CN210508261U

CN210508261U - Ceramic tile plastering machine

Info

Publication number: CN210508261U
Application number: CN201920857519.XU
Authority: CN
Inventors: 王俊海; 王天琪
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-06-10
Filing date: 2019-06-10
Publication date: 2020-05-12
Anticipated expiration: 2029-06-10

Abstract

The utility model relates to a ceramic tile plastering machine, which comprises a bracket, a ceramic tile storage barrel, a lower plaster plate, a lower plaster device, a plaster homogenizing plate and a chute, wherein the left side and the right side of the bracket are respectively provided with a left suspension and a right suspension, the right end of the right suspension is provided with a driving wheel shaft, the driving wheel shaft is provided with two driving belt wheels, the left suspension is provided with a driven wheel shaft, the driven wheel shaft is arranged at one side of the left suspension close to the bracket, the driven wheel shaft is provided with two driven belt wheels, the two driving belt wheels and the two driven belt wheels are respectively connected through two conveying belts, the two conveying belts are arranged in parallel and pass through a ceramic tile aisle below the ceramic tile storage barrel, the utility model utilizes the conveying belts which pass through the lower end of the ceramic tile storage barrel to convey ceramic tiles, and output the ceramic tiles after plastering, can effectively realize the automatic plastering of the, the labor force is saved, the tiling efficiency of the wall tiles is effectively improved, and the construction cost is saved.

Description

Ceramic tile plastering machine

Technical Field

The utility model relates to a ceramic tile is laid and is used instrument technical field, concretely relates to ceramic tile mechanical float.

Background

Along with the improvement of living standard, people have higher and higher requirements on living environment, the interior wall of a building is usually required to be pasted with wall tiles, especially the decoration of a kitchen and a toilet, the plastering of the wall tiles is performed manually at present, during construction, a worker holds the tiles with one hand and shovels the mixed cement sand with the other hand to the back of the tiles, and the tiles are pasted on the wall after being flattened. Because the weight of the ceramic tile is heavier, manual plastering is not only labor-consuming, slow in progress and low in efficiency, but also the amount of plaster is difficult to master, and the thickness and flatness of the wall-attached ceramic tile can be directly influenced by slight unevenness.

For solving above-mentioned technical problem, the applicant has submitted to the national intellectual property office in 2018, 11 months and 9 days, the utility model discloses a patent application with application number 2018218400500 entitled "ceramic tile plastering machine", this ceramic tile plastering machine sets up the spout storing up grey bucket lower extreme, the ceramic tile promotes along the spout, simultaneously on the ash device will store up the cement mortar in the grey bucket and dial the ceramic tile down, realize that the ceramic tile is automatic to be plastered, however, the removal of ceramic tile relies on artifical the promotion in this ceramic tile plastering machine, and the ceramic tile plasters the back, also need the manual work to drag and draw, during the use, need two people to mutually support, one pushes away the ceramic tile, another person drags and draws in the ceramic tile export, and high labor strength, complex operation, inconvenient use, and high cost.

SUMMERY OF THE UTILITY MODEL

To sum up, in order to overcome the not enough of prior art problem, the utility model provides a ceramic tile mechanical float, it utilizes the conveyer belt that passes storage ash bucket lower extreme to carry the ceramic tile to the ceramic tile output after will plastering can effectual realization wall ceramic tile's automation be plastered, paints evenly simultaneously, need not manual operation, can effectual reduction intensity of labour, practices thrift the labour, and the tiling efficiency of effectual improvement wall ceramic tile simultaneously practices thrift construction cost.

In order to solve the technical problem, the utility model discloses a technical scheme does:

a tile plastering machine, wherein: the tile storage device comprises a support, a tile storage barrel, a lower tile device, a tile homogenizing board and sliding grooves, wherein a left suspension and a right suspension are respectively arranged on the left side and the right side of the support, two sliding grooves are formed in the upper ends of the support and the left suspension and are oppositely arranged, a tile passageway is formed between the two sliding grooves, one end of the tile passageway is a tile inlet, the other end of the tile passageway is a tile outlet, a tile storage barrel is arranged at the upper end of the sliding groove above the support, the lower tile plate which is obliquely and downwards arranged is arranged in the tile storage barrel, a tile outlet is formed in the lower end of the tile storage barrel, the upper end of the tile storage barrel is open, the tile outlet is formed in the lower end of the left side of the tile storage barrel, the tile outlet is internally provided with the lower tile discharging device, the left side of the tile storage barrel is provided with the tile homogenizing board and a tile homogenizing adjusting device, the tile adjusting device drives the tile homogenizing board to move, the conveying belt of the belt conveying device penetrates through the ceramic tile passageway, supporting seats used for supporting ceramic tiles and having L-shaped cross sections are arranged on the conveying belt, and the supporting seats are arranged in a pairwise opposite mode along the length direction of the conveying belt.

Further, the belt conveying device comprises a driving wheel shaft, a driven wheel shaft, driving belt wheels, driven belt wheels and conveying belts, wherein the driving wheel shaft is arranged at the right end of the right suspension, two driving belt wheels are arranged on the driving wheel shaft, the driven wheel shaft is arranged on the left suspension, the driven wheel shaft is arranged on one side, close to the support, of the left suspension, two driven belt wheels are arranged on the driven wheel shaft, the two driving belt wheels and the two driven belt wheels are respectively connected through the two conveying belts, the two conveying belts are arranged in parallel and penetrate through a ceramic tile passageway below the ash storage barrel, the two conveying belts are respectively provided with a supporting seat, the positions of the supporting seats on the two conveying belts are the same, the driven chain wheels are arranged in the middle of the driving wheel shaft, the support is provided with a conveying motor, a driving chain wheel is arranged on a main shaft of the conveying motor, and the, a plurality of left carrier rollers are arranged in the sliding groove above the left suspension frame, the left carrier rollers are arranged along the length direction of the sliding groove and distributed in the sliding groove on the left side of the driven belt wheel, and the left carrier rollers are rotatably connected with the sliding groove.

Furthermore, the conveying belt is a synchronous toothed belt, and the driving belt wheel and the driven belt wheel are synchronous toothed belt wheels.

Further, lower grey device include ash axle, group grey board and lower grey transmission, lower grey axle wear to adorn in the ash hole of ash storage bucket, lower grey transmission drive down the relative ash storage bucket of grey axle rotate, lower grey epaxial a plurality of grey boards of dialling that are provided with, the grey board of dialling arrange along the length direction of ash axle down to be located the ash hole of ash storage bucket, a plurality of grey boards of dialling evenly arrange in ash epaxial circumference down, the grey board of dialling on be provided with and dial grey tooth, the grey tooth of dialling arrange along the length direction of dialling grey board, the ash hole of ash storage bucket on be provided with the deashing tooth, the deashing tooth arranges along the length direction of ash hole of ash storage bucket, just the tooth point of deashing tooth correspond with the tooth's socket of dialling grey tooth.

Further, lower grey transmission includes grey motor, lower grey main band pulley, lower grey from band pulley and drive belt, lower grey motor set up on the support, lower grey from the band pulley setting on grey epaxial down to be located the ash storage bucket outside, the main shaft of lower grey motor on be provided with down grey main band pulley, lower grey main band pulley passes through the drive belt with lower grey from the band pulley and is connected.

Furthermore, a long through hole is formed in the ash homogenizing plate, the ash homogenizing plate is connected with the ash storage barrel through a bolt penetrating through the long through hole, and sawtooth-shaped ash homogenizing teeth are arranged at the lower end of the ash homogenizing plate along the length direction of the ash homogenizing plate.

Further, the ash-homogenizing adjusting device comprises a rotating hand wheel, a box body, a hand wheel rotating shaft, a driving bevel gear, a driven bevel gear, a screw shaft, a moving block and a connecting rod, wherein the box body is fixed on the upper part of the ash storage barrel, the hand wheel rotating shaft and the screw shaft which can rotate relative to the box body are arranged in the box body in a penetrating manner, the screw shaft is arranged along the height direction of the ash storage barrel, the hand wheel rotating shaft and the screw shaft are mutually and vertically arranged, the rotating hand wheel is arranged at one end of the hand wheel rotating shaft, which is positioned outside the box body, the upper part of the screw shaft is an optical axis part, the optical axis part is relatively and rotatably connected with the box body, the lower part of the screw shaft is a screw part, the moving block is in threaded connection with the screw part of the screw shaft, the moving block is connected with the upper end of the ash-homogenizing plate through the connecting, the driving bevel gear is meshed with the driven bevel gear.

Furthermore, a plurality of intermediate support rollers are uniformly arranged in the sliding grooves along the length direction of the sliding grooves, two ends of each intermediate support roller are respectively connected with the two sliding grooves in a relative rotating mode, and each intermediate support roller supports the conveying belt.

Furthermore, a touch switch is arranged on the left suspension and is positioned at the upper end of one side, close to the support, of the left suspension.

The utility model has the advantages that:

1. the utility model discloses an utilize to pass the conveyer belt of storing up ash bucket lower extreme and carry the ceramic tile to the ceramic tile output after will plastering, can effectual realization wall ceramic tile's automation plaster, paint evenly simultaneously, need not manual operation, can effectual reduction intensity of labour, practice thrift the labour, the tiling efficiency of effectual improvement wall ceramic tile simultaneously practices thrift construction cost.

2. The utility model discloses an even hawk is connected through the bolt-up who passes long thru hole with the ash storage bucket, and adjusting bolt is in the position in long thru hole, the mounting height of adjustable even hawk to adjust the distance between even hawk lower extreme and the ceramic tile, reach the purpose that the thickness was plastered in the adjustment, the utility model discloses set up even grey adjusting device, loosen the connecting bolt of even hawk and ash storage bucket, the operation rotates the hand wheel and makes the hand wheel pivot rotatory, through two intermeshing's bevel gear, makes the screw shaft rotatory, thereby makes the movable block reciprocate along the screw shaft, thereby drives even hawk and reciprocates, and at its removal in-process, even hawk plays spacing and guide effect with the connecting bolt of ash storage bucket.

3. The utility model discloses a set up a plurality of spout pivoted well bearing rollers relatively along its length direction in the spout, the conveyer belt is placed on well bearing roller during the use, can reduce the resistance when the conveyer belt carries the ceramic tile and removes, and the friction reduction simultaneously, can also prevent the flagging problem of conveyer belt that the ceramic tile dead weight caused, guarantees that the steady conveyer of ceramic tile plasters.

4. The utility model discloses a set up and be provided with on the hawk and dial grey tooth, be provided with the deashing tooth on the ash outlet of ash storage bucket, the prong of deashing tooth is corresponding with the tooth's socket of dialling grey tooth, then dials the grey in-process in the hawk rotation, if there is the mortar bonding on dialling the hawk, then the mortar that the bonding is clear away to accessible deashing tooth to the assurance is dialled the hawk and is just dialled the ash smoothly, can effectual reduction mortar bond, guarantees the effect of plastering on the ceramic tile.

5. The utility model discloses simple structure, convenient to use, design novelty are ingenious, can effectual realization wall ceramic tile's automation plaster, paint evenly simultaneously to the effectual tiling efficiency who improves wall ceramic tile reduces intensity of labour, practices thrift construction cost.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic sectional view a-a of fig. 1 according to the present invention;

fig. 3 is a schematic top view of the structure of fig. 1 according to the present invention;

fig. 4 is a schematic structural view of the uniform ash plate and the uniform ash adjusting device of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, 2, 3 and 4, a tile plastering machine comprises a bracket 1, a tile storage barrel 2, a lower plaster plate 3, a lower plaster device, a tile homogenizing plate 4 and chutes 5, wherein the left side and the right side of the bracket 1 are respectively provided with a left suspension 6 and a right suspension 7, the upper ends of the bracket 1 and the left suspension 6 are provided with two chutes 5, the two chutes 5 are oppositely arranged, a tile passage 15 is formed between the two chutes 5, one end of the tile passage 15 is a tile inlet, the other end is a tile outlet, the upper end of the chute 5 above the bracket 1 is provided with the tile storage barrel 2, the lower plaster plate 3 which is obliquely and downwardly arranged is arranged in the tile storage barrel 2, the lower end of the tile storage barrel 2 is provided with a plaster outlet 8, the plaster outlet 8 is arranged at the lower end of the left side of the tile storage barrel 2, the plaster outlet 8 is provided with the lower plaster device, the left side of the ash storage barrel 2 is provided with an ash homogenizing plate 4 and an ash homogenizing adjusting device 9, the tile outlet of the ash homogenizing adjusting device 9 is provided with a tile passageway 15, the ash homogenizing adjusting device 9 drives the ash homogenizing plate 4 to move up and down, the ash homogenizing plate 4 is provided with a long through hole, the ash homogenizing plate 4 is connected with the ash storage barrel 2 through a bolt penetrating through the long through hole, the lower end of the ash homogenizing plate 4 is provided with sawtooth-shaped ash homogenizing teeth along the length direction, the ash homogenizing adjusting device 9 comprises a rotating hand wheel 91, a box body 92, a hand wheel rotating shaft 93, a driving bevel gear 94, a driven bevel gear 95, a screw shaft 96, a moving block 97 and a connecting rod 98, the box body 92 is fixed on the upper part of the ash storage barrel 2, the hand wheel rotating shaft 93 and the screw shaft 96 which can rotate relative to the box body 92 are arranged in the box body 92 in a penetrating manner, the screw shaft 96 is arranged along the height direction of the ash storage barrel 2, and the hand wheel 93 and the, the hand wheel rotating shaft 93 is provided with a rotating hand wheel 91 at one end outside the box body 92, the upper part of the screw shaft 96 is an optical shaft part, the optical shaft part is connected with the box body 92 in a relatively rotating mode, the lower part of the screw shaft 96 is a screw part, the moving block 97 is in threaded connection with the screw part of the screw shaft 96, the moving block 97 is connected with the upper end of the uniform ash plate 4 through a connecting rod 98, the hand wheel rotating shaft 93 in the box body 92 is provided with a driving bevel gear 94, the screw shaft 96 in the box body 92 is provided with a driven bevel gear 95, and the driving bevel gear 94 is meshed with the driven bevel gear 95. The ceramic tile support is characterized in that belt conveying devices are arranged on the left suspension 6 and the right suspension 7, conveying belts 14 of the belt conveying devices penetrate through a ceramic tile passageway 15, supporting seats 16 which are used for supporting ceramic tiles and are L-shaped in cross section are arranged on the conveying belts 14, the supporting seats 16 are arranged in pairs in a relative mode along the length direction of the conveying belts 14, a plurality of middle supporting rollers 28 are evenly arranged in the sliding grooves 5 along the length direction of the sliding grooves, two ends of each middle supporting roller 28 are respectively connected with the two sliding grooves 5 in a relative rotating mode, the middle supporting rollers 28 support the conveying belts 14, a touch switch 29 is arranged on the left suspension 6, and the touch switch 29 is located at an outlet of a ceramic tile 15 at the upper end of one side, close to the passageway support 1, of.

A driving wheel shaft 10 is arranged at the right end of the right suspension 7, a driving wheel shaft 10 is arranged on the driving wheel shaft 10, two driving belt wheels 11 are arranged on the left suspension 6, a driven wheel shaft 12 is arranged on one side of the left suspension 6 close to the support 1, two driven wheel wheels 13 are arranged on the driven wheel shaft 12, the two driving belt wheels 11 and the two driven wheel wheels 13 are respectively connected through two conveyer belts 14, the two conveyer belts 14 are arranged in parallel and pass through a ceramic tile passageway 15 from a ceramic tile passageway 15 below the ash storage barrel 2, support seats 16 are arranged on the two conveyer belts 14, the positions of the support seats 16 on the two conveyer belts 14 are the same, a driven sprocket 17 is arranged in the middle of the driving wheel shaft 10, a conveying motor 19 is arranged on the support 1, and a driving sprocket 18 is arranged on a main shaft of the conveying motor 19, the driving sprocket 18 is connected with the driven sprocket 17 through a chain. The conveying belt 14 is a synchronous toothed belt, the driving belt wheel 11 and the driven belt wheel 13 are both synchronous toothed belt wheels, a plurality of left carrier rollers 20 are arranged in a sliding groove above the left suspension 6, the left carrier rollers 20 are arranged along the length direction of the sliding groove and are distributed in the sliding groove on the left side of the driven belt wheel, and the left carrier rollers 20 are rotatably connected relative to the sliding groove.

Lower grey device includes ash axle 21 down, dials grey board 22 and grey transmission down, lower grey axle 21 wear to adorn in the ash hole 8 of ash storage bucket 2, lower grey transmission drive down grey axle 21 relatively store up grey bucket 2 and rotate, lower grey axle 21 on be provided with a plurality of grey boards 22 of dialling, the length direction of dialling grey board 22 along lower grey axle 21 arrange to lie in the ash hole 8 of ash storage bucket 2, a plurality of grey boards 22 of dialling circumference evenly arrange on grey axle 21 down, the grey board 22 of dialling on be provided with and dial grey tooth, the grey tooth of dialling arrange along the length direction who dials grey board 22, the ash hole 8 of ash storage bucket 2 on be provided with deashing tooth 24, deashing tooth 24 arranges along the length direction of ash hole 8 of ash storage bucket 2, and the tooth's socket of deashing tooth correspond. The lower ash transmission device comprises a lower ash motor 25, a lower ash main belt wheel 26, a lower ash auxiliary belt wheel 27 and a transmission belt, wherein the lower ash motor 25 is arranged on the support 1, the lower ash auxiliary belt wheel 27 is arranged on the lower ash shaft 21 and is positioned outside the ash storage barrel 2, a main shaft of the lower ash motor 25 is provided with the lower ash main belt wheel 26, and the lower ash main belt wheel is connected with the lower ash auxiliary belt wheel 27 through the transmission belt.

When the tile storage device is used, the mixed cement mortar in the cement mortar storage barrel 2 is placed in the cement mortar storage barrel 2, the mixed cement mortar in the cement mortar storage barrel 2 automatically slides to the position of the mortar outlet 8 along the lower mortar plate 3 under the action of gravity, the tile is placed on the supporting seats 16 of the two conveying belts 14, the four supporting seats 16 support one tile, the four supporting seats 16 are distributed at the four corners of the tile, the conveying motor 19 is started, the conveying motor 19 drives the driving wheel shaft 10 to rotate through the driving chain wheel 18, the driven chain wheel 17 and the chain, so that the two driving belt wheels 11 rotate, the conveying belts 14 rotate, the tile is carried by the conveying belts 14 to enter the tile passageway 15, the supporting seats 16 on the tile conveying belts 14 touch the switch 29 after colliding the touch switch 29, the touch switch 29 controls the lower mortar motor 25 of the mortar discharging device to be started, the mortar discharging motor 25 drives the mortar outlet shaft 21 to rotate through the mortar discharging main belt, the cement mixed mortar at the ash outlet 8 of the ash storage barrel 2 is stirred down by the ash stirring plate 22 on the lower ash shaft 21, the cement mixed mortar falls on the ceramic tile, automatic plastering of the ceramic tile is realized, after the cement mixed mortar falls down, the lower ash shaft 21 and the ash stirring plate 22 continue to rotate, and when the ash stirring plate 22 passes through the ash cleaning teeth 24, the ash cleaning teeth 24 clear the cement mixed mortar adhered to the ash stirring plate 22. When the ceramic tile passes through the lower end of the ash homogenizing plate 4, the ash homogenizing teeth uniformly pave the cement mixed mortar on the ceramic tile.

The conveyer belt 14 continues to carry the ceramic tile and moves along the ceramic tile passageway, and the ash discharging device is continuous to dial the mixed mortar of cement on falling the ceramic tile, and when the ceramic tile breaks away from with touch switch 29, the ash discharging motor 25 of ash discharging device stops rotating, accomplishes the automation of ceramic tile and plasters. At the moment, the plastered ceramic tile is manually taken out.

When the uniform-ash plate 4 needs to be adjusted and the plastering thickness on the ceramic tile is adjusted, the hand wheel 91 is operated and rotated to rotate the hand wheel rotating shaft 93, the rotation of the screw shaft 96 is realized through the driving bevel gear 94 and the driven bevel gear 95, the screw shaft 96 can only rotate in the vertical direction limiting mode, the screw shaft 96 rotates, the moving block 97 can move up and down along the screw shaft 96, the uniform-ash plate 4 is driven to move up and down, the gap between the lower end of the uniform-ash plate 4 and the ceramic tile is adjusted, and the purpose of adjusting the plastering thickness of the ceramic tile is achieved.

It should be noted that the above-mentioned embodiments are illustrative and not restrictive of the technical solutions of the present invention, and equivalents of those skilled in the art or other modifications made according to the prior art are intended to be included within the scope of the claims of the present invention as long as they do not exceed the spirit and scope of the technical solutions of the present invention.

Claims

1. A ceramic tile plastering machine is characterized in that: comprises a bracket (1), an ash storage barrel (2), a lower ash plate (3), an ash discharging device, an ash homogenizing plate (4) and sliding chutes (5), wherein the left side and the right side of the bracket (1) are respectively provided with a left suspension (6) and a right suspension (7), the upper ends of the bracket (1) and the left suspension (6) are provided with two sliding chutes (5), the two sliding chutes (5) are oppositely arranged, a ceramic tile passageway (15) is formed between the two sliding chutes (5), the upper end of the sliding chute (5) above the bracket (1) is provided with the ash storage barrel (2), the ash storage barrel (2) is internally provided with the lower ash plate (3) which is obliquely and downwards arranged, the lower end of the ash storage barrel (2) is provided with an ash outlet (8), the upper end of the ash storage barrel (2) is opened, the ash outlet (8) is arranged at the lower left end of the ash storage barrel (2), and the ash discharging device is arranged in the ash outlet (8), the ash storage device is characterized in that an ash homogenizing plate (4) and an ash homogenizing adjusting device (9) are arranged on the left side of the ash storage barrel (2), the ash homogenizing adjusting device (9) drives the ash homogenizing plate (4) to move up and down, a driving wheel shaft (10) is arranged at the right end of the right suspension (7), two driving belt wheels (11) are arranged on the driving wheel shaft (10), a driven wheel shaft (12) is arranged on the left suspension (6), the driven wheel shaft (12) is arranged on one side, close to the support (1), of the left suspension (6), two driven belt wheels (13) are arranged on the driven wheel shaft (12), the two driving belt wheels (11) and the two driven belt wheels (13) are respectively connected through two conveying belts (14), the two conveying belts (14) are arranged in parallel and penetrate through a ceramic tile passage (15) below the ash storage barrel (2), and supporting seats (16) are arranged on the two conveying belts (14), the supporting seats (16) on the two conveying belts (14) are identical in position, the supporting seats (16) are L-shaped in cross section, the supporting seats (16) are arranged in pairs in a relative mode along the length direction of the conveying belts (14), a driven chain wheel (17) is arranged in the middle of a driving wheel shaft (10), a conveying motor (19) is arranged on the support (1), a driving chain wheel (18) is arranged on a main shaft of the conveying motor (19), the driving chain wheel (18) is connected with the driven chain wheel (17) through a chain, a plurality of left supporting rollers (20) are arranged in the sliding groove (5) above the left suspension (6), the left supporting rollers (20) are arranged along the length direction of the sliding groove (5) and are distributed in the sliding groove (5) on the left side of the driven chain wheel (13), and the left supporting rollers (20) are rotatably connected with the sliding groove (5).

2. A tile plastering machine as claimed in claim 1, wherein: the conveying belt (14) is a synchronous toothed belt, and the driving belt wheel (11) and the driven belt wheel (13) are synchronous toothed belt wheels.

3. A tile plastering machine as claimed in claim 1, wherein: the lower ash device comprises a lower ash shaft (21), ash pulling plates (22) and a lower ash transmission device, wherein the lower ash shaft (21) penetrates through an ash outlet (8) of the ash storage barrel (2), the lower ash transmission device drives the lower ash shaft (21) to rotate relative to the ash storage barrel (2), a plurality of ash pulling plates (22) are arranged on the lower ash shaft (21), the ash pulling plates (22) are arranged along the length direction of the lower ash shaft (21) and are positioned in the ash outlet (8) of the ash storage barrel (2), the ash pulling plates (22) are uniformly arranged on the lower ash shaft (21) in the circumferential direction, ash pulling teeth are arranged on the ash pulling plates (22), the ash pulling teeth are arranged along the length direction of the ash pulling plates (22), ash removing teeth (24) are arranged on the ash outlet (8) of the ash storage barrel (2), ash removing teeth (24) are arranged along the length direction of the ash outlet (8) of the ash storage barrel (2), and the tooth tip of the ash removing tooth (24) corresponds to the tooth socket of the ash poking tooth.

4. A tile plastering machine according to claim 3, wherein: lower grey transmission include grey motor (25), grey main band pulley (26), grey follow band pulley (27) and drive belt down, grey motor (25) set up on support (1) down, grey follow band pulley (27) set up on grey axle (21) down to be located the ash storage bucket (2) outside down, the main shaft of grey motor (25) on be provided with grey main band pulley (26) down, grey main band pulley (26) are connected through the drive belt with grey follow band pulley (27) down.

5. A tile plastering machine as claimed in claim 1, wherein: the ash homogenizing plate (4) is provided with a long through hole, the ash homogenizing plate (4) is connected with the ash storage barrel (2) through a bolt penetrating through the long through hole, and the lower end of the ash homogenizing plate (4) is provided with sawtooth-shaped ash homogenizing teeth along the length direction of the ash homogenizing plate.

6. A tile plastering machine as claimed in claim 1, wherein: the ash-homogenizing adjusting device (9) comprises a rotating hand wheel (91), a box body (92), a hand wheel rotating shaft (93), a driving bevel gear (94), a driven bevel gear (95), a screw shaft (96), a moving block (97) and a connecting rod (98), wherein the box body (92) is fixed on the upper part of the ash storage barrel (2), the hand wheel rotating shaft (93) and the screw shaft (96) which can rotate relative to the box body (92) are arranged in the box body (92) in a penetrating manner, the screw shaft (96) is arranged along the height direction of the ash storage barrel (2), the hand wheel rotating shaft (93) and the screw shaft (96) are arranged in a mutually perpendicular manner, one end of the hand wheel rotating shaft (93) which is positioned outside the box body (92) is provided with the rotating hand wheel (91), the upper part of the screw shaft (96) is an optical axis part, the optical axis part is connected with the box body (92) in a relatively rotating manner, and the lower part, the movable block (97) is in threaded connection with a screw portion of a screw shaft (96), the movable block (97) is connected with the upper end of the ash homogenizing plate (4) through a connecting rod (98), a hand wheel rotating shaft (93) in the box body (92) is provided with a driving bevel gear (94), a screw shaft (96) in the box body (92) is provided with a driven bevel gear (95), and the driving bevel gear (94) and the driven bevel gear (95) are meshed with each other.

7. A tile plastering machine as claimed in claim 1, wherein: a plurality of intermediate support rollers (28) are uniformly arranged in the sliding groove (5) below the ash storage barrel (2) along the length direction of the sliding groove, two ends of each intermediate support roller (28) are respectively and rotatably connected with the sliding groove (5) relatively, and each intermediate support roller (28) supports the conveying belt (14).

8. A tile plastering machine as claimed in claim 1, wherein: the left suspension (6) is provided with a touch switch (29), and the touch switch (29) is positioned at the upper end of one side, close to the support (1), of the left suspension (6).