CN211548613U - Gluing mechanism of ceramic tile gluing machine for decoration - Google Patents

Abstract

The utility model provides a spreading mechanism of ceramic tile spreading machine for fitment belongs to fitment technical field. It has solved current ceramic tile rubber coating time unable evenly scribble ceramic tile glue scheduling technical problem. This ceramic tile spreading machine for fitment includes the mobile station, the both sides of mobile station all are fixed with the curb plate, be equipped with induction groove and support frame on the mobile station, the ceramic tile is located the rubber coating station when the support frame rotates to the tilt state, rubber coating mechanism includes carriage and rubber coating brush, carriage sliding connection is between two blocks of curb plates, the rubber coating brush is fixed on the carriage, the front side that is located the rubber coating moving direction on the rubber coating brush is fixed with a plurality of glue outlet, the rear side that is located the rubber coating moving direction on the rubber coating brush is fixed with the brush hair, be fixed with the injecting glue bucket on the mobile station, still be fixed with the rubber coating pipe on the carriage, the rubber coating pipe passes through the hose intercommunication with the injecting glue bucket, the rubber coating pipe is alignd with the glue outlet of rubber coating pipe with the rubber coating. The utility model has the advantages of can be at the even rubber coated at the ceramic tile back.

Description

Gluing mechanism of ceramic tile gluing machine for decoration

Technical Field

The utility model belongs to the technical field of the fitment, a spreading machine of ceramic tile is used to fitment is related to, especially a spreading machine of ceramic tile spreading machine is used to fitment.

Background

The ceramic tile is an essential material for decoration, and when the ceramic tile is pasted, an adhesive needs to be coated on the back surface of the ceramic tile, and then the ceramic tile is pasted on a wall surface or a ground surface. At present along with the development of technique, generally adopt the ceramic tile glue as the adhesive, in order to guarantee the adhesive effect that the ceramic tile glued, need earlier go with the dust clean up at the ceramic tile back, glue even the smearing with the ceramic tile again, realize the rubber coating of ceramic tile. At present, the gluing of the ceramic tiles is manually finished, the manual gluing efficiency is low, the same amount of ceramic tile glue applied to each ceramic tile cannot be ensured, and the quality of the tile tiles cannot be ensured; above-mentioned in-process avoids ceramic tile front wear, need place the ceramic tile slope subaerial, and the tiling master need partly squat and operate through hand ceramic tile, during especially great ceramic tile, ceramic tile itself is heavier, leads to the operation very hard, and the ceramic tile also easy wearing and tearing of curb plate with ground contact collide with and touch.

Disclosure of Invention

The utility model aims at having the above-mentioned problem to current technique, provided a spreading mechanism of ceramic tile spreading machine for fitment, the utility model provides a technical problem can be at the even rubber coating of ceramic tile back.

The purpose of the utility model can be realized by the following technical proposal:

a glue spreading mechanism of a decorating ceramic tile glue spreader comprises a movable mobile platform, wherein both sides of the mobile platform are respectively fixed with a side plate, the mobile platform is provided with a leading-in groove and a support frame positioned on one side of the leading-in groove, when the support frame rotates to an inclined state, a ceramic tile can downwards rotate to a glue spreading station horizontally inclined, the glue spreading mechanism is characterized by comprising a sliding frame and a glue spreading brush, the sliding frame is positioned between the two side plates, the two side plates are respectively provided with a sliding groove, both ends of the sliding frame are respectively connected onto the sliding grooves in a sliding manner, the glue spreading brush is in a long strip shape and is fixed on the sliding frame along the length direction of the sliding frame, a plurality of glue outlets are fixed on the front side of the glue spreading brush in the glue spreading moving direction and are arranged at intervals along the length direction of the glue spreading brush, and brush bristles are fixed on the rear side of the glue spreading brush, the utility model discloses a ceramic tile glue coating machine, including the mobile station, the carriage is fixed with the glue injection bucket on the mobile station, still be fixed with the glue coating pipe on the carriage, the glue feeding mouth of glue coating pipe passes through the hose intercommunication with the glue injection mouth of glue injection bucket, be equipped with a plurality of glue outlets on the glue coating pipe, it is a plurality of glue outlet and glue outlet one-to-one, glue outlet aligns the intercommunication with the glue outlet that corresponds, the glue coating bucket can be glued the ceramic tile in it and pour into the glue coating pipe through the hose.

When the ceramic tile is positioned at the gluing station, the sliding frame slides along the sliding groove to enable the gluing brush to brush along the back of the ceramic tile, the ceramic tile glue in the gluing barrel is extruded out from the glue outlet nozzle through the hose after passing through the glue coating pipe in the process, the glue outlet nozzle is positioned in front of the moving direction in the gluing process, namely the glue outlet nozzle firstly extrudes the ceramic tile glue to the back of the ceramic tile, and then the ceramic tile glue is spread by the bristles passing through and uniformly brushed on the back of the ceramic tile, so that the uniform gluing of the ceramic tile is realized; the length of rubber coating brush is greater than the width of ceramic tile, opens the gluey mouth of play that corresponds according to actual conditions for the gluey mouth homoenergetic of play that opens is crowded the ceramic tile back with ceramic tile glue.

In the gluing mechanism of the decorating ceramic tile gluing machine, the length of the bristles of the gluing brush far away from one side of the glue outlet nozzle is larger than that of the bristles near one side of the glue outlet nozzle. The ceramic tile glue extruded from the glue outlet nozzle is concentrated, the ceramic tile glue is gradually spread to two sides through the short brush hairs, the ordinary opened ceramic tile glue is uniformly brushed on the back of the ceramic tile through the long brush hairs, and the uniform gluing of the back of the ceramic tile is guaranteed.

In foretell ceramic tile spreading machine's for fitment rubber coating mechanism, the both ends of carriage all are connected with the pulley, the pulley is "H" type, pulley roll connection is in the spout that the curb plate corresponds, one of them the outside of curb plate is rotated and is connected with lead screw two, lead screw two is parallel with the spout, and the above-mentioned curb plate outside still is fixed with can drive two pivoted displacement motors of lead screw, the carriage is close to the one end of lead screw two and has the sliding sleeve of wearing out the spout, the sliding sleeve cover on lead screw two and with two spiro unions of lead screw. The second screw rod is driven to rotate through the displacement motor, so that the sliding sleeve can move along the second screw rod, the sliding frame can be driven to move along the sliding groove, and the gluing of the sliding groove can be moved and reset; the resistance that the carriage removed can be reduced through the pulley for the carriage removes more smoothly, and the pulley of "H" type can be fixed a position the carriage in the length direction of carriage simultaneously.

In foretell ceramic tile spreading machine for fitment's rubber coating mechanism, the injecting glue bucket includes staving and gland, the gland is located the staving and can reciprocate along the staving, pass through sealing washer sealing connection between the border of gland and the staving, it has the injecting glue mouth to open on the gland, be fixed with the cylinder on the staving, the telescopic link of cylinder is fixed with the upper end of gland. The air supply of cylinder is provided through the air pump, it has the opening that is used for pouring into ceramic tile glue to open on the gland, earlier pour ceramic tile glue into the bucket through the opening before the use in, seal the opening again, press the gland downwards through the cylinder, the gland extrudees downwards and makes the ceramic tile glue in the bucket flow out from the injecting glue mouth, the ceramic tile glue that flows out gets into through the hose and scribbles the rubber tube, the reposition of redundant personnel that rethread scribbles the rubber tube makes ceramic tile glue flow out from the play jiao zui that corresponds, how much ceramic tile glue is scribbled on the ceramic tile is confirmed by the stroke that the cylinder controlled the gland pushed down, can realize accurate control, guarantee all to scribble right.

Compared with the prior art, this spreading mechanism of ceramic tile spreading machine for fitment has the advantage that can be at the even rubber coating of ceramic tile back.

Drawings

Fig. 1 is a schematic sectional view of a tile in a spreader at a dedusting station.

Figure 2 is a schematic cross-sectional view of a tile in the gluing machine at the gluing station.

Fig. 3 is a schematic structural view of the guide roller.

Fig. 4 is a schematic sectional structure view of the glue injection barrel.

In the figure, 1, a mobile station; 11. a side plate; 12. a chute; 2. a lead-in groove; 21. mounting a plate; 211. a notch; 22. a guide roller; 221. a limiting ring groove; 3. a support frame; 31. a vertical rod; 32. a cross bar; 33. a support nut; 34. installing a sleeve; 35. a roller frame; 36. supporting rollers; 37. an electric vacuum chuck; 4. an air pump; 41. an air blowing pipe; 42. a dust cover; 43. a dust-blocking cloth strip; 44. a blowing nozzle; 45. a vacuum cleaner; 46. a baffle plate; 47. an air inlet pipe; 5. a first sliding block; 51. a first connecting rod; 52. a first track; 53. adjusting the motor; 54. a first screw rod; 55. a stopper; 6. a carriage; 61. a gluing brush; 62. a glue outlet; 63. brushing; 64. a glue injection barrel; 641. a barrel body; 642. a gland; 643. a glue injection port; 645. a cylinder; 65. coating a rubber tube; 66. a hose; 7. and (5) ceramic tiles.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

As shown in fig. 1 to 4, the glue spreader for the decoration ceramic tile comprises a movable moving platform 1, side plates 11 are fixed on both sides of the moving platform 1, a leading-in slot 2 and a supporting frame 3 positioned on one side of the leading-in slot 2 are arranged on the moving platform 1, a plurality of supporting rollers 36 are installed at the upper end of the supporting frame 3, the plurality of supporting rollers 36 are arranged along a straight line, the lower end of the supporting frame 3 is hinged on the moving platform 1, an adjusting mechanism capable of switching the supporting frame 3 back and forth in a vertical or inclined state is arranged on the moving platform 1, the supporting frame 3 can support the ceramic tile 7 positioned in the leading-in slot 2 and enable the ceramic tile 7 to be positioned in a dust removal station which is vertically inclined when the supporting frame 3 is in the vertical state, the ceramic tile 7 can be rotated downwards to a glue spreading station which is horizontally inclined when the supporting frame 3 is rotated to the inclined state, the mobile station 1 is also provided with a glue coating mechanism which can coat glue on the back of the ceramic tile 7 positioned at the glue coating station.

The lead-in groove 2 is including fixing two mounting panels 21 and a plurality of guide roller wheel 22 on the mobile station 1, two mounting panels 21 set up side by side, guide roller wheel 22 rotates to be connected between two mounting panels 21, and a plurality of guide roller wheel 22 are linear arrangement, guide roller wheel 22 slope sets up, guide roller wheel 22's inclination is 5 ~ 10, it is perpendicular with guide roller wheel 22 to support roller wheel 36 when support frame 3 is vertical, can make ceramic tile 7 with the vertical slope of angle 80 ~ 85 on the station that removes dust. The middle section of the guide roller 22 is provided with a limit ring groove 221, the guide roller 22 is made of plastics, the downward inclined end of the guide roller 22 is close to the support frame 3, and one side plate 11 is provided with a brick inlet aligned with the guide roller 22. An electric vacuum sucker 37 is arranged at the lower end of the support frame 3, and when the ceramic tile 7 is positioned at the gluing station, the sucker of the electric vacuum sucker 37 is attached to the lower side of the front surface of the ceramic tile 7. During the operation with ceramic tile 7 through advancing the brick mouth and pushing in, can conveniently push ceramic tile 7 through the rotation of guide running roller 22, the guide running roller 22 of slope can make the ceramic tile 7 slope of pushing and lean on vertical support frame 3, ceramic tile 7 openly towards support frame 3, the back slope of ceramic tile 7 up. The ceramic tile 7 gets into leading-in groove 2 back electric vacuum chuck 37 completely and starts to adsorb ceramic tile 7, and support frame 3 rotates when shifting ceramic tile 7 station, lifts up ceramic tile 7's downside through electric vacuum chuck 37 for ceramic tile 7 rotates to the rubber coating station along with support frame 3, and electric vacuum chuck 37 closes after accomplishing the rubber coating, can take off ceramic tile 7 from support frame 3.

The supporting frame 3 comprises a plurality of vertical rods 31 and a cross rod 32 connected with the vertical rods 31, a supporting nut 33 is screwed on the upper end of each vertical rod 31, an installation sleeve 34 is sleeved on the upper end of each vertical rod 31, the installation sleeve 34 abuts against the supporting nut 33, a supporting roller 36 is rotatably connected to a roller frame 35, and the roller frame 35 is fixedly connected with the installation sleeve 34. The supporting roller 36 is made of silicone or rubber, and the circumferential surface of the supporting roller 36 is a rough surface. The friction between the supporting roller 36 and the front surface of the tile 7 is large, and the tile 7 can be prevented from sliding downwards along with the friction between the supporting roller 36 and the tile 7 in the rotating process of the supporting frame 3, so that the pressure on the electric vacuum chuck 37 is reduced. The upper and lower position of the supporting roller 36 can be adjusted through adjusting the position of the supporting nut 33, so that the supporting roller 36 can adapt to tiles 7 of different sizes, the smaller tile 7 supporting roller 36 can be supported at the position where the tile 7 is close to the upper edge, and the larger tile 7 supporting roller 36 can be supported at the position where the tile 7 is close to the middle section.

The dust removing mechanism comprises an air pump 4 and a plurality of air blowing pipes 41, a dust cover 42 covering the leading-in groove 2 is fixed on the mobile station 1, one side of the dust cover 42, which is positioned on the support frame 3, is open, a dust blocking cloth strip 43 is hung on the top of the dust cover 42, which is close to the open side, the air blowing pipes 41 are fixed in the dust cover 42 and are parallel to the length square of the leading-in groove 2, the air blowing pipes 41 are obliquely arranged along the up-and-down direction at intervals, the inclination angle of the arrangement of the air blowing pipes 41 is 80-85 degrees, a plurality of air blowing nozzles 44 are fixed on each air blowing pipe 41, the air blowing openings of the air blowing nozzles 44 are vertically arranged downwards, the air pump 4 is fixed on the dust cover 42, the air blowing pipes 41 are communicated with an air inlet pipe 47, the air inlet pipe 47 is communicated with the air pump 4, an opening is formed in one side, a dust collector 45 is also fixed on the mobile station 1, a dust suction port of the dust collector 45 is communicated with the opening, and the dust collector 45 adopts a cylinder type dust collector 45.

The inner side of the dust cover 42 is fixed with a baffle 46, the baffle 46 is fixed on a cover plate of the dust cover 42 with an opening and is positioned above the opening, the baffle 46 is provided with a flange bent downwards, the baffle 46 is positioned right above the mounting plate 21 with the notch 211, the opening is positioned on the inner side of the baffle 46, and air with dust flowing out of the notch 211 can be blocked by the baffle 46 to directly go upwards.

The air pump 4 provides an air source, the compressed air pump 4 is fed into each air blowing pipe 41 through the air inlet pipe 47, compressed air is blown out through the air blowing openings finally, the air blowing pipes 41 correspond to the back of the ceramic tile 7 from top to bottom, the back of the ceramic tile 7 inclines upwards, the blown compressed air directly acts on the back of the ceramic tile 7 and is downward in direction, dust on the back of the ceramic tile 7 is blown off by the compressed air and moves downwards along with air flow, the dust collector 45 enables the lower part of the dust cover 42 to be in a negative pressure state, the air with the dust enters the dust collector 45 through the openings and then filters the dust, namely, the dust on the back of the ceramic tile 7 is cleaned, the dust pollution of a construction environment is avoided, the dust collector 45 timely sucks the air with the dust; the open side of the dust cover 42 can facilitate the rotation and displacement of the tiles 7, and the tiles 7 block most of the space on the open side of the dust cover 42 during dust removal, so that air with dust cannot flow out of the open position in a large amount; dust on the surface of the ceramic tile 7 can be completely blown off by compressed air, so that the ceramic tile glue is firmly adhered to the back surface of the ceramic tile 7.

The adjusting mechanism comprises a first sliding block 5 and a first connecting rod 51, a first rail 52 is fixed on one side, located on the leading-in groove 2, of the moving platform 1, the first rail 52 is perpendicular to the length direction of the leading-in groove 2, the first sliding block 5 is connected to the first rail 52 in a sliding mode, one end of the first connecting rod 51 is hinged to the first sliding block 5, the other end of the first connecting rod 51 is hinged to the lower portion of the supporting frame 3, an adjusting motor 53 is fixed on one end, located on the first rail 52, of the moving platform 1, a first screw rod 54 is connected to a motor shaft of the adjusting motor 53, and the first screw rod 54 penetrates through the first. A second rail parallel to the first rail 52 is further fixed on one side of the guide groove 2 on the moving table 1, a second sliding block is connected to the second rail in a sliding mode, a second connecting rod is hinged to the second sliding block, the other end of the second connecting rod is hinged to the lower portion of the support frame 3, a stop block 55 is fixed to one end, far away from the guide groove 2, of the second rail, and the second sliding block abuts against the stop block 55 when the support frame 3 is at the maximum inclination angle.

The first adjusting motor 53 drives the first screw rod 54 to rotate so as to enable the first sliding block 5 to move back and forth along the first rail 52, when the first sliding block 5 moves towards one side of the adjusting motor 53, the supporting frame 3 rotates obliquely downwards, and when the first sliding block 5 moves towards one side of the supporting frame 3, the supporting frame 3 rotates obliquely upwards, so that the supporting frame 3 is switched back and forth in a vertical or inclined state. When the support frame is at the maximum inclination angle, the whole ceramic tile 7 is positioned on the support frame 3, the support frame 3 can be supported in an auxiliary manner at the moment through the second connecting rod, and the support frame 3 can be guaranteed to support the ceramic tile 7; when the support frame 3 is vertical, the main weight of the ceramic tile 7 is pressed on the lead-in groove 2, and the ceramic tile 7 can be supported only by the first connecting rod 51.

The rubber coating mechanism includes carriage 6 and rubber coating brush 61, carriage 6 is located between two blocks of curb plates 11, spout 12 has all been seted up on two blocks of curb plates 11, sliding connection is on spout 12 respectively at the both ends of carriage 6, rubber coating brush 61 is rectangular shape, rubber coating brush 61 is fixed on carriage 6 along the length direction of carriage 6, the front side that lies in the rubber coating moving direction on the rubber coating brush 61 is fixed with a plurality of jiao zui 62, a plurality of jiao zui 62 set up along the length direction interval of rubber coating brush 61, the rear side that lies in the rubber coating moving direction on the rubber coating brush 61 is fixed with brush hair 63, the length of keeping away from brush hair 63 of jiao zui 62 one side among the brush hair 63 of rubber coating brush 61 is greater than the brush hair 63 that is close. The ceramic tile glue extruded from the glue outlet nozzle 62 is concentrated, the ceramic tile glue is gradually spread to two sides through the short brush bristles 63, the ordinary opened ceramic tile glue is uniformly brushed on the back of the ceramic tile 7 through the long brush bristles 63, the glue injection barrel 64 is fixed on the mobile station 1, the glue coating pipe 65 is further fixed on the sliding frame 6, the glue inlet of the glue coating pipe 65 is communicated with the glue injection port 643 of the glue injection barrel 64 through a hose 66, a plurality of glue outlets are formed in the glue coating pipe 65 and correspond to the glue outlet nozzles 62 one to one, the glue outlet is aligned and communicated with the corresponding glue outlet nozzle 62, and the glue injection barrel 64 can inject the ceramic tile glue in the glue injection barrel 65 into the glue coating pipe 65 through the hose 66.

The two ends of the sliding frame 6 are both connected with pulleys, the pulleys are in an H shape, the pulleys are connected in sliding grooves 12 corresponding to the side plates 11 in a rolling mode, the outer side of one side plate 11 is connected with a second screw rod in a rotating mode, the second screw rod is parallel to the sliding grooves 12, a displacement motor capable of driving the second screw rod to rotate is further fixed on the outer side of the side plate 11, one end, close to the second screw rod, of the sliding frame 6 is provided with a sliding sleeve penetrating out of the sliding grooves 12, and the sliding sleeve is sleeved on the second screw. The second screw rod is driven to rotate through the displacement motor, so that the sliding sleeve moves along the second screw rod, the sliding frame 6 can be driven to move along the sliding groove 12, and the gluing of the sliding groove 12 can be moved and reset; the resistance to the movement of the carriage 6 can be reduced by the pulleys, so that the movement of the carriage 6 is smoother, and the pulleys of the "H" shape can position the carriage 6 in the length direction of the carriage 6.

The glue injection barrel 64 comprises a barrel body 641 and a pressing cover 642, the pressing cover 642 is located in the barrel body 641 and can move up and down along the barrel body 641, the edge of the pressing cover 642 is connected with the barrel body 641 in a sealing mode through a sealing ring, a glue injection opening 643 is formed in the pressing cover 642, a cylinder 645 is fixed on the barrel body 641, and a telescopic rod of the cylinder 645 is fixed to the upper end of the pressing cover 642. An air source of the air cylinder 645 is provided by the air pump 4, an opening for pouring tile glue is formed in the pressing cover 642, the tile glue is poured into the barrel body 641 through the opening before use, the opening is sealed, the pressing cover 642 is pressed downwards through the air cylinder 645, the pressing cover 642 is pressed downwards to enable the tile glue in the barrel 641 to flow out of the glue injection port 643, the flowing tile glue enters the glue coating pipe 65 through the hose 66, the tile glue flows out of the corresponding glue outlet nozzle 62 through the shunting of the glue coating pipe 65, the amount of the tile glue coated on the tile 7 is determined by the stroke of controlling the pressing cover 642 to press downwards through the air cylinder 645, accurate control can be achieved, and a proper amount of the tile glue is coated on each tile 7.

After the ceramic tile 7 is positioned at the gluing station, the sliding frame 6 slides along the sliding groove 12 to enable the gluing brush 61 to brush along the back of the ceramic tile 7, the ceramic tile glue in the gluing barrel 64 is extruded out from the glue outlet nozzle 62 through the hose 66 and the glue coating tube 65 in the process, the glue outlet nozzle 62 is positioned in front of the moving direction in the gluing process, namely the glue outlet nozzle 62 firstly extrudes the ceramic tile glue to the back of the ceramic tile 7, and then the ceramic tile glue is spread by the passing brush bristles 63 and uniformly brushed on the back of the ceramic tile 7, so that the uniform gluing of the ceramic tile 7 is realized; the length of the gluing brush 61 is larger than the width of the ceramic tile 7, and the corresponding glue outlet nozzle 62 is opened according to actual conditions, so that the opened glue outlet nozzle 62 can extrude the ceramic tile glue to the back of the ceramic tile 7.

When the ceramic tile cleaning machine is used, the support frame 3 is in a vertical state firstly, the ceramic tile 7 is pushed into the lead-in groove 2, the middle of the front surface of the ceramic tile 7 is abutted to the supporting roller 36, the guiding roller 22 and the supporting roller 36 rotate when the ceramic tile 7 moves, the ceramic tile 7 vertically inclines to lean against the support frame 3, the back surface of the ceramic tile 7 faces upwards, the ceramic tile 7 is in a dust removal station at the moment, dust on the back surface of the ceramic tile 7 is cleaned through the dust removal mechanism, then the support frame 3 is driven to rotate downwards by the adjusting mechanism, the ceramic tile 7 rotates together with the support frame 3, the support frame 3 rotates to a horizontal inclined position, the ceramic tile 7 is also in a horizontally inclined gluing station at the moment, ceramic tile glue is uniformly smeared on the back surface of the ceramic tile 7 through the gluing mechanism, the ceramic; through dust and the automatic rubber coating at the automatic clearance ceramic tile 7 back, work load when can alleviate the tiling improves tiling efficiency, has avoided the condition that the damage of colliding with appears in ceramic tile 7 simultaneously, has avoided the unnecessary loss.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (4)

1. A glue spreading mechanism of a decorating ceramic tile glue spreader comprises a movable mobile platform, wherein both sides of the mobile platform are respectively fixed with a side plate, the mobile platform is provided with a leading-in groove and a support frame positioned on one side of the leading-in groove, when the support frame rotates to an inclined state, a ceramic tile can downwards rotate to a glue spreading station horizontally inclined, the glue spreading mechanism is characterized by comprising a sliding frame and a glue spreading brush, the sliding frame is positioned between the two side plates, the two side plates are respectively provided with a sliding groove, both ends of the sliding frame are respectively connected onto the sliding grooves in a sliding manner, the glue spreading brush is in a long strip shape and is fixed on the sliding frame along the length direction of the sliding frame, a plurality of glue outlets are fixed on the front side of the glue spreading brush in the glue spreading moving direction and are arranged at intervals along the length direction of the glue spreading brush, and brush bristles are fixed on the rear side of the glue spreading brush, the utility model discloses a ceramic tile glue coating machine, including the mobile station, the carriage is fixed with the glue injection bucket on the mobile station, still be fixed with the glue coating pipe on the carriage, the glue feeding mouth of glue coating pipe passes through the hose intercommunication with the glue injection mouth of glue injection bucket, be equipped with a plurality of glue outlets on the glue coating pipe, it is a plurality of glue outlet and glue outlet one-to-one, glue outlet aligns the intercommunication with the glue outlet that corresponds, the glue coating bucket can be glued the ceramic tile in it and pour into the glue coating pipe through the hose.

2. The gluing mechanism of a finishing tile gluing machine according to claim 1, wherein the length of the bristles of the gluing brush away from the glue outlet is greater than the length of the bristles of the gluing brush close to the glue outlet.

3. The gluing mechanism of a decorating ceramic tile gluing machine as claimed in claim 1, wherein the two ends of the sliding frame are connected with pulleys, the pulleys are in an H shape, the pulleys are connected in sliding grooves corresponding to the side plates in a rolling manner, one of the sliding grooves is connected with a second lead screw in a rotating manner, the second lead screw is parallel to the sliding grooves, a displacement motor capable of driving the second lead screw to rotate is further fixed on the outer side of each side plate, one end of the sliding frame, which is close to the second lead screw, is provided with a sliding sleeve penetrating out of the sliding grooves, and the sliding sleeve is sleeved on the second lead screw and is in threaded connection with the second.

4. The gluing mechanism of the decorating ceramic tile gluing machine according to claim 1, wherein the glue injection barrel comprises a barrel body and a gland, the gland is located in the barrel body and can move up and down along the barrel body, the edge of the gland is in sealing connection with the barrel body through a sealing ring, a glue injection port is formed in the gland, an air cylinder is fixed on the barrel body, and a telescopic rod of the air cylinder is fixed to the upper end of the gland.

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