CN114775974A

CN114775974A - Wall brick paving auxiliary equipment

Info

Publication number: CN114775974A
Application number: CN202210522538.3A
Authority: CN
Inventors: 陈金风
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-05-14
Filing date: 2022-05-14
Publication date: 2022-07-22

Abstract

The invention discloses auxiliary equipment for paving wall bricks, wherein a driving wheel, two directional trundles and a universal trundle are arranged on the lower side of a chassis, a fixed platform is arranged on the upper side of the chassis, a rotating arm is rotatably arranged at the upper end of the fixed platform, a swinging arm is rotatably arranged at the upper end of the rotating arm, an inner arm is arranged in the swinging arm and can move in a telescopic manner, a turnover plate is rotatably arranged at the rear end of the inner arm, a sucker is arranged on the turnover plate, a plurality of ceramic tiles can be placed on a tile placing frame, a feed hopper is arranged at the rear side of a feed box and forms a rotating pair, a discharge pipe is arranged at the front side of the feed box, the lower end of the discharge pipe is communicated with the interior of the feed box, the upper end of the discharge pipe is communicated with a horizontal feed pipe through a longitudinal feed pipe, seven discharge ports are arranged at the lower side of the horizontal feed pipe, a beating rod is arranged in the interior of the feed box and forms a rotating pair, a booster air pump is capable of charging compressed air into the feed box, so that the cement paste flows out of the discharge port and is coated on the back of the ceramic tile.

Description

Wall brick paving auxiliary equipment

Technical Field

The invention relates to the technical field of house decoration, in particular to auxiliary equipment for paving and pasting wall bricks.

Background

Wall tiles are an effective way to protect the wall from splashing water, are called wall tiles for short, and are mostly applied to the vertical decoration of toilets, kitchens and outdoor balconies. Under the prior art, the pasting work of the wall tiles is mostly finished manually; when cement paste is prepared, workers are required to mix cement powder, sand, water and the like according to a certain proportion and stir the mixture continuously to fully mix the mixture; when paving and pasting wall tiles, workers need to uniformly smear cement paste on the back of the tiles, then pave and paste the tiles at proper positions on the wall, and when the positions are high, the workers also need to frequently go up and down the herringbone ladder; in actual operation, there are the following problems: firstly, the problem of uneven coating caused by manually coating cement paste can be solved, so that the phenomenon that the ceramic tile wall surface is uneven is easily caused by more or less ceramic tile coating cement paste; secondly, the herringbone ladder frequently goes up and down, so that the potential safety hazard of accidental falling can occur, particularly, the herringbone ladder not only needs to keep the body stable in ascending, but also needs to keep the balance of tiles, is difficult and is easy to cause danger; thirdly, a large amount of physical power and time are consumed for manual pulping and paving, workers are easy to fatigue, construction quality is affected, construction efficiency is reduced, and the construction period is prolonged. Therefore, the auxiliary equipment for paving and pasting the wall tiles, which can automatically pulp, automatically paint and automatically lift, has obvious significance.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention aims to provide wall brick paving auxiliary equipment which can automatically pulp, automatically smear cement paste and send ceramic tiles to a paving position, can effectively reduce the labor intensity of workers and improve the paving efficiency.

The technical scheme adopted by the invention is as follows: the utility model provides a wall brick is spread and is pasted auxiliary assembly which characterized in that: the chassis is of a triangular plate-shaped structure, the driving wheel can rotate and also can turn, the driving wheel is arranged on the lower side of the front end of the chassis, the two directional trundles are respectively arranged on two sides below the chassis, and the universal trundles are arranged on the rear end of the lower side of the chassis; a fixed table in the brick taking device is fixedly arranged at the front end of the upper side of a chassis, a rotating arm is arranged at the upper end of the fixed table and can rotate and position, a swinging arm is arranged at the upper end of the rotating arm and can swing and position up and down, an inner arm is arranged in the swinging arm and can move in a telescopic manner, a turnover plate is arranged at the rear end of the inner arm and can rotate and position, eight suckers for sucking ceramic tiles are arranged on the turnover plate, an inclinometer is arranged at the lower side of the turnover plate and can monitor the inclination angle of the turnover plate in real time; the brick placing frame is fixedly arranged at the left end of the upper side of the chassis, the middle surface of the brick placing frame penetrates through the rotary axis of the lower end of the rotating arm, three layers of placing plates are arranged on the brick placing frame, and a plurality of ceramic tiles can be transversely stacked on the three layers of placing plates; the feeding box is fixedly arranged at the rear end of the upper side of the chassis, a circular cavity is arranged in the feeding box, a square feeding port is arranged at the rear side of the feeding box, the feeding hopper is arranged on the square feeding port and forms a revolute pair with the feeding box, the locking rod is rotatably arranged at the upper end of the feeding hopper, the locking rod can realize the closed sealing of the feeding hopper through a thread pair, a feeding longitudinal pipe is arranged at the upper end of the feeding box, the front end of the feeding longitudinal pipe is communicated with a feeding transverse pipe, seven discharging ports are transversely arranged at the lower side of the feeding transverse pipe at equal intervals, discharging pipes are arranged in the front side of the feeding box, the lower ends of the discharging pipes are communicated with the circular cavity in the feeding box, the upper ends of the discharging pipes are communicated with the feeding longitudinal pipe, a metal ball is arranged between the discharging pipes and the feeding longitudinal pipe, and the pulping rod is arranged in the feeding box and forms a revolute pair; supercharging air pump fixed mounting is in chassis upside rear end, and the supercharging air pump communicates through the upper end of a pressure boost trachea with the inside circular cavity of feed tank, and the supercharging air pump can be to the inside compressed air that fills of feed tank, makes grout flow from the discharge gate and paint in the ceramic tile back.

Preferably, the front end of the swing arm is provided with a balancing weight which can enhance the front-back balance of the swing arm.

Preferably, the rotating arm is of a horizontally laid U-shaped structure, and the U-shaped structure can avoid interference with the counterweight block, so that the swinging arm can swing upwards to a vertical state to lift the ceramic tile to the highest position.

Preferably, the three layers of the placing plates on the tile placing frame are inclined upwards by 10 degrees, and glazed smooth surfaces of the tiles on the placing plates face outwards.

Preferably, the eight suction cups are communicated with a vacuum air pump through air pipes, so that the vacuum air pump can enable negative pressure to be formed in the suction cups and suck the tiles tightly.

Preferably, the bottom of the circular cavity in the feeding box is of a conical surface structure, so that the cement slurry can move towards the center automatically under the action of gravity.

Preferably, the lower end of the discharge pipe and the communication port of the feed tank are positioned in the center of the circular cavity bottom conical surface structure.

As the preferred, the feeder hopper both sides are equipped with two fan-shaped baffles, and the lower extreme of every fan-shaped baffle all is equipped with an ascending stopper, and fan-shaped baffle can prevent to leak when reinforced in the feed box material, and the stopper can block the feeder hopper and excessively overturn when opening.

Preferably, the metal ball is stainless steel, and the diameter of metal ball is greater than the diameter of discharging pipe, and the grout in the discharging pipe can be avoided falling back to the metal ball, thereby can make the grout in the discharging pipe ejection of compact fast.

Preferably, four stirring rods are arranged at the lower ends of the pulping rods, and the materials can be fully mixed after the four stirring rods rotate to form cement paste which can be used for paving ceramic tiles.

The invention has the beneficial effects that: (1) a plurality of ceramic tiles can be placed on the tile placing frame at one time, and the auxiliary equipment can automatically take the tiles from top to bottom, so that the stability of the equipment is enhanced, the operation that workers need to independently take the tiles in the traditional process can be avoided, the labor intensity of the workers is reduced, and the working efficiency is improved. (2) The feeding hopper is convenient to add materials into the feeding box after being opened, the feeding box can be sealed after the feeding hopper is closed, the pulping rod 25 can automatically complete pulping work, compressed air is used for feeding cement paste, and the cement paste forms a plurality of linear grooves on the back of a ceramic tile, so that the laminating firmness of the ceramic tile and the wall surface is increased, the conditions such as hollowing are avoided, and the smearing quality can be improved while the smearing efficiency is improved. (3) The auxiliary equipment can convey the ceramic tiles coated with cement paste to the positions to be paved, workers only need to wait for paving the positions, the workers do not need to climb the double ladder repeatedly, and the safety accidents can be reduced while the labor intensity of the workers is reduced. (4) The driving wheel can rotate and steer, the two directional casters can limit the direction while providing support, and the universal caster only provides support, so that the driving structure is basically the same as the running principle of a tricycle, and the auxiliary equipment can be moved and steered on the ground.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention during brick removal.

Fig. 2 is a schematic view of the overall structure of the tile when cement paste is applied to the tile.

Fig. 3 is a partially enlarged schematic view of a feed tank section.

Figure 4 is a schematic cross-sectional view of the feed tank section.

Figure 5 is a schematic view of the present invention as it delivers tiles to a worker.

Reference numbers: 1 chassis, 2 rotating arms, 3 driving wheels, 4 fixed platforms, 5 swinging arms, 5.1 balancing weights, 6 ceramic tiles, 7 inner arms, 8 inclinometers, 9 turning plates, 10 pressurized air pipes, 11 fifth motors, 12 feeding boxes, 12.1 feeding longitudinal pipes, 12.2 feeding transverse pipes, 12.3 discharging ports, 12.4 connecting lugs, 12.5 locking screw holes, 12.6 discharging pipes, 13 universal casters, 14 pressurized air pumps, 15 first directional casters, 16 first motors, 17 second motors, 18 third motors, 19 lead screws, 20 fourth motors, 21 brick placing frames, 22 second directional casters, 23 feeding hoppers, 24 locking rods, 25 beating rods and 26 metal balls.

Detailed Description

The present invention will be further described with reference to specific examples, which are intended to illustrate, but not limit the scope of the invention.

As shown in fig. 1 to 5, an auxiliary device for paving wall bricks mainly comprises a chassis 1, a rotating arm 2, a driving wheel 3, a fixed platform 4, a swinging arm 5, ceramic tiles 6, an inner arm 7, an inclinometer 8, a turning plate 9, a pressurized air pipe 10, a fifth motor 11, a feeding box 12, a universal caster 13, a pressurized air pump 14, a first directional caster 15, a first motor 16, a second motor 17, a third motor 18, a lead screw 19, a fourth motor 20, a brick placing frame 21, a second directional caster 22, a feeding hopper 23, a locking rod 24, a beating rod 25 and a metal ball 26, wherein the chassis 1 is of a triangular plate-shaped structure, the driving wheel 3 is provided with a driving motor and a steering motor, the driving motor can realize the forward and backward movement of the driving wheel 3, the steering motor can realize the steering movement of the driving wheel 3, the driving wheel 3 is mounted at the lower side of the front end of the chassis 1, the first directional caster 15 is fixedly mounted at the right side below the chassis 1, the second directional caster 22 is fixedly installed at the left end of the lower side of the chassis 1, the rotation axes of the first directional caster 15 and the second directional caster 22 are overlapped, and the universal caster 13 is installed at the rear end of the lower side of the chassis 1.

As shown in fig. 2, the fixing table 4 is fixedly mounted at the front end of the upper side of the chassis 1 through screws, the fixing table 4 is internally of a hollow structure, the first motor 16 is internally integrated with a coder and a brake, the rotation angle of the output shaft can be accurately controlled, and the brake positioning of the output shaft can also be realized, the first motor 16 is mounted inside the fixing table 4 through screws, the rotating arm 2 is of a horizontally-laid U-shaped structure, the rotating arm 2 is mounted at the upper side of the fixing table 4, and the lower end of the rotating arm 2 is fixedly connected with the output shaft of the first motor 16, so that the first motor 16 can realize the rotation and the positioning of the rotating arm 2.

The swing arm 5 is arranged at the upper end of the rotating arm 2 to form a rotating pair, a coder and a brake are integrated in the second motor 17, the rotating angle of the output shaft can be accurately controlled, and the brake positioning of the output shaft can also be realized, the second motor 17 is fixedly arranged at the upper end of the rotating arm 2, and the rotating shaft of the swing arm 5 is fixedly connected with the output shaft of the second motor 17, so that the second motor 17 can realize the up-and-down swinging and positioning of the swing arm 5; the rear end of the swing arm 5 is provided with a square guide hole, the front end of the swing arm 5 is provided with a balancing weight 5.1, an encoder and a brake are integrated in the third motor 18, the rotation angle of an output shaft can be accurately controlled, the brake positioning of the output shaft can also be realized, the third motor 18 is fixedly installed in the balancing weight 5.1, the lead screw 19 is installed in the swing arm 5 and forms a rotating pair, the front end of the lead screw 19 is coaxially and fixedly connected with the output shaft of the third motor 18, and therefore the third motor 18 can drive the lead screw 19 to rotate.

As shown in fig. 1 and 2, the outer side of the inner arm 7 is a square structure, the front end of the inner arm is provided with a lead screw nut, the inner arm 7 is installed in the square guide hole at the rear end of the swing arm 5 and can move telescopically, the lead screw nut at the front end of the inner arm 7 and a lead screw 19 are installed in a matching manner to form a lead screw transmission structure, so that the third motor 18 can drive the inner arm 7 to move telescopically; the front end of the turnover plate 9 is rotatably connected with the rear end of the swing arm 5, a coder and a brake are integrated in the fourth motor 20, the rotation angle of an output shaft can be accurately controlled, and the brake positioning of the output shaft can also be realized, the fourth motor 20 is fixedly arranged at the rear end of the swing arm 5, and the rotation shaft of the turnover plate 9 is coaxially and fixedly connected with the output shaft of the fourth motor 20, so that the rotation and the positioning of the turnover plate 9 can be realized by the fourth motor 20; inclinometer 8 fixed mounting in 9 downside of returning face plate, but inclinometer 8 real-time supervision returning face plate 9's inclination, fixed mounting has eight sucking discs on the returning face plate 9, the sucking disc passes through the trachea and switches on with the vacuum air pump to the vacuum air pump can make and form the negative pressure in the sucking disc and inhale ceramic tile 6 tightly.

As shown in fig. 2, the brick placing frame 21 is fixedly installed at the left end of the upper side of the chassis 1, the middle surface of the brick placing frame 21 penetrates through the rotation axis of the lower end of the rotating arm 2, three layers of placing plates are arranged on the brick placing frame 21, the three layers of placing plates are inclined upwards by 10 degrees, a plurality of ceramic tiles 6 can be horizontally stacked on the three layers of placing plates, and the glazed smooth surface of each ceramic tile 6 faces outwards.

As shown in fig. 3 and 4, the feeding tank 12 is fixedly installed at the rear end of the upper side of the chassis 1, the outer side of the feeding tank 12 is cylindrical, a circular cavity is arranged in the feeding tank 12, the bottom of the circular cavity is of a conical surface structure, a square feeding port is arranged at the rear side of the feeding tank 12, two connecting lugs 12.4 are arranged on two sides of the square feeding port, a convex block is arranged at the upper end of the square feeding port, a locking screw hole 12.5 is arranged on the convex block, two fan-shaped baffles are arranged on two sides of the feeding hopper 23, an upward limiting block is arranged at the lower end of each fan-shaped baffle, and the lower end of the feeding hopper 23 is rotatably connected with the two connecting lugs 12.4; the front end of the locking rod 24 is provided with a threaded rod, the rear end of the locking rod is provided with a cross rod which is convenient for force application to rotate, and the locking rod 24 is arranged at the upper end of the feed hopper 23 and forms a revolute pair; when the feed hopper 23 is closed, the locking rod 24 rotates clockwise to form a thread pair with the locking screw hole 12.5 and lock the feed hopper 23, and the feed hopper 23 can completely seal the square feed inlet; after the locking rod 24 is rotated anticlockwise, the feed hopper 23 can be opened outwards, and at the moment, the two limiting blocks can block the feed hopper 23 from being overturned excessively.

The upper end of the feeding box 12 is provided with a feeding longitudinal pipe 12.1, the central axis of the feeding longitudinal pipe 12.1 can intersect with the rotary central axis of the lower end of the rotating arm 2 after being extended, the front end of the feeding longitudinal pipe 12.1 is communicated with a feeding transverse pipe 12.2, the feeding longitudinal pipe 12.1 is perpendicular to the feeding transverse pipe 12.2, seven discharge ports 12.3 are transversely arranged on the lower side of the feeding transverse pipe 12.2 at equal intervals, a discharge pipe 12.6 is arranged inside the front side of the feeding box 12, the lower end of the discharge pipe 12.6 is communicated with a circular cavity inside the feeding box 12, a communication port is positioned in the central position of a conical surface structure at the bottom of the circular cavity, the upper end of the discharge pipe 12.6 is communicated with the feeding longitudinal pipe 12.1, a metal ball 26 is arranged between the discharge pipe 12.6 and the feeding longitudinal pipe 12.1, the metal ball 26 is made of stainless steel, and the diameter of the metal ball 26 is larger than that of the discharge pipe 12.6; the lower end of the beating rod 25 is provided with four stirring rods, the beating rod 25 is arranged in a circular cavity inside the feeding box 12 and forms a revolute pair, the fifth motor 11 is fixedly arranged at the upper end of the outer side of the feeding box 12, and the output shaft of the fifth motor 11 is coaxially and fixedly connected with the upper end of the beating rod 25, so that the fifth motor 11 can drive the beating rod 25 to rotate; the supercharging air pump 14 is fixedly arranged at the rear end of the upper side of the chassis 1, and the supercharging air pump 14 is communicated with the upper end of the circular cavity in the feeding box 12 through a supercharging air pipe 10.

The first embodiment is as follows: when preparation grout, at first anticlockwise rotation locking lever 24 and outwards open feeder hopper 23, pack into feed box 12 inside with cement powder, sand, water according to certain proportion from feeder hopper 23, later close feeder hopper 23 to it is sealed to lock feeder hopper 23 through locking lever 24, and fifth motor 11 drive beating rod 25 rotates, can carry out the intensive mixing formation with the material after four puddlers rotate and can be used to spread the grout that pastes the ceramic tile.

When cement paste is fed, the pressurizing air pump 14 can input compressed air into a circular cavity inside the feeding box 12 through the pressurizing air pipe 10, so that the pressure inside the feeding box 12 is increased, the cement paste in the feeding box 12 enters the discharging pipe 12.6 and jacks up the metal balls 26, then the cement paste enters the feeding longitudinal pipe 12.1 and the feeding transverse pipe 12.2, and finally flows out through seven discharging ports 12.3 and is smeared on the back of the ceramic tile 6; after the booster pump 14 stops inflating the feeding box 12, the metal ball 26 falls back under the action of gravity and blocks the upper end of the discharging pipe 12.6, so that the cement slurry in the discharging pipe 12.6 is prevented from falling back, and the cement slurry in the discharging pipe 12.6 can be discharged quickly during the next feeding.

The second embodiment: when the ceramic tile automatic feeding device works, firstly, the first motor 16 and the second motor 17 rotate to enable the swing arm 5 to point to the tile placing frame 21, the fourth motor 20 rotates to enable the turnover plate 9 to be in an inclined posture parallel to a ceramic tile 6 on the tile placing frame 21, the sucker is arranged on the front side of the turnover plate 9, then the third motor 18 rotates to enable the inner arm 7 to extend out until the eight suckers tightly press a smooth glaze surface on the upper side of the ceramic tile 6, the vacuum air pump works to enable the eight suckers to tightly suck the ceramic tile 6, then the swing arm 2, the swing arm 5, the inner arm 7 and the turnover plate 9 cooperate with one another to take down the ceramic tile 6 and place the ceramic tile 6 below seven discharge pipes 12.6, and at the moment, the ceramic tile 6 is in a horizontal state and the back face of the ceramic tile is upward; then, the pressurized air pump 14 fills compressed air into the feeding box 12 to enable cement paste to flow out of the seven discharge ports 12.3 and to be coated on the back of the ceramic tile 6, and the inner arm 7 moves at a constant speed in the process to enable the cement paste to be uniformly coated on the back of the ceramic tile 6; then the first motor 16, the second motor 17, the third motor 18 and the fourth motor 20 are matched to rotate, the sucked tile 6 is lifted or lowered until the tile is delivered to the position to be paved, in the process, the inclinometer 8 can detect the inclination angle of the turnover plate 9 in real time and make the fourth motor 20 perform compensation rotation, so that the sucked tile 6 is always in a horizontal state with the back face facing upwards; then the vacuum air pump sucks air to relieve the negative pressure state in the eight suckers, and workers can take the ceramic tiles away and lay the ceramic tiles on the wall surface; when the paving of one wall surface ceramic tile is finished, the auxiliary equipment can convey the next ceramic tile to the next paving position.

Example three: when the ceramic tile 6 is taken, the ceramic tile 6 placed on the uppermost layer of the tile placing frame 21 is taken firstly, the ceramic tile 6 on the uppermost layer is taken from the middle layer of the tile placing frame 21 after being taken, the ceramic tile 6 on the middle layer is taken from the lowest layer of the tile placing frame 21 after being taken, and after the ceramic tile 6 on the lowest layer of the tile placing frame 21 is taken, a worker needs to replenish the ceramic tile 6 to the tile placing frame 21 again.

Claims

1. The utility model provides a wall brick is spread and is pasted auxiliary assembly which characterized in that mainly includes:

the chassis is of a triangular plate-shaped structure, the driving wheel can rotate and also can turn, the driving wheel is arranged on the lower side of the front end of the chassis, the two directional trundles are respectively arranged on two sides below the chassis, and the universal trundles are arranged on the rear end of the lower side of the chassis;

the tile taking device comprises a fixed table, a rotating arm, a swinging arm, an inner arm, a turnover plate, an inclinometer, a base plate and a positioning device, wherein the fixed table is fixedly arranged at the front end of the upper side of a chassis;

the brick placing frame is fixedly arranged at the left end of the upper side of the chassis, the middle surface of the brick placing frame penetrates through the rotary axis of the lower end of the rotary arm, three layers of placing plates are arranged on the brick placing frame, and a plurality of ceramic tiles can be transversely stacked on the three layers of placing plates;

the feeding box is fixedly installed at the rear end of the upper side of the chassis, a circular cavity is formed in the feeding box, a square feeding port is formed in the rear side of the feeding box, the feeding hopper is installed on the square feeding port and forms a revolute pair with the feeding box, the locking rod is rotatably installed at the upper end of the feeding hopper, the locking rod can achieve closed sealing of the feeding hopper through a thread pair, a feeding longitudinal pipe is arranged at the upper end of the feeding box, the front end of the feeding longitudinal pipe is communicated with a feeding transverse pipe, seven discharging ports are transversely arranged on the lower side of the feeding transverse pipe at equal intervals, discharging pipes are arranged inside the front side of the feeding box, the lower ends of the discharging pipes are communicated with the circular cavity inside the feeding box, the upper ends of the discharging pipes are communicated with the feeding longitudinal pipe, a metal ball is arranged between the discharging pipes and the feeding longitudinal pipe, and the beating rod is installed inside the feeding box and forms a revolute pair;

the pressurizing air pump is fixedly installed at the rear end of the upper side of the chassis and communicated with the upper end of the circular cavity inside the feeding box through a pressurizing air pipe, and the pressurizing air pump can be used for filling compressed air into the feeding box, so that cement slurry flows out of the discharge port and is smeared on the back face of the ceramic tile.

2. A wall tile laying aid according to claim 1, wherein: the front end of the swing arm is provided with a balancing weight which can enhance the front-back balance of the swing arm.

3. A wall tile laying aid according to claim 1, wherein: the rotary arm is of a horizontally laid U-shaped structure, and the U-shaped structure can avoid interference with the balancing weight, so that the swing arm can swing upwards to be in a vertical state, and the ceramic tile is lifted to the highest position.

4. A wall tile laying aid according to claim 1, wherein: the three layers of the placing plates on the tile placing frame are inclined upwards by 10 degrees, and glazed smooth surfaces of the tiles on the placing plates face outwards.

5. A wall tile laying aid according to claim 1, wherein: the eight suckers are communicated with a vacuum air pump through air pipes, so that the vacuum air pump can enable negative pressure to be formed in the suckers and tightly suck the ceramic tiles.

6. A wall tile laying aid according to claim 1, wherein: the bottom of the circular cavity in the feeding box is of a conical surface structure, so that cement paste can move towards the center automatically under the action of gravity.

7. A wall tile laying aid according to claim 1, wherein: the lower end of the discharge pipe and the communication port of the feed box are positioned in the center of the conical surface structure at the bottom of the circular cavity.

8. A wall tile laying aid according to claim 1, wherein: feeder hopper both sides be equipped with two fan-shaped baffles, the lower extreme of every fan-shaped baffle all is equipped with an ascending stopper, fan-shaped baffle can prevent to leak the material when reinforced in the feed box, the stopper can block that the feeder hopper excessively overturns when opening.

9. A wall tile laying aid according to claim 1, wherein: the metal ball is made of stainless steel, the diameter of the metal ball is larger than that of the discharge pipe, cement paste in the discharge pipe can be prevented from falling back by the metal ball, and therefore the cement paste in the discharge pipe can be discharged quickly.

10. A wall tile laying aid according to claim 1, wherein: four stirring rods are arranged at the lower ends of the pulping rods, and the four stirring rods can fully mix materials after rotating to form cement paste which can be used for paving ceramic tiles.