CN114919962B - Wedge-shaped edge belt deviation-preventing cleaning device - Google Patents

Abstract

The invention discloses a wedge-shaped edge belt deviation-preventing cleaning device, which comprises a deviation-preventing box arranged below a wedge-shaped belt, wherein the inner top of the deviation-preventing box is provided with a lifting device, the end part of the lifting device is provided with a carrier roller moving device, the carrier roller moving device is provided with a limiting deviation-preventing device, the inner bottom of the deviation-preventing box is provided with a roller brush device, one side of the roller brush device is provided with a flushing device for flushing by water jet.

Description

Wedge-shaped edge belt deviation-preventing cleaning device

Technical Field

The invention relates to the technical field of wedge-shaped belt deviation prevention, in particular to a wedge-shaped side belt deviation prevention cleaning device.

Background

The gypsum board is a material made of building gypsum as a main raw material, is light in weight, high in strength, thin in thickness, convenient to process, good in sound insulation, heat insulation, fire resistance and the like, and in the production process of the gypsum board, chamfering is carried out on two sides of the gypsum board through synchronous movement of a wedge-shaped leather and the gypsum board so as to meet actual production requirements, but in the actual production of the gypsum board, edge leakage slurry of the gypsum board is adhered to a wedge-shaped leather belt due to packing, board heads, board tails and the like, and leakage slurry is adhered to other gypsum boards under the cyclic movement of the wedge-shaped leather belt, so that the production quality of the gypsum board is greatly influenced.

The traditional mode of handling the thick liquid that leaks on the wedge belt is handled through the manual work generally, but easily causes the injury to the workman when equipment is running, exists great danger, has now to scrub clean device through roller brush and rivers to the surface of wedge belt, has avoided the problem that the manual work is clean to have great danger, and has avoided leaking the thick liquid to adhere to other gypsum boards on the problem.

However, when the wedge-shaped belt is cleaned in the mode, as the wedge-shaped surface exists on the wedge-shaped belt, two component forces in mutually perpendicular directions exist simultaneously when the roller brush brushes the wedge-shaped surface, one component force is parallel to one side, away from the wedge-shaped surface, of the wedge-shaped belt and perpendicular to the movement direction of the wedge-shaped belt, and the position of the wedge-shaped belt deviates to influence the normal production of gypsum boards.

Disclosure of Invention

The invention aims to provide a wedge-shaped edge belt deviation-preventing cleaning device, which solves the problem that the normal production of gypsum boards is affected by deviation of the wedge-shaped belt position caused by slurry leakage when the existing wedge-shaped belt is cleaned by a roller brush.

In order to solve the technical problems, the invention specifically provides the following technical scheme:

the utility model provides a wedge limit belt prevents off-tracking cleaning device, includes the anti-off-tracking case that sets up in wedge belt below position, the interior top of anti-off-tracking case is provided with the elevating gear who moves along vertical direction, elevating gear's tip is provided with the bearing roller device that is used for bearing wedge belt plane one side, be provided with the spacing anti-off-tracking device that is used for rolling with the thicker one side of wedge belt on the bearing roller device, the interior bottom of anti-off-tracking case is provided with the roller brush device that is used for laminating the roller brush with the wedge face of wedge belt, one side of roller brush device is provided with the washing unit that is used for spraying rivers to wash;

the wedge-shaped belt penetrates through the deviation prevention box in the horizontal direction, the roller brush device is used for brushing a wedge-shaped surface of the wedge-shaped belt under water flow of the flushing device, and the wedge-shaped belt is limited to be propped against the limiting deviation prevention device through the roller brush device.

As a preferable scheme of the invention, the bearing rolling device comprises a horizontal connecting plate which is arranged at the end part of the lifting device and is parallel to the horizontal plane, a plurality of bearing rollers are arranged on the horizontal connecting plate at equal intervals along the movement direction of the wedge-shaped belt, and a bearing belt for contacting one side of the plane of the bearing wedge-shaped belt is sleeved on the bearing rollers together.

As a preferable scheme of the invention, a plurality of annular protrusions are arranged on the inner side of the supporting belt at equal intervals along the axial direction of the supporting roller, a plurality of annular grooves are arranged on each supporting roller, and each annular protrusion is slidably clamped in a plurality of annular grooves.

As a preferable scheme of the invention, a plurality of filling seats are arranged on the horizontal connecting plate at equal intervals along the transportation direction of the wedge-shaped belt, and a plurality of strip-shaped sliding grooves which are in sliding connection with the corresponding annular protrusions are arranged on each filling seat;

the filling seats are respectively arranged between two adjacent bearing rollers, are attached to the surfaces of two adjacent bearing rollers and are not in contact with the surfaces of the two adjacent bearing rollers, and the maximum vertical distance between the filling seats and the bearing rollers is the same as the maximum vertical distance between the filling seats and the horizontal connecting plates.

As a preferable scheme of the invention, the limiting deviation prevention device comprises a plurality of support shafts vertically arranged on the horizontal connecting plate, each support shaft is fixedly connected with a limiting roller, and the axis of each support shaft is coincident with the axis of the corresponding limiting roller.

As a preferred solution of the present invention, the end of the limit roller and the end of the backup roller are partially overlapped in the vertical direction, and the shortest vertical distance between the end of the backup shaft facing away from the horizontal connection plate and the backup roller is smaller than the minimum thickness of the wedge-shaped belt and larger than the thickness of the backup belt.

As a preferable scheme of the invention, the roller brush device comprises a telescopic device which is arranged at the bottom in the anti-deflection box and moves along the vertical direction, a roller brush connecting seat is arranged at the top of the telescopic device, two roller brushes are obliquely arranged on the roller brush connecting seat, the axes of the roller brushes are parallel to the wedge-shaped surface of the wedge-shaped belt and perpendicular to the conveying direction of the wedge-shaped belt, and the two roller brushes are respectively arranged at the head end and the tail end of the wedge-shaped belt, which are contacted with the supporting roller device.

As a preferable scheme of the invention, the roller brush comprises a roller body which is rotationally connected to the roller brush connecting seat, a plurality of elastic connecting plates are uniformly arranged on the roller body around an axis, one end, far away from the roller body, of each elastic connecting plate is rotationally connected with an auxiliary roller, and a plurality of first brush wires are arranged on the roller body at positions between two adjacent elastic connecting plates;

the distance between the auxiliary roller and the roller body is smaller than the length of the first brush wires, and the axes of the auxiliary roller and the roller body are parallel to the wedge-shaped surface of the wedge-shaped belt and perpendicular to the movement direction of the wedge-shaped belt.

As a preferable scheme of the invention, the roller body comprises a connecting shaft which is rotatably connected to the roller brush connecting seat, two ends of the connecting shaft are fixedly connected with the segmented rollers, the connecting shaft is connected with a driving device which is arranged in the roller brush connecting seat, and a plurality of elastic connecting plates are respectively arranged on the two segmented rollers.

As a preferable mode of the invention, a plurality of second brush wires for cleaning the wedge-shaped belt are arranged on the roller brush connecting seat at a position between the two segmented rollers on the same connecting shaft.

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

according to the invention, the wedge-shaped surface of the wedge-shaped belt is washed and brushed by the roller brush device and the washing device, so that the problem that gypsum boards in other production are not in accordance with production requirements due to slurry leakage adhered on the wedge-shaped belt is avoided, and secondly, one side of the plane of the wedge-shaped belt is supported by the supporting roller device during washing of the wedge-shaped belt roller brush, and is propped against the thicker side of the wedge-shaped belt by the limiting deviation prevention device, so that the wedge-shaped belt is limited to have position deviation during washing of the roller brush, and normal production of the gypsum boards is ensured.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those of ordinary skill in the art that the drawings in the following description are exemplary only and that other implementations can be obtained from the extensions of the drawings provided without inventive effort.

FIG. 1 is a schematic view of a wedge-shaped edge belt anti-deviation cleaning device according to an embodiment of the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of a structure of a roller brush device according to an embodiment of the present invention;

fig. 4 is a schematic structural view of a carrier roller according to an embodiment of the present invention;

FIG. 5 is a schematic view of a filling seat according to an embodiment of the present invention;

fig. 6 is a schematic front view of a roller brush device according to an embodiment of the present invention.

Reference numerals in the drawings are respectively as follows:

1-an anti-deviation box; 2-lifting device; 3-supporting a rolling device; 4-limiting deviation preventing device; 5-a roller brush device; 6-flushing device;

301-a horizontal connecting plate; 302, supporting roller; 303-a support belt; 304-an annular protrusion; 305-an annular groove; 306-filling the seat; 307-bar chute;

401-a support shaft; 402-limit rollers;

501-telescoping device; 502-a roller brush connecting seat; 503-roller brush; 504-roller body; 505-resilient connection plates; 506-auxiliary rollers; 507-first brushing; 508-connecting shaft; 509-segmented rollers; 510-second brush filaments.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

As shown in fig. 1 to 6, the invention provides a wedge-shaped edge belt deviation-preventing cleaning device, which comprises a deviation-preventing box 1 arranged below a wedge-shaped belt, wherein the inner top of the deviation-preventing box 1 is provided with a lifting device 2 moving along the vertical direction, the end part of the lifting device 2 is provided with a bearing roller device 3 used for bearing one side of the plane of the wedge-shaped belt, the bearing roller device 3 is provided with a limiting deviation-preventing device 4 used for rolling against the thicker side of the wedge-shaped belt, the inner bottom of the deviation-preventing box 1 is provided with a roller brush device 5 used for being attached to a wedge-shaped surface of the wedge-shaped belt, and one side of the roller brush device 5 is provided with a flushing device 6 used for flushing by water jet;

the wedge-shaped belt penetrates through the deviation prevention box 1 in the horizontal direction, the roller brush device 5 is used for brushing a wedge-shaped surface of the wedge-shaped belt under the water flow of the flushing device 6, and the wedge-shaped belt is limited to be propped against the limiting deviation prevention device 4 through the roller brush device 5.

When the anti-deviation box is used, the wedge-shaped belt enters the anti-deviation box 1 from one side and extends out from the other side to normally move, the wedge-shaped surface of the wedge-shaped belt is contacted with the gypsum board, and slurry leakage of the gypsum board only adheres to one side of the wedge-shaped surface of the wedge-shaped belt.

The plane one side on the wedge belt contacts with the bearing roller device 3 and synchronously moves with the bearing roller device 3, and the bearing roller device 3 is driven to synchronously move by the lifting device 2 along the vertical direction, so that the wedge belt always keeps propping and tightening state with the bearing roller device 3, the phenomenon that the normal production of gypsum boards is influenced due to overlarge shaking amplitude of the wedge belt under the flushing of the roller brush device 5 and the flushing device 6 is avoided, the stability of the wedge belt during movement is improved, and the roller brush device 5 and the wedge belt are ensured to be in direct and effective contact for roller brush cleaning.

The wedge-shaped belt is provided with a wedge-shaped surface, so that the thickness of two sides of the wedge-shaped belt is deviated, and in order to facilitate the roller brush device 5 to completely brush and clean the wedge-shaped surface of the wedge-shaped belt, the limiting deviation preventing device 4 is contacted and propped against the thicker side edge of the wedge-shaped belt.

The roll brush device 5 is laminated with the wedge face of wedge belt and is brushed for the wedge face of wedge belt is perpendicular to the force of roll brush device 5 on the wedge belt, thereby makes the wedge belt wedge face receive effective comprehensive cleanness, and makes the wedge belt receive only can be towards spacing deviation preventing device 4's one side motion under the effect of roll brush device 5, through carrying under the combined action of roller device 3, spacing deviation preventing device 4 and roll brush device 5 and restriction avoided the wedge belt take place the problem of position deviation when the roll brush washs, guaranteed the normal production of gypsum board.

The anti-deviation box 1 is provided with a water flow used for avoiding the water flow sprayed by the flushing device 6 from splashing around when the roller brush device 5 brushes the wedge-shaped belt and collecting the flushed water flow to the inside, and the inner bottom of the further anti-deviation box 1 is provided with a water drain hole used for draining the water collected in the inside.

The carrier roller moving device 3 comprises a horizontal connecting plate 301 which is arranged at the end part of the lifting device 2 and is parallel to the horizontal plane, a plurality of carrier rollers 302 are arranged on the horizontal connecting plate 301 at equal intervals along the movement direction of the wedge-shaped belt, and a bearing belt 303 for contacting one side of the plane of the wedge-shaped belt is sleeved on the plurality of carrier rollers 302.

When the bearing roller device 3 is in use, one side of a plane, opposite to the wedge surface, of the wedge-shaped belt is contacted with the bearing belt 303, and the wedge-shaped belt and the bearing belt 303 are propped against each other under the action of the lifting device 2 so that the wedge-shaped belt is in a tensioning state, and the stability of the movement of the wedge-shaped belt during flushing is ensured.

The horizontal connecting plate 301 provides mounting positions for a plurality of support rollers 302, the support belt 303 moves synchronously through friction force following the wedge-shaped belt, the problem that friction damage is caused by relative movement between the wedge-shaped belt and the support belt 303 is avoided, the support rollers 302 are driven to rotate synchronously through friction force, the support belt 303 is lifted by the support rollers 302 together, the problem that no support is arranged on the inner side of the support belt 303 due to overlarge space between the two support rollers 302, and the wedge-shaped belt presses the support belt 303 to deform synchronously between the two adjacent support rollers 302 under the condition that the rollers of the roller brush device 5 brush is reduced.

A plurality of annular protrusions 304 are arranged on the inner side of the supporting belt 303 at equal intervals along the axial direction of the supporting roller 302, a plurality of annular grooves 305 are arranged on each supporting roller 302, and each annular protrusion 304 is slidably clamped in the corresponding annular groove 305.

The annular grooves 305 are formed on the backup roller 302 around the axis of the backup roller 302, the annular protrusions 304 are formed along the inner side of the backup belt 303, and the problem that the backup belt 303 is displaced along the axis of the backup roller 302 to cause abrasion due to relative friction with the wedge-shaped belt is avoided through the mutual matching connection between the plurality of annular grooves 305 and the annular protrusions 304.

A plurality of filling seats 306 are arranged on the horizontal connecting plate 301 at equal intervals along the transportation direction of the wedge-shaped belt, and a plurality of strip-shaped sliding grooves 307 which are in sliding connection with the corresponding annular protrusions 304 are arranged on each filling seat 306;

the filling seats 306 are respectively disposed between two adjacent backup rollers 302 and are attached to and not in contact with the surfaces of the two adjacent backup rollers 302, and the maximum vertical distance between the filling seats 306 and the backup rollers 302 from the horizontal connection plate 301 is the same.

The gaps between the two adjacent supporting rollers 302 are filled by the filling seats 306, the supporting belt 303 can normally move through the sliding connection of the strip-shaped sliding grooves 307 and the corresponding annular protrusions 304, and the supporting belt 303 is supported by the contact of the annular protrusions 304 and the strip-shaped sliding grooves 307 on the filling seats 306, so that the strength of the supporting belt 303 passing through the gaps between the two adjacent supporting rollers 302 is improved, and the problem that the wedge-shaped belt deforms under the roller brush of the roller brush device 5 is further reduced.

The limiting deviation preventing device 4 comprises a plurality of support shafts 401 vertically arranged on the horizontal connecting plate 301, each support shaft 401 is fixedly connected with a limiting roller 402, and the axis of each support shaft 401 is coincident with the axis of the corresponding limiting roller 402.

When the limiting deviation preventing device 4 is used, the supporting shaft 401 is connected with the limiting roller 402 and synchronously rotates, one side of the wedge-shaped belt is propped against the limiting roller 402 and drives the limiting roller 402 to rotate through friction, and the problem that sliding friction between the wedge-shaped belt and the limiting roller 402 generates abrasion is avoided.

The ends of the stop roller 402 and the end of the backup roller 302 are partially coincident in the vertical direction and the shortest vertical distance between the end of the support shaft 401 facing away from the horizontal web 301 and the backup roller 302 is less than the minimum thickness of the wedge belt and greater than the thickness of the backup belt 303.

That is, the limit roller 402 is partially located below the carrier roller 302, so that the wedge-shaped belt is limited to be completely located on the carrier roller 302, and the wedge-shaped belt is prevented from being clamped in a gap between the limit roller 402 and the carrier roller 302, so that one side of the plane of the wedge-shaped belt is supported by the carrier belt 303.

The roller brush device 5 comprises a telescopic device 501 which is arranged at the inner bottom of the deviation prevention box 1 and moves along the vertical direction, a roller brush connecting seat 502 is arranged at the top of the telescopic device 501, two roller brushes 503 are obliquely arranged on the roller brush connecting seat 502, the axes of the roller brushes 503 are parallel to the wedge-shaped surface of the wedge-shaped belt and perpendicular to the conveying direction of the wedge-shaped belt, and the two roller brushes 503 are respectively arranged at the head end and the tail end of the wedge-shaped belt, which are contacted with the supporting roller device 3.

When the roller brush device 5 is used, the telescopic device 501 is used for adjusting the height of the roller brush connecting seat 502 in the vertical direction, so that the roller brush 503 is effectively contacted with the wedge-shaped surface of the wedge-shaped belt for roller brush cleaning, and meanwhile, the flushing device 6 simultaneously sprays water flow to improve the cleaning effect in the contact area of the roller brush 503 and the wedge-shaped belt.

And the axis of the roller brush 503 is parallel to the wedge surface of the wedge-shaped belt and perpendicular to the conveying direction of the wedge-shaped belt, so that the wedge-shaped belt is subjected to the force perpendicular to the wedge surface and only tends to move towards the limiting deviation preventing device 4, and the problem of deviation of the position of the wedge-shaped belt is avoided.

And the provision of two roller brushes 503 improves the cleaning effect on the wedge belt surface.

The roller brush 503 comprises a roller body 504 rotatably connected to the roller brush connecting seat 502, a plurality of elastic connecting plates 505 are uniformly arranged on the roller body 504 around the axis, one end, far away from the roller body 504, of each elastic connecting plate 505 is rotatably connected with an auxiliary roller 506, and a plurality of first brush filaments 507 are arranged at positions, located between two adjacent elastic connecting plates 505, on the roller body 504;

wherein, the distance between the auxiliary roller 506 and the roller body 504 is smaller than the length of the first brush wire 507, and the axes of the auxiliary roller 506 and the roller body 504 are parallel to the wedge surface of the wedge belt and perpendicular to the movement direction of the wedge belt.

When the roller brush 503 is driven to rotate, the roller body 504 rotates and drives the plurality of elastic connection plates 505 to synchronously rotate, the auxiliary roller 506 on the elastic connection plates 505 indirectly contacts with the wedge-shaped belt and rolls, the position of the wedge-shaped belt is further limited to shift along the discovery of deviating from the limit roller 402 through the pressure of the auxiliary roller 506 and the elastic connection plates 505, and the problem that the normal production of gypsum boards is influenced by the shift of the position of the wedge-shaped belt is avoided.

The elastic connection plate 505 is elastically deformed when the contact pressure between the auxiliary roller 506 and the wedge-shaped belt is too large, namely, the distance between the roller body 504 and the wedge-shaped surface of the wedge-shaped belt is too small, so that damage to the wedge-shaped belt caused by the too large contact pressure is avoided.

The first brush wire 507 contacts with the wedge surface of the wedge-shaped belt to clean slurry leakage in the process of rotating the roller body 504, and is elastically deformed to cover one side of the wedge surface of the wedge-shaped belt when cleaning the wedge surface of the wedge-shaped belt, so that one side of the wedge surface of the wedge-shaped belt is cleaned.

The roller body 504 includes a connecting shaft 508 rotatably connected to the roller brush connecting seat 502, two ends of the connecting shaft 508 are fixedly connected with segmented rollers 509, a driving device installed in the roller brush connecting seat 502 is connected to the connecting shaft 508, and a plurality of elastic connecting plates 505 are respectively arranged on the two segmented rollers 509.

By arranging two segmented rollers 509, connecting the two segmented rollers 509 through a connecting shaft 508 and installing the segmented rollers 509 on a roller brush connecting seat 502 for driving, two opposite sides of the two segmented rollers 509 are not connected, and interference between the segmented rollers 402 and the back-up roller 302 is avoided.

And the first brush wires 507 and the elastic connecting plate 505 are respectively arranged on the two segmented rollers 509, so that the cleaning effect and the position limiting effect on the wedge-shaped belt are ensured.

Secondly, for the problem that a gap exists between the two segmented rollers 509 and the corresponding area on the wedge-shaped belt cannot be cleaned, the first brush wires 507 are elastic, and when the first brush wires 507 are fully contacted with the wedge-shaped belt, deformation occurs to cover the wedge-shaped belt, so that the wedge-shaped surface of the wedge-shaped belt is comprehensively cleaned.

A plurality of second brush filaments 510 for cleaning a wedge belt are provided on the roller brush attachment 502 at a position between two segmented rollers 509 on the same attachment shaft 508.

By arranging the second brush filaments 510 at the position between the two segmented rollers 509 on the roller brush connecting seat 502, relative displacement is generated between the second brush filaments 510 and the wedge-shaped belt in motion, so that the area, located between the two segmented rollers 509, on the wedge-shaped belt is cleaned, and the cleaning effect of the wedge-shaped belt is ensured.

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

Claims (7)

1. The utility model provides a wedge limit belt prevents off-tracking cleaning device, its characterized in that includes setting up anti-off-tracking case (1) in wedge belt below position, the interior top of anti-off-tracking case (1) is provided with elevating gear (2) along vertical direction motion, the tip of elevating gear (2) is provided with bearing roller device (3) that are used for bearing wedge belt plane one side, be provided with on bearing roller device (3) and be used for rolling spacing anti-off-tracking device (4) that offsets with the thicker one side of wedge belt, the interior bottom of anti-off-tracking case (1) is provided with roller brush device (5) that are used for laminating the roller brush with the wedge face of wedge belt, one side of roller brush device (5) is provided with washing unit (6) that are used for spraying rivers to wash;

the wedge-shaped belt penetrates through the deviation prevention box (1) along the horizontal direction, the roller brush device (5) is used for brushing a wedge-shaped surface of the wedge-shaped belt under the water flow of the flushing device (6), and the wedge-shaped belt is limited to prop against the limiting deviation prevention device (4) through the roller brush device (5);

the bearing roller device (3) comprises a horizontal connecting plate (301) which is arranged at the end part of the lifting device (2) and is parallel to the horizontal plane, a plurality of bearing rollers (302) are arranged on the horizontal connecting plate (301) at equal intervals along the movement direction of the wedge-shaped belt, and a bearing belt (303) used for contacting one side of the plane of the bearing wedge-shaped belt is sleeved on the bearing rollers (302) together;

the limiting deviation prevention device (4) comprises a plurality of supporting shafts (401) vertically arranged on the horizontal connecting plate (301), each supporting shaft (401) is fixedly connected with a limiting roller (402), and the axis of each supporting shaft (401) is coincident with the axis of the corresponding limiting roller (402);

the roller brush device (5) comprises a telescopic device (501) which is arranged at the inner bottom of the anti-deflection box (1) and moves along the vertical direction, a roller brush connecting seat (502) is arranged at the top of the telescopic device (501), two roller brushes (503) are obliquely arranged on the roller brush connecting seat (502), the axes of the roller brushes (503) are parallel to the wedge-shaped surface of the wedge-shaped belt and perpendicular to the conveying direction of the wedge-shaped belt, and the two roller brushes (503) are respectively arranged at the head end and the tail end of the wedge-shaped belt, which are contacted with the carrier roller device (3).

2. A wedge-shaped edge belt deviation prevention cleaning device according to claim 1, wherein a plurality of annular protrusions (304) are arranged on the inner side of the supporting belt (303) at equal intervals along the axial direction of the supporting roller (302), a plurality of annular grooves (305) are arranged on each supporting roller (302), and each annular protrusion (304) is slidably clamped in a plurality of annular grooves (305).

3. The anti-deviation cleaning device for the wedge-shaped edge belt according to claim 2, wherein a plurality of filling seats (306) are arranged on the horizontal connecting plate (301) at equal intervals along the transportation direction of the wedge-shaped belt, and a plurality of strip-shaped sliding grooves (307) which are in sliding connection with the corresponding annular protrusions (304) are arranged on each filling seat (306);

the filling seats (306) are respectively arranged between two adjacent supporting rollers (302), are attached to the surfaces of the two adjacent supporting rollers (302) and do not contact with the surfaces of the two adjacent supporting rollers, and the maximum vertical distance between the filling seats (306) and the supporting rollers (302) and the horizontal connecting plate (301) is the same.

4. A wedge-shaped edge belt deviation prevention cleaning device according to claim 1, characterized in that the end of the limit roller (402) and the end of the support roller (302) partly coincide in the vertical direction, and that the shortest vertical distance between the end of the support shaft (401) facing away from the horizontal web (301) and the support roller (302) is smaller than the minimum thickness of the wedge-shaped belt and larger than the thickness of the support belt (303).

5. The wedge-shaped edge belt deviation prevention cleaning device according to claim 1, wherein the roller brush (503) comprises a roller body (504) rotatably connected to the roller brush connecting seat (502), a plurality of elastic connecting plates (505) are uniformly arranged on the roller body (504) around an axis, an auxiliary roller (506) is rotatably connected to one end, away from the roller body (504), of each elastic connecting plate (505), and a plurality of first brush wires (507) are arranged on the roller body (504) at positions between two adjacent elastic connecting plates (505);

wherein, the distance between auxiliary roller (506) and roller body (504) is less than the length of first brush silk (507), and auxiliary roller (506) with the axis of roller body (504) all be parallel to wedge face and perpendicular to the direction of motion of wedge belt.

6. The anti-deviation cleaning device for a wedge-shaped edge belt according to claim 5, wherein the roller body (504) comprises a connecting shaft (508) rotatably connected to the roller brush connecting seat (502), two ends of the connecting shaft (508) are fixedly connected with segmented rollers (509), the connecting shaft (508) is connected with a driving device installed in the roller brush connecting seat (502), and a plurality of elastic connecting plates (505) are respectively arranged on two segmented rollers (509).

7. The anti-deviation cleaning device for a wedge-shaped edge belt according to claim 6, wherein a plurality of second brush filaments (510) for cleaning the wedge-shaped belt are arranged on the roller brush connecting seat (502) at a position between two segmented rollers (509) on the same connecting shaft (508).