CN112177301A - Automatic even tiling of tiling is strikeed flat device - Google Patents

Abstract

The invention discloses an automatic uniform tile-pasting striking-flat device, which comprises a tile-pasting shell, wherein a tile-pasting cavity with a downward opening is arranged in the tile-pasting shell, the inner wall of the upper side of the tile sticking cavity is fixedly connected with a motor, the lower end of the motor is in power connection with an output shaft, a movable frame is arranged on the periphery of the output shaft, the left side of the moving frame is provided with a through hole which is communicated up and down, four threaded slide blocks which are distributed in a circumferential array are connected in the through hole in a sliding way, the threaded sliding block is fixedly connected with a concentric threaded sliding block shaft, the periphery of the threaded sliding block shaft is rotatably connected with a rotating rod, the ceramic tile sticking machine can automatically stick ceramic tiles and can uniformly lay the ceramic tiles, so that the gap between the ceramic tiles is smaller, the ceramic tiles can be knocked after being laid down, and the ceramic tiles can be laid flat, and the full-automatic ceramic tile pasting improves the ceramic tile pasting efficiency, reduces the manpower and reduces the cost.

Description

Automatic even tiling of tiling is strikeed flat device

Technical Field

The invention relates to the related field of architectural decoration, in particular to an automatic and uniform tile-pasting and flattening device.

Background

The tile pasting is an important part of the existing building decoration, the existing tile pasting operation needs manual work, the operation generally needs a lot of time consumption and low efficiency, manpower consumption is needed, the surface of the tile needs to be flattened after the tile pasting, the manual tile pasting can also cause the poor tile pasting due to fatigue of people, and the automatic and uniform tile pasting flattening device can solve the problems.

Disclosure of Invention

In order to solve the problems, the embodiment designs an automatic uniform tile-sticking flattening device, which comprises a tile shell, wherein a tile cavity with a downward opening is arranged in the tile shell, a motor is fixedly connected to the inner wall of the upper side of the tile cavity, the lower end of the motor is in power connection with an output shaft, a moving frame is arranged on the periphery of the output shaft, a through hole which is communicated from top to bottom is arranged on the left side of the moving frame, four threaded sliding blocks which are distributed in a circumferential array are slidably connected in the through hole, the threaded sliding blocks are fixedly connected with concentric threaded sliding block shafts, rotating rods are rotatably connected to the peripheries of the threaded sliding block shafts, an opening sliding groove is arranged in the moving frame, a large sliding block is slidably connected in the opening sliding groove, a rack groove is arranged on the upper side of the opening sliding groove, a ratchet tooth is arranged on the lower side of the rack groove, a clamping tooth is hinged to the right end, the lower end of the large sliding block is fixedly connected with a clamping block, a soft contact block cavity with a right opening is arranged in the clamping block, a soft contact block is connected in the soft contact block cavity in a sliding mode, a thick shaft is fixedly connected to the left end of the soft contact block, an isosceles trapezoid block is fixedly connected to the left end of the thick shaft, symmetrical trapezoid blocks which are symmetrical up and down and take the center line of the isosceles trapezoid block as a symmetry axis are connected in a contact mode at the upper end and the lower end of the isosceles trapezoid block in a contact mode, a connecting column is fixedly connected to one end, away from each other, of the symmetrical trapezoid block cavity, the symmetrical trapezoid blocks are connected in the trapezoid block cavity in a sliding mode, a large cavity which is symmetrical up and down and takes the center line of the trapezoid block cavity as the symmetry axis is arranged on one side, away from each other, of the connecting column is fixedly connected with a remote symmetry block, and one end, away, the right end of the contact trapezoidal block is fixedly connected with a push rod, a guide plate is fixedly connected in the large cavity, the push rod is connected in the guide plate in a sliding manner, a push block is fixedly connected at the right end of the push rod, a contact plate is connected in the large cavity in a sliding manner, a moving rod is fixedly connected at the right end of the contact plate, a small cavity is arranged at the right side of the large cavity, a small sliding block is connected at the left side of the small cavity in a sliding manner, a connecting short block is fixedly connected at the right end of the small sliding block, a rotating rod is hinged at the right end of the connecting short block, a clamping plate sliding block is hinged at one end of the rotating rod, which is close to each other, a clamping plate is hinged at the right end of the clamping block, a clamping plate spring groove with an opening to one side away from each other is arranged, the periphery of the threaded sliding block is provided with an annular groove, thirteen ceramic tiles are arranged in the tile sticking cavity, when the ceramic tiles contact the soft contact block, the soft contact block is driven to move leftwards, the thick shaft is driven to move leftwards, the isosceles trapezoid block is driven to move leftwards, the symmetrical trapezoid block is driven to move towards one end away from each other, the connecting column is driven to move towards one end away from each other, the far symmetrical block is driven to move towards one end away from each other, the contact trapezoid block is driven to move rightwards, the push rod is driven to move rightwards, the push block is driven to contact with the contact plate, the contact plate is driven to move rightwards, the moving rod is driven to move rightwards, the small sliding block is driven to move rightwards, and the connecting short block is driven to move rightwards, and further driving the right end of the rotating rod to swing toward the end close to each other, and further driving the clamping plate slider to move leftward, and further driving the clamping plate to swing toward the end close to each other, so that the clamping plate has the function of clamping the ceramic tile, and after the ceramic tile is clamped by the clamping plate, the ceramic tile will continue to move leftward, and further driving the clamping block to move leftward, and further driving the large slider to move leftward, and further driving the small contact plate to move leftward, and further driving the short push rod to contact and connect with the annular groove, and further driving the threaded slider to move toward the end close to each other, so that the inner wall of the threaded slider is engaged with the output shaft, and then starting the motor, and then the output shaft is driven to rotate, so that the movable frame is driven to move downwards, the large sliding block is driven to move downwards, the clamping plate is driven to move downwards, the ceramic tile is driven to move downwards, and therefore the function of pasting the ceramic tile to the ground is achieved.

Beneficially, an output belt pulley is fixedly connected to the periphery of the output shaft, an upper belt pulley shaft is rotatably connected to the inner wall of the upper side of the tile cavity, an upper belt pulley is fixedly connected to the periphery of the upper belt pulley shaft, an upper belt is connected between the upper belt pulley and the output belt pulley, a rear upper bevel gear is arranged on the lower side of the upper belt pulley, the front end of the rear upper bevel gear is connected with a rear bevel gear in a meshing manner, the rear bevel gear is fixedly connected with a concentric driving transmission shaft, the rear end of the driving transmission shaft is rotatably connected to the inner wall of the rear side of the tile cavity, a lower driving belt pulley is fixedly connected to the periphery of the driving transmission shaft, a cam shaft is rotatably connected to the inner wall of the rear side of the tile cavity, a cam belt pulley is fixedly connected to the periphery of the cam shaft, a rear belt is connected between the cam belt pulley and the lower driving belt pulley, two cams are arranged on the, the lower end of the hammering spring is fixedly connected with a hammer connecting plate, the lower end of the cam is in contact connection with the upper end of the hammer connecting plate, the lower end of the hammer connecting plate is fixedly connected with four round hammers, the lower end of each round hammer is fixedly connected with a hammer connecting column, when the output shaft rotates, the output belt wheel is further driven to rotate, the upper belt wheel shaft is further driven to rotate, the rear upper bevel gear is further driven to rotate, the rear bevel gear is further driven to rotate, the driving transmission shaft is further driven to rotate, the lower driving belt wheel is further driven to rotate, the rear belt is further driven to rotate, the cam belt wheel is further driven to rotate, the cam shaft is further driven to rotate, the cam is further driven to rotate, the hammer connecting plate is further driven to reciprocate up and down, the round hammers are further driven to reciprocate, thereby achieving the hammering level of the ceramic tiles stuck on the ground.

Advantageously, a driving transmission wheel is fixedly connected to the front end of the driving transmission shaft, a driven transmission wheel shaft is rotatably connected to the inner wall of the rear side of the tile cavity, a driven transmission wheel is fixedly connected to the front end of the driven transmission wheel shaft, a transmission belt is connected between the driven transmission wheel and the driving transmission wheel, and when the driving transmission shaft rotates, the driving transmission wheel is driven to rotate, the transmission belt is driven to rotate, the driven transmission wheel is driven to rotate, and therefore the function of moving the tile to the leftmost end of the transmission belt is achieved.

Beneficially, a meshing bevel gear is fixedly connected to the periphery of the driven conveying wheel shaft, a lower bevel gear is connected to the rear end of the meshing bevel gear in a meshing manner, a left lower pulley shaft is fixedly connected to the lower end of the lower bevel gear, the left lower pulley shaft is rotatably connected to the inner wall of the lower side of the tile cavity, a left lower pulley is fixedly connected to the periphery of the left lower pulley shaft, a right lower pulley is arranged on the right side of the left lower pulley, the lower end of the right lower pulley shaft is rotatably connected to the inner wall of the lower side of the tile cavity, a right lower pulley is fixedly connected to the periphery of the right lower pulley shaft, a right lower belt is connected between the right lower pulley and the left lower pulley, a rotating rod is fixedly connected to the upper right end of the right lower pulley shaft, a cylinder is fixedly connected to the upper end of the rotating rod, a reciprocating plate is slidably connected to the cylinder, a through chute which is vertically communicated is arranged in the reciprocating plate, a brick, a tile cavity with an upward opening is arranged in the tile shell, thirteen tiles are stored in the tile cavity, a tile pushing block is fixedly connected to the left end of the tile pushing rod and is connected in the tile cavity in a sliding manner, a left through outlet is arranged at the left end of the tile shell, a tile placing opening which is through from top to bottom is arranged at the upper side of the tile cavity, when the driven transmission wheel rotates, the driven transmission wheel is further driven to rotate, the meshing bevel gear is further driven to rotate, the lower bevel gear is further driven to rotate, the left lower belt wheel is further driven to rotate, the right lower belt wheel is further driven to rotate, the rotating rod is further driven to rotate, the cylinder is further driven to rotate, and the cylinder is further driven to slide in the through chute, and then drive reciprocating plate reciprocating motion from side to side, and then drive push away brick pole reciprocating motion from side to side, and then drive push away brick piece reciprocating motion from side to side, thereby will the ceramic tile passes through the biography mouth pushes away the conveyer belt upper end, put the brick mouth and played to the ceramic tile intracavity supplement the function of ceramic tile.

Beneficially, a left side of the trapezoid block cavity is provided with a through clamping block port, an upper side and a lower side of the clamping block port are provided with a vertically symmetrical tile shell groove cavity with a central line of the clamping block port as a symmetrical axis, a clamping block is slidably connected in the tile shell groove cavity, one end of the clamping block away from each other is fixedly connected with a pull rope, one end of the pull rope away from each other is fixedly connected to an inner wall of one side of the tile shell groove cavity away from each other, the left side of the tile shell groove cavity is provided with a button cavity with a left opening, a button is slidably connected in the button cavity, the right end of the button is fixedly connected with a button rod, the button rod is driven to move rightwards by pressing the button, the pull rope is driven to move rightwards, the clamping block is driven to move towards one end away from each other, so that the rear bevel gear returns into the trapezoid block cavity, the clamping block port has the function of enabling, and can be clamped, thereby realizing the function that the clamping plates clamp the ceramic tiles.

Advantageously, the upper end of the large sliding block is fixedly connected with a connecting block, the upper end of the connecting block is fixedly connected with a small sliding block, a long spring cavity is arranged on the upper side of the ratchet groove, the small sliding block is slidably connected in the long spring cavity, and the small sliding block has the function of preventing the long spring cavity from being disconnected.

Beneficially, the lower end of the output shaft is fixedly connected with a lower limiting plate, the upper end of the lower limiting plate is fixedly connected with an upright long spring, the upper end of the upright long spring is connected with the lower end of the movable frame in an abutting mode, the upper end of the latch is fixedly connected with a slanting spring, the left end of the slanting spring is fixedly connected with the right end of the large sliding block, the left end of the small sliding block is fixedly connected with a long spring, the left end of the long spring is fixedly connected with the left inner wall of the long spring cavity, the left end of the soft contact block is fixedly connected with a large spring, the left end of the large spring is fixedly connected with the left inner wall of the soft contact block cavity, the left end of the splint sliding block is fixedly connected with a splint spring, the left end of the splint spring is fixedly connected with the left inner wall of the splint spring groove, the left end of the small contact plate is fixedly connected with a short spring, the left end of, the one end that the fixture block spring kept away from each other links firmly on the one side inner wall that the tiling recess chamber kept away from each other, the button right-hand member has linked firmly the button spring, the button spring right-hand member links firmly on the button chamber right side inner wall, the limiting plate has played and has reseed down the function of output shaft, perpendicular long spring has played and has reseed the function of removal frame, the canted spring has played and has reseed the function of latch, short spring has played and has reseed the function of little contact plate, big spring has played and has reseed the function of soft contact piece, the splint spring has played and has reseed the function of splint slider, the button spring has played and has reseed the function of button, the fixture block spring has played and has reseed the function of fixture block.

Advantageously, the clamping blocks are provided with outlet holes which are through from top to bottom on the upper and lower sides and which function to allow the distal symmetrical blocks to pass through.

Beneficially, the upper end of the cylinder is fixedly connected with a limiting block, a through groove which is through from top to bottom is formed in the inner wall of the lower side of the tile shell, the through groove has a function of enabling the moving frame to move out of the tile cavity, and the limiting block has a function of preventing the cylinder from being disconnected from the reciprocating plate.

The invention has the beneficial effects that: the operation of tiling can be carried out automatically to can evenly spread down the ceramic tile, thereby make the clearance between the ceramic tile littleer, and will beat the ceramic tile after spreading down the ceramic tile, thereby make the ceramic tile pave, and full-automatic tiling has improved tiling efficiency, and reduced the manpower, the cost is reduced.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the invention, and it is obvious for those skilled in the art that other drawings can be obtained based on these drawings without creative efforts.

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic view of the overall structure of an automatic uniform tile-pasting striking-flat device of the invention.

FIG. 2 is an enlarged schematic view of A in FIG. 1;

FIG. 3 is an enlarged schematic view of B of FIG. 1;

FIG. 4 is a schematic diagram of the structure of C-C in FIG. 1;

FIG. 5 is a schematic diagram of D-D of FIG. 1;

FIG. 6 is a schematic diagram of the structure of E-E in FIG. 1;

FIG. 7 is an enlarged view of F in FIG. 1;

FIG. 8 is a schematic diagram of the structure of G-G in FIG. 1;

fig. 9 is an enlarged schematic view of H in fig. 2.

Detailed Description

The invention will now be described in detail with reference to fig. 1-9, wherein for ease of description the orientations described below are now defined as follows: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to an automatic uniform tile-pasting striking-flat device, which comprises a tile-pasting shell 11, wherein a tile-pasting cavity 12 with a downward opening is arranged in the tile-pasting shell 11, the inner wall of the upper side of the tile-pasting cavity 12 is fixedly connected with a motor 13, the lower end of the motor 13 is in power connection with an output shaft 14, the periphery of the output shaft 14 is provided with a moving frame 16, the left side of the moving frame 16 is provided with a through hole 98 which is communicated up and down, four threaded sliders 93 distributed in a circumferential array are slidably connected in the through hole 98, the threaded sliders 93 are fixedly connected with concentric threaded slider shafts 96, the periphery of the threaded slider shafts 96 is rotatably connected with rotating rods 97, an opening sliding groove 19 is arranged in the moving frame 16, a large slider 81 is slidably connected in the opening sliding groove 19, a ratchet rack groove 84 is arranged on the upper side of the opening sliding groove 19, the, the latch 83 is connected with the lower end of the ratchet rack groove 84 in a contact manner, the lower end of the large sliding block 81 is fixedly connected with a clamping block 73, a soft contact block cavity 76 with a right opening is arranged in the clamping block 73, a soft contact block 75 is connected in the soft contact block cavity 76 in a sliding manner, the left end of the soft contact block 75 is fixedly connected with a thick shaft 68, the left end of the thick shaft 68 is fixedly connected with an isosceles trapezoid block 67, the upper end and the lower end of the isosceles trapezoid block 67 are connected with symmetrical trapezoid blocks 54 which are symmetrical up and down and take the central line of the isosceles trapezoid block 67 as a symmetrical shaft in a contact manner, one end of the symmetrical trapezoid blocks 54 far away from each other is fixedly connected with a connecting column 56, a trapezoid block cavity 55 is arranged on the left side of the soft contact block cavity 76, the symmetrical trapezoid blocks 54 are connected in the trapezoid block cavity 55 in a sliding manner, one side of the trapezoid block cavity 55 far away from each, the end, far away from each other, of the connecting column 56 is fixedly connected with a far symmetrical block 57, the end, far away from each other, of the far symmetrical block 57 is connected with a contact trapezoidal block 58 in a contact manner, the right end of the contact trapezoidal block 58 is fixedly connected with a push rod 60, a guide plate 61 is fixedly connected in the large cavity 78, the push rod 60 is connected in the guide plate 61 in a sliding manner, the right end of the push rod 60 is fixedly connected with a push block 62, a contact plate 63 is connected in the large cavity 78 in a sliding manner, the right end of the contact plate 63 is fixedly connected with a moving rod 74, a small cavity 70 is arranged on the right side of the large cavity 78, a small sliding block 72 is connected on the left side of the small cavity 70 in a sliding manner, a connecting short block 71 is fixedly connected on the right end of the small sliding block 72, a rotating rod 51 is hinged on the right end of the connecting short block 71, a clamping block 69 is, the clamp plate slide block 69 is slidably connected in the clamp plate spring slot 65, the left end of the opening slide slot 19 is slidably connected with a small contact plate 101, the left end of the small contact plate 101 is fixedly connected with a short push rod 99, the periphery of the threaded slide block 93 is provided with an annular slot 95, thirteen ceramic tiles 28 are arranged in the tile sticking cavity 12, when the ceramic tiles 28 contact the soft contact block 75, the soft contact block 75 is driven to move leftwards, the thick shaft 68 is driven to move leftwards, the isosceles trapezoid block 67 is driven to move leftwards, the symmetrical trapezoid block 54 is driven to move towards one end away from each other, the connecting column 56 is driven to move towards one end away from each other, the far symmetrical block 57 is driven to move towards one end away from each other, the contact trapezoid block 58 is driven to move rightwards, the push rod 60 is driven to move rightwards, and the push block 62 is driven to move, and further drive the push block 62 to contact the contact plate 63, and further drive the contact plate 63 to move rightwards, and further drive the moving rod 74 to move rightwards, and further drive the small slide block 72 to move rightwards, and further drive the short connecting block 71 to move rightwards, and further drive the right end of the rotating rod 51 to swing towards the end close to each other, and further drive the clamping block 69 to move leftwards, and further drive the clamping block 66 to swing towards the end close to each other, so that the clamping block 66 has the function of clamping the ceramic tile 28, and after the clamping block 66 clamps the ceramic tile 28, the ceramic tile 28 will continue to move leftwards, and further drive the clamping block 73 to move leftwards, and further drive the large slide block 81 to move leftwards, and further drive the latch 83 to move leftwards, and when the large slide block 81 contacts the small contact plate 101, further drive the small contact plate 101 to, and then the short push rod 99 is driven to move leftwards, so that the short push rod 99 is driven to be in contact connection with the annular groove 95, and further the threaded sliding block 93 is driven to move towards one end close to each other, so that the inner wall of the threaded sliding block 93 and the output shaft 14 are in a meshed state, at the moment, the motor 13 is started, and further the output shaft 14 is driven to rotate, so that the moving frame 16 is driven to move downwards, and further the large sliding block 81 is driven to move downwards, so that the clamping block 73 is driven to move downwards, further the clamping plate 66 is driven to move downwards, and further the ceramic tile 28 is driven to move downwards, so that the function of pasting the ceramic tile on the ground is achieved.

Beneficially, an output pulley 52 is fixedly connected to the outer periphery of the output shaft 14, an upper pulley shaft 21 is rotatably connected to the inner wall of the upper side of the tile cavity 12, an upper pulley 20 is fixedly connected to the outer periphery of the upper pulley shaft 21, an upper belt 15 is connected between the upper pulley 20 and the output pulley 52, a rear upper bevel gear 87 is arranged on the lower side of the upper pulley 20, a rear bevel gear 86 is engaged and connected to the front end of the rear upper bevel gear 87, the rear bevel gear 86 is fixedly connected to the concentric driving transmission shaft 47, the rear end of the driving transmission shaft 47 is rotatably connected to the inner wall of the rear side of the tile cavity 12, a lower driving pulley 85 is fixedly connected to the outer periphery of the driving transmission shaft 47, a cam shaft 24 is rotatably connected to the inner wall of the rear side of the tile cavity 12, a cam pulley 88 is fixedly connected to the outer periphery of the cam shaft 24, and, the front side of the cam pulley 88 is provided with two cams 23, the lower end of the tile shell 11 is fixedly connected with two symmetrical hammering springs 43 taking the central line of the cam 23 as a symmetrical axis, the lower end of each hammering spring 43 is fixedly connected with a hammer connecting plate 44, the lower end of the cam 23 is in contact connection with the upper end of the hammer connecting plate 44, the lower end of the hammer connecting plate 44 is fixedly connected with four round hammers 46, the lower end of each round hammer 46 is fixedly connected with a hammer connecting column 45, when the output shaft 14 rotates, the output pulley 52 is driven to rotate, the upper belt 15 is driven to rotate, the upper belt pulley 20 is driven, the upper belt wheel shaft 21 is driven to rotate, the rear upper bevel gear 87 is driven to rotate, the rear bevel gear 86 is driven to rotate, the driving transmission shaft 47 is driven to rotate, the lower driving pulley 85 is driven to rotate, and the rear belt 22 is driven to rotate, and then the cam belt pulley 88 is driven to rotate, and further the cam shaft 24 is driven to rotate, and further the cam 23 is driven to rotate, so that the hammer receiving plate 44 is driven to reciprocate up and down, and further the circular hammer 46 is driven to reciprocate up and down, and further the hammer receiving column 45 is driven to reciprocate up and down, so that the tile which is pasted on the ground is hammered horizontally.

Advantageously, a driving transfer wheel 48 is fixedly connected to a front end of the driving transfer shaft 47, a driven transfer wheel shaft 40 is rotatably connected to a rear inner wall of the tile cavity 12, a driven transfer wheel 41 is fixedly connected to a front end of the driven transfer wheel shaft 40, and a transfer belt 42 is connected between the driven transfer wheel 41 and the driving transfer wheel 48, so that when the driving transfer shaft 47 rotates, the driving transfer wheel 48 is driven to rotate, the transfer belt 42 is driven to rotate, and the driven transfer wheel 41 is driven to rotate, thereby performing a function of moving the tile 28 to a leftmost end of the transfer belt 42.

Beneficially, a meshing bevel gear 92 is fixedly connected to the outer periphery of the driven transmission wheel shaft 40, a lower bevel gear 91 is connected to the rear end of the meshing bevel gear 92 in a meshing manner, a left lower pulley shaft 89 is fixedly connected to the lower end of the lower bevel gear 91, the left lower pulley shaft 89 is rotatably connected to the inner wall of the lower side of the tile cavity 12, a left lower pulley 90 is fixedly connected to the outer periphery of the left lower pulley shaft 89, a right lower pulley shaft 38 is arranged on the right side of the left lower pulley 90, the lower end of the right lower pulley shaft 38 is rotatably connected to the inner wall of the lower side of the tile cavity 12, a right lower pulley 37 is fixedly connected to the outer periphery of the right lower pulley shaft 38, a right lower belt 39 is connected between the right lower pulley 37 and the left lower pulley 90, a rotating rod 36 is fixedly connected to the upper right end of the right lower pulley shaft 38, a cylinder 35 is fixedly connected to the upper end of the rotating rod 36, a reciprocating plate 34 is slidably, the reciprocating plate 34 is fixedly connected with a tile pushing rod 32 at the left end, the inner wall of the right side of the tile cavity 12 is fixedly connected with a tile shell 30, a tile cavity 29 with an upward opening is arranged in the tile shell 30, thirteen tiles 28 are stored in the tile cavity 29, a tile pushing block 31 is fixedly connected with the left end of the tile pushing rod 32, the tile pushing block 31 is connected in the tile cavity 29 in a sliding manner, the left end of the tile shell 30 is provided with a left-right through outlet 26, the upper side of the tile cavity 12 is provided with a vertically through tile placing opening 27, when the driven transmission wheel 41 rotates, the driven transmission wheel shaft 40 is driven to rotate, the bevel gear 92 is driven to rotate, the lower bevel gear 91 is driven to rotate, the left lower pulley shaft 89 is driven to rotate, the left lower pulley 90 is driven to rotate, the right lower belt 39 is driven to rotate, and the right lower pulley 37 is driven to rotate, and then drive the lower right pulley shaft 38 to rotate, and then drive the rotating rod 36 to rotate, and then drive the cylinder 35 to slide in the through chute 102, and then drive the reciprocating plate 34 to reciprocate from side to side, and then drive the brick pushing rod 32 to reciprocate from side to side, and then drive the brick pushing rod 31 to reciprocate from side to side, so as to push the ceramic tile 28 to the upper end of the conveyor belt 42 through the outlet 26, and the brick placing opening 27 has the function of supplementing the ceramic tile 28 to the ceramic tile cavity 29.

Beneficially, a left side of the trapezoid block cavity 55 is provided with a left-right through block opening 53, upper and lower sides of the block opening 53 are provided with vertically symmetrical tile shell groove cavities 25 taking a center line of the block opening 53 as a symmetrical axis, a block 103 is slidably connected in the tile shell groove cavity 25, one ends of the block 103 far away from each other are fixedly connected with a pull rope 105, one ends of the pull rope 105 far away from each other are fixedly connected on the inner wall of one side of the tile shell groove cavity 25 far away from each other, the left side of the tile shell groove cavity 25 is provided with a button cavity 108 with a left opening, the button cavity 108 is slidably connected with a button 107, the right end of the button 107 is fixedly connected with a button rod 109, the button 107 is pressed to move rightwards, the pull rope 105 is further pressed, the block 103 is further driven to move towards the end far away from each other, and the rear upper bevel gear 87 returns to the trapezoid block cavity 55, the block mouth 53 functions to allow the isosceles trapezoid 67 to move out of the trapezoid cavity 55 and to be blocked, thereby performing the function of the clamping plate 66 to clamp the tile 28.

Beneficially, the upper end of the large sliding block 81 is fixedly connected with a connecting block 80, the upper end of the connecting block 80 is fixedly connected with a small sliding block 79, the upper side of the ratchet rack groove 84 is provided with a long spring cavity 17, the small sliding block 79 is slidably connected in the long spring cavity 17, and the small sliding block 79 plays a role in preventing the long spring cavity 17 from being disconnected.

Beneficially, the lower end of the output shaft 14 is fixedly connected with the lower limiting plate 50, the upper end of the lower limiting plate 50 is fixedly connected with an upright long spring 94, the upper end of the upright long spring 94 is connected with the lower end of the movable frame 16 in an abutting mode, the upper end of the latch 83 is fixedly connected with an inclined spring 82, the left end of the inclined spring 82 is fixedly connected with the right end of the large sliding block 81, the left end of the small sliding block 79 is fixedly connected with a long spring 18, the left end of the long spring 18 is fixedly connected with the left inner wall of the long spring cavity 17, the left end of the soft contact block 75 is fixedly connected with a large spring 77, the left end of the large spring 77 is fixedly connected with the left inner wall of the soft contact block cavity 76, the left end of the clamping plate sliding block 69 is fixedly connected with a clamping plate spring 64, the left end of the clamping plate spring 64 is fixedly connected with the left inner wall of the clamping plate spring groove 65, the left end of the small contact plate 101 is fixedly, the ends of the clamping blocks 103 far away from each other are fixedly connected with clamping block springs 104, the ends of the clamping block springs 104 far away from each other are fixedly connected on the inner wall of the side of the tile shell groove cavity 25 far away from each other, the right end of the button 107 is fixedly connected with a button spring 106, the right end of the button spring 106 is fixedly connected with the right inner wall of the button cavity 108, the lower limit plate 50 functions to reset the output shaft 14, the vertical length spring 94 functions to reset the moving frame 16, the slanting spring 82 functions to reset the latch 83, the short spring 100 functions to reset the small contact plate 101, the large spring 77 functions to reset the soft contact block 75, the chucking spring 64 functions to reset the chucking slider 69, the button spring 106 functions to reset the button 107, and the latch spring 104 functions to reset the latch 103.

Advantageously, the clamping block 73 is provided, on the upper and lower sides, with outlet holes 59 that extend therethrough, said outlet holes 59 serving the function of allowing the distal symmetrical block 57 to pass through.

Advantageously, the upper end of the cylinder 35 is fixedly connected with a stopper 33, the inner wall of the lower side of the tile shell 11 is provided with a through groove 49 which is through from top to bottom, the through groove 49 functions to allow the moving frame 16 to move out of the tile cavity 12, and the stopper 33 functions to prevent the cylinder 35 from being disconnected from the reciprocating plate 34.

The following will describe in detail the steps of the automatic uniform tile-pasting striking-flat device in the present text with reference to fig. 1 to 9: in an initial state, the threaded sliding block 93 and the output shaft 14 are not in a contact state, the brick pushing block 31 and the ceramic tile 28 are not in a contact state, and the isosceles trapezoid block 67 and the remote symmetry block 57 are both in the clamping block 73; when the tile 28 contacts the soft contact block 75, the soft contact block 75 is driven to move leftward, the thick shaft 68 is driven to move leftward, the isosceles trapezoid blocks 67 are driven to move leftward, the symmetrical trapezoid blocks 54 are driven to move toward the ends away from each other, the connection post 56 is driven to move toward the ends away from each other, the distal symmetrical block 57 is driven to move toward the ends away from each other, the contact trapezoid blocks 58 are driven to move rightward, the push rod 60 is driven to move rightward, the push block 62 is driven to contact the contact plate 63, the contact plate 63 is driven to move rightward, the moving rod 74 is driven to move rightward, the small slide block 72 is driven to move rightward, the connection short block 71 is driven to move rightward, the right end of the rotating rod 51 is driven to swing toward the ends close to each other, and the clamping plate 69, thereby driving the clamping plate 66 to swing towards the end close to each other, so that the clamping plate 66 plays a role of clamping the ceramic tile 28, when the clamping plate 66 clamps the ceramic tile 28, the ceramic tile 28 will move leftwards continuously, further driving the clamping block 73 to move leftwards, further driving the large sliding block 81 to move leftwards, further driving the latch 83 to move leftwards, when the large sliding block 81 contacts the small contact plate 101, further driving the small contact plate 101 to move leftwards, further driving the short pushing rod 99 to be in contact with the annular groove 95, further driving the threaded sliding block 93 to move towards the end close to each other, further driving the inner wall of the threaded sliding block 93 to be in a meshed state with the output shaft 14, then starting the motor 13, further driving the output shaft 14 to rotate, further driving the moving frame 16 to move downwards, further driving the large sliding block 81 to move downwards, further driving, thereby driving the tile 28 to move downwards and thus applying the tile to the ground, when the output shaft 14 rotates, the output belt wheel 52 is further driven to rotate, the upper belt 15 is further driven to rotate, the upper belt wheel 20 is further driven to rotate, the upper belt wheel shaft 21 is further driven to rotate, the rear upper bevel gear 87 is further driven to rotate, the rear bevel gear 86 is further driven to rotate, the driving transmission shaft 47 is further driven to rotate, the lower driving belt wheel 85 is further driven to rotate, the rear belt 22 is further driven to rotate, the cam belt wheel 88 is further driven to rotate, the cam shaft 24 is further driven to rotate, the cam 23 is further driven to rotate, the hammer receiving plate 44 is further driven to reciprocate up and down, the circular hammer 46 is further driven to reciprocate up and down, the hammer receiving column 45 is further driven to reciprocate up and down, thereby achieving the horizontal hammering of the tile applied to the ground, when the driving transmission shaft 47 rotates, the driving transmission, thereby driving the transmission belt 42 to rotate and further driving the driven transmission wheel 41 to rotate, thereby achieving the function of moving the ceramic tiles 28 to the leftmost end of the transmission belt 42, when the driven transmission wheel 41 rotates, thereby driving the driven transmission wheel shaft 40 to rotate, thereby driving the meshing bevel gear 92 to rotate, thereby driving the lower bevel gear 91 to rotate, thereby driving the left lower belt wheel shaft 89 to rotate, thereby driving the left lower belt wheel 90 to rotate, thereby driving the right lower belt 39 to rotate, thereby driving the right lower belt wheel 37 to rotate, thereby driving the right lower belt wheel shaft 38 to rotate, thereby driving the rotation rod 36 to rotate, thereby driving the cylinder 35 to slide in the through-chute 102, thereby driving the reciprocating plate 34 to reciprocate from side to side, thereby driving the brick pushing rod 32 to reciprocate from side to side, thereby driving the brick pushing block 31 to reciprocate from side to side, thereby pushing the ceramic tiles 28 to the upper end of the transmission belt 42 through the, put brick mouth 27 and played the function of replenishing the ceramic tile 28 in the ceramic tile chamber 29, press button 107, and then drive button rod 109 and move rightwards, and then drive stay cord 105 pressurized, and then drive fixture block 103 and move to the one end of keeping away from each other to make back upper bevel gear 87 get back to trapezoidal piece chamber 55 in, fixture block mouth 53 has played and has let isosceles trapezoid piece 67 move the function outside trapezoidal piece chamber 55, and can block, thereby realize that splint 66 cliies ceramic tile 28's function.

The invention has the beneficial effects that: the automatic tile pasting machine can automatically paste tiles, tiles can be uniformly paved, so that gaps among the tiles are smaller, the tiles can be knocked after the tiles are paved, so that the tiles are paved, the full-automatic tile pasting efficiency is improved, the manpower is reduced, and the cost is reduced.

The above embodiments are merely illustrative of the technical ideas and features of the present invention, and the purpose thereof is to enable those skilled in the art to understand the contents of the present invention and implement the present invention, and not to limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered within the protection scope of the present invention.

Claims (9)

1. The utility model provides an automatic even tiling strikes paper-back edition and puts, includes the tiling shell, its characterized in that: the tile sticking shell is internally provided with a tile sticking cavity with a downward opening, the inner wall of the upper side of the tile sticking cavity is fixedly connected with a motor, the lower end of the motor is in power connection with an output shaft, the periphery of the output shaft is provided with a moving frame, the left side of the moving frame is provided with a through hole which is communicated up and down, the through hole is internally and slidably connected with four threaded sliders distributed in a circumferential array, the threaded sliders are fixedly connected with concentric threaded slider shafts, the periphery of the threaded slider shafts is rotatably connected with rotating rods, an opening sliding groove is arranged in the moving frame, the opening sliding groove is internally and slidably connected with a large slider, the upper side of the opening sliding groove is provided with a ratchet bar groove, the right end of the large slider is hinged with a latch, the latch is in contact connection with the lower end of the ratchet bar groove, the lower end of the large slider is, the left end of the soft contact block is fixedly connected with a thick shaft, the left end of the thick shaft is fixedly connected with an isosceles trapezoid block, the upper end and the lower end of the isosceles trapezoid block are in contact connection with symmetrical trapezoid blocks which are symmetrical up and down and take the central line of the isosceles trapezoid block as a symmetrical shaft, one ends of the symmetrical trapezoid blocks, which are far away from each other, are fixedly connected with a connecting column, the left side of the soft contact block cavity is provided with a trapezoid block cavity, the symmetrical trapezoid blocks are slidably connected in the trapezoid block cavity, one sides, which are far away from each other, of the trapezoid block cavities are provided with large cavities which are symmetrical up and down and take the central line of the trapezoid block cavity as a symmetrical shaft, one ends, which are far away from each other, of the connecting columns are fixedly connected with a remote symmetrical block, one ends, which are far away from each other, of the remote symmetrical blocks are in contact connection, the push rod right-hand member has linked firmly the ejector pad, sliding connection has the contact plate in the big cavity, the contact plate right-hand member has linked firmly the carriage release lever, the big cavity right side is equipped with little cavity, little cavity left side sliding connection has little slider, little slider right-hand member has linked firmly the connection stub, it articulates there is the dwang to connect the stub right-hand member, the one end that the dwang is close to each other articulates there is the splint slider, the splint right-hand member articulates there is splint, the one end that splint kept away from each other is equipped with the splint spring pocket of opening to the one side of keeping away from each other, splint slider sliding connection be in the splint spring pocket, opening spout left end sliding connection has little contact plate, little contact plate left end rigid coupling has short push rod, the screw thread slider periphery is equipped.

2. An automatic uniform tile-laying strike as in claim 1, wherein: the output shaft is fixedly connected with an output belt wheel, the inner wall of the upper side of the tile cavity is rotatably connected with an upper belt wheel shaft, the outer periphery of the upper belt wheel shaft is fixedly connected with an upper belt wheel, an upper belt is connected between the upper belt wheel and the output belt wheel, the lower side of the upper belt wheel is provided with a rear upper bevel gear, the front end of the rear upper bevel gear is engaged and connected with a rear bevel gear, the rear bevel gear is fixedly connected with a concentric driving transmission shaft, the rear end of the driving transmission shaft is rotatably connected to the inner wall of the rear side of the tile cavity, the outer periphery of the driving transmission shaft is fixedly connected with a lower driving belt wheel, the inner wall of the rear side of the tile cavity is rotatably connected with a cam shaft, the outer periphery of the cam shaft is fixedly connected with a cam belt wheel, the cam belt wheel is connected with the lower driving belt wheel, the front side of the cam belt wheel is provided with two, the lower end of the hammering spring is fixedly connected with a hammer connecting plate, the lower end of the cam is in contact connection with the upper end of the hammer connecting plate, the lower end of the hammer connecting plate is fixedly connected with four round hammers, and the lower end of each round hammer is fixedly connected with a hammer connecting column.

3. An automatic uniform tile-laying strike as in claim 2 wherein: the front end of the driving transmission shaft is fixedly connected with a driving transmission wheel, the inner wall of the rear side of the tile cavity is rotatably connected with a driven transmission wheel shaft, the front end of the driven transmission wheel shaft is fixedly connected with a driven transmission wheel, and a transmission belt is connected between the driven transmission wheel and the driving transmission wheel.

4. An automatic uniform tile-laying strike as in claim 3 wherein: the periphery of the driven conveying wheel shaft is fixedly connected with a meshing bevel gear, the rear end of the meshing bevel gear is connected with a lower bevel gear in a meshing manner, the lower end of the lower bevel gear is fixedly connected with a left lower belt wheel shaft, the left lower belt wheel shaft is rotatably connected to the inner wall of the lower side of the tile cavity, the periphery of the left lower belt wheel shaft is fixedly connected with a left lower belt wheel, the right side of the left lower belt wheel is provided with a right lower belt wheel, the lower end of the right lower belt wheel shaft is rotatably connected to the inner wall of the lower side of the tile cavity, the periphery of the right lower belt wheel shaft is fixedly connected with a right lower belt wheel, a right lower belt wheel is connected between the right lower belt wheel and the left lower belt wheel, the right upper end of the right lower belt wheel shaft is fixedly connected with a rotating rod, the upper end of the rotating rod is fixedly connected with a cylinder, the cylinder is slidably connected with a reciprocating plate, a through, the ceramic tile pushing device is characterized in that a ceramic tile cavity with an upward opening is formed in the ceramic tile shell, thirteen ceramic tiles are stored in the ceramic tile cavity, a brick pushing block is fixedly connected to the left end of the brick pushing rod, the brick pushing block is connected to the inside of the ceramic tile cavity in a sliding mode, a left outlet and a right outlet which are communicated are formed in the left end of the ceramic tile shell, and a brick placing opening which is communicated from top to bottom is formed in the upper side of the tile cavity.

5. An automatic uniform tile-laying strike as in claim 1, wherein: the novel brick making machine is characterized in that a clamping block port which is communicated left and right is arranged on the left side of the trapezoid block cavity, a tile shell groove cavity which is symmetrical up and down is formed by the clamping block port as a symmetrical shaft, a clamping block is connected in the tile shell groove cavity in a sliding mode, a pull rope is fixedly connected to one end, away from the clamping block, of the clamping block, one end, away from the pull rope, of the pull rope is fixedly connected to the inner wall, away from the tile shell groove cavity, of one side, the left side of the tile shell groove cavity is provided with a button cavity with an opening, a button is connected in the button cavity in a sliding mode, and a.

6. An automatic uniform tile-laying strike as in claim 1, wherein: the upper end of the large sliding block is fixedly connected with a connecting block, the upper end of the connecting block is fixedly connected with a small sliding block, a long spring cavity is arranged on the upper side of the ratchet groove, and the small sliding block is slidably connected in the long spring cavity.

7. An automatic uniform tile-laying strike as in claim 2 wherein: the lower end of the output shaft is fixedly connected with a lower limit plate, the upper end of the lower limit plate is fixedly connected with a vertical long spring, the upper end of the vertical long spring is in butt joint with the lower end of the movable frame, the upper end of the latch is fixedly connected with a skew spring, the left end of the skew spring is fixedly connected with the right end of the large sliding block, the left end of the small sliding block is fixedly connected with a long spring, the left end of the long spring is fixedly connected with the left inner wall of the long spring cavity, the left end of the soft contact block is fixedly connected with a large spring, the left end of the large spring is fixedly connected with the left inner wall of the soft contact block cavity, the left end of the splint sliding block is fixedly connected with a splint spring, the left end of the splint spring is fixedly connected with the left inner wall of the splint spring groove, the left end of the small contact plate is fixedly connected with a short spring, the left end of the short spring is fixedly connected with the left inner wall of the opening sliding groove, the end of the fixture block is, the right end of the button is fixedly connected with a button spring, and the right end of the button spring is fixedly connected to the inner wall of the right side of the button cavity.

8. An automatic uniform tile-laying strike as in claim 1, wherein: and the upper side and the lower side of the clamping block are provided with an outlet hole which is communicated up and down.

9. An automatic uniform tile-laying strike as in claim 4 wherein: the cylinder upper end links firmly the stopper, the inboard wall of tiling shell downside is equipped with the through groove that link up from top to bottom.

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