CN113653298A

CN113653298A - Tile sticking auxiliary system and tile sticking method thereof

Info

Publication number: CN113653298A
Application number: CN202110880256.6A
Authority: CN
Inventors: 梁华站; 朱德康; 田忠贵; 侯颖昭; 易忠彪; 李发浩; 周文虎; 孙亮
Original assignee: China Construction Eighth Engineering Division Co Ltd
Current assignee: China Construction Eighth Engineering Division Co Ltd
Priority date: 2021-08-02
Filing date: 2021-08-02
Publication date: 2021-11-16

Abstract

The invention relates to a tile-tiling auxiliary system and a tile-tiling method thereof, wherein the tile-tiling auxiliary system comprises: a shell with an accommodating space formed inside, wherein one side of the shell is provided with a knocking port and a sucking disc port which are communicated with the accommodating space; the telescopic piece is arranged on the inner wall of the shell; the adsorption component is arranged at one end, close to the knocking port, of the telescopic part corresponding to the sucker port, is close to the knocking port by lengthening the telescopic part, so that the adsorption component is driven to extend out of the sucker port to adsorb the face brick, and the adsorption component is separated from the face brick by shortening the telescopic part; the corresponding knocking structure is arranged in the shell, the knocking structure extends out of the knocking opening and tightly presses the face brick by lengthening the knocking structure, the knocking structure retracts into the accommodating space by shortening the knocking structure, and then the face brick is knocked back and forth by adjusting the knocking structure in a telescopic mode, so that the face brick is tightly attached to a construction surface; locate the handle that the shell keeps away from one side of strikeing the mouth. This application ensures that the face brick is smoothly spread and pastes on the construction face, avoids producing the phenomenon of hollowing, and the construction is more simple, has improved the efficiency of construction.

Description

Tile sticking auxiliary system and tile sticking method thereof

Technical Field

The invention relates to the technical field of buildings, in particular to a tile-sticking auxiliary system and a tile-sticking method thereof.

Background

Can decorate the face brick subsides on the wall in building decoration, when present with the face brick subsides locate the wall, all be that the handheld face brick cooperation viscous material of user pastes at wall or subaerial, because the face brick surface is comparatively smooth, thinner, has certain weight, it is difficult to take, especially with the vertical attached in wall of face brick, the problem that the face brick slippage goes out of hand appears more easily. When the face brick is not at ordinary times, the user can use the mallet to beat to make the face brick be in smooth state, the efficiency of construction is lower, wastes time and energy, and constructor is tired construction for a long time, can't guarantee the face brick and spread the effect of subsides, and the roughness is relatively poor, has the phenomenon of hollowing even.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a tile-sticking auxiliary system and a tile-sticking method thereof so as to solve the problems of difficulty in taking, low efficiency, time and labor waste, poor flatness and even hollowing of the existing manual tile-sticking.

To achieve the above object, the present invention provides a tile attachment assisting system for laying a tile on a construction surface, the tile attachment assisting system comprising:

a shell with an accommodating space formed inside, wherein one side of the shell is provided with a knocking port and a sucking disc port which are communicated with the accommodating space;

the telescopic piece is arranged on the inner wall of the shell and can be telescopically adjusted along the direction close to or far away from the knocking port;

the adsorption component is arranged at one end, close to the knocking port, of the telescopic piece corresponding to the sucker port and is positioned in the accommodating space, the telescopic piece is lengthened to enable the telescopic piece to be close to the knocking port, the adsorption component is driven to extend out of the sucker port to adsorb the face brick, and the telescopic piece is shortened to enable the adsorption component to be separated from the face brick;

the knocking structure is arranged in the shell corresponding to the knocking port, is positioned in the accommodating space and is adjustable in length, the knocking structure extends out of the knocking port and presses the face brick by lengthening the knocking structure, the knocking structure retracts into the accommodating space by shortening the knocking structure, and the face brick is knocked back and forth by adjusting the knocking structure in a telescopic mode, so that the face brick is tightly attached to the construction surface; and

and the handle is arranged on one side of the shell, which is far away from the knocking opening.

According to the invention, a user can easily hold the tile sticking auxiliary system by holding the handle, the adsorption component extends out of the suction disc opening to adsorb the face tiles by adjusting the length of the telescopic part, the tile sticking auxiliary system is moved to move the face tiles to the construction surface to be paved, the adsorption component is separated from the face tiles by adjusting the length of the telescopic part, the face tiles are knocked back and forth by telescopic adjustment of the knocking structure, and the face tiles are tightly attached to the construction surface. Can easily take up the face brick through handle and adsorption component, ensure simultaneously can not drop and damage at the in-process face brick that removes the face brick, can ensure through knocking the structure that the face brick is spread smoothly and paste on the construction face, avoid producing the phenomenon of hollowing, the construction is more simple, has improved the efficiency of construction.

The tile-sticking auxiliary system is further improved in that the knocking structure comprises a driving assembly and a pressing member, wherein the driving assembly is arranged at one end, close to the knocking port, of the telescopic member corresponding to the knocking port, and the pressing member is arranged at one end, far away from the telescopic member, of the driving assembly;

the driving assembly can be adjusted in a telescopic mode in a direction close to or far away from the knocking opening, the pressing piece extends out of the knocking opening and presses the face brick through lengthening of the driving assembly, and the pressing piece retracts into the containing space through shortening of the driving assembly.

A further improvement of the tile assistance system of the present invention is that the drive assembly comprises a stationary housing, a motor, a drive plate and a rotating rod;

the fixed shell is arranged at one end, close to the knocking port, of the telescopic piece corresponding to the knocking port, an installation space is formed in the fixed shell, and an opening communicated with the installation space is formed in one side of the fixed shell;

the motor is arranged in the fixed shell;

the transmission plate is horizontally arranged corresponding to the opening and is in driving connection with the motor;

one end of the rotating rod is hinged to the transmission plate, and the other end of the rotating rod is hinged to the pressing piece;

the motor drives the transmission plate to rotate, so that the rotating rod is driven to swing, and the pressing piece extends out of the knocking opening or retracts into the accommodating space.

The tile-sticking auxiliary system is further improved in that the driving assembly further comprises a driving wheel in driving connection with the motor, a mounting piece arranged on the inner wall of the fixed shell corresponding to the opening, a driven wheel with one side rotatably connected with the mounting piece and the other side fixedly connected with the driving plate through a fixing piece, and a transmission belt wound on the driving wheel and the driven wheel;

the motor drives the driving wheel to rotate, the driven wheel and the driving wheel synchronously rotate through transmission of the transmission belt, and the driven wheel drives the transmission plate to rotate around the fixing piece.

A further improvement of the tile assistance system of the present invention is that the drive assembly further comprises a connecting seat having one end fixedly connected to the pressing member and the other end hingedly connected to the rotating lever;

and a sliding channel which is communicated with the opening and the mounting space and is used for accommodating the connecting seat is formed in the fixed shell, and under the driving action of the motor, the connecting seat extends out of the opening or retracts into the sliding channel, so that the pressing piece is driven to extend out of the knocking opening or retract into the accommodating space.

The tile-sticking auxiliary system is further improved in that the driving assembly further comprises a sleeve sleeved on the connecting seat and a guide rod arranged on the inner wall of the sliding channel corresponding to the sleeve;

the outer wall of the sleeve is provided with a guide groove matched with the guide rod along the length direction of the outer wall, and the sleeve is arranged on the guide rod in a sliding mode through the guide groove.

The tile-sticking auxiliary system is further improved in that the adsorption component comprises at least one pair of connecting rods which are symmetrically arranged and suckers which are arranged at one ends of the connecting rods corresponding to the sucker openings;

the other end of the connecting rod is fixedly connected with one end, close to the sucker opening, of the telescopic piece.

A further improvement of the tile auxiliary system of the present invention is that the adsorption assembly further comprises a slider disposed on the connecting rod;

the inner wall of the shell is provided with a sliding groove which is communicated with the accommodating space and matched with the sliding block, the arrangement direction of the sliding groove is consistent with the telescopic direction of the connecting rod, and the sliding block is slidably arranged in the sliding groove.

The tile auxiliary system is further improved in that the tile auxiliary system further comprises a supporting assembly arranged on the outer side face, provided with the knocking opening, of the shell, and the length of the supporting assembly is adjustable.

The invention also provides a tile-tiling method using the tile-tiling auxiliary system, which comprises the following steps:

holding the handle and aligning the tile assist system with the tile to be tiled;

starting the telescopic piece to extend, so that the adsorption component extends out of the sucker port to adsorb the face brick;

moving the tile sticking auxiliary system to move the face tiles to the construction surface for paving;

starting the telescopic piece to shorten, so that the adsorption component is separated from the face brick;

and starting the knocking structure to telescopically adjust so as to knock the face brick back and forth, so that the face brick is tightly attached to the construction surface.

Drawings

Fig. 1 is a perspective view from one perspective of the tile assistance system of the present invention.

Fig. 2 is a perspective view of another perspective of the tile assistance system of the present invention.

Fig. 3 is a cross-sectional view of fig. 2.

Fig. 4 is a cross-sectional view of a striking structure in the tile assistance system of the present invention.

Fig. 5 is a schematic view of the construction of the sleeve and guide bar in the tile assistant system of the present invention.

Fig. 6 is a schematic view of the configuration of the telescoping member, the striking mechanism and the suction assembly of the tile assistance system of the present invention.

Fig. 7 is a schematic view of the structure of a support assembly in the tile assistance system of the present invention.

In the figure: the device comprises a shell 10, a containing space 11, a knocking opening 12, a sucking disc opening 13, a sliding chute 14, a telescopic part 20, an adsorption component 30, a connecting rod 31, a sliding block 32, a sucking disc 33, a knocking structure 40, a driving component 41, a fixed shell 410, an opening 4101, a sliding channel 4102, a motor 411, a transmission plate 412, a fixing part 4121, a rotating rod 413, a transmission belt 414, a driving wheel 415, a rod part 4151, a driven wheel 416, a mounting part 4161, a connecting seat 417, a sleeve 418, a guide groove 4181, a guide rod 419, a pressing part 42, a protection pad 43, a handle 50, a protection cover 51, a supporting component 60, a supporting column 61, a screw rod 62 and a supporting block 63.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention provides a tile pasting auxiliary system and a tile pasting method thereof, which are used for paving tile pasting. The face brick lifting device comprises a shell, a telescopic piece, an adsorption component, a knocking structure and a handle, wherein the face brick can be easily lifted through the handle and the adsorption component, meanwhile, the face brick is prevented from falling and being damaged in the face brick moving process, the face brick can be smoothly paved and attached on a construction surface through the knocking structure, the hollowing phenomenon is avoided, the construction is simpler, and the construction efficiency is improved.

The tile-tiling assistance system and the tile-tiling method of the present invention will be described below with reference to the accompanying drawings.

Referring to fig. 2 and 3, in this embodiment, a tile attachment system for applying tiles to a construction surface, the tile attachment system comprises: a shell 10 with an accommodating space 11 formed inside, wherein one side of the shell 10 is provided with a knocking port 12 and a sucking disc port 13 which are communicated with the accommodating space 11; the telescopic piece 20 is arranged on the inner wall of the shell 10, and the telescopic piece 20 can be telescopically adjusted along the direction close to or far away from the knocking port 12; the adsorption component 30 is arranged at one end, close to the knocking port 12, of the telescopic part 20, corresponding to the sucker port 13, of the telescopic part 20, the adsorption component 30 is located in the accommodating space 11, the telescopic part 20 is lengthened to enable the adsorption component to be close to the knocking port 12, the adsorption component 30 is driven to extend out of the sucker port 13 to adsorb the face bricks, the telescopic part 20 is shortened to enable the adsorption component 30 to be separated from the face bricks, and the adsorption component is retracted into the accommodating space 11; the knocking structure 40 is arranged in the shell 10 corresponding to the knocking port 12, the knocking structure 40 is located in the accommodating space 11, the length of the knocking structure 40 is adjustable, the knocking structure 40 extends out of the knocking port 12 and presses the face brick tightly through lengthening the knocking structure 40, the knocking structure 40 retracts into the accommodating space 11 through shortening the knocking structure 40, and then the face brick is knocked back and forth through adjusting the knocking structure 40 in a telescopic mode, so that the face brick is attached to a construction surface tightly; a handle 50 is provided on the side of the housing 10 remote from the striking port 12.

The user can be relaxed through holding handle 50 in the tiling auxiliary system in this embodiment holds tiling auxiliary system, through transferring long extensible member 20, makes adsorption component 30 stretch out sucking disc mouth 13 in order to adsorb the face brick, removes tiling auxiliary system and removes the face brick and spread to the face of being under construction on, through transferring short extensible member 20, makes adsorption component 30 break away from the face brick, through the flexible regulation of strikeing structure 40 in order to strike the face brick round trip, makes the face brick closely attached on the face of being under construction. Can easily take up the face brick through handle 50 and adsorption component 30, ensure simultaneously that the in-process face brick that removes the face brick can not drop and damage, can ensure through knocking structure 40 that the face brick is smoothly spread and is pasted on the construction face, avoid producing the phenomenon of hollowing, the construction is more simple, has improved the efficiency of construction.

Referring to fig. 3 and 4, in the present embodiment, the striking structure 40 includes a driving assembly 41 disposed at an end of the telescopic member 20 close to the striking opening 12 corresponding to the striking opening 12, and a pressing member 42 disposed at an end of the driving assembly 41 far from the telescopic member 20; the driving assembly 41 can be adjusted in a telescopic mode in a direction close to or far away from the knocking opening 12, the pressing piece 42 extends out of the knocking opening 12 and presses the face brick through the length-adjusting driving assembly 41, and the pressing piece 42 retracts into the accommodating space 11 through the length-adjusting driving assembly 41. Preferably, the one end that compresses tightly piece 42 and keep away from drive assembly 41 is equipped with and has elastic protection pad 43, through the impact force when protection pad 43 can effectual buffering compress tightly piece 42 and face brick contact, avoids damaging the face brick.

Referring to fig. 3 and 4, further, the driving assembly 41 includes a fixed case 410, a motor 411, a transmission plate 412, and a rotation rod 413; the fixed shell 410 is arranged at one end of the telescopic part 20 close to the knocking port 12 corresponding to the knocking port 12, an installation space is formed in the fixed shell 410, and an opening 4101 communicated with the installation space is arranged at one side of the fixed shell; the motor 411 is arranged in the fixed shell 410; the driving plate 412 is horizontally disposed corresponding to the opening 4101 and is drivingly connected to the motor 411; one end of the rotating rod 413 is hinged to the transmission plate 412, and the other end of the rotating rod 413 is hinged to the pressing piece 42; the driving plate 412 is driven to rotate by the motor 411, and then the rotating rod 413 is driven to swing, so that the pressing piece 42 extends out of the knocking opening 12 or retracts into the accommodating space 11. Preferably, the motor 411 is a micro motor 411.

Referring to fig. 3 and 4, further, the driving assembly 41 further includes a driving wheel 415 drivingly connected to the motor 411, a mounting member 4161 provided on an inner wall of the stationary housing 410 corresponding to the opening 4101, a driven wheel 416 rotatably connected to the mounting member 4161 on one side and fixedly connected to the driving plate 412 through a fixing member 4121 on the other side, and a driving belt 414 wound around the driving wheel 415 and the driven wheel 416; the driving wheel 415 is driven to rotate by the motor 411, the driven wheel 416 and the driving wheel 415 rotate synchronously through the transmission of the transmission belt 414, and the driven wheel 416 drives the transmission plate 412 to rotate around the fixing piece 4121. Stability in rotation of driven wheel 416 is ensured by mounting member 4161.

Referring to fig. 3 and 4, preferably, the bottom of the motor 411 is fixedly connected to the inner wall of the fixed casing 410 through a reinforcing member, and the reinforcing member effectively reinforces the motor 411 to prevent the motor 411 from shaking too much during operation, an output shaft of the motor 411 is fixedly connected to one side of the driving wheel 415, and the driving assembly 41 further includes a rod member 4151, one end of the rod member 4151 is fixedly connected to the inner wall of the fixed casing 410, and the other end of the rod member 4151 is rotatably connected to the driving wheel 415. The stability of the driving wheel 415 in rotation is ensured by the lever 4151.

Referring to fig. 3 and 4, further, the driving assembly 41 further includes a connecting seat 417 having one end fixedly connected to the pressing member 42 and the other end hinge-connected to the rotating rod 413; a sliding channel 4102 communicating with the opening 4101 and the installation space and accommodating the connecting seat 417 is formed in the fixing housing 410, and under the driving action of the motor 411, the connecting seat 417 extends out of the opening 4101 or retracts into the sliding channel 4102, so as to drive the pressing element 42 to extend out of the knocking port 12 or retract into the accommodating space 11. The connection seat 417 is limited by the sliding channel 4102, so that the connection seat 417 moves back and forth in the sliding channel 4102.

Referring to fig. 3, 4 and 5, further, the driving assembly 41 further includes a sleeve 418 sleeved on the connecting seat 417 and a guiding rod 419 disposed on the inner wall of the sliding channel 4102 corresponding to the sleeve 418; the sleeve 418 has a guide groove 4181 formed along its length in the outer wall thereof to match the guide rod 419, and the sleeve 418 is slidably mounted on the guide rod 419 through the guide groove 4181. Preferably, the guide grooves 4181 are symmetrically formed on the outer wall of the sleeve 418, and the guide rods 419 are two and correspond to the guide grooves 4181 one by one. The limit of the sleeve 418 is realized by the guide groove 4181 and the guide rod 419, and the friction between the connection seat 417 and the sliding channel 4102 is reduced.

Referring to fig. 3 and 4, the driving wheel 415 is driven by the motor 411 to rotate, the driven wheel 416 and the driving wheel 415 rotate synchronously through the transmission of the transmission belt 414, and further the transmission plate 412 is driven to rotate around the joint of the transmission rod 413 and the motor 411, the transmission plate 412 rotates and further drives the transmission rod 413 to swing, the transmission rod 413 can rotate along with the transmission plate 412, meanwhile, the transmission rod 413 is hinged to the connection seat 417, and the connection seat 417 can move in the sliding channel 4102, the connection end of the transmission rod 413 and the connection seat 417 can move towards the direction close to or far away from the opening 4101, the pressing piece 42 can extend out of the knocking opening 12 or retract into the accommodating space 11 under the action of the transmission rod 413, so that the automatic brick knocking effect is realized, the smoothness of tile laying is ensured, and the manpower is saved.

Referring to fig. 3 and 6, further, the suction assembly 30 includes at least one pair of connecting rods 31 symmetrically disposed and suction cups 33 disposed at one end of the connecting rods 31 corresponding to the suction cup ports 13; the other end of the connecting rod 31 is fixedly connected to the end of the telescopic member 20 close to the suction cup opening 13. Preferably, each pair of connecting rods 31 is symmetrically connected to the outer wall of the driving assembly 41 to ensure that the knocking structure 40 and the adsorption assembly 30 are moved by the telescopic assembly, so that the knocking structure 40 is stressed in a balanced manner, and the stability of movement is enhanced.

Referring to fig. 3, further, the suction assembly 30 further includes a slider 32 disposed on the connecting rod 31; the inner wall of the housing 10 is provided with a chute 14 which is communicated with the accommodating space 11 and is matched with the sliding block 32, the arrangement direction of the chute 14 is consistent with the extension direction of the extensible member 20, and the sliding block 32 is slidably arranged in the chute 14. Through the cooperation of slider 32 and spout 14, carry on spacingly to connecting rod 31 to ensure the stability that connecting rod 31 removed, the skew takes place when having prevented connecting rod 31 to remove.

Referring to fig. 3 and 6, preferably, the connecting rod 31 includes a cross rod section fixedly connected to the outer wall of the fixing casing 410, a vertical rod section vertically and fixedly connected to the cross rod section and disposed corresponding to the chuck opening 13, and a buffer member disposed on one side of the vertical rod section away from the chuck opening 13 and having elasticity, the direction of the vertical rod section is consistent with the extending and retracting direction of the extensible member 20, and the slider 32 is disposed on the vertical rod section. The buffer member having elasticity can effectively buffer the acting force of the collision between the vertical rod and the inner wall of the fixed case 410.

Referring to fig. 3, in a specific embodiment, a mounting groove communicated with the accommodating space and used for accommodating the extensible member 20 is formed in the housing 10, a telescopic channel communicated with the accommodating space, the mounting groove and the knocking port 12 and used for accommodating the knocking structure 40 is formed in the housing 10, one end of the extensible member 20 is fixedly connected to the inner wall of the mounting groove through a connecting piece, the other end of the extensible member 20 can extend out of the mounting groove to enter the telescopic channel by lengthening the extensible member 20, and the knocking structure 40 can extend out of the knocking port 12 by lengthening the knocking structure 40. Be formed with in the casing 10 with flexible passageway intercommunication and with the spacing passageway of horizontal pole section adaptation, be formed with in the casing 10 with spacing passageway intercommunication and supply the removal passageway of holding vertical pole section, be formed with in the casing 10 with removal passageway and sucking disc mouth 13 intercommunication and supply the sucking disc groove of holding sucking disc 33, spacing passageway set up the direction unanimous with the flexible direction of extensible member 20, removal passageway and spout 14 intercommunication. Spacing passageway plays limiting displacement, removal passageway to the removal of horizontal pole section and plays limiting displacement to the montant section, because horizontal pole section both ends are connected with knocking structure 40 and montant section respectively, and then can ensure connecting rod 31 and the stability when knocking structure 40 and removing.

Preferably, the telescopic member 20 is two and is an electric push rod, the striking structure 40 is one, and the striking opening 12 is one side and is located at the middle of the side.

Referring to fig. 7, further, the tile assistant system further includes a support member 60 provided on an outer side surface of the housing 10 having the striking port 12, the support member 60 being adjustable in length.

Referring to fig. 7, further, the supporting assembly 60 includes a supporting column 61 disposed on an outer side of the casing 10 having the striking opening 12, a screw 62 threaded to the supporting column 61, and a supporting block 63 disposed at an end of the screw 62 away from the supporting column 61; the length of the support assembly 60 is adjusted by adjusting the length of the overlapping portion of the screw 62 and the support post 61. Preferably, the supporting columns 61 are two pairs and are symmetrically arranged, and the supporting blocks 63 are made of elastic materials such as rubber.

When adsorption component 30 withdrawal accommodation space 11, supporting component 60 supports and props on the face brick, adjusts through flexible beat structure 40 in order to beat back and forth the face brick through the length of adjusting supporting component 60, can adjust the route of beating the structure 40 motion, and then adjust the effort of beating the structure 40 to the face brick and the frequency of beating to the demand of the not unidimensional face brick of adaptation.

Referring to fig. 1, preferably, the tile auxiliary system further includes a protection sleeve 51 covering the handle 50, the user can conveniently control the movement of the device and carry the device through the handle 50, and the comfort level of the user during use is effectively increased through the protection sleeve 51, so that the user can conveniently control the device to attach the microcrystalline ceramic plate, and the comfort level of the user is increased.

The workflow of the tile assistance system of the present invention is explained below.

Grip handle 50 and aim at the face brick of waiting to spread the tiling auxiliary system, through transferring the length the extensible member 20 makes it be close to strike mouthful 12, and then drive adsorption component 30 stretches out sucking disc mouth 13 is in order to adsorb the face brick, removes the tiling auxiliary system and removes the face brick and spread the subsides on moving to the construction face. By shortening the telescopic member 20, the suction assembly 30 is disengaged from the tile and retracted into the receiving space 11. The support assembly 60 is supported against the face brick and the knocking structure 40 is started to telescopically adjust so as to knock the face brick back and forth, so that the face brick is tightly attached to the construction surface.

the handle 50 is held and the tile assist system is aligned with the tile to be tiled.

The expansion member 20 is actuated to extend, so that the adsorption component 30 extends out of the suction disc opening 13 to adsorb the face brick.

And the tile moving auxiliary system moves the face tiles to the construction surface for paving and pasting.

The telescoping member 20 is actuated to shorten and disengage the suction assembly 30 from the tile.

The knocking structure 40 is started to telescopically adjust so as to knock the face brick back and forth, so that the face brick is tightly attached to a construction surface.

Claims

1. A tile attachment assistance system for applying a tile to a construction surface, the tile attachment assistance system comprising:

2. The tile assistance system of claim 1, wherein the striking mechanism comprises a drive assembly disposed at an end of the telescoping member proximate the striking port corresponding to the striking port and a hold down disposed at an end of the drive assembly distal from the telescoping member;

3. The tile assistance system of claim 2, wherein the drive assembly comprises a stationary housing, a motor, a drive plate, and a rotating shaft;

the motor is arranged in the fixed shell;

4. The tile assistant system of claim 3, wherein the driving assembly further comprises a driving wheel drivingly connected to the motor, a mounting member disposed on an inner wall of the stationary housing corresponding to the opening, a driven wheel having one side rotatably connected to the mounting member and the other side fixedly connected to the driving plate by a fixing member, and a driving belt wound around the driving wheel and the driven wheel;

5. The tile assistance system of claim 3, wherein the drive assembly further comprises a connecting base having one end fixedly connected to the hold down member and another end hingedly connected to the pivot rod;

6. The tile assistant system of claim 5, wherein the driving assembly further comprises a sleeve sleeved on the connecting seat and a guide rod arranged on the inner wall of the sliding channel corresponding to the sleeve;

7. The tile assistance system of claim 1, wherein the suction assembly comprises at least one pair of symmetrically disposed connecting rods and suction cups positioned at one end of the connecting rods corresponding to suction cup ports;

8. The tile assistance system of claim 7, wherein the suction assembly further comprises a slider disposed on the connecting rod;

9. The tile assistance system of claim 1, further comprising a support assembly, adjustable in length, disposed on an exterior side of the housing having the strike opening.

10. A tiling method using the tile assistance system of claim 1, comprising the steps of:

starting the telescopic piece to shorten, so that the adsorption component is separated from the face brick; and