CN110924652A

CN110924652A - Ceramic tile laying device

Info

Publication number: CN110924652A
Application number: CN201911281100.5A
Authority: CN
Inventors: 张淑芝
Original assignee: Individual
Current assignee: Dongyang Weicheng Construction Engineering Co Ltd
Priority date: 2019-12-13
Filing date: 2019-12-13
Publication date: 2020-03-27
Anticipated expiration: 2039-12-13
Also published as: CN110924652B

Abstract

The invention relates to a laying device, in particular to a ceramic tile laying device which comprises a support, an impact mechanism, a belt mechanism and a base.

Description

Ceramic tile laying device

Technical Field

The invention relates to a laying device, in particular to a tile laying device.

Background

The existing house decoration has the size of ceramic tiles, and the ceramic tile laying device is designed in order to reduce the workload of bricklayers.

Disclosure of Invention

The invention mainly solves the technical problem of providing a tile laying device, which can clamp tiles and convey the tiles upwards, can adjust the height, can knock the tiles, and can adjust the width to adapt to different tiles.

In order to solve the technical problem, the invention relates to a laying device, in particular to a tile laying device which comprises a support, an impact mechanism, a belt mechanism and a base.

The support is in sliding fit with the base, the impact mechanism is in sliding fit with the base, and the belt mechanism is connected with the support.

As a further optimization of the technical scheme, the support of the ceramic tile laying device comprises four T-shaped frames, eight moving rods, two transmission gears, eight fixed screw rods, four belt chutes, two variable-pitch supports, two pulleys and a support sliding rod, wherein the four T-shaped frames are in sliding fit, the upper parts of the T-shaped frames are hollow, the moving rods are in sliding fit with the T-shaped frames, the moving rods are provided with eight moving rods, teeth are machined on the moving rods, the four transmission gears are arranged, the transmission gears are positioned in the T-shaped frames and are in sliding fit with the T-shaped frames, the transmission gears are meshed with the moving rods, the four fixed screw rods are provided, the fixed screw rods are in threaded fit with the T-shaped frames, the eight belt chutes are fixed on the moving rods and are in sliding fit with a belt mechanism, the two variable-pitch supports are fixed on two sides of the lower parts of the T-shaped frames, the pulleys are fixed on, the pulley is in sliding fit with the belt mechanism, the support sliding rod is fixed at the lower part of the T-shaped frame, and the support sliding rod is in sliding fit with the base; the T-shaped frame comprises an upper chute, a rear chute and a front chute, the upper chute is square and hollow, the upper chute is in sliding fit with the moving rod, the rear chute is positioned at the rear part of the T-shaped frame, the rear chute is in sliding fit with the other T-shaped frame, the front chute is positioned at the front part of the T-shaped frame, and the front chute is in sliding fit with the rear chute of the other T-shaped frame; the variable-pitch support comprises a fixed plate, a bent support, two adjusting screws, a baffle and two sliding threaded plates, wherein two through holes are processed in the fixed plate, the fixed plate is fixed on two sides of the lower part of the T-shaped frame through the screws, the bent support is fixed on the fixed plate, teeth are processed at the end part of the bent support, the two adjusting screws are in threaded fit with the baffle, the baffle is positioned at one end of the bent support, the sliding threaded plates are in sliding fit with the adjusting screws, and teeth are processed at one side of the sliding threaded plates; the pulley comprises a pulley bracket and four wheels, the pulley bracket is fixed on the bent bracket, and the four wheels are in contact with the belt mechanism; the support slide bar includes trapezoidal frame, chain link piece, screw, connecting plate, and the trapezoidal frame is equipped with two, is connected through the connecting plate between the trapezoidal frame, connecting plate and base sliding fit, and the chain link piece is located the upper portion of trapezoidal frame, and the processing of chain link piece middle part has the screw hole, screw and chain link piece screw-thread fit, and the screw contacts with the T-shaped frame, and the connecting plate is located the middle part of trapezoidal frame.

As a further optimization of the technical scheme, the impact mechanism of the tile laying device comprises a bending frame, three rubber hammers, a chain, a first pinion and a motor, wherein the rubber hammers are matched with a sliding rod of the bending frame; the bending frame comprises three frames, through holes, hinges, supporting rods, a motor base, a lower sliding block and four fixing pins, the three frames are connected through the hinges, the through holes are formed in the frames, the through holes are in sliding fit with the rubber hammers, the four hinges are fixed with the frames, the supporting rods are located at the lower portion of the bending frame, the lower portions of the supporting rods are in sliding fit with the base, the motor base is located at the lower portion of the bending frame, the cross section of the lower sliding block is trapezoidal, the lower sliding block is in sliding fit with the base, the four fixing pins are arranged, and the fixing pins are located on the; the rubber hammer comprises four hammer bodies, connecting shafts and two chain wheels, wherein each hammer body group is fixed on the connecting shafts, the connecting shafts are in sliding fit with the through holes, and the chain wheels are connected with the chains.

As a further optimization of the technical scheme, the belt mechanism of the tile laying device comprises a collecting frame, a driving motor, a chain connecting rod, a clamping device, a belt and a small belt, the collecting rack is provided with two guide wheels I, two guide wheels II, two transition wheels, an inner wheel I and an inner wheel II, the collecting rack is fixed on a T-shaped rack, a driving motor is fixed on the inner side of the collecting rack, a chain connecting rod is connected with the inner wheel II, a clamping device is fixed on a belt, the small belt is provided with two small belts, the small belt is connected with the guide wheel I, the small belt is connected with the guide wheel II, the guide wheel I is provided with two guide wheels, the guide wheel II is provided with two transition wheels, the transition wheels are in sliding fit with the collecting rack, the inner wheel I is provided with two inner wheels, the inner wheel I is in sliding fit with the collecting rack, the inner wheel I is connected with the guide wheel II, the inner wheel II is provided with two guide wheels, the inner wheel II is in; the clamp comprises a belt connecting plate, a guide post, a clamping plate, a helical gear rod and a top plate, wherein four through holes are processed in the upper portion of the belt connecting plate, the belt connecting plate is fixed on a belt through screws, the guide post is fixed on the upper portion of the clamping plate, the guide post is in sliding fit with the belt connecting plate, the middle of the clamping plate is in sliding fit with the helical gear rod, threads are processed in the middle of the helical gear rod, the middle of the helical gear rod is in threaded fit with the belt connecting plate, teeth are processed at one end of the helical gear rod, and the top plate is fixed in the.

As a further optimization of the technical scheme, the base of the tile laying device comprises base blocks, base gears, base sliding grooves, wall guide wheel frames, wall guide wheels, pulley supports and bottom pulleys, wherein the base blocks are square, trapezoidal grooves are formed in the middle of the base blocks, the middle of each base block is in sliding fit with a support sliding rod, the number of the base gears is two, the inner sides of the base gears are meshed with the upper portions of the lower sliding blocks, the outer sides of the base gears are meshed with the inner sides of the support sliding rods, the base sliding grooves are in sliding fit with the lower sliding blocks, the wall guide wheel frames are fixed to the front portions of the base blocks, the wall guide wheels are in sliding fit with the base blocks, the pulley supports are located on the lower portions of the base blocks and are fixed to the lower portions of the base blocks through screws, the number of the pulley supports is four, and the.

As a further optimization of the technical scheme, the T-shaped frame of the ceramic tile laying device is made of aluminum alloy.

As a further optimization of the technical scheme, the hammer body of the tile laying device is made of rubber.

As a further optimization of the technical scheme, the clamping plate of the tile laying device is made of stainless steel.

The ceramic tile laying device has the beneficial effects that:

according to the tile laying device, tiles can be tightened and conveyed upwards, the height of the device can be adjusted, the device can knock the tiles, and the width of the device can be adjusted to adapt to different tiles.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

Fig. 1 is a schematic view of a tile installation device according to the present invention.

Fig. 2 is a schematic view of the other side of a tile installation device according to the invention.

Fig. 3 is a schematic view of the structure of a support 1 of a tile laying device according to the invention.

Fig. 4 is a schematic view of the other side of the support 1 of the tile installation device according to the invention.

Fig. 5 is a schematic view of the structure of a T-shaped frame 1-1 of a tile laying device according to the invention.

Fig. 6 is a schematic view of the internal structure of a T-shaped frame 1-1 of a tile installation device according to the invention.

Fig. 7 is a schematic view of the construction of the pitch brackets 1-6 of the tile installation device according to the invention.

Fig. 8 is a schematic view of the other side of the pitch brackets 1-6 of the tile installation device of the present invention.

Fig. 9 is a schematic structural view of the support sliding bars 1-8 of the tile laying device of the present invention.

Fig. 10 is a schematic view of the structure of the striking mechanism 2 of the tile installation device according to the present invention.

Fig. 11 is a schematic view of the structure of the bending frame 2-1 of the tile laying device of the present invention.

Fig. 12 is a schematic view of the other side of the bending frame 2-1 of the tile installation device according to the invention.

Fig. 13 is a schematic view of the structure of a rubber hammer 2-2 of a tile laying device according to the invention.

Fig. 14 is a schematic view of the structure of the belt mechanism 3 of the tile installation device according to the present invention.

Fig. 15 is another schematic structural view of the belt mechanism 3 of the tile laying device of the present invention.

Figure 16 is a schematic view of the structure of the grippers 3-4 of the tile laying device according to the invention.

Fig. 17 is a schematic view of the structure of the base 4 of the tile installation device according to the invention.

Fig. 18 is a schematic view of the bottom structure of the base 4 of the tile installation device according to the invention.

In the figure: a bracket 1; 1-1 of a T-shaped frame; an upper chute 1-1-1; a rear chute 1-1-2; 1-1-3 of a front chute; a movable rod 1-2; a transmission gear 1-3; fixing a screw rod 1-4; 1-5 of a belt chute; 1-6 of a variable pitch bracket; a fixing plate 1-6-1; 1-6-2 of a bent bracket; 1-6-3 of an adjusting screw; 1-6-4 parts of a baffle plate; 1-6-5 of a sliding thread plate; 1-7 of pulleys; 1-7-1 of a pulley bracket; wheels 1-7-2; 1-8 of a bracket sliding rod; 1-8-1 of a trapezoidal frame; link blocks 1-8-2; 1-8-3 parts of screw; 1-8-4 of a connecting plate; an impact mechanism 2; bending the frame 2-1; frame 2-1-1; a through hole 2-1-2; foldout 2-1-3; 2-1-4 of a support rod; 2-1-5 of a motor base; 2-1-6 parts of a lower sliding block; fixing pins 2-1-7; 2-2 of rubber hammers; a hammer body 2-2-1; connecting shaft 2-2-2; chain wheels 2-2-3; 2-3 of chains; pinion gears I2-4; 2-5 of a motor; a belt mechanism 3; a collection rack 3-1; a drive motor 3-2; a chain connecting rod 3-3; 3-4 of a clamping device; 3-4-1 of a belt connecting plate; a guide column 3-4-2; 3-4-3 of a clamping plate; 3-4-4 parts of a helical gear rod; 3-4-5 of a top plate; 3-5 parts of a belt; 3-6 parts of a small belt; 3-7 of a guide wheel I; 3-8 parts of a second guide wheel; 3-9 parts of transition wheel; 3-10 parts of an inner wheel; 3-11 parts of an inner wheel II; a base 4; a base block 4-1; a base gear 4-2; 4-3 of a base sliding groove; 4-4 parts of a wall guide wheel frame; 4-5 of wall guide wheels; 4-6 of a pulley bracket; bottom pulleys 4-7.

Detailed Description

The first embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, the invention relates to a laying device, and more specifically to a tile laying device, which comprises a support 1, an impact mechanism 2, a belt mechanism 3, and a base 4, and the device can tighten tiles and transport the tiles upwards, can adjust the height, can adjust the tiles, and can adjust the width to suit different tiles.

Support 1 and base 4 sliding fit, striking mechanism 2 and base 4 sliding fit, belt mechanism 3 is connected with support 1.

The second embodiment is as follows:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the embodiment further describes the embodiment, where the support 1 includes four T-shaped frames 1-1, moving rods 1-2, transmission gears 1-3, fixing screws 1-4, belt chutes 1-5, variable-pitch supports 1-6, pulleys 1-7, and support sliding rods 1-8, the T-shaped frames 1-1 are slidably fitted with each other, the upper portion of the T-shaped frame 1-1 is hollow, the moving rods 1-2 are slidably fitted with the T-shaped frame 1-1, the moving rods 1-2 are eight, the moving rods 1-2 are provided with teeth, four transmission gears 1-3 are arranged, the transmission gears 1-3 are positioned inside the T-shaped frame 1-1, the transmission gears 1-3 are in sliding fit with the T-shaped frame 1-1, the transmission gears 1-3 are meshed with the movable rod 1-2, four fixing screw rods 1-4 are arranged, the fixing screw rods 1-4 are in threaded fit with the T-shaped frame 1-1, eight belt chutes 1-5 are arranged, the belt chutes 1-5 are fixed on the movable rod 1-2, the belt chutes 1-5 are in sliding fit with the belt mechanism 3, two variable-pitch supports 1-6 are arranged, the variable-pitch supports 1-6 are fixed on two sides of the lower part of the T-shaped frame 1-1, the pulleys 1-7 are fixed on the variable-pitch supports 1-6, the pulleys 1-7 are in sliding fit with the belt mechanism 3, and the support sliding rods 1-8 are fixed on the lower part of, the support sliding rods 1-8 are in sliding fit with the base 4; the T-shaped frame 1-1 comprises an upper chute 1-1-1, a rear chute 1-1-2 and a front chute 1-1-3, the upper chute 1-1-1 is square hollow, the upper chute 1-1-1 is in sliding fit with a movable rod 1-2, the rear chute 1-1-2 is positioned at the rear part of the T-shaped frame 1-1, the rear chute 1-1-2 is in sliding fit with another T-shaped frame 1-1, the front chute 1-1-3 is positioned at the front part of the T-shaped frame 1-1, and the front chute 1-1-3 is in sliding fit with the rear chute 1-1-2 of another T-shaped frame 1-1; the variable-pitch support 1-6 comprises a fixed plate 1-6-1, a bent support 1-6-2, adjusting screws 1-6-3, a baffle plate 1-6-4 and a sliding thread plate 1-6-5, wherein two through holes are processed on the fixed plate 1-6-1, the fixed plate 1-6-1 is fixed on two sides of the lower part of the T-shaped support 1-1 through screws, the bent support 1-6-2 is fixed on the fixed plate 1-6-1, teeth are processed on the end part of the bent support 1-6-2, two adjusting screws 1-6-3 are arranged, the adjusting screws 1-6-3 are in threaded fit with the baffle plate 1-6-4, the baffle plate 1-6-4 is positioned at one end of the bent support 1-6-2, the sliding thread plate 1-6-5 is in sliding fit with the bent support 1-6-2, the sliding thread plate 1-6-5 is in sliding fit with the adjusting screw 1-6-3, and one side of the sliding thread plate 1-6-5 is provided with teeth; the pulley 1-7 comprises a pulley bracket 1-7-1 and four wheels 1-7-2, the pulley bracket 1-7-1 is fixed on the bent bracket 1-6-2, and the wheels 1-7-2 are in contact with the belt mechanism 3; the support sliding rod 1-8 comprises a trapezoidal frame 1-8-1, a linking block 1-8-2, a screw 1-8-3 and a connecting plate 1-8-4, the two trapezoid frames 1-8-1 are arranged, the trapezoid frames 1-8-1 are connected through connecting plates 1-8-4, the connecting plates 1-8-4 are in sliding fit with a base 4, the link blocks 1-8-2 are located on the upper portions of the trapezoid frames 1-8-1, threaded holes are machined in the middle of the link blocks 1-8-2, screws 1-8-3 are in threaded fit with the link blocks 1-8-2, the screws 1-8-3 are in contact with the T-shaped frames 1-1, and the connecting plates 1-8-4 are located in the middle of the trapezoid frames 1-8-1. Screwing out the fixing screw rods 1-4 outwards to separate the fixing screw rods 1-4 from the T-shaped frame 1-1, loosening the belts 3-5, namely pulling the T-shaped frame 1-1 upwards to move, screwing the fixing screws 1-4 after reaching a proper height to tightly press the fixing screws 1-4 and the T-shaped frame 1-1, keeping the relative position between the T-shaped frames 1-1 unchanged, and connecting the motors 2-5 into a circuit to tighten the belts 4-5; by pulling the movable rod 1-2, the movable rod 1-2 moves to drive the transmission gear 1-3 to rotate, and the transmission gear 1-3 rotates to drive the movable rod 1-2 on the other side to move towards the opposite direction until the movable rod is adaptive to the size of the ceramic tile.

The third concrete implementation mode:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the first embodiment will be further described, the impact mechanism 2 comprises a bending frame 2-1, a rubber hammer 2-2, three chains 2-3, a first pinion 2-4 and a motor 2-5, wherein the rubber hammer 2-2 is matched with a sliding rod of the bending frame 2-1, the chains 2-3 are arranged in three numbers, the chains 2-3 are connected with the rubber hammer 2-2, the first pinion 2-4 is fixed on one side of the rubber hammer 2-2, the motor 2-5 is fixed on the lower part of the bending frame 2-1, and the motor 2-5 is meshed with the first pinion 2-4; the bending frame 2-1 comprises a frame 2-1-1, through holes 2-1-2, hinges 2-1-3, support rods 2-1-4, a motor base 2-1-5, lower sliding blocks 2-1-6 and fixing pins 2-1-7, the number of the frames 2-1-1 is three, the frames 2-1-1 are connected through the hinges 2-1-3, the through holes 2-1-2 are positioned on the frame 2-1-1, the through holes 2-1-2 are in sliding fit with the rubber hammers 2-2, the number of the hinges 2-1-3 is four, the hinges 2-1-3 are fixed with the frame 2-1-1, the support rods 2-1-4 are positioned at the lower part of the bending frame 2-1, the lower part of the supporting rod 2-1-4 is in sliding fit with the base 4, the motor base 2-1-5 is located on the lower part of the bent frame 2-1, the section of the lower sliding block 2-1-6 is trapezoidal, the lower sliding block 2-1-6 is in sliding fit with the base 4, four fixing pins 2-1-7 are arranged, and the fixing pins 2-1-7 are located on the rear side of the bent frame 2-1; the rubber hammer 2-2 comprises four hammer bodies 2-2-1, a connecting shaft 2-2-2 and chain wheels 2-2-3, the hammer bodies 2-2-1 are fixed on the connecting shaft 2-2-2, the connecting shaft 2-2-2 is in sliding fit with the through hole 2-1-2, the number of the chain wheels 2-2-3 is two, and the chain wheels 2-2-3 are connected with the chain 2-3. When the ceramic tile reaches the position, the support 1 is pulled backwards, the support 1 moves backwards, the support sliding rod 1-8 drives the base gear 4-2 to rotate, the base gear 4-2 rotates to move the lower sliding block 2-1-6 in the opposite direction, the lower sliding block 2-1-6 drives the impact mechanism 2 to move towards the ceramic tile, the rubber hammer 2-2 is driven by the motor 2-5 to rotate, the ceramic tile is beaten to be in contact with the wall body, and the ceramic tile is separated from the clamping device 3-4.

The fourth concrete implementation mode:

the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18. the present embodiment further describes the first embodiment, in which the belt mechanism 3 includes two collecting frames 3-1, two driving motors 3-2, two link rods 3-3, two grippers 3-4, two belts 3-5, two small belts 3-6, two guide wheels 3-7, two guide wheels 3-8, two transition wheels 3-9, one inner wheel 3-10, and two inner wheels 3-11, the collecting frame 3-1 is fixed on the T-shaped frame 1-1, the driving motor 3-2 is fixed on the inner side of the collecting frame 3-1, the link rod 3-3 is connected to the two inner wheels 3-11, the clamping device 3-4 is fixed on a belt 3-5, two small belts 3-6 are arranged, two small belts 3-6 are connected with a first guide wheel 3-7, two small belts 3-6 are connected with a second guide wheel 3-8, two guide wheels 3-7 are arranged, two guide wheels 3-8 are arranged, two transition wheels 3-9 are in sliding fit with the collection frame 3-1, two inner wheels 3-10 are arranged, one inner wheel 3-10 is in sliding fit with the collection frame 3-1, one inner wheel 3-10 is connected with a second guide wheel 3-8, two inner wheels 3-11 are arranged, two inner wheels 3-11 are in sliding fit with the collection frame 3-1, and two inner wheels 3-11 are connected with the first guide wheel 3-7; the clamp 3-4 comprises a belt connecting plate 3-4-1, a guide column 3-4-2, a clamping plate 3-4-3, a threaded rod 3-4-4 and a top plate 3-4-5, four through holes are processed at the upper part of the belt connecting plate 3-4-1, the belt connecting plate 3-4-1 is fixed on the belt 3-5 through screws, the guide column 3-4-2 is fixed at the upper part of the clamping plate 3-4-3, the guide column 3-4-2 is in sliding fit with the belt connecting plate 3-4-1, the middle part of the clamping plate 3-4-3 is in sliding fit with the threaded rod 3-4-4, threads are processed at the middle part of the threaded rod 3-4-4, the middle part of the threaded rod 3-4-4 is in threaded fit with the belt connecting plate 3-4-1, one end of the screw toothed rod 3-4-4 is provided with teeth, and the top plate 3-4-5 is fixed at the lower part of the clamping plate 3-4-3. Firstly, ceramic tiles are placed at the front part of a clamping plate 3-4-3, the relative length of teeth is adjusted by rotating an adjusting screw 1-6-3, a driving motor 3-2 is started, the driving motor 3-2 rotates to drive a first inner wheel 3-10 to rotate, the first inner wheel 3-10 rotates reversely to loosen a belt 3-5, meanwhile, the first inner wheel 3-10 rotates to drive a second guide wheel 3-8 to rotate, the second guide wheel 3-8 drives a small belt 3-6 to move, the small belt 3-6 drives a first guide wheel 3-7 to rotate, the first guide wheel 3-7 drives a second inner wheel 3-11 to rotate, the second inner wheel 3-11 tightens the belt 3-5, the belt 3-5 moves upwards, the belt 3-5 drives a clamping device 3-4 to move upwards, and when a screw rod 3-4-4, a bent bracket 1-6-2 and a sliding threaded plate 1-6 5, the screw rod 3-4-4 rotates to push the clamping plate 3-4-3 inwards to clamp the ceramic tile, and the clamping device 3-4 restores to the original state when the driving motor 3-2 rotates reversely.

The fifth concrete implementation mode:

the embodiment is described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the embodiment further describes the embodiment, where the base 4 includes a base block 4-1, a base gear 4-2, a base chute 4-3, a wall guide wheel frame 4-4, a wall guide wheel 4-5, a pulley bracket 4-6, and a bottom pulley 4-7, the base block 4-1 is square, a trapezoidal groove is formed in the middle of the base block 4-1, the middle of the base block 4-1 is slidably fitted with the bracket slide rod 1-8, two base gears 4-2 are provided, the inner side of the base gear 4-2 is engaged with the upper portion of the lower slide block 2-1-6, the outer side of a base gear 4-2 is meshed with the inner side of a support sliding rod 1-8, a base sliding groove 4-3 is in sliding fit with a lower sliding block 2-1-6, two wall guide wheel frames 4-4 are arranged, the wall guide wheel frames 4-4 are fixed at the front part of a base block 4-1, wall guide wheels 4-5 are in sliding fit with the base block 4-1, pulley supports 4-6 are located at the lower part of the base block 4-1, the pulley supports 4-6 are fixed at the lower part of the base block 4-1 through screws, four pulley supports 4-6 are arranged, and bottom pulleys 4-7 are in sliding fit with the pulley supports 4-6.

The sixth specific implementation mode:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and 18, and the embodiment will be further described in detail with reference to the following drawings, in which the T-shaped frame 1-1 is made of an aluminum alloy.

The seventh embodiment:

the present embodiment will be described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, and 18, and the first embodiment will be further described with reference to the present embodiment, in which the material of the hammer 2-2-1 is rubber.

The specific implementation mode is eight:

the present embodiment will be described below with reference to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6, fig. 7, fig. 8, fig. 9, fig. 10, fig. 11, fig. 12, fig. 13, fig. 14, fig. 15, fig. 16, fig. 17, and fig. 18, and the first embodiment will be further described, in which the clamping plates 3-4-3 are made of stainless steel.

The working principle of the device is as follows: 1 principle of adjustment of height and width: screwing out the fixing screw rods 1-4 outwards to separate the fixing screw rods 1-4 from the T-shaped frame 1-1, loosening the belts 3-5, namely pulling the T-shaped frame 1-1 upwards to move, screwing the fixing screws 1-4 after reaching a proper height to tightly press the fixing screws 1-4 and the T-shaped frame 1-1, keeping the relative position between the T-shaped frames 1-1 unchanged, and connecting the motors 2-5 into a circuit to tighten the belts 4-5; by pulling the movable rod 1-2, the movable rod 1-2 moves to drive the transmission gear 1-3 to rotate, and the transmission gear 1-3 rotates to drive the movable rod 1-2 on the other side to move towards the opposite direction until the movable rod is adaptive to the size of the ceramic tile.

2, clamping principle: firstly, ceramic tiles are placed at the front part of a clamping plate 3-4-3, the relative length of teeth is adjusted by rotating an adjusting screw 1-6-3, a driving motor 3-2 is started, the driving motor 3-2 rotates to drive a first inner wheel 3-10 to rotate, the first inner wheel 3-10 rotates reversely to loosen a belt 3-5, meanwhile, the first inner wheel 3-10 rotates to drive a second guide wheel 3-8 to rotate, the second guide wheel 3-8 drives a small belt 3-6 to move, the small belt 3-6 drives a first guide wheel 3-7 to rotate, the first guide wheel 3-7 drives a second inner wheel 3-11 to rotate, the second inner wheel 3-11 tightens the belt 3-5, the belt 3-5 moves upwards, the belt 3-5 drives a clamping device 3-4 to move upwards, and when a screw rod 3-4-4, a bent bracket 1-6-2 and a sliding threaded plate 1-6 5, the screw rod 3-4-4 rotates to push the clamping plate 3-4-3 inwards to clamp the ceramic tile, and the clamping device 3-4 restores to the original state when the driving motor 3-2 rotates reversely.

And 3, knocking and separating principle: when the ceramic tile reaches the position, the support 1 is pulled backwards, the support 1 moves backwards, the support sliding rod 1-8 drives the base gear 4-2 to rotate, the base gear 4-2 rotates to move the lower sliding block 2-1-6 in the opposite direction, the lower sliding block 2-1-6 drives the impact mechanism 2 to move towards the ceramic tile, the rubber hammer 2-2 is driven by the motor 2-5 to rotate, the ceramic tile is beaten to be in contact with the wall body, and the ceramic tile is separated from the clamping device 3-4.

It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims

1. The utility model provides a ceramic tile laying device, includes support (1), striking mechanism (2), belt mechanism (3), base (4), its characterized in that: the support (1) is in sliding fit with the base (4), the impact mechanism (2) is in sliding fit with the base (4), and the belt mechanism (3) is connected with the support (1).

2. A tile laying device according to claim 1, wherein: the support (1) comprises four T-shaped frames (1-1), moving rods (1-2), transmission gears (1-3), fixing screw rods (1-4), belt chutes (1-5), variable-pitch supports (1-6), pulleys (1-7) and support sliding rods (1-8), the T-shaped frames (1-1) are in sliding fit, the upper parts of the T-shaped frames (1-1) are hollow, the moving rods (1-2) are in sliding fit with the T-shaped frames (1-1), the number of the moving rods (1-2) is eight, teeth are processed on the moving rods (1-2), the number of the transmission gears (1-3) is four, the transmission gears (1-3) are located inside the T-shaped frames (1-1), the transmission gears (1-3) are in sliding fit with the T-shaped frames (1-1), the transmission gear (1-3) is meshed with the moving rod (1-2), four fixing screw rods (1-4) are arranged, the fixing screw rods (1-4) are in threaded fit with the T-shaped frame (1-1), eight belt sliding chutes (1-5) are arranged, the belt sliding chutes (1-5) are fixed on the moving rod (1-2), the belt sliding chutes (1-5) are in sliding fit with the belt mechanism (3), two variable-pitch supports (1-6) are arranged, the variable-pitch supports (1-6) are fixed on two sides of the lower portion of the T-shaped frame (1-1), the pulleys (1-7) are fixed on the variable-pitch supports (1-6), the pulleys (1-7) are in sliding fit with the belt mechanism (3), the support sliding rods (1-8) are fixed on the lower portion of the T-shaped frame (1-1), and the support sliding rods (1-8) are in sliding fit with the base (4); the T-shaped frame (1-1) comprises an upper chute (1-1-1), a rear chute (1-1-2) and a front chute (1-1-3), the upper chute (1-1-1) is square hollow, the upper chute (1-1-1) is in sliding fit with the movable rod (1-2), the rear chute (1-1-2) is positioned at the rear part of the T-shaped frame (1-1), the rear chute (1-1-2) is in sliding fit with the other T-shaped frame (1-1), the front chute (1-1-3) is positioned at the front part of the T-shaped frame (1-1), and the front chute (1-1-3) is in sliding fit with the rear chute (1-1-2) of the other T-shaped frame (1-1); the variable-pitch support (1-6) comprises a fixing plate (1-6-1), a bent support (1-6-2), adjusting screws (1-6-3), a baffle plate (1-6-4) and a sliding thread plate (1-6-5), wherein two through holes are processed on the fixing plate (1-6-1), the fixing plate (1-6-1) is fixed on two sides of the lower part of a T-shaped frame (1-1) through screws, the bent support (1-6-2) is fixed on the fixing plate (1-6-1), teeth are processed at the end part of the bent support (1-6-2), two adjusting screws (1-6-3) are arranged, the adjusting screws (1-6-3) are in threaded fit with the baffle plate (1-6-4), the baffle (1-6-4) is positioned at one end of the bent support (1-6-2), the sliding threaded plate (1-6-5) is in sliding fit with the adjusting screw (1-6-3), and one side of the sliding threaded plate (1-6-5) is provided with teeth; the pulleys (1-7) comprise pulley supports (1-7-1) and wheels (1-7-2), the pulley supports (1-7-1) are fixed on the bent supports (1-6-2), the number of the wheels (1-7-2) is four, and the wheels (1-7-2) are in contact with the belt mechanism (3); the support sliding rod (1-8) comprises a trapezoid frame (1-8-1), two link blocks (1-8-2), screws (1-8-3) and connecting plates (1-8-4), the trapezoid frame (1-8-1) is provided with two link blocks, the trapezoid frame (1-8-1) is connected through the connecting plates (1-8-4), the connecting plates (1-8-4) are in sliding fit with the base (4), the link blocks (1-8-2) are positioned at the upper part of the trapezoid frame (1-8-1), threaded holes are processed in the middle of the link blocks (1-8-2), the screws (1-8-3) are in threaded fit with the link blocks (1-8-2), the screws (1-8-3) are in contact with the T-shaped frame (1-1), the connecting plate (1-8-4) is positioned in the middle of the trapezoid frame (1-8-1).

3. A tile laying device according to claim 1, wherein: the impact mechanism (2) comprises a bending frame (2-1), a rubber hammer (2-2), a chain (2-3), a first pinion (2-4) and a motor (2-5), the rubber hammer (2-2) is matched with a sliding rod of the bending frame (2-1), the number of the chains (2-3) is three, the chain (2-3) is connected with the rubber hammer (2-2), the first pinion (2-4) is fixed on one side of the rubber hammer (2-2), the motor (2-5) is fixed on the lower portion of the bending frame (2-1), and the motor (2-5) is meshed with the first pinion (2-4); the bending frame (2-1) comprises three frames (2-1-1), through holes (2-1-2), hinges (2-1-3), supporting rods (2-1-4), a motor base (2-1-5), lower sliding blocks (2-1-6) and fixing pins (2-1-7), the frames (2-1-1) are connected through the hinges (2-1-3), the through holes (2-1-2) are positioned on the frames (2-1-1), the through holes (2-1-2) are in sliding fit with the rubber hammers (2-2), the number of the hinges (2-1-3) is four, the hinges (2-1-3) are fixed with the frames (2-1-1), the support rod (2-1-4) is positioned at the lower part of the bending frame (2-1), the lower part of the support rod (2-1-4) is in sliding fit with the base (4), the motor base (2-1-5) is positioned at the lower part of the bending frame (2-1), the section of the lower sliding block (2-1-6) is trapezoidal, the lower sliding block (2-1-6) is in sliding fit with the base (4), four fixing pins (2-1-7) are arranged, and the fixing pins (2-1-7) are positioned at the rear side of the bending frame (2-1); the rubber hammer (2-2) comprises four hammer bodies (2-2-1), four connecting shafts (2-2-2) and four chain wheels (2-2-3), the hammer bodies (2-2-1) are fixed on the connecting shafts (2-2-2), the connecting shafts (2-2-2) are in sliding fit with the through holes (2-1-2), two chain wheels (2-2-3) are arranged, and the chain wheels (2-2-3) are connected with the chains (2-3).

4. A tile laying device according to claim 1, wherein: the belt mechanism (3) comprises a collection frame (3-1), a driving motor (3-2), a chain connecting rod (3-3), a clamping device (3-4), a belt (3-5), a small belt (3-6), a guide wheel I (3-7), a guide wheel II (3-8), a transition wheel (3-9), an inner wheel I (3-10) and an inner wheel II (3-11), wherein the number of the collection frame (3-1) is two, the collection frame (3-1) is fixed on the T-shaped frame (1-1), the driving motor (3-2) is fixed on the inner side of the collection frame (3-1), the chain connecting rod (3-3) is connected with the inner wheel II (3-11), the clamping device (3-4) is fixed on the belt (3-5), the number of the small belt (3-6) is two, the small belts (3-6) are connected with the first guide wheels (3-7), the small belts (3-6) are connected with the second guide wheels (3-8), two guide wheels (3-7) are arranged, two guide wheels (3-8) are arranged, two transition wheels (3-9) are arranged, the transition wheels (3-9) are in sliding fit with the collection frame (3-1), two inner wheels (3-10) are arranged, the first inner wheels (3-10) are in sliding fit with the collection frame (3-1), the first inner wheels (3-10) are connected with the second guide wheels (3-8), two inner wheels (3-11) are arranged, the second inner wheels (3-11) are in sliding fit with the collection frame (3-1), and the second inner wheels (3-11) are connected with the first guide wheels (3-7); the clamp (3-4) comprises a belt connecting plate (3-4-1), a guide column (3-4-2), a clamping plate (3-4-3), a helical gear rod (3-4-4) and a top plate (3-4-5), four through holes are processed at the upper part of the belt connecting plate (3-4-1), the belt connecting plate (3-4-1) is fixed on the belt (3-5) through screws, the guide column (3-4-2) is fixed at the upper part of the clamping plate (3-4-3), the guide column (3-4-2) is in sliding fit with the belt connecting plate (3-4-1), the middle part of the clamping plate (3-4-3) is in sliding fit with the helical gear rod (3-4-4), threads are processed at the middle part of the helical gear rod (3-4-4), the middle part of the screw-tooth rod (3-4-4) is in threaded fit with the belt connecting plate (3-4-1), one end of the screw-tooth rod (3-4-4) is provided with teeth, and the top plate (3-4-5) is fixed at the lower part of the clamping plate (3-4-3).

5. A tile laying device according to claim 1, wherein: the base (4) comprises a base block (4-1), base gears (4-2), base chutes (4-3), a wall guide wheel frame (4-4), a wall guide wheel (4-5), pulley supports (4-6) and bottom pulleys (4-7), the base block (4-1) is square, trapezoidal grooves are processed in the middle of the base block (4-1), the middle of the base block (4-1) is in sliding fit with the support sliding rods (1-8), two base gears (4-2) are arranged, the inner side of each base gear (4-2) is meshed with the upper portions of the lower sliding blocks (2-1-6), the outer side of each base gear (4-2) is meshed with the inner side of each support sliding rod (1-8), and the base chutes (4-3) are in sliding fit with the lower sliding blocks (2-1-6), two wall guide wheel frames (4-4) are arranged, the wall guide wheel frames (4-4) are fixed at the front part of the base block (4-1), the wall guide wheels (4-5) are in sliding fit with the base block (4-1), the pulley supports (4-6) are positioned at the lower part of the base block (4-1), the pulley supports (4-6) are fixed at the lower part of the base block (4-1) through screws, four pulley supports (4-6) are arranged, and the bottom pulleys (4-7) are in sliding fit with the pulley supports (4-6).

6. A tile laying device according to claim 2, wherein: the T-shaped frame (1-1) is made of aluminum alloy.

7. A tile laying device according to claim 3, wherein: the hammer body (2-2-1) is made of rubber.

8. A tile laying device according to claim 4 wherein: the clamping plate (3-4-3) is made of stainless steel.