CN210598030U - Automatic plastering device for building ceramic tiles - Google Patents

Abstract

The utility model discloses an automatic plastering unit of building ceramic tile, the on-line screen storage device comprises a base, be equipped with ceramic tile conveyer on the base, base one side is equipped with ceramic tile lift thrust unit, the base opposite side is equipped with the controller, base top center department is equipped with the automatic plastering unit of ceramic tile, the automatic plastering unit below of ceramic tile is equipped with ceramic tile vibrating device. Carry the ceramic tile through the rotation of ceramic tile drive belt, high-speed rotation through whipping the baffle simultaneously, make the ash through the effect whipping of centrifugal force in the trapezoidal square section of thick bamboo, paint the ash on the ceramic tile through the triangle-shaped plastering mouth on the trapezoidal square section of thick bamboo, and drive the vibration of vibration bottom plate through the vibrator, thereby make ash and the abundant contact of ceramic tile, thereby guarantee the abundant combination of ceramic tile and ash, firm when guaranteeing the ceramic tile and pasting, protect the ceramic tile through the rubber cushion on the vibration bottom plate, damage the ceramic tile when preventing to vibrate the bottom plate.

Description

Automatic plastering device for building ceramic tiles

Technical Field

The utility model relates to a relevant equipment field of construction, especially an automatic plastering unit of building ceramic tile.

Background

In the present decoration construction, the manual operation of workers is still adopted for plastering the ceramic tiles. The manual plastering excessively depends on the experience and hand feeling of workers, the flatness and thickness of plastering are difficult to achieve integral handle control, four corners of a ceramic tile are difficult to be plastered uniformly by manual plastering, the plastering quality is difficult to be unified, and the quality problems of hollowing and crust generation of paving and pasting the ceramic tile are caused.

In patent CN 201820496723.9-ceramic tile plastering machine, the size of the plastering surface is set by a size adjusting plate, namely the size of the plaster outlet, after plaster outlet falls on a ceramic tile, a transmission device drives a chain to move left and right along a rack track, so as to realize plastering of the ceramic tile; the plastering machine is characterized in that a motor is arranged, the motor drives a driving chain wheel to rotate forwards and backwards, the driving chain wheel is connected with the plane of a driven chain wheel through a chain, a plaster cutting plate is fixed on the driven chain, and the motor is controlled by a forward direction and an intermittent controller to realize automatic plastering operation; be provided with the running-board, the running-board passes through the chain to be connected with middle guide pillar, and the lift of ceramic tile bracket is controlled to effort through the running-board, controls the stable balance of ceramic tile bracket through the guide pillar slider and the guide pillar of welding in the stand four corners, and the starter motor after positive direction shift knob is touchd to the bracket to control transmission realizes effectively accurately plastering, has avoided the idle running of motor.

After the ceramic tile is plastered, the situation that the ceramic tile is not firmly plastered and falls off is easily caused because the plaster is not tightly plastered with the ceramic tile.

SUMMERY OF THE UTILITY MODEL

The utility model aims at solving the above problem, an automatic plastering unit of building ceramic tile has been designed, it is even to have plaster, paste firm function, solved current ceramic tile mechanical float when carrying out the ceramic tile and plaster, the lime-cement combines inseparable and leads to the emergence of the not firm condition of ceramic tile pasting with the ceramic tile, vibration through the vibrator, make the ceramic tile make abundant with the ceramic tile combination of lime-cement through the vibration when plastering, thereby the effectual inseparable pasting of lime-cement with the ceramic tile of having guaranteed, the firm that the ceramic tile can be pasted has also been guaranteed simultaneously.

The technical scheme of the utility model is that the automatic plastering device for the building ceramic tile comprises a base, wherein a ceramic tile conveying device is arranged on the base, a ceramic tile lifting pushing device is arranged on one side of the base, a controller is arranged on the other side of the base, the automatic plastering device for the ceramic tile is arranged at the center above the base, and a ceramic tile vibrating device is arranged below the automatic plastering device for the ceramic tile;

the automatic tile plastering device comprises a plastering support arranged in the center above a base, a lime material containing barrel arranged above the plastering support, a plurality of lime material funnels arranged at the lower end of the lime material containing barrel, the lime material funnels are uniformly distributed below the lime material containing barrel, a lime material swinging sleeve is arranged below the lime material funnels, the lime material swinging sleeve is horizontally arranged below the lime material funnels, the upper surface of the lime material swinging sleeve is communicated with the lime material funnels, swinging bearings are arranged at two ends inside the lime material swinging sleeve, a driving motor is arranged at one end of the lower surface of the plastering support, a small transmission belt pulley is arranged at the rotating end of the driving motor, a swinging shaft is arranged at the rotating end of the driving motor and connected with the swinging bearings, a plurality of swinging sleeve shafts are arranged on the swinging shafts, and the swinging sleeve shafts are positioned in the lime material swinging sleeve pipes, the ash material throwing sleeve is characterized in that a plurality of throwing baffles are arranged on the throwing sleeve shaft, a trapezoidal square cylinder is arranged on the lower surface of the ash material throwing sleeve, the upper end of the trapezoidal square cylinder is communicated with the lower surface of the ash material throwing sleeve, the lower end of the trapezoidal square cylinder is an open port, and the lower ends of the side surfaces of two sides of the trapezoidal square cylinder are triangular plastering ports;

ceramic tile vibrating device includes base upper surface center department opens there is the transmission recess, four spring sleeves are installed to transmission recess center four corners department, spring sleeve's internally mounted has compression spring, flexible post is installed to compression spring's upper end, flexible post and spring sleeve swing joint, vibration bottom plate is installed to the upper end of four flexible posts, vibration bottom plate lower surface center department both sides are installed two vibrators, vibration bottom plate upper surface mounting has the rubber cushion, two L type ceramic tile clamp plates are installed to vibration bottom plate upper surface back and forth both sides, the inboard surface of L type ceramic tile clamp plate is trapezoidal surface, the inside surface mounting of L type ceramic tile clamp plate has the rubber pad.

The ceramic tile conveying device comprises transmission grooves, transmission rotary shafts are arranged at the two ends of the inner portion of each transmission groove, the centers of the side surfaces of the two sides of each transmission rotary shaft are provided with transmission bearings, each transmission rotary shaft is connected with the corresponding transmission groove through a transmission bearing, a large transmission belt wheel is installed at one end of one transmission rotary shaft, a transmission belt is sleeved between the large transmission belt wheel and a small transmission belt wheel, a ceramic tile conveying belt is sleeved between the two transmission rotary shafts, the ceramic tile conveying belt is located above the vibration bottom plate, and the ceramic tile conveying belt is connected with the vibration bottom plate in a.

The ceramic tile lifting and pushing device comprises a lifting base arranged on the side surface of one side of the base, lifting bearings are arranged at four corners of the upper surface of the lifting base, a lifting short shaft is arranged in each lifting bearing, a double-groove belt pulley is arranged on each lifting short shaft, a connecting belt is sleeved between the double-groove belt pulleys, a lifting motor is arranged on the lifting base, a belt pulley is arranged at the rotating end of each lifting motor, a belt is sleeved between each belt pulley and one of the double-groove belt pulleys, a lifting screw is arranged at the upper end of each lifting short shaft, ceramic tile containing seats are sleeved on the four lifting screw, the ceramic tile containing seats are in threaded connection with the lifting screw, a fixed cross rod is arranged above each lifting screw, the fixed cross rods are connected with the lifting screws through the lifting bearings, and an electric telescopic rod is arranged, z style of calligraphy ceramic tile push pedal is installed to electric telescopic handle's flexible end.

The Z-shaped ceramic tile push plate is positioned above the ceramic tile conveying belt.

And supporting sliding plates are arranged on two sides of the vibrating bottom plate and are positioned below the tile conveying belt.

Install infrared distance measuring sensor on the inside one side surface of transmission recess, infrared distance measuring sensor's direction of detection is perpendicular with the transmission recess.

The throwing baffle plates are uniformly distributed on the throwing sleeve shaft, and the throwing baffle plates and the throwing sleeve shaft are installed at a certain angle.

The inner side surface of the L-shaped tile pressing plate is in sliding contact with the tiles.

Utilize the technical scheme of the utility model a building ceramic tile automatic plastering device who makes:

the automatic plastering device is used for containing the ceramic tiles through the ceramic tile containing seat, adjusting the position of the ceramic tile containing seat through the lifting screw rod, and simultaneously sequentially moving the ceramic tiles onto the ceramic tile conveying belt through the matching of the lifting screw rod and the electric telescopic rod so as to carry out transmission;

this automatic plastering device, carry the ceramic tile through the rotation of ceramic tile conveyer belt, high-speed rotation through whipping the baffle simultaneously, make the ash throw to trapezoidal square tube in through the effect of centrifugal force, paint the ash on the ceramic tile through triangle-shaped plastering mouth on the trapezoidal square tube, and drive the vibration of vibration bottom plate through the vibrator, thereby make the abundant contact of ash and ceramic tile, thereby guarantee the abundant combination of ceramic tile and ash, firm when guaranteeing the ceramic tile and pasting, protect the ceramic tile through the rubber cushion on the vibration bottom plate, damage the ceramic tile when preventing to vibrate the bottom plate.

Drawings

Fig. 1 is a schematic structural view of an automatic plastering device for building ceramic tiles according to the present invention;

FIG. 2 is a schematic view of the automatic tile plastering apparatus of the present invention;

fig. 3 is a schematic view of the swing gate of the present invention;

fig. 4 is a schematic view of the tile vibrating device of the present invention;

fig. 5 is a schematic view of the L-shaped tile press plate of the present invention;

in the figure, 1, a base; 2. a controller; 3. a plastering bracket; 4. an ash containing cylinder; 5. an ash hopper; 6. ash material swinging sleeve; 7. swinging the bearing; 8. a drive motor; 9. a small drive pulley; 10. swinging the shaft; 11. the sleeve shaft is swung; 12. swinging the baffle; 13. a trapezoidal square cylinder; 14. a triangular plastering port; 15. a transmission groove; 16. a spring sleeve; 17. a compression spring; 18. a telescopic column; 19. vibrating the base plate; 20. a vibrator; 21. a rubber cushion; 22. an L-shaped tile pressing plate; 23. a rubber pad; 24. a driving roller; 25. a transmission rotating shaft; 26. a drive bearing; 27. a large drive pulley; 28. a drive belt; 29. a tile conveyor belt; 30. a lifting base; 31. a lifting bearing; 32. a lifting short shaft; 33. a double grooved pulley; 34. connecting a belt; 35. a lifting motor; 36. a belt pulley; 37. a belt; 38. a lifting screw; 39. a ceramic tile containing seat; 40. fixing the cross bar; 41. an electric telescopic rod; 42. z-shaped ceramic tile push plates; 43. supporting the sliding plate; 44. an infrared distance measuring sensor.

Detailed Description

The invention is described in detail below with reference to the accompanying drawings, as shown in fig. 1-5, in this embodiment:

in this device, the device supplies power by being connected with an external power supply, external power supply and controller 2, driving motor 8, vibrator 20, elevator motor 35, electric telescopic rod 41 electric connection supplies power, the model of controller 2 is the PLC controller of DVP16ES200R model, the control signal output of controller 2 passes through the relay respectively with driving motor 8, vibrator 20, elevator motor 35 and electric telescopic rod 41 electric connection, the signal receiving end of controller 2 and the signal sending end electric connection of infrared distance measuring sensor 44, thereby control the operation of whole device.

The invention is characterized in that the automatic tile plastering device comprises a base 1, a plastering bracket 3, a lime material containing barrel 4, a plurality of lime material hoppers 5, a plurality of swing bearings 7, a driving motor 8, a small driving belt pulley 9, a swing shaft 10 and a swing bearing 7, wherein the plastering bracket 3 is arranged at the center above the plastering bracket 3, the lime material containing barrel 4 is arranged above the plastering bracket 3, the plurality of lime material hoppers 5 are arranged at the lower end of the lime material containing barrel 4, the lime material hoppers 5 are uniformly distributed below the lime material containing barrel 4, the lime material swing sleeve 6 is arranged below the lime material hopper 5, the upper surface of the lime material swing sleeve 6 is communicated with the lime material hoppers 5, the swing bearings 7 are arranged at two ends inside the lime material swing sleeve 6, the driving motor 8 is arranged at one end of the lower surface of the plastering bracket 3, the small driving belt pulley 9 is arranged at the rotating end of the driving motor 8, the swing shaft 10 is, the ash material throwing device is characterized in that a plurality of throwing sleeve shafts 11 are arranged on a throwing shaft 10, the throwing sleeve shafts 11 are positioned in an ash material throwing sleeve 6, a plurality of throwing baffles 12 are arranged on the throwing sleeve shafts 11, the throwing baffles 12 are uniformly distributed on the throwing sleeve shafts 11, the throwing baffles 12 and the throwing sleeve shafts 11 are arranged at a certain angle, a trapezoidal square cylinder 13 is arranged on the lower surface of the ash material throwing sleeve 6, the upper end of the trapezoidal square cylinder 13 is communicated with the lower surface of the ash material throwing sleeve 6, the lower end of the trapezoidal square cylinder 13 is an open port, and the lower ends of the side surfaces of two sides of the trapezoidal square cylinder 13 are triangular plastering ports 14; through the rotation of whipping baffle 12, and the gravity of cooperation ash, make the ash through the centrifugal force that the rotation of whipping baffle 12 produced, get rid of the ash in trapezoidal square tube 13, thereby plaster through trapezoidal square tube 13, plaster evenly through triangle-shaped plastering mouth 14 on the trapezoidal square tube 13 on with the ash on the ceramic tile simultaneously, thereby guarantee that the ash becomes the even ceramic tile of paining of triangle-shaped, through paining into triangle-shaped with the ash, thereby the ash can be abundant with the wall contact when making the ceramic tile paste, guarantee the firm of ceramic tile paste.

The invention is characterized in the structural design of a ceramic tile vibrating device, and by combining the attached drawings 1, 4 and 5, the ceramic tile vibrating device comprises a base 1, wherein a transmission groove 15 is formed in the center of the upper surface of the base 1, four spring sleeves 16 are arranged at four corners of the center of the transmission groove 15, a compression spring 17 is arranged inside each spring sleeve 16, a telescopic column 18 is arranged at the upper end of each compression spring 17, each telescopic column 18 is movably connected with each spring sleeve 16, a vibrating bottom plate 19 is arranged at the upper ends of the four telescopic columns 18, vibrators 20 are arranged on two sides of the center of the lower surface of the vibrating bottom plate 19, a rubber cushion 21 is arranged on the upper surface of each vibrating bottom plate 19, two L-shaped ceramic tile pressing plates 22 are arranged on the front side and the rear side of the upper surface of each vibrating bottom plate 19, the inner side surfaces; through the effect of vibrator 20 on the vibration bottom plate 19, make vibration bottom plate 19 carry out the high frequency vibration, reduce the impact between ceramic tile and the vibration bottom plate 19 through rubber cushion 21 simultaneously to make the ceramic tile can be safe, steady vibrate, make the ash on the ceramic tile through vibration and with the abundant contact of ceramic tile, reduced the gap between the ash, make the ash fill more solid, thereby make more firm, firm behind the ceramic tile pasted the wall.

In the device, the tile conveying device drives the tile conveying belt 29 to rotate through the transmission roller 24, so that tiles move in the transmission groove 15, and the tiles pass through the trapezoidal square cylinder 13 at a constant speed, so that ash is uniformly coated on the whole tiles; ceramic tile lift thrust unit holds the threaded connection of seat 39 through lifting screw 38 and ceramic tile and goes up and down to cooperate the promotion of electric telescopic handle 41 and Z style of calligraphy ceramic tile push pedal 42, promote the ceramic tile in proper order on ceramic tile conveyer belt 29, thereby make the device automatic plaster the ceramic tile, save a large amount of manual works and time, make things convenient for staff's use.

The working principle of the device is as follows: when the tile plastering is needed, firstly, a worker connects the device with an external power supply, places the tile on the tile containing seat 39 manually, adjusts the operation of the lifting motor 35 through the controller 2, the lifting motor 35 drives the belt pulley 36 to rotate so as to enable the double-groove belt pulley 33 to start rotating, drives the lifting short shaft 32 to rotate through the double-groove belt pulley 33 so as to enable the lifting short shaft 32 to drive the lifting screw 38 to start rotating, thereby adjusting the height of the tile containing seat 39 and enabling the tile to be in contact with the Z-shaped tile push plate 42;

at the moment, the electric telescopic rod 41 is controlled to extend out, the electric telescopic rod 41 extends out to push the uppermost ceramic tile to the ceramic tile conveying belt 29 under the action of the Z-shaped ceramic tile push plate 42, the electric telescopic rod 41 is controlled to retract back to the original position after the ceramic tile conveying belt is pushed, at the moment, one end of the ceramic tile is positioned below the trapezoid square barrel 13, the driving motor 8 is controlled to start to work, the driving motor 8 rotates to drive the swinging shaft 10 to start rotating, the swinging shaft 10 drives the swinging sleeve shaft 11 to rotate, so that the swinging baffle plate 12 rotates at a high speed, meanwhile, ash in the ash containing barrel 4 begins to descend through self gravity, the ash enters the ash swinging sleeve 6, the ash is collected into the ash swinging sleeve 6 through the high-speed rotation of the swinging baffle plate 12, and simultaneously, the ash enters the trapezoid square barrel 13 through the ash swinging sleeve by the centrifugal force generated by the high-speed rotation of the swinging baffle plate 12, the ash falls onto the lower surface of the ceramic tile from the trapezoid square cylinder 13 and is coated on the ceramic tile in a triangular shape through a triangular plastering port 14 at the lower end of the trapezoid square cylinder 13;

meanwhile, the rotation of the driving motor 8 drives the transmission rotating shaft 25 to rotate under the action of the small transmission belt pulley 9, the large transmission belt pulley 27 and the transmission belt 28, so that the transmission roller 24 starts to rotate, the rotation of the transmission roller 24 drives the tile conveying belt 29 to start to rotate, so that the tile conveying belt 29 drives tiles to start to move at a constant speed, and the ash is uniformly coated on the tiles;

meanwhile, when the driving motor 8 works, the vibrator 20 is controlled to work, the vibrator 20 works to transmit the generated vibration force to the vibration bottom plate 19, the vibration bottom plate 19 performs vibration reduction under the action of the telescopic column 18 and the compression spring 17, and the vibration force between the ceramic tile and the vibration bottom plate 19 is reduced under the action of the rubber cushion 21, so that the ceramic tile performs stable vibration, and the ash is fully combined with the ceramic tile through the vibration of the ceramic tile, so that the stability of ceramic tile adhesion is ensured;

in the tile conveying process, the tiles are limited on the vibration bottom plate 19 through the two L-shaped tile pressing plates 22, so that the stability of the tile conveying process is effectively guaranteed, and the condition that plastering fails due to deviation in the tile conveying process caused by vibration of the vibration bottom plate 19 is prevented;

after the tile is plastered, controlling the driving motor 8 to stop working, controlling the lifting motor 35 to start working at the moment, so that the tile containing seat 39 rises to a height of the tile thickness, and the tile is contacted with the Z-shaped tile pushing plate 42 again and extends out again through the electric telescopic rod 41, so that the next tile is moved onto the tile conveying belt 29, and one end of the tile is positioned at the lower end of the trapezoidal square cylinder 13;

detecting the plastered ceramic tile by the infrared distance measuring sensor 44, judging that the ceramic tile is being taken away or has been taken away when the distance detected by the infrared distance measuring sensor 44 after the ceramic tile is taken away vertically exceeds a set value, waiting for a plurality of times, and controlling the driving motor 8 to work again after the ceramic tile is taken away, so as to plaster the next ceramic tile;

in this device, through the effect of vibration bottom plate 19 and support sliding plate 43, can guarantee steadily when making the ceramic tile transport on ceramic tile conveyer belt 29, can not make ceramic tile conveyer belt 29 take place to rock from top to bottom, also guaranteed the accuracy that infrared distance measuring sensor 44 detected simultaneously.

Above-mentioned technical scheme has only embodied the utility model discloses technical scheme's preferred technical scheme, some changes that this technical field's technical personnel probably made to some parts wherein have all embodied the utility model discloses a principle belongs to within the protection scope of the utility model.

Claims (8)

1. An automatic plastering device for building ceramic tiles comprises a base (1), wherein a ceramic tile conveying device is arranged on the base (1), a ceramic tile lifting and pushing device is arranged on one side of the base (1), and a controller (2) is arranged on the other side of the base (1), and the automatic plastering device for building ceramic tiles is arranged at the center above the base (1) and is provided with a ceramic tile vibrating device below;

the automatic tile plastering device comprises a base (1), a plastering support (3) is installed at the center above the base (1), an ash containing barrel (4) is installed above the plastering support (3), a plurality of ash hoppers (5) are installed at the lower end of the ash containing barrel (4), the ash hoppers (5) are uniformly distributed below the ash containing barrel (4), an ash swinging sleeve (6) is installed below the ash hoppers (5), the ash swinging sleeve (6) is horizontally installed below the ash hoppers (5), the upper surface of the ash swinging sleeve (6) is communicated with the ash hoppers (5), swinging bearings (7) are installed at the two ends inside the ash swinging sleeve (6), a driving motor (8) is installed at one end of the lower surface of the plastering support (3), a small transmission belt pulley (9) is installed at the rotating end of the driving motor (8), a throwing shaft (10) is installed at the rotating end of the driving motor (8), the throwing shaft (10) is connected with a throwing bearing (7), a plurality of throwing sleeve shafts (11) are installed on the throwing shaft (10), the throwing sleeve shafts (11) are located in the ash material throwing sleeve (6), a plurality of throwing baffles (12) are installed on the throwing sleeve shafts (11), a trapezoidal square cylinder (13) is installed on the lower surface of the ash material throwing sleeve (6), the upper end of the trapezoidal square cylinder (13) is communicated with the lower surface of the ash material throwing sleeve (6), the lower end of the trapezoidal square cylinder (13) is an open port, and the lower ends of the side surfaces of two sides of the trapezoidal square cylinder (13) are triangular ash smearing ports (14);

the ceramic tile vibrating device comprises a base (1), a transmission groove (15) is formed in the center of the upper surface of the base, four spring sleeves (16) are arranged at the four corners of the center of the transmission groove (15), a compression spring (17) is arranged in the spring sleeve (16), a telescopic column (18) is arranged at the upper end of the compression spring (17), the telescopic columns (18) are movably connected with the spring sleeve (16), the upper ends of the four telescopic columns (18) are provided with vibrating bottom plates (19), vibrators (20) are arranged on two sides of the center of the lower surface of the vibration bottom plate (19), the upper surface of the vibration bottom plate (19) is provided with a rubber cushion (21), the front side and the rear side of the upper surface of the vibration bottom plate (19) are provided with two L-shaped tile press plates (22), the inner side surface of the L-shaped tile pressing plate (22) is a trapezoidal surface, and a rubber pad (23) is arranged on the inner upper surface of the L-shaped tile pressing plate (22).

2. An automatic plastering device for building tiles according to claim 1, the tile conveying device comprises a transmission groove (15), wherein two ends of the interior of the transmission groove (15) are provided with transmission rollers (24), the centers of the side surfaces of both sides of the transmission roller (24) are provided with transmission rotating shafts (25), the transmission rotating shaft (25) is connected with the transmission groove (15) through a transmission bearing (26), one end of one of the transmission rotating shafts (25) is provided with a large transmission belt pulley (27), a transmission belt (28) is sleeved between the large transmission belt pulley (27) and the small transmission belt pulley (9), a tile conveying belt (29) is sleeved between the two transmission rollers (24), the tile conveying belt (29) is located above the vibration bottom plate (19), and the tile conveying belt (29) is connected with the vibration bottom plate (19) in a sliding mode.

3. The automatic plastering device for building ceramic tiles according to claim 1, wherein the tile lifting pushing device comprises a lifting base (30) installed on the side surface of one side of the base (1), lifting bearings (31) installed at four corners of the upper surface of the lifting base (30), a lifting short shaft (32) installed in the lifting bearings (31), a double-groove belt pulley (33) installed on the lifting short shaft (32), a connecting belt (34) sleeved between the double-groove belt pulley (33), a lifting motor (35) installed on the lifting base (30), a belt pulley (36) installed at the rotating end of the lifting motor (35), a belt (37) sleeved between the belt pulley (36) and one of the double-groove belt pulley (33), and a lifting screw (38) installed at the upper end of the lifting short shaft (32), the ceramic tile storage device is characterized in that a ceramic tile storage seat (39) is sleeved on the four lifting screws (38), the ceramic tile storage seat (39) is in threaded connection with the lifting screws (38), a fixed cross rod (40) is installed above the lifting screws (38), the fixed cross rod (40) is connected with the lifting screws (38) through lifting bearings (31), an electric telescopic rod (41) is installed on the side surface of one side of the fixed cross rod (40), and a Z-shaped ceramic tile push plate (42) is installed at the telescopic end of the electric telescopic rod (41).

4. Automatic plastering device for building tiles according to claim 3, wherein said Z-shaped tile pushing plate (42) is located above the tile conveyor belt (29).

5. Automatic plastering device for building tiles according to claim 1, characterized in that the vibrating base plate (19) is provided on both sides with a support sliding plate (43), the support sliding plate (43) being located below the tile conveyor belt (29).

6. The automatic plastering device for building tiles according to claim 1, wherein an infrared distance measuring sensor (44) is installed on a side surface inside the driving groove (15), and the detecting direction of the infrared distance measuring sensor (44) is perpendicular to the driving groove (15).

7. An automatic plastering device for building tiles according to claim 1, wherein the swing gate (12) is uniformly distributed on the swing sleeve shaft (11), and the swing gate (12) is installed at an angle with the swing sleeve shaft (11).

8. Automatic plastering device for building tiles according to claim 1, wherein the inside surface of said L-shaped tile press plate (22) is in sliding contact with the tiles.

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