CN212948368U - Ceramic tile decoration device - Google Patents

Abstract

The utility model discloses a pottery brick decoration device, print the unit including conveyor, glueing unit and dry grain, glueing unit with dry grain print the unit and set gradually conveyor's top, glueing unit is used for right the glue is printed in the limited region of the last ceramic brick base of conveyor, it is right that dry grain print the unit be used for ceramic brick base on the conveyor is printed the limited region of glue and is printed dry grain. The ceramic tile decoration device has the advantages that the definition of surface textures of the manufactured ceramic tile is high, the texture effect is fine, the stereoscopic impression is strong, the adjustment of the decoration effect of dry particle printing in the same ceramic tile decoration device is realized, and the adjustment is flexible and convenient.

Description

Ceramic tile decoration device

Technical Field

The utility model relates to a ceramic manufacture technical field especially relates to a pottery brick decoration device.

Background

The ceramic tile is a plate-shaped or block-shaped ceramic product produced by clay and other inorganic non-metallic raw materials through processes of molding, sintering and the like, and can be used for decorating and protecting the wall surface and the ground of a building. With the continuous development of social economy, the living standard of people is continuously improved, the demand of people on ceramic tiles is increasingly increased, and the requirement on the decorative effect of the ceramic tiles is also increasingly increased. In order to meet the requirements of individuation and richness of ceramic tile decoration, the technologies of ink-jet printing patterns, screen printing and roller printing are developed, and aiming at the richness of decoration, an ink-jet printer is used for ink-jet printing patterns, glue is applied to the patterns according to pattern texture cloth, and dry particles are spread on the whole surface, and finally a suction device is used for adsorbing and recovering the dry particles which are not adhered to the glue, so that the surface decoration effect of the ceramic tile is improved.

SUMMERY OF THE UTILITY MODEL

Problem to the background art provides, the utility model aims to provide a pottery brick decoration device, the definition of the surface texture of the pottery brick that makes is high, and the texture effect is meticulous, and the third dimension is strong, has realized the regulation of the decorative effect that the dry grain printed in same pottery brick decoration device, and has adjusted nimble convenience.

To achieve the purpose, the utility model adopts the following technical proposal:

a ceramic tile decorating device comprises a conveying device, a glue applying unit and a dry grain printing unit, wherein the glue applying unit and the dry grain printing unit are sequentially arranged above the conveying device, the glue applying unit is used for printing glue on a limited area of a ceramic tile blank on the conveying device, and the dry grain printing unit is used for printing dry grains on the limited area of the ceramic tile blank on the conveying device, which is printed with the glue;

the dry particle printing unit comprises a dry particle printing box, the dry particle printing box is provided with a hopper, a mounting plate and a plurality of vibrating pieces, the plurality of vibrating pieces are arranged in a coplanar manner and arranged along the length direction of the mounting plate, the vibrating pieces are arranged between a discharging port of the hopper and the mounting plate, and the vibrating pieces are used for bearing dry particles discharged from the discharging port of the hopper;

the first driving device is used for driving the vibrating piece to vibrate;

the discharging adjusting assembly comprises an adjusting blocking piece, the adjusting blocking piece is arranged above the vibrating piece, the size of a gap between the adjusting blocking piece and the vibrating piece is adjusted, and therefore the blanking thickness of dry particles borne on the vibrating piece is adjusted.

Preferably, the mounting plate comprises a bottom plate and a back plate, the back plate of the mounting plate is connected with the bottom plate, the back plate of the mounting plate is fixed on one side of the discharging part of the hopper, and the bottom plate of the mounting plate is arranged below the discharging opening of the hopper;

one end of the vibrating piece is fixed on the back plate of the mounting plate, the other end of the vibrating piece extends outwards horizontally, and the vibrating piece is arranged between the feed opening of the hopper and the bottom plate of the mounting plate.

Preferably, the discharging adjusting assembly further comprises a bump, a screw, a first limiting piece and a second limiting piece, the bump is fixedly mounted on one side, away from the mounting plate, of the discharging part of the discharging port of the hopper and is located above the vibrating plate, and the bump is provided with a first limiting hole;

the adjusting blocking piece is arranged between the vibrating piece and the lug and comprises a parallel part and a vertical part, the vertical part is vertically connected to one end, away from the blanking part of the blanking opening of the hopper, of the parallel part, and the parallel part of the adjusting blocking piece is provided with a second limiting hole;

one end of the screw rod is rotatably installed in the first limiting hole of the lug and is fixed in the first limiting hole of the lug through the first limiting part, and the other end of the screw rod is rotatably installed in the second limiting hole of the parallel part of the adjusting catch and is fixed in the second limiting hole of the parallel part of the adjusting catch through the second limiting part.

Preferably, the dry particle printing box further comprises a tilt adjusting assembly and a second driving device, the tilt adjusting assembly comprises an angle meter and an angle pointer, the angle meter and the angle pointer are installed on one side of the dry particle printing box, the angle pointer is rotatably installed below the angle meter, and an indicating end of the angle pointer falls on the angle meter and is used for indicating a tilt angle;

the mounting panel of dry grain print cartridge is connected with the rotary rod, the rotary rod with the second drive arrangement is connected, the second drive arrangement drive the rotary rod rotates, the angle pointer with the second drive arrangement electricity is connected, the angle pointer produces the drive when rotating to first inclination second drive arrangement's trigger signal.

Preferably, the width of the vibrating piece is 3-5 mm.

Preferably, at least two sizing units are arranged, at least two dry particle printing units are arranged, one sizing unit and one dry particle printing unit form a group of dry particle printing groups, the dry particle printing groups are sequentially provided with the sizing units and the dry particle printing units according to the conveying direction of the conveying device, and the types of dry particles printed by at least two groups of dry particle printing groups are different;

the dry particle printing device further comprises a plurality of first mounting racks, and each first mounting rack is provided with one group of dry particle printing groups.

Preferably, the mounting structure further comprises a second mounting frame, a plurality of second sliding grooves are formed in the top of the second mounting frame, sliding strips matched with the second sliding grooves are arranged at the bottom of the first mounting frame, and the first mounting frame is slidably mounted on the second mounting frame through the sliding strips.

Preferably, the ceramic tile decorating device further comprises a plurality of feeding units, the feeding units are fixed to the rack of the ceramic tile decorating device and correspond to the dry particle printing units one to one, the feeding units are arranged above the hoppers of the dry particle printing boxes of the dry particle printing units, and the feeding units feed the hoppers of the dry particle printing boxes of the dry particle printing units.

Preferably, the feeding unit comprises a first feeding device and a second feeding device, the first feeding device of the feeding unit is arranged above the second feeding device of the feeding unit, the second feeding device is arranged between the first feeding device of the feeding unit and the hopper of the dry particle printing box, the first feeding device is fixed on the frame of the ceramic tile decorating device, the top of the first feeding device is provided with a first feeding hole, the bottom of the first feeding device is provided with a first discharging hole, the first feeding hole of the first feeding device is connected with a dry particle supplying device, the first discharging hole of the first feeding device faces the hopper of the dry particle printing box, the top of the second feeding device is provided with a second feeding hole, the first discharging hole of the first feeding device is matched with the second feeding hole of the second feeding device, and a second discharge hole is formed in the bottom of the second feeding device, and faces the hopper of the dry particle printing box.

Preferably, the feeding unit further comprises a transmission assembly, the transmission assembly comprises a fixed rod, a transmission chain and a sliding block, the fixed rod is fixed to the rack of the ceramic tile decorating device along the length direction of the hopper of the dry granule printing box, the fixed rod is provided with a first sliding chute, the sliding block is slidably mounted in the first sliding chute, one end of the transmission chain is fixedly mounted at the upper end of the first sliding chute of the fixed rod, the other end of the transmission chain is fixedly mounted on the sliding block, and the second feeding device is fixedly mounted on the sliding block and located below the transmission chain;

the dry particle printing box is characterized by further comprising a third driving device, wherein the third driving device is connected with the sliding block and drives the sliding block to slide back and forth in the first sliding groove of the fixing rod, so that the second feeding device is driven to reciprocate in the length direction of the hopper of the dry particle printing box.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model can position the dry granules in the limited area with glue by printing glue on the limited area of the ceramic tile blank by the glue applying unit and then printing the dry granules on the limited area with glue on the ceramic tile blank by the dry granule printing unit, the vibrating reed is used for bearing the dry granules discharged from the discharging opening of the hopper, the first driving device drives the vibrating plate to vibrate, the blanking precision of vibrating plate vibration blanking is high, the vibrating plate vibrates for blanking at the place where the dry granules are required to be printed, the vibrating plate does not vibrate at the place where the dry granules are not required to be printed, thereby completing the printing of dry granules on the defined areas of the ceramic green brick printed with glue on the conveying device, the vibrating reed completes positioning blanking under the vibration effect, the structure is simple, dry grain printing is completed during vibration blanking, the printing process is convenient, and the control is easy.

In addition, through setting up ejection of compact adjusting part, through adjusting adjust the separation blade with the gap size between the trembler, can adjust the thickness that can the unloading of the dry grain that bears on the trembler, the ceramic tile that makes can realize that the definition is high, the texture effect is meticulous or the surface third dimension is stronger different effects, has realized the regulation of the decorative effect of the dry grain printing in same ceramic tile decoration device, and adjusts nimble convenience.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

FIG. 1 is a schematic structural view of a ceramic tile decorating apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic structural view of a glue applying unit of a ceramic tile decorating apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic structural view of a dry particle printing cartridge of a dry particle printing unit of the ceramic tile decorating apparatus according to one embodiment of the present invention;

FIG. 4 is a schematic view of a partial structure of a dry particle printing cartridge of a dry particle printing unit of the ceramic tile decorating apparatus according to one embodiment of the present invention;

FIG. 5 is a schematic view of the mounting structure of the first and second mounting frames of the ceramic tile decorating apparatus according to one embodiment of the present invention;

fig. 6 is a schematic view (right side view) of the installation structure of the first and second mounting frames of the ceramic tile decorating apparatus according to one embodiment of the present invention;

FIG. 7 is a schematic structural view of a tilt adjustment assembly of a dry-pellet print cartridge of a dry-pellet printing unit of the ceramic tile decorating apparatus of one embodiment of the present invention;

fig. 8 is a schematic left rear perspective view of a dry-pellet printing cartridge of a dry-pellet printing unit of the ceramic tile decorating apparatus according to an embodiment of the present invention;

FIG. 9 is a schematic structural view of a feeding unit of the ceramic tile decorating apparatus according to an embodiment of the present invention;

wherein: the dry particle printing device comprises a conveying device 1, a glue applying unit 2, a glue applying box 21, a printing nozzle 211, a dry particle printing unit 3, a dry particle printing box 31, a hopper 32, a feed opening 321, a feed part 322, a mounting plate 33, a bottom plate 331, a back plate 332, a rotating rod 34, a vibrating plate 35, an inclination adjusting component 36, an angle gauge 361, an angle pointer 362, a discharge adjusting component 37, a bump 371, a first limiting hole 376, an adjusting baffle 372, a parallel part 377, a vertical part 378, a second limiting hole 379, a screw 373, a first limiting part 374, a second limiting part 375, a second driving device 38, a feeding unit 4, a first feeding device 41, a first feeding hole 411, a first discharging hole 412, a second feeding device 42, a second feeding hole 421, a second discharging hole 422, a transmission component 43, a fixing rod 431, a transmission chain 432, a sliding block 433, a first sliding chute 434, a third driving device 44, a first mounting frame 5, a sliding strip 51, a second mounting frame 6 and a second sliding chute 61.

Detailed Description

The following detailed description of the embodiments of the present invention will be made with reference to the accompanying drawings, but the present invention is not limited to the embodiments below.

As shown in fig. 1 to 9, a ceramic tile decorating device comprises a conveying device 1, a glue applying unit 2 and a dry-pellet printing unit 3, wherein the glue applying unit 2 and the dry-pellet printing unit 3 are arranged above the conveying device 1 in sequence, the glue applying unit 2 is used for printing glue on a limited area of a ceramic tile blank on the conveying device 1, and the dry-pellet printing unit 3 is used for printing dry pellets on the limited area of the ceramic tile blank printed with the glue on the conveying device 1;

the dry pellet printing unit 3 comprises a dry pellet printing box 31, wherein the dry pellet printing box 31 is provided with a hopper 32, a mounting plate 33 and a plurality of vibrating reeds 35, the plurality of vibrating reeds 35 are arranged in a coplanar manner, the plurality of vibrating reeds 35 are arranged along the length direction of the mounting plate 33, the vibrating reeds 35 are arranged between a feed opening 321 of the hopper 32 and the mounting plate 33, and the vibrating reeds 35 are used for bearing dry pellets fed from the feed opening 321 of the hopper 32;

the vibrating reed further comprises a first driving device, wherein the first driving device drives the vibrating reed 35 to vibrate;

the discharging adjusting assembly 37 further comprises a discharging adjusting assembly 37, the discharging adjusting assembly 37 comprises an adjusting blocking piece 372, the adjusting blocking piece 372 is arranged above the vibrating piece 35, the size of a gap between the adjusting blocking piece 372 and the vibrating piece 35 is adjusted, and therefore the thickness of the dry particles loaded on the vibrating piece 35 and capable of being discharged is adjusted.

Preferably, the glue applying unit 2 comprises a glue applying box 21, the glue applying box 21 is provided with a printing nozzle 211, the printing nozzle 211 is installed inside the glue applying box 21, the ejecting end of the printing nozzle 211 faces the conveying device 1, and the printing nozzle 211 prints glue on a limited area of a ceramic tile blank on the conveying device 1.

Glue is printed on a limited area of a ceramic tile blank through the glue applying unit 2, then dry grain printing units 3 print dry grains on the limited area of the ceramic tile blank printed with the glue, the dry grains can be positioned on the limited area with the glue, the vibrating reed 35 is used for bearing the dry grains discharged from the discharging opening 321 of the hopper 32, the vibrating reed 35 is driven to vibrate through the first driving device, the discharging accuracy of the vibrating reed 35 in vibration discharging is high, the vibrating reed vibrates for discharging at the place where the dry grains are required to be printed, the vibrating reed 35 does not vibrate at the place where the dry grains are not required to be printed, so that the dry grains are printed on the limited area of the ceramic tile blank printed with the glue on the conveying device 1, the vibrating reed 35 completes positioning discharging under the vibration effect, the structure is simple, the dry grain printing is completed during vibration discharging, and the printing process is convenient, and is easy to control. In addition, by providing the discharging adjustment assembly 37, the dischargeable thickness of the dry pellets carried on the vibration plate 35 can be adjusted by adjusting the size of the gap between the adjustment stopper 372 and the vibration plate 35, when the gap between the adjustment stopper 372 and the vibration plate 35 is smaller, the dischargeable thickness of the dry pellets carried on the vibration plate 35 is smaller, the discharging amount of the vibration discharging of the vibration plate 35 is smaller, the definition of the surface texture of the prepared ceramic tile is high, the texture effect is fine, when the gap between the adjustment stopper 372 and the vibration plate 35 is larger, the dischargeable thickness of the dry pellets accumulated on the vibration plate 35 is larger, the discharging amount of the vibration discharging of the vibration plate 35 is larger, the surface stereoscopic impression of the prepared ceramic tile is stronger, and thus the adjustment of the decoration effect of dry pellet printing in the same ceramic tile decoration device is realized, and the adjustment is flexible and convenient.

Preferably, the mounting plate 33 includes a bottom plate 331 and a back plate 332, the back plate 332 and the bottom plate 4342 of the mounting plate 33 are connected, the back plate 332 of the mounting plate 33 is fixed on one side of the discharging portion 322 of the hopper 32, and the bottom plate 331 of the mounting plate 33 is disposed below the discharging opening 321 of the hopper 32;

one end of the vibration plate 35 is fixed to the back plate 332 of the mounting plate 33, the other end of the vibration plate 35 extends horizontally outwards, and the vibration plate 35 is disposed between the feeding opening 321 of the hopper 32 and the bottom plate 331 of the mounting plate 33.

The first driving device drives one end of the vibrating reed 35 connected to the back plate 332 of the mounting plate 33 to vibrate, so as to drive the other end of the vibrating reed 35 to vibrate, the dry granules loaded on the vibrating reed 35 and discharged from the discharge port 321 of the hopper 32 fall down under the vibration, and the dry granules are printed on the limited area of the ceramic tile blank printed with the glue on the conveying device 1.

Preferably, the first driving device is a piezoelectric device.

Fix the backplate of mounting panel 33 trembler 35 is used for bearing the weight of the follow the dry grain of feed opening 321 unloading of hopper 32, and structural stability is strong, and passes through first drive arrangement drive trembler 35 vibrates, thereby accomplishes the ceramic tile base on conveyor 1 is printed on the limited region of glue and is printed dry grain, first drive arrangement is piezoelectric device, through first drive arrangement drive the unloading is accomplished in trembler 35's vibration, and simple structure accomplishes the printing of dry grain when vibrating the unloading, and the printing process is convenient, and easy to control.

Preferably, the discharging adjustment assembly 37 further includes a bump 371, a screw 373, a first stopper 374 and a second stopper 375, the bump 371 is fixedly mounted on one side of the discharging portion 322 of the discharging port 321 of the hopper 32, which is far away from the mounting plate 33, and is located above the vibrating plate 35, and the bump 371 is provided with a first stopper hole 376;

the adjusting stopper 372 is arranged between the vibrating reed 35 and the bump 371, the adjusting stopper 372 comprises a parallel portion 377 and an upright portion 378, the upright portion 378 is vertically connected to one end of the parallel portion 377, which is far away from the blanking portion 322 of the blanking opening 321 of the hopper 32, and the parallel portion 377 of the adjusting stopper 372 is provided with a second limiting hole 379;

one end of the screw 373 is rotatably mounted in the first limiting hole 4374 of the protrusion 371, and is fixed in the first limiting hole 376 of the protrusion 371 through the first limiting member 374, and the other end of the screw 373 is rotatably mounted in the second limiting hole 379 of the parallel portion 377 of the adjusting stopper 372, and is fixed in the second limiting hole 379 of the parallel portion 377 of the adjusting stopper 372 through the second limiting member 375.

Through the arrangement of the discharging adjusting assembly 37, the distance between the adjusting baffle 372 and the bump 371 of the discharging adjusting assembly 37 can be adjusted through the screw 4374 of the discharging adjusting assembly 37, so that the size of the gap between the vertical part 378 of the adjusting baffle 372 and the vibrating plate 35 can be adjusted, the blanking thickness of dry particles borne by the vibrating plate 35 can be adjusted, the adjustment of the decorative effect of the ceramic tile is realized, the adjusting structure is simple, and the adjustment is convenient.

Preferably, the dry particle print cartridge 31 further comprises a tilt adjusting assembly 36 and a second driving device 38, the tilt adjusting assembly 36 comprises an angle meter 361 and an angle pointer 362, the angle meter 361 and the angle pointer 362 are installed at one side of the dry particle print cartridge 31, the angle pointer 362 is rotatably installed below the angle meter 361, and an indicating end of the angle pointer 362 falls on the angle meter 361 and is used for indicating a tilt angle;

the mounting plate 33 of the dry particle printing cartridge 31 is connected with a rotating rod 34, the rotating rod 34 is connected with the second driving device 38, the second driving device 38 drives the rotating rod 34 to rotate, the angle pointer 362 is electrically connected with the second driving device 38, and when the angle pointer 362 rotates to a first inclination angle, a trigger signal for driving the second driving device 38 is generated.

Through setting up slope regulating assembly 36, can adjust the inclination of trembler 35, through adjusting the inclination of trembler 35, can realize the unloading volume and the unloading speed of trembler 35 vibration unloading, work as the inclination of trembler 35 is big more, and the unloading under the vibration action is easier, and the unloading volume of vibration unloading is bigger, cooperates conveyor 1's transport speed can be through the adjustment the inclination of trembler 35 to reach the required decorative effect of ceramic brick base that conveyor 1 carried.

Preferably, the dry-particle printing cartridge further comprises a control unit, the control unit is connected to the tilt adjustment component 36 of the dry-particle printing cartridge 31, when the angle indicator 362 is rotated, a first tilt angle is displayed on the angle meter 361, the control unit controls the second driving device 38 to drive the rotating rod 34 to rotate by the first tilt angle, so as to drive the mounting plate 33 of the dry-particle printing cartridge 31 to rotate by the first tilt angle, and the vibrating plate 35 fixed to the back plate 332 of the mounting plate 33 also rotates by the first tilt angle.

It should be noted that the control unit is controlled by using an existing conventional control circuit.

Preferably, the width of the vibrating piece 35 is 3 to 5 mm.

If the width of the vibrating piece 35 is too large, the vibrating piece 35 is blanked under vibration so that the blanking amount is too large, excessive dry pellet blanking causes the fineness of the decorative effect of the pattern to be reduced, and if the width is too small, the more the vibrating piece 35 is required when the printing width is the same, increasing the complexity of the structure of the dry pellet printing box 31.

Preferably, at least two sizing units 2 are provided, at least two dry particle printing units 3 are provided, one sizing unit 2 and one dry particle printing unit 3 form a group of dry particle printing groups, the dry particle printing groups sequentially set the sizing unit 2 and the dry particle printing unit 3 according to the conveying direction of the conveying device 1, and the types of dry particles printed by at least two groups of dry particle printing groups are different;

the dry particle printing device further comprises a plurality of first mounting frames 5, and each first mounting frame 5 is provided with one dry particle printing group.

Glue applying unit 2 is provided with two at least, dry grain printing unit 3 is provided with two at least, one glue applying unit 2 and one dry grain printing unit 3 prints the group for a set of dry grain, and is at least two sets of dry grain prints the type difference of the dry grain of group printing, is different dry grain prints the group and prints different types of dry grain, and can superpose according to the pattern decorative pattern of design dry grain prints the quantity of group, realizes the superposition of the different dry grain effect of pattern, the texture is abundant, and stereovision, third dimension are strong, dry grain print the group install in first mounting bracket 5 has improved glue applying unit 2 stability when printing glue, and has improved dry grain printing unit 3 stability when dry grain is printed in the location.

Preferably, the mounting structure further comprises a second mounting frame 6, a plurality of second sliding grooves 61 are formed in the top of the second mounting frame 6, a sliding strip 51 matched with the second sliding grooves 61 is arranged at the bottom of the first mounting frame 5, and the first mounting frame 5 is slidably mounted on the second mounting frame 6 through the sliding strip 51.

First mounting bracket 5 is provided with a plurality ofly, and is a plurality of first mounting bracket 5 slidable mounting in second mounting bracket 6 to adjustable adjacent two first mounting bracket 5's distance makes then that the distance between adjacent two sets of dry grain printing group can be adjusted, through adjusting adjacent two sets of dry grain printing group's distance between the group can control decorative effect, if when the printing volume of the glue that glueing unit 2 printed is great, can increase adjacent two sets of dry grain printing group's distance between the group, make preceding a set of glue that glueing unit 2 of dry grain printing group printed has sufficient drying time, can not influence a set of in the back dry grain printing group's dry grain printing unit 3 location prints the effect of dry grain.

Preferably, the ceramic tile decorating device further comprises a plurality of feeding units 4, the feeding units 4 are arranged, the feeding units 4 are respectively fixed on the rack of the ceramic tile decorating device and respectively correspond to the dry particle printing units 3 one by one, the feeding units 4 are arranged above the hoppers 32 of the dry particle printing boxes 31 of the dry particle printing units 3, and the feeding units 4 feed the hoppers 32 of the dry particle printing boxes 31 of the dry particle printing units 3.

The feeding unit 4 is arranged to feed the hopper 32 of the dry particle printing box 31 of the dry particle printing unit 3, so that the sufficient amount of dry particles can be provided for printing of the dry particle printing box 31 of the dry particle printing unit 3, and the printing effect and the printing quality of the dry particle printing box 31 of the dry particle printing unit 3 can be ensured.

Preferably, the feeding unit 4 includes a first feeding device 41 and a second feeding device 42, the first feeding device 41 of the feeding unit 4 is disposed above the second feeding device 42 of the feeding unit 4, the second feeding device 42 is disposed between the first feeding device 41 of the feeding unit 4 and the hopper 32 of the dry granule printing box 31, the first feeding device 41 is fixed on the rack of the ceramic tile decorating device, the top of the first feeding device 41 is provided with a first feeding hole 411, the bottom of the first feeding device 41 is provided with a first discharging hole 412, the first feeding hole 411 of the first feeding device 41 is connected with a dry granule supplying device, the first discharging hole 412 of the first feeding device 41 faces the hopper 32 of the dry granule printing box 31, the top of the second feeding device 42 is provided with a second feeding hole 421, and the first discharging hole 412 of the first feeding device 41 is matched with the second feeding hole 421 of the second feeding device 42 And a second discharge hole 422 is formed in the bottom of the second feeding device 42, and the second discharge hole 422 of the second feeding device 42 faces the hopper 32 of the dry particle printing box 31.

The first feeding device 41 of the feeding unit 4 feeds the second feeding device 42 of the feeding unit 4, and then the second feeding device 42 of the feeding unit 4 feeds the hopper 32 of the dry-particle printing box 31 of the dry-particle printing unit 3, so that the feeding stability can be effectively improved.

Preferably, the feeding unit 4 further comprises a transmission assembly 43, the transmission assembly 43 comprises a fixed rod 431, a transmission chain 432 and a sliding block 433, the fixed rod 431 is fixed to the rack of the ceramic tile decorating device along the length direction of the hopper 32 of the dry grain printing box 31, the fixed rod 431 is provided with a first sliding groove 434, the sliding block 433 is slidably installed in the first sliding groove 434, one end of the transmission chain 432 is fixedly installed at the upper end of the first sliding groove 434 of the fixed rod 431, the other end of the transmission chain 432 is fixedly installed at the sliding block 433, and the second feeding device 42 is fixedly installed at the sliding block 433 and is located below the transmission chain 432;

the dry particle printing device further comprises a third driving device 44, wherein the third driving device 44 is connected with the sliding block 433, and drives the sliding block 433 to slide back and forth in the first sliding slot 434 of the fixing rod 431, so as to drive the second feeding device 42 to reciprocate in the length direction of the hopper 32 of the dry particle printing box 31.

By providing the transmission assembly 43 of the feeding unit 4, the second feeding device 42 reciprocates in the longitudinal direction of the hopper 32 of the dry-particle print cartridge 31, and the second feeding device 42 finishes feeding to the hopper 32 of the dry-particle print cartridge 31 when moving above the hopper 32 of the dry-particle print cartridge 31, so that the feeding uniformity of the hopper 32 of the dry-particle print cartridge 31 can be ensured when the length of the hopper 32 of the dry-particle print cartridge 31 is long, and the feeding uniformity is not affected by accumulating at only one end of the hopper 32 of the dry-particle print cartridge 31 when the second feeding device 42 feeds.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The ceramic tile decorating device is characterized by comprising a conveying device, a glue applying unit and a dry grain printing unit, wherein the glue applying unit and the dry grain printing unit are sequentially arranged above the conveying device, the glue applying unit is used for printing glue on a limited area of a ceramic tile blank on the conveying device, and the dry grain printing unit is used for printing dry grains on the limited area of the ceramic tile blank on the conveying device, which is printed with the glue;

the dry particle printing unit comprises a dry particle printing box, the dry particle printing box is provided with a hopper, a mounting plate and a plurality of vibrating pieces, the plurality of vibrating pieces are arranged in a coplanar manner and arranged along the length direction of the mounting plate, the vibrating pieces are arranged between a discharging port of the hopper and the mounting plate, and the vibrating pieces are used for bearing dry particles discharged from the discharging port of the hopper;

the first driving device is used for driving the vibrating piece to vibrate;

the discharging adjusting assembly comprises an adjusting blocking piece, the adjusting blocking piece is arranged above the vibrating piece, the size of a gap between the adjusting blocking piece and the vibrating piece is adjusted, and therefore the blanking thickness of dry particles borne on the vibrating piece is adjusted.

2. The ceramic tile decorating apparatus as claimed in claim 1, wherein the mounting plate comprises a bottom plate and a back plate, the back plate of the mounting plate is connected with the bottom plate, the back plate of the mounting plate is fixed on one side of the discharging part of the hopper, and the bottom plate of the mounting plate is arranged below the discharging opening of the hopper;

one end of the vibrating piece is fixed on the back plate of the mounting plate, the other end of the vibrating piece extends outwards horizontally, and the vibrating piece is arranged between the feed opening of the hopper and the bottom plate of the mounting plate.

3. The ceramic tile decorating apparatus as claimed in claim 1, wherein the discharging adjustment assembly further comprises a protrusion, a screw, a first limiting member and a second limiting member, the protrusion is fixedly installed on a side of the discharging portion of the discharging opening of the hopper away from the installation plate and above the vibrating plate, and the protrusion is provided with a first limiting hole;

the adjusting blocking piece is arranged between the vibrating piece and the lug and comprises a parallel part and a vertical part, the vertical part is vertically connected to one end, away from the blanking part of the blanking opening of the hopper, of the parallel part, and the parallel part of the adjusting blocking piece is provided with a second limiting hole;

one end of the screw rod is rotatably installed in the first limiting hole of the lug and is fixed in the first limiting hole of the lug through the first limiting part, and the other end of the screw rod is rotatably installed in the second limiting hole of the parallel part of the adjusting catch and is fixed in the second limiting hole of the parallel part of the adjusting catch through the second limiting part.

4. A ceramic tile decorating apparatus as claimed in claim 1, wherein the dry grain print cartridge further comprises a tilt adjustment assembly and a second drive means, the tilt adjustment assembly comprising an angle gauge and an angle pointer, the angle gauge and the angle pointer being mounted on one side of the dry grain print cartridge, the angle pointer being rotatably mounted below the angle gauge, and an indicating end of the angle pointer falling on the angle gauge and being adapted to indicate a tilt angle;

the mounting panel of dry grain print cartridge is connected with the rotary rod, the rotary rod with the second drive arrangement is connected, the second drive arrangement drive the rotary rod rotates, the angle pointer with the second drive arrangement electricity is connected, the angle pointer produces the drive when rotating to first inclination second drive arrangement's trigger signal.

5. The apparatus as claimed in claim 1, wherein the width of the vibrating plate is 3 to 5 mm.

6. A ceramic tile decorating apparatus as claimed in claim 1, wherein there are at least two said glue applying units, there are at least two said dry-pellet printing units, one said glue applying unit and one said dry-pellet printing unit are a set of dry-pellet printing groups, said set of dry-pellet printing groups are arranged with said glue applying unit and said dry-pellet printing unit in sequence according to the conveying direction of said conveying device, at least two sets of said dry-pellet printing groups print different types of dry pellets;

the dry particle printing device further comprises a plurality of first mounting racks, and each first mounting rack is provided with one group of dry particle printing groups.

7. The ceramic tile decorating apparatus as claimed in claim 6, further comprising a second mounting frame, wherein a plurality of second sliding grooves are arranged on the top of the second mounting frame, a sliding bar matched with the second sliding grooves is arranged on the bottom of the first mounting frame, and the first mounting frame is slidably mounted on the second mounting frame through the sliding bar.

8. The ceramic tile decorating apparatus as claimed in claim 6, further comprising a plurality of feeding units, wherein the feeding units are respectively fixed on the frame of the ceramic tile decorating apparatus and respectively correspond to the dry-pellet printing units one by one, the feeding units are arranged above the hopper of the dry-pellet printing box of the dry-pellet printing unit, and the feeding units feed the hopper of the dry-pellet printing box of the dry-pellet printing unit.

9. A ceramic tile decorating device as claimed in claim 8, wherein the feeding unit comprises a first feeding device and a second feeding device, the first feeding device of the feeding unit is arranged above the second feeding device of the feeding unit, the second feeding device is arranged between the first feeding device of the feeding unit and the hopper of the dry-particle printing box, the first feeding device is fixed on the frame of the ceramic tile decorating device, the top of the first feeding device is provided with a first feeding hole, the bottom of the first feeding device is provided with a first discharging hole, the first feeding hole of the first feeding device is connected with a dry-particle supplying device, the first discharging hole of the first feeding device faces the hopper of the dry-particle printing box, the top of the second feeding device is provided with a second feeding hole, and the first discharging hole of the first feeding device is matched with the second feeding hole of the second feeding device, and a second discharge hole is formed in the bottom of the second feeding device, and faces the hopper of the dry particle printing box.

10. A ceramic tile decorating apparatus as claimed in claim 9, wherein the feeding unit further comprises a driving assembly, the driving assembly comprises a fixed rod, a driving chain and a sliding block, the fixed rod is fixed to the frame of the ceramic tile decorating apparatus along the length direction of the hopper of the dry granule printing cartridge, the fixed rod is provided with a first chute, the sliding block is slidably mounted in the first chute, one end of the driving chain is fixedly mounted at the upper end of the first chute of the fixed rod, the other end of the driving chain is fixedly mounted to the sliding block, and the second feeding device is fixedly mounted to the sliding block and located below the driving chain;

the dry particle printing box is characterized by further comprising a third driving device, wherein the third driving device is connected with the sliding block and drives the sliding block to slide back and forth in the first sliding groove of the fixing rod, so that the second feeding device is driven to reciprocate in the length direction of the hopper of the dry particle printing box.

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