a conveyor belt dust collection cleaning device, wherein any one end of a connecting rod is rotationally connected with a working end of a screw rod lifter, and a motor of the screw rod lifter is rotationally connected with an external base;

the screw rod lifter pushes the sliding column to circularly slide in the quadrilateral sliding groove in the anticlockwise direction through the connecting rod.

The invention has the beneficial effects that: when the conveyor works, dust on the conveying surface of the conveyor belt falls onto the cleaning structure when returning, the dust is scanned into the dust accumulation structure by the cleaning structure, and the dust is collected by the dust accumulation structure; further, dust on the surface of the conveyor belt is adsorbed by the cleaning roller and falls into the dust accumulation structure; therefore, the dust on the working surface of the conveyor belt is efficiently removed, and the pollution of the dust is effectively reduced.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the present invention will be further described with reference to the accompanying drawings and embodiments, in which the drawings in the following description are only some embodiments of the present invention, and other drawings may be obtained by those skilled in the art without inventive effort:

FIG. 1 is a schematic view of a conveyor belt ash collection cleaning device according to a preferred embodiment of the present invention, in which an ash outlet flap is in an opened state;

FIG. 2 is a schematic view showing a structure of an ash hole turning plate of the ash accumulation cleaning device of the conveyor belt in a closed state;

FIG. 3 is a schematic view of the airflow direction of the blowing nozzle and blower and the dust hopper of the conveyor dust cleaning apparatus according to the preferred embodiment of the present invention;

FIG. 4 is a schematic view of a cleaner and a sliding column of a conveyor belt dust-collecting cleaning apparatus according to a preferred embodiment of the present invention;

FIG. 5 is a schematic view showing the structure of a sliding column of the dust collecting and cleaning device for conveyor belt according to the preferred embodiment of the present invention on a lower chute of a quadrangular chute;

FIG. 6 is a schematic view of the structure of the sliding column of the ash accumulation cleaning apparatus for conveyor belt according to the preferred embodiment of the invention on the right chute of the quadrangular chute;

FIG. 7 is a schematic view of the structure of the sliding column of the cleaning device for dust accumulation on the conveyor belt according to the preferred embodiment of the invention on the left chute of the quadrangular chute;

fig. 8 is a schematic view showing the structures of the quadrangular chute and the first and second guide check blocks of the conveyor belt dust collection cleaning apparatus according to the preferred embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the following description will be made in detail with reference to the technical solutions in the embodiments of the present invention, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by a person skilled in the art without any inventive effort, are intended to be within the scope of the present invention, based on the embodiments of the present invention.

The dust collection cleaning device for a conveyor belt according to the preferred embodiment of the present invention is shown in fig. 1, and refer to fig. 2 to 8; comprises a cleaning structure 100 and an ash deposition structure 200; the cleaning structure 100 is disposed below a backward end of the conveyor belt 300 (i.e., an end of the conveyor belt 300 that changes a running direction according to a conveying direction, in this embodiment, a rightmost end of the conveyor belt 300 that runs from left to right), when the dust on a conveying surface of the conveyor belt 300 of the conveyor falls onto the cleaning structure 100 during backward, the dust is scanned into the dust collecting structure 200 by the cleaning structure 100, and the dust collecting structure 200 collects the dust; further, the cleaning structure 100 is sealed with the conveyor belt 300, so that dust is prevented from being raised during the dust cleaning process (when the cleaning roller 400 is attracted and when the scraper 132 scrapes);

the cleaning device further comprises a plurality of cleaning rollers 400, wherein the cleaning rollers 400 are arranged below the backward end of the conveyor belt 300 of the conveyor, and the cleaning rollers 400 are driven to synchronously rotate when the conveyor belt 300 moves;

the cleaning roller 400 is located right above the cleaning structure 100, and when the cleaning roller 400 is driven by the conveyor belt 300 to rotate, dust on the surface of the conveyor belt 300 is adsorbed and falls into the dust accumulation structure 200;

when the conveyor works, dust on the conveying surface of the conveyor belt 300 falls on the cleaning structure 100 when returning, the dust is scanned into the dust accumulation structure 200 by the cleaning structure 100, and the dust is collected by the dust accumulation structure 200; further, dust on the surface of the conveyor belt 300 is also sucked by the cleaning roller 400 and falls into the dust depositing structure 200; thereby realizing the efficient removal of dust on the working surface of the conveyor belt 300 and effectively reducing the pollution of the dust.

As shown in fig. 1 and 4 to 8, the cleaning structure 100 includes a plurality of quadrangular slide grooves 110 and a plurality of sliding columns 120, and a cleaner 130;

one end of the sliding column 120 is in the quadrangular sliding groove 110 and circularly slides in a counterclockwise direction (sequentially and circularly passes through a lower sliding groove, a right sliding groove, an upper sliding groove and a left sliding groove of the quadrangular sliding groove 110 in sequence), and the cleaner 130 is fixed on the sliding column 120 and faces downward; further, the sliding column 120 can be slidably connected with the quadrangular chute 110, so as to prevent the sliding column 120 from falling off;

the upper and lower runners of the quadrangular runner 110 are parallel to the cleaner 130; the sliding column 120 is perpendicular to the quadrangular slide groove 110 and parallel to the cleaning roller 400; wherein the quadrangular chute 110 is composed of an upper chute, a lower chute, a left chute and a right chute, and further, the included angle between the lower chute and the right chute of the quadrangular chute 110 and the included angle between the upper chute and the right chute are acute angles; preferably, the left and right runners of the quadrilateral runner 110 are parallel to each other.

As shown in fig. 4 to 8, the cleaner 130 includes a plurality of connection bars 131 and a plurality of scrapers 132, and the plurality of connection bars 131 are laterally disposed and fixedly connected to the plurality of sliding posts 120;

the upper and lower runners of the quadrangular runner 110 are parallel to the connecting bars 131;

the plurality of scrapers 132 are parallel to the sliding column 120 and fixedly connected with the plurality of connecting rods 131, gaps are left between the scrapers 132 and the adjacent scrapers 132, and further gaps are left between the connecting rods 131 and the adjacent connecting rods 131, so that dust on the working surface of the conveyor belt 300 running on the back end of the conveyor belt 300 and dust on the cleaning roller 400 pass through and fall onto the dust collecting plate 210;

the scraping plate 132 is perpendicular to the connecting rod 131, the scraping opening is downward, and the scraping plate is tightly attached to the surface of the ash accumulating plate 210 when the sliding column 120 is positioned in the lower chute of the quadrangular chute 110; to scrape dust off the surface of the dust plate 210.

As shown in fig. 4 to 8, the plurality of quadrangular slide grooves 110 includes at least a first quadrangular slide groove 110 and a second quadrangular slide groove 110;

the first and second ends of the sliding column 120 are located one by one in the first quadrangular slide groove 110 and in the second quadrangular slide groove 110;

the first quadrangular sliding chute 110 and the second quadrangular sliding chute 110 are in mirror image arrangement and are matched with the clamping sliding column 120; simple structure, the sliding column 120 is convenient to move.

As shown in fig. 5 to 7, the first quadrangular slide groove 110 and the second quadrangular slide groove 110 constitute a slide group on which the slide column 120 slides;

the sliding groups are arranged in parallel and positioned on the same plane; the sliding columns 120 slide on the sliding groups one by one, and further, the connecting rods 131 are transversely arranged and are fixedly connected to the sliding columns 120, so that the sliding columns 120 realize synchronous movement, and the requirements of the scraping plates 132 for scraping dust at different positions on the dust collecting plate 210 are met, so that the dust on the dust collecting plate 210 is scraped to the greatest extent.

As shown in fig. 4 to 8, the dust depositing structure 200 includes a dust depositing plate 210, the dust depositing plate 210 being parallel to the lower chute of the quadrangular chute 110;

dust passes through the cleaning structure 100 and falls onto the dust collecting plate 210, a plurality of dust outlets 211 are formed in the dust collecting plate 210, and when the sliding column 120 moves from left to right on the lower chute of the quadrangular chute 110, the dust on the dust collecting plate 210 is pushed into the dust outlets 211; realize scraping dust on the dust accumulation plate 210;

further, a plurality of ash hole turning plates 212 (controlled by a turning plate executing mechanism 217) are arranged below the ash accumulating plate 210, the ash hole turning plates 212 are opposite to the ash holes 211 one by one, when the scraper 132 runs to be close to the upper side of the ash accumulating plate 210 or is close to the ash hole 211, the ash hole turning plates 212 are turned over to enable dust to fall into the ash accumulating funnel 220 through the ash hole 211, otherwise, the ash hole turning plates 212 are closed, and the dust in the ash accumulating funnel 220 is prevented from being pressed out of the ash hole 211 by high air pressure in the ash accumulating funnel 220;

wherein, the ash hole turning plate 212 is matched with the ash hole 211 and is larger than the ash hole 211 by one circle, one side of the ash hole turning plate 212 is rotationally connected with the bottom surface of the ash accumulating plate 210, the ash hole turning plate 212 is also fixedly connected with a diagonal draw bar 215, and the diagonal draw bar 215 and the ash hole turning plate 212 are arranged at an acute angle;

diagonal rods 215 on the ash hole turning plates 212 are all rotationally connected to the pull rod 216, when the pull rod 216 is pulled by the actuating mechanism 217 to move to the leftmost end, the ash hole turning plates 212 are turned over, otherwise, when the pull rod 216 is pulled by the actuating mechanism 217 to move to the rightmost end, the ash hole turning plates 212 are closed; the pull rod 216 is pulled by an actuator 217 (for example, a screw lifter rotatably connected to an external base by a motor) to move left and right and also to move up and down.

Preferably, the ash hole turning plate 212 can also use a gravity turning plate (torsion spring control), when the scraper 132 scrapes a certain weight of dust onto the ash hole turning plate 212 below the ash hole 211, the ash hole turning plate 212 is pressed open to pour the dust into the ash accumulation funnel 220, otherwise, the dust is automatically closed, and the dust is prevented from flowing backwards.

As shown in fig. 1 to 3, the dust collecting structure 200 further includes a dust collecting funnel 220, and the dust collecting funnel 220 is located below the plurality of dust outlets 211 and sealed with the dust collecting plate 210, so as to collect dust;

a plurality of blowing nozzles 221 are arranged on the side wall of the dust accumulation funnel 220, the blowing nozzles 221 are fixedly connected to the inner side wall of the dust accumulation funnel 220, the blowing nozzles 221 face to the discharge hole 222 of the dust accumulation funnel 220, and dust on the inner side wall of the dust accumulation funnel 220 is blown to the discharge hole 222 of the dust accumulation funnel 220; avoiding dust from being accumulated on the inner side wall of the dust accumulation funnel 220 to influence dust collection.

As shown in fig. 1 to 3, the dust hopper 220 is also fixedly connected with a dust outlet 223, the dust outlet 223 is obliquely arranged, and the dust inlet end is aligned to the discharge hole 222;

the dust depositing structure 200 further comprises a blower 224, wherein an air outlet of the blower 224 passes through the side wall of the dust depositing funnel 220 to blow into the dust outlet 223; the dust is prevented from being blocked at the discharge hole 222, and further, the axis of the air outlet of the blower 224 is positioned on the extension line of the axis of the ash outlet 223, so that the ash blowing efficiency is improved, the wind pressure is increased, and the blocking is avoided.

As shown in fig. 5-8, the cleaning structure 100 further includes a first guide check block 140 and a second guide check block 150;

the first guide check block 140 is rotatable, when the sliding column 120 moves from left to right on the lower chute of the quadrangular chute 110, the first guide check block 140 is pushed to rotate anticlockwise, when the sliding column 120 moves to the rightmost end of the lower chute of the quadrangular chute 110, the first guide check block 140 rotates clockwise to restore position, the sliding column 120 is guided into the right chute of the quadrangular chute 110 by the inclined surface of the first guide check block 140, and the first guide check block 140 can only rotate anticlockwise when in a restoring state;

the second guide check block 150 is rotatable, when the sliding column 120 moves from right to left on the upper chute of the quadrangular chute 110, the second guide check block 150 is pushed to rotate clockwise, when the sliding column 120 moves to the leftmost end of the upper chute of the quadrangular chute 110, the second guide check block 150 rotates counterclockwise to reset, and the sliding column 120 is guided into the left chute of the quadrangular chute 110 by the inclined surface of the second guide check block 150, and the second guide check block 150 can only rotate clockwise when in a reset state; the sliding column 120 is prevented from rotating clockwise on the quadrangular sliding chute 110, so that the scraper 132 cannot clean dust on the dust collecting plate 210.

As shown in fig. 1 and 3 and fig. 5 to 7, either end of the connecting rod 131 is rotatably connected to the working end of the screw lifter 160, and the motor of the screw lifter 160 is rotatably connected to the external base;

the screw rod lifter 160 pushes the sliding column 120 to circularly slide in the counterclockwise direction in the quadrangular chute 110 through the connection rod 131; simple structure, low cost and large thrust.

It will be understood that modifications and variations will be apparent to those skilled in the art from the foregoing description, and it is intended that all such modifications and variations be included within the scope of the following claims.

Claims (10)

1. A cleaning device for dust accumulation on a conveyor belt comprises a cleaning structure and a dust accumulation structure; the dust collecting device is characterized in that the cleaning structure is arranged below the backward end of the conveyor belt of the conveyor, dust on the conveying surface of the conveyor belt falls onto the cleaning structure when returning, is swept into the dust collecting structure by the cleaning structure, and is collected by the dust collecting structure;

the cleaning rollers are arranged below the backward end of the conveyor belt of the conveyor, and the conveyor belt drives the cleaning rollers to synchronously rotate when moving;

the cleaning roller is positioned right above the cleaning structure, and when the cleaning roller is driven by the conveyor belt to rotate, the cleaning roller adsorbs dust on the surface of the conveyor belt and falls into the dust accumulation structure.

2. The conveyor belt ash collection cleaning device of claim 1, wherein the cleaning structure comprises a plurality of quadrilateral sliding grooves and a plurality of sliding posts and a cleaner;

one end of the sliding column circularly slides in the quadrangular chute in a counterclockwise direction, and the sweeper is fixed on the sliding column with the sweeping surface facing downwards;

the upper chute and the lower chute of the quadrangular chute are mutually parallel to the sweeper; the sliding column is perpendicular to the quadrangular sliding groove and parallel to the cleaning roller.

3. The conveyor belt dust collection cleaning device according to claim 2, wherein the cleaner comprises a plurality of connecting rods and a plurality of scrapers, and the plurality of connecting rods are transversely arranged and fixedly connected to the plurality of sliding columns;

the upper chute and the lower chute of the quadrangular chute are mutually parallel to the connecting rod;

the scrapers are parallel to the sliding columns and fixedly connected with the connecting rods, and gaps are reserved between the scrapers and the adjacent scrapers;

the scraping plate is perpendicular to the connecting rod, the scraping opening faces downwards, and the scraping plate is clung to the surface of the ash accumulation plate when the sliding column is positioned in the lower chute of the quadrangular chute.

4. The conveyor belt ash collection cleaning device according to claim 2, wherein the plurality of quadrangular slide grooves includes at least a first quadrangular slide groove and a second quadrangular slide groove;

the first ends and the second ends of the sliding columns are positioned in the first quadrilateral sliding groove and the second quadrilateral sliding groove one by one;

the first quadrilateral sliding groove and the second quadrilateral sliding groove are in mirror image arrangement and are matched with each other to clamp the sliding column.

5. The conveyor belt ash collection cleaning device according to claim 4, characterized in that a first said quadrangular chute and a second said quadrangular chute constitute a sliding group on which said sliding column slides;

the sliding groups are arranged in parallel and positioned on the same plane; the sliding columns slide on the sliding groups one by one.

6. A conveyor belt ash collection cleaning device according to claim 3, characterised in that said ash collection structure comprises said ash collection plate, said ash collection plate being parallel to the lower chute of said quadrangular chute;

the dust passes through the cleaning structure and falls onto the dust collecting plate, a plurality of dust outlets are formed in the dust collecting plate, and the sliding column pushes dust on the dust collecting plate into the dust outlets when moving from left to right on the lower chute of the quadrangular chute.

7. The conveyor belt ash collection cleaning device of claim 6, wherein said ash collection structure further comprises an ash collection funnel positioned below a plurality of said ash outlets and sealed to said ash collection plate;

be equipped with a plurality of air blowing nozzles on the lateral wall of deposition funnel, a plurality of air blowing nozzles are all fixed connection be in the inside wall of deposition funnel, the air blowing nozzle orientation deposition funnel's discharge gate, will dust on the deposition funnel inside wall blows to deposition funnel's discharge gate.

8. The conveyor belt dust collection cleaning device according to claim 7, wherein the dust collection hopper is fixedly connected with a dust outlet, the dust outlet is obliquely arranged, and the dust inlet end is opposite to the discharge hole;

the dust depositing structure further comprises a blower, and an air outlet of the blower penetrates through the side wall of the dust depositing funnel to blow air into the dust outlet nozzle.

9. The conveyor belt ash collection cleaning device of claim 2, wherein the cleaning structure further comprises a first guide check block and a second guide check block;

the sliding column is pushed to rotate anticlockwise when moving from left to right on the lower chute of the quadrangular chute, the first guiding check block rotates clockwise to restore the position when moving to the rightmost end of the lower chute of the quadrangular chute, the sliding column is guided into the right chute of the quadrangular chute by the inclined surface of the first guiding check block, and the first guiding check block can only rotate anticlockwise when in a restoring state;

the second guide check block is rotatable, the sliding column is pushed to rotate clockwise when moving from right to left on the upper chute of the quadrangular chute, when the sliding column moves to the leftmost end of the upper chute of the quadrangular chute, the second guide check block rotates anticlockwise to reset, the sliding column is guided into the left chute of the quadrangular chute by the inclined plane of the second guide check block, and the second guide check block can only rotate clockwise when in a reset state.

10. The conveyor belt dust collection cleaning apparatus according to claim 2, wherein either end of the connecting rod is rotatably connected to a working end of a screw lifter, and a motor of the screw lifter is rotatably connected to an external base;

the screw rod lifter pushes the sliding column to circularly slide in the quadrilateral sliding groove in the anticlockwise direction through the connecting rod.