CN111391083B - Ceramic tile decoration production system capable of distributing complex patterns - Google Patents

Abstract

The invention discloses a ceramic tile decoration production system capable of distributing complex patterns, which comprises a main belt, a glaze printer, an ink-jet printer, a dry particle distributing machine, a material returning machine and a dry particle distributing machine, wherein the main belt is used for conveying ceramic tile blanks, and the glaze printer, the ink-jet printer, the dry particle distributing machine and the dry particle distributing machine are sequentially arranged above the main belt along the conveying direction of the main belt. The ceramic tile decoration production system capable of distributing the complex patterns is used for decorating ceramic tiles, so that the requirements of rich ceramic tile decoration effect, clear and fine decoration texture and rich three-dimensional effect are met, the distribution treatment of the complex pattern effect in the same ceramic tile decoration device is realized, the recycling of dry particles is realized, the production cost is effectively saved, and the production efficiency is improved.

Description

Ceramic tile decoration production system capable of distributing complex patterns

Technical Field

The invention relates to the technical field of ceramic production, in particular to a ceramic tile decoration production system capable of distributing complex patterns.

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 ink-jet printing pattern, screen printing and roller printing technologies are developed, aiming at the richness of decoration, an ink-jet printer is used for ink-jet printing of patterns, glue is applied to the ceramic tiles according to pattern texture, and dry particles are spread on the whole surface, and finally a suction device is used for adsorbing and recycling the dry particles which are not adhered to the glue, so that the surface decoration effect of the ceramic tiles is improved, the dry particles are wasted due to the fact that a large amount of dry particles are spread, the production efficiency is reduced, the production cost is high, even if pattern distribution can be carried out, only a single pattern can be distributed, when the ceramic tiles with complex patterns need to be distributed, the distribution needs to be repeated for multiple times to achieve the effect, and the prepared ceramic tiles are rough in decoration texture, low in fineness, single in decoration effect and poor in three.

Disclosure of Invention

The invention aims to provide a ceramic tile decoration production system capable of distributing complex patterns, which can be used for decorating ceramic tiles, so that the requirements of rich ceramic tile decoration effect, clear and fine decoration texture and rich three-dimensional effect are met, the distribution treatment of complex pattern effect in the same ceramic tile decoration device is realized, the recycling of dry particles can be realized, the production cost is effectively saved, and the production efficiency is improved.

In order to achieve the purpose, the invention adopts the following technical scheme:

a ceramic tile decoration production system capable of distributing complex patterns comprises a main belt, a glaze printer, an ink-jet printer, a dry particle distributing machine, a material returning machine and a dry particle distributing machine, wherein the main belt is used for conveying ceramic tile blanks, the glaze printer, the ink-jet printer, the dry particle distributing machine and the dry particle distributing machine are sequentially arranged above the main belt along the conveying direction of the main belt, the material supplying end of the dry particle distributing machine is connected with the material discharging end of the material returning machine, and the material returning end of the dry particle distributing machine is connected with the material feeding end of the material returning machine;

the glaze printer is used for printing glaze on the ceramic adobe; the ink-jet printer is used for printing patterns on the ceramic green bricks in an ink-jet mode; the dry particle distributing machine is used for positioning and distributing dry particles on the surface of the ink-jet pattern of the ceramic green brick; the dry particle piece distributing machine is used for spreading dry particle pieces on the ceramic green bricks;

the dry particle distributing machine comprises a glue applying unit and a dry particle distributing unit, wherein the glue applying unit is used for printing glue on a limited area of the ceramic green bricks on the main belt, and the dry particle distributing unit is used for distributing dry particles on the limited area of the ceramic green bricks on the main belt, which are printed with the glue;

the dry particle distributing unit of the dry particle distributing machine comprises a distributing device, a plurality of parallel distributing devices are arranged right above the main belt, and the arrangement direction of the distributing devices is vertical to the conveying direction of the main belt;

the distributing device comprises a hopper, a discharging adjusting module and an auxiliary belt; the hopper is of a hollow structure which is communicated up and down, a discharge hole is formed in the bottom of the hopper, the auxiliary belt is arranged right below the hopper, and the conveying direction of the auxiliary belt is the same as that of the main belt;

the blanking adjusting module comprises a cover plate and a first driving device; the cover plate is positioned below the discharge hole, one end of the cover plate is connected with the output end of the first driving device, and the first driving device drives the cover plate to do lifting reciprocating motion; and in the initial state, the cover plate covers the discharge hole of the hopper, and the first driving device drives the cover plate to descend in the material distribution state.

Preferably, the number of the sizing units is at least two, the number of the dry particle distributing units is at least two, one sizing unit and one dry particle distributing unit form a group of dry particle distributing groups, the dry particle distributing groups are sequentially provided with the sizing units and the dry particle distributing units according to the conveying direction of the main belt, and the types of dry particles distributed by at least two groups of dry particle distributing groups are different;

the distance between the glaze printer and the ink-jet printer is 15-25 m, the distance between the ink-jet printer and the dry particle distributing machine is 1-10 m, and the distance between the dry particle distributing machine and the dry particle piece distributing machine is 1-10 m;

and the distance between the sizing unit and the dry particle distributing unit in the dry particle distributing group is 10-30 cm.

Preferably, the cover plate of the blanking adjusting module of the distributing device of the dry particle distributing unit comprises a bottom plate, a rear baffle, a left baffle and a right baffle, wherein the rear baffle is formed at the rear end of the bottom plate, and the left baffle and the right baffle are respectively formed at the left end and the right end of the bottom plate;

the height of the rear baffle, the height of the left baffle and the height of the right baffle are all larger than the lifting stroke of the cover plate, and the bottom plate is matched with the discharge hole of the hopper.

Preferably, the rear side wall of the hopper of the distributing device of the dry particle distributing unit is inclined backwards from bottom to top, and the rear baffle of the cover plate is matched with the rear side wall of the hopper;

the first driving device is arranged on the rear side wall of the hopper, and the output end of the first driving device is connected with the rear baffle of the cover plate.

Preferably, the left end and the right end of the rear side wall of the hopper of the distributing device of the dry particle distributing unit are provided with discharging guide rails, and the left end and the right end of the rear baffle of the cover plate are movably clamped in the corresponding discharging guide rails;

pulleys matched with the blanking guide rails on the rear side wall are arranged at the left end and the right end of the rear baffle of the cover plate.

Preferably, the lower end of the rear side wall of the hopper of the distributing device of the dry particle distributing unit is connected with the rear baffle of the cover plate through a material blocking part, and the material blocking part is a flexible soft belt.

Preferably, the dry particle distributing machine further comprises a plurality of feeding units, the plurality of feeding units are respectively fixed to the frame of the dry particle distributing machine and respectively correspond to the dry particle distributing units one by one, the feeding units are arranged above the hoppers of the dry particle distributing units, and the feeding units feed materials to the hoppers of the distributing device of the dry particle distributing units;

the feeding unit comprises a first feeding device, a second feeding device, a first feeding guide rail and a first feeding driving device;

the first feeding device is arranged at one end of the first feeding guide rail and is positioned above the second feeding device, the second feeding device is slidably arranged on the first feeding guide rail, the first feeding driving device drives the second feeding device to reciprocate along the first feeding guide rail, the second feeding device is arranged between the first feeding device of the feeding unit and the hopper, the first feeding device is fixed on the frame of the dry particle distributing machine, 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 blanking hole, the first feeding hole of the first feeding device is connected with the output end of the material returning machine, the top of the second feeding device is provided with a second feeding hole, and the first blanking hole of the first feeding device is matched with the second feeding hole of the second feeding device, and a second feed opening is formed in the bottom of the second feeding device.

Preferably, the dry particle distributing machine further comprises an adsorption unit, the adsorption unit comprises a plurality of dry particle adsorption devices, each dry particle distributing group is provided with one dry particle adsorption device, and each dry particle distributing group is sequentially provided with the sizing unit, the dry particle distributing unit and the dry particle adsorption devices according to the conveying direction of the main belt;

the dry particle adsorption device of the adsorption unit comprises a suction hood and a suction pipe, wherein the suction hood of the dry particle adsorption device is provided with a suction port, the suction pipe is connected with the suction port of the suction hood, and the suction pipe of the dry particle adsorption device is connected with the input end of the material returning machine.

Preferably, the feed back machine includes feed back fill, feed hopper and second drive arrangement, the feed hopper sets up the below of feed back fill, the top fixed mounting of feed back fill has second drive arrangement, one side that is close to the top of feed back fill is provided with the third feed inlet, the third feed inlet of feed back fill with dry grain adsorption equipment's of dry grain cloth machine's absorption unit suction tube is connected, the third feed opening has been seted up to the bottom of feed hopper, the third feed opening of feed hopper with dry grain cloth machine's the first feed inlet of the first feedway of the feed unit is connected.

Preferably, the dry pellet distributing machine comprises a dry pellet distributing unit, the dry pellet distributing unit comprises a dry pellet distributing device, the dry pellet distributing device comprises a distributing hopper and a discharging roller, and the discharging roller is arranged below the distributing hopper;

the cloth hopper comprises a first side wall and a second side wall, a second discharge hole is reserved between the first side wall and the circumferential surface of the blanking roller, the blanking roller rotates along the direction of the second discharge hole, and the second side wall is abutted against the edge of the blanking roller;

the dry particle piece distributing device is characterized by further comprising a vibrating screen, wherein the vibrating screen is arranged below a second discharge hole of the dry particle piece distributing device.

Compared with the prior art, the invention has the following beneficial effects:

when the ceramic tile blank conveyed by the main belt passes through the glaze printer, the glaze printer prints glaze on the ceramic tile blank, then the ceramic tile blank is subjected to ink-jet printing by the ink-jet printer, the glaze is printed on the ceramic tile blank, then the pattern is subjected to ink-jet printing, the effect of the ink-jet pattern is clearer, dry particles are positioned on the surface of the ink-jet pattern of the ceramic tile blank by the dry particle distributing machine, finally the dry particle distributing machine is used for spreading dry particles on the ceramic tile blank, the obtained ceramic tile blank has rich decorative effect, besides the texture generated by the ink-jet printing pattern printed by the ink-jet printer, the effect of positioning the dry particles by the dry particle distributing machine and the decorative effect of surface dry particles paved by the dry particle distributing machine are also increased, the decorative means are enriched, and different types of dry particles distributed by the dry particle distributing machine are combined, and the collocation of the different types of dry grain pieces laid by the dry grain piece distributing machine realizes that the ceramic tile decoration is rich in decoration effect on the same level, has clear and fine decoration texture and rich three-dimensional effect on different levels, and in addition, through the arrangement the material return machine is right the dry grain distributing machine recovers redundant dry grains distributed on the surface of a ceramic tile blank, and then feeds the redundant dry grains to the dry grain distributing machine, so that the recycling of the dry grains can be realized, and the production cost is effectively saved. The ceramic tile decoration production system is high in automation degree, capable of reducing labor cost and improving production efficiency, and the prepared ceramic tiles are rich in decoration effect and strong in stereoscopic impression.

The glue applying unit and the dry particle distributing unit are arranged in the dry particle distributing machine, glue is printed in a limited area of a ceramic brick blank through the glue applying unit, then dry particles are distributed in the limited area of the ceramic brick blank printed with the glue through the dry particle distributing unit, the dry particles can be positioned and distributed in the limited area with the glue, and distributing devices of the plurality of dry particle distributing units are arranged right above the main belt in parallel to distribute the dry particles to the ceramic brick blank; the distributing devices are controlled independently, the hoppers storing dry granules in each distributing device independently adjust the quantity and time of the blanking through the blanking adjusting module, the auxiliary belts are used for bearing the dry granules output by the hoppers and distributing the dry granules on ceramic green bricks of the main belt below the auxiliary belts, and the auxiliary belts of each distributing device are controlled independently.

Only the distributing device corresponding to the area needing distributing dry particles on the ceramic green brick among the plurality of distributing devices arranged side by side starts the auxiliary belt to distribute the dry particles, but the distributing device corresponding to the area needing distributing dry particles does not start the auxiliary belt, the working process is similar to ink-jet printing, so that the printing type positioning distributing dry particles are realized, and complex patterns with fine lines can be formed on the ceramic green brick;

the hopper of each distributing device can be used for placing dry particles with the same or different types, and the first driving device of the blanking adjusting module drives the cover plate to do lifting reciprocating motion so as to adjust the opening and closing degree of the discharge port, so that the thicknesses of the dry particles falling onto the auxiliary belt can be adjusted by different blanking amounts of the hopper in unit time, and the dry particles with different thicknesses can be applied to ceramic green bricks; the speed of the auxiliary belt of each material distribution device can be set to be the same or different, the relative position of the dry particles falling onto the auxiliary belt and the main belt in the hopper can be changed, so that the position of the dry particle material distribution has variability, variable decorative effects can be formed according to production requirements, complicated patterns can be distributed, the surface stereoscopic impression of the manufactured ceramic tile is strong, and the material distribution treatment of the complicated pattern effects in the same ceramic tile decorative device is realized.

Drawings

The drawings are further illustrative of the invention and the content of the drawings does not constitute any limitation of the invention.

FIG. 1 is a schematic block diagram of a ceramic tile decoration production system according to one embodiment of the present invention;

FIG. 2 is a schematic structural diagram of a dry particle distributing machine of the ceramic tile decoration production system according to one embodiment of the present invention;

FIG. 3 is a top view of a dry particle distribution unit of a dry particle distribution machine of the ceramic tile decoration production system of one embodiment of the present invention;

FIG. 4 is a left side view of a dry particle distribution unit of a dry particle distribution machine of the ceramic tile decoration production system of one embodiment of the present invention;

FIG. 5 is a front view of a dry particle distribution unit of a dry particle distribution machine of the ceramic tile decoration production system of one embodiment of the present invention;

FIG. 6 is a schematic structural view of a cover plate of a dry particle distribution unit of a dry particle distribution machine of the ceramic tile decoration production system according to one embodiment of the present invention;

FIG. 7 is a schematic structural diagram of a feeding unit of a dry particle distributing machine of the ceramic tile decoration production system according to one embodiment of the present invention;

FIG. 8 is a schematic structural view of a feed back machine of the ceramic tile decoration production system of one embodiment of the present invention;

FIG. 9 is a schematic structural view of a dry pellet distribution machine of the ceramic tile decoration production system of one embodiment of the present invention;

wherein: the dry particle feeding device comprises a main belt 1, a glaze printer 2, an ink jet printer 3, a dry particle distributing machine 4, a sizing unit 41, a dry particle distributing unit 42, a distributing device 421, a hopper 422, a discharge port 425, a rear side wall 426, a blanking adjusting module 423, a cover plate 427, a bottom plate 4271, a rear baffle 4272, a left baffle 4273, a right baffle 4274, a first driving device 428, a material blocking part 429, a secondary belt 424, a feeding unit 43, a first feeding device 431, a first feed port 433, a first blanking port 434, a second feeding device 432, a second feed port 435, a second blanking port 436, a first feed guide 437, a first feed driving device 438, an adsorption unit 44, a dry particle adsorption device 441, a suction cover 442, a suction port 443, a material returning machine 5, a material returning hopper 51, a third feeding port 511, a feed hopper 52, a third blanking port 521, a second driving device 53, a first fixing bracket 54, a second fixing bracket 55, a dry particle distributing device 55, a feeding device 438, A roller 551, a dry tablet distributing machine 6, a dry tablet distributing device 61, a distributing hopper 611, a first side wall 614, a second side wall 615, a blanking roller 612, a second discharging port 613 and a vibrating screen 62.

Detailed Description

The following describes in detail a specific embodiment of the present invention with reference to the drawings, but the present invention is not limited to the following embodiment.

As shown in fig. 1 to 9, a ceramic tile decoration production system capable of distributing complex patterns comprises a main belt 1, a glaze printer 2, an ink jet printer 3, a dry particle distributor 4, a material return machine 5 and a dry particle distributor 6, wherein the main belt 1 is used for conveying ceramic tile blanks, the glaze printer 2, the ink jet printer 3, the dry particle distributor 4 and the dry particle distributor 6 are sequentially arranged above the main belt 1 along the conveying direction of the main belt 1, the material supply end of the dry particle distributor 4 is connected with the material discharge end of the material return machine 5, and the material return end of the dry particle distributor 4 is connected with the material feed end of the material return machine 5;

the glaze printer 2 is used for printing glaze on the ceramic adobe; the ink-jet printer 3 is used for printing patterns on the ceramic adobes in an ink-jet mode; the dry particle distributing machine 4 is used for positioning distributing dry particles on the surface of the ink-jet pattern of the ceramic green brick; the dry particle piece distributing machine 6 is used for spreading dry particle pieces on the ceramic green bricks;

the dry particle distributing machine 4 comprises a glue applying unit 41 and a dry particle distributing unit 42, wherein the glue applying unit 41 is used for printing glue on a limited area of the ceramic green bricks on the main belt 1, and the dry particle distributing unit 42 is used for distributing dry particles on the limited area of the ceramic green bricks on the main belt 1, which are printed with the glue;

the dry particle distributing unit 42 of the dry particle distributing machine 4 comprises a distributing device 421, a plurality of parallel distributing devices 421 are arranged right above the main belt 1, and the arrangement direction of the distributing devices 421 is perpendicular to the conveying direction of the main belt 1;

the distributing device 421 comprises a hopper 422, a blanking adjusting module 423 and a secondary belt 424; the hopper 422 is a hollow structure which is through up and down, a discharge hole 425 is formed in the bottom of the hopper 422, the auxiliary belt 424 is arranged right below the hopper 422, and the conveying direction of the auxiliary belt 424 is the same as that of the main belt 1;

the blanking adjustment module 423 includes a cover 427 and a first drive 428; the cover plate 427 is positioned below the discharge hole 425, one end of the cover plate 427 is connected with the output end of the first driving device 428, and the first driving device 428 drives the cover plate 427 to do reciprocating motion; in the initial state, the cover 427 covers the discharge hole 425 of the hopper 422, and in the material distribution state, the first driving device 428 drives the cover 427 to descend.

The initial state is a state where the distributing device 421 does not distribute dry particles, and the distributing state is a state where the distributing device 421 distributes dry particles. When the ceramic tile blank conveyed by the main belt 1 passes through the glaze printer 2, the glaze printer 2 prints glaze on the ceramic tile blank, then the ink-jet printer 3 prints patterns on the ceramic tile blank, the ceramic tile blank is printed with the glaze and then the patterns are printed by ink-jet, the effect of the ink-jet patterns is clearer, the dry granules are positioned on the surface of the ink-jet patterns of the ceramic tile blank by the dry granule distributing machine 4, finally the dry granule piece distributing machine 6 spreads the dry granule pieces on the ceramic tile blank, the obtained ceramic tile blank has rich decorative effect, besides the texture generated by the ink-jet printing patterns printed by the ink-jet printer 3, the effect of positioning the dry granules by the dry granule distributing machine 4 and the decorative effect of the surface dry granule pieces spread by the dry granule distributing machine 6 are also increased, the decorative means are enriched, and the dry granules with different types distributed by the dry granule distributing machine 4 are combined, and the collocation of the different types of dry grain pieces laid by the dry grain piece distributing machine 6 realizes that the ceramic tile decoration is rich in decoration effect on the same level, has clear and fine decoration texture and rich three-dimensional effect on different levels, and in addition, through the arrangement, the material return machine 5 is used for recovering redundant dry grains distributed on the surface of a ceramic tile blank by the dry grain distributing machine 4 and then supplying the redundant dry grains to the dry grain distributing machine 4, so that the recycling of the dry grains can be realized, and the production cost is effectively saved. The ceramic tile decoration production system is high in automation degree, capable of reducing labor cost and improving production efficiency, and the prepared ceramic tiles are rich in decoration effect and strong in stereoscopic impression.

The glue applying unit 41 and the dry particle distributing unit 42 are arranged in the dry particle distributing machine 4, glue is printed in a limited area of a ceramic tile blank through the glue applying unit 41, then the dry particle distributing unit 42 distributes dry particles in the limited area of the ceramic tile blank printed with the glue, the dry particles can be positioned and distributed in the limited area with the glue, and distributing devices 421 of a plurality of dry particle distributing units 42 are arranged in parallel right above the main belt 1 to distribute the dry particles to the ceramic tile blank; the distributing devices 421 are controlled independently, the hopper 422 storing dry granules in each distributing device 421 adjusts the discharging amount and discharging time independently through the discharging adjusting module 423, the secondary belt 424 is used for bearing the dry granules output by the hopper 422 and distributing the dry granules on the ceramic green bricks of the main belt 1 below the secondary belt 424, and the secondary belts 424 of each distributing device 421 are controlled independently.

Only the distributing device 421 corresponding to the area of the ceramic green brick requiring distributing dry particles in the distributing devices 421 side by side starts the auxiliary belt 424 to distribute dry particles, and the distributing device 421 corresponding to the area of the ceramic green brick not requiring distributing dry particles does not start the auxiliary belt 424, so that the working process is similar to ink-jet printing, thereby realizing printing type positioning of distributing dry particles, and forming a complex pattern with fine lines on the ceramic green brick;

the hopper 422 of each distributing device 421 can hold dry granules of the same or different types, and the first driving device 428 of the blanking adjusting module 423 can adjust the opening degree of the discharge hole 425 by driving the cover plate 427 to do reciprocating movement, so that the thickness of the dry granules falling onto the secondary belt 424 can be adjusted by making the blanking amount of the hopper 422 in unit time different, and dry granules of different thicknesses can be applied on ceramic green bricks; the speed of the auxiliary belt 424 of each material distributing device 421 can be set to be the same or different, and the relative position of the dry particles falling onto the auxiliary belt 424 and the main belt 1 in the hopper 422 can be changed, so that the dry particle material distributing position is changeable, variable decorative effects can be formed according to production requirements, complicated patterns can be distributed, the surface stereoscopic impression of the manufactured ceramic tiles is strong, and the material distributing treatment of the complicated pattern effects in the same ceramic tile decorating device is realized.

Preferably, at least two sizing units 41 are provided, at least two dry particle distributing units 42 are provided, one sizing unit 41 and one dry particle distributing unit 42 form a group of dry particle distributing groups, the group of dry particle distributing groups are sequentially provided with the sizing unit 41 and the dry particle distributing unit 42 according to the conveying direction of the main belt 1, and the types of dry particles distributed by at least two groups of dry particle distributing groups are different;

the distance between the glaze printer 2 and the ink-jet printer 3 is 15-25 m, the distance between the ink-jet printer 3 and the dry particle distributing machine 4 is 1-10 m, and the distance between the dry particle distributing machine 4 and the dry particle distributing machine 6 is 1-10 m;

and the distance between the sizing unit 41 and the dry particle distributing unit 42 in the dry particle distributing group is 10-30 cm.

The glue applying units 41 are at least two, the dry particle distributing units 42 are at least two, one glue applying unit 41 and one dry particle distributing unit 42 form a group of dry particle distributing groups, the types of dry particles of at least two groups of dry particle distributing groups are different, different types of dry particles are distributed on different dry particle distributing groups, the number of the dry particle distributing groups can be overlapped according to designed patterns, the overlapping of different dry particle effects of the patterns is realized, the textures are rich, and the layering sense and the stereoscopic sense are strong;

the distance between the glaze printer 2 and the ink-jet printer 3 is 15-25 m, so that the glaze printed on the ceramic adobe by the glaze printer 2 can be dried for a sufficient time, and then the pattern is printed on the surface of the glaze printed on the ceramic adobe by ink-jet printing through the ink-jet printer, so that the pattern printed by ink-jet printing is clearer; the distance between the ink-jet printer 3 and the dry particle distributing machine 4 is 1-10 m, after the ink-jet printer 3 performs ink-jet pattern printing, ink of the ink-jet pattern printing is fully dried, and then dry particles are distributed on the surface of the ink-jet pattern of the ceramic brick blank through the dry particle distributing machine 4; the distance between the dry particle distributing machine 4 and the dry particle distributing machine 6 is 1-10 m, after the dry particles distributed by the dry particle distributing machine 4 are stably adsorbed on the ceramic tile blank, the dry particle distributing machine 6 is used for spreading dry particles on the ceramic tile blank;

the distance between the glue applying unit 41 and the dry particle distributing unit 42 in the dry particle distributing group is 10-30 cm, so that when glue printed by the glue applying unit 41 is not dried, the dry particle distributing unit 42 can immediately position dry particles in a limited area printed with the glue on a ceramic tile blank, and accordingly, the dry particles positioned by the dry particle distributing unit 42 can be firmly and stably adhered to the glue printed by the glue applying unit 41, if the distance between the glue applying unit 41 and the dry particle distributing unit 42 is too large, the dry particle distributing unit 42 can distribute the dry particles again after the glue printed by the glue applying unit 41 is dried, and at the moment, the dry particles cannot be adhered to the area printed with the glue but dried by the glue, so that the obtained decorative effect is incomplete, and the attractiveness is reduced.

Preferably, the distance between two adjacent dry particle cloth groups is 30-50 cm.

When the dry particle distributing units 42 of the previous dry particle distributing group position the dry particles of the cloth to be firmly adhered to the glue, the glue printed by the glue applying units 41 of the previous dry particle distributing group is ensured to have sufficient drying time, then the glue applying units 41 of the next dry particle distributing group print the glue in the limited area of the ceramic brick blank, the dry particles of the cloth are positioned by the dry particle distributing units 42 of the next dry particle distributing group, the adjacent two dry particle distributing groups cannot be influenced mutually, the three-dimensional effect of decoration can be ensured, when the positions of the patterns printed by the two adjacent dry particle distributing groups are very close, the glue printed by the glue applying units 41 of the previous dry particle distributing group is prevented from being not completely solidified, the dry particle distributing units 42 of the next dry particle distributing group position the cloth are easy to be adhered to the glue printed by the glue applying units 41 of the previous dry particle distributing group, leading to a situation where the decorative effect is blurred.

Preferably, the cover 427 of the blanking adjusting module 423 of the distributing device 421 of the dry particle distributing unit 42 comprises a bottom plate 4271, a rear baffle 4272, a left baffle 4273 and a right baffle 4274, wherein the rear baffle 4272 is formed at the rear end of the bottom plate 4271, and the left baffle 4273 and the right baffle 4274 are respectively formed at the left end and the right end of the bottom plate 4271;

the heights of the rear baffle 4272, the left baffle 4273 and the right baffle 4274 are all larger than the lifting stroke of the cover plate 427, and the bottom plate 4271 is matched with the discharge hole 425 of the hopper 422.

Preferably, the height of the rear flap 4272 is greater than the left flap 4273.

The rear baffle 4272, the left baffle 4273 and the right baffle 4274 are attached to the outer wall of the hopper 422 in the lifting process; in the initial state, the bottom plate 4271 covers the discharge port 425, an opening is formed between the front side of the discharge port 425 facing the conveying direction of the secondary belt 424 and the front side of the cover plate 427 during material distribution, and the rest positions of the discharge port 425 are shielded by the cover plate 427, so that the dry particles are limited to be only sprayed out from the opening at the front end, the position of distributing the dry particles on the ceramic adobes is controlled, and the stability of material distribution position control is improved.

Preferably, a rear side wall 426 of the hopper 422 of the distributing device 421 of the dry particle distributing unit 42 is inclined backward from bottom to top, and the rear baffle 4272 of the cover 427 is engaged with the rear side wall 426 of the hopper 422;

the first driving means 428 is mounted to the rear wall 426 of the hopper 422, and an output end of the first driving means 428 is connected to the rear barrier 4272 of the cover 427.

The rear side wall 426 of the hopper 422 inclines from bottom to top, so that smooth feeding of dry particles in the hopper 422 is facilitated; the rear baffle 4272 of the cover 427 and the rear sidewall 426 of the hopper 422 cooperate to guide the dry pellets downward.

Preferably, the left and right ends of the rear side wall 426 of the hopper 422 of the distributing device 421 of the dry particle distributing unit 42 are provided with a discharging guide rail, and the left and right ends of the rear baffle 4272 of the cover plate 427 are movably clamped in the corresponding discharging guide rails;

pulleys matched with the blanking guide rails on the rear side wall 426 are arranged at the left end and the right end of the rear baffle 4272 of the cover plate 427.

Because the cover plate 427 moves along the blanking guide rail, the cover plate 427 can not deviate from the direction, so that the cover plate 427 can be opened and closed more accurately, a pulley is arranged to be matched with the blanking guide rail, the guiding effect is better, and meanwhile, the pulley can assist the first driving device 428 to drive the cover plate 427 to lift, so that the cover plate 427 can be opened and closed more accurately.

Preferably, the lower end of the rear side wall 426 of the hopper 422 of the distributing device 421 of the dry particle distributing unit 42 is connected to the rear baffle 4272 of the cover 427 by a baffle 429, and the baffle 429 is a flexible belt.

The material blocking portion 429 can ensure the sealing property of the joint between the rear baffle 4272 of the cover plate 427 and the rear side wall 426 of the hopper 422, and prevent dry particles from leaking out from a gap between the rear baffle 4272 and the rear side wall 426 when the cover plate 427 is lifted.

When the cover plate 427 is lifted, the size of a gap between the lower end of the rear side wall 426 and the rear baffle 4272 of the cover plate 427 is changed, and the length of the material blocking part 429 is also changed correspondingly due to the scalability of the flexible belt; preferably, the flexible soft band with the wavy structure is more beneficial to the stretching of the material blocking part 429.

Preferably, the dry particle distributing machine 4 further comprises a plurality of feeding units 43, the plurality of feeding units 43 are respectively fixed to the frame of the dry particle distributing machine 4 and respectively correspond to the dry particle distributing units 42 one by one, the feeding units 43 are arranged above the hoppers 422 of the dry particle distributing units 42, and the feeding units 43 feed the hoppers 422 of the distributing device 421 of the dry particle distributing units 42;

the feed unit comprises a first feed device 431, a second feed device 432, a first feed rail 437 and a first feed drive device 438;

the first feeding device 431 is arranged at one end of the first feeding guide 437 and is located above the second feeding device 432, the second feeding device 432 is slidably arranged on the first feeding guide 437, the first feeding driving device 438 drives the second feeding device 432 to move along the first feeding guide 437, the second feeding device 432 is arranged between the first feeding device 431 of the feeding unit 43 and the hopper 422, the first feeding device 431 is fixed on the rack of the dry particle distributing machine 4, a first feeding hole 433 is arranged at the top of the first feeding device 431, a first blanking hole 434 is arranged at the bottom of the first feeding device 431, the first feeding hole 433 of the first feeding device 431 is connected with the output end of the feeding back machine 5, a second feeding hole 435 is arranged at the top of the second feeding device 432, and the first blanking hole 434 of the first feeding device 431 is connected with the second feeding hole 435 of the second feeding device 432 And a second feed opening 436 is arranged at the bottom of the second feeding device 432.

The feeding unit 43 is arranged to feed the material to the hopper 422 of the material distribution device 421 of the dried particle material distribution unit 42, so that the sufficient dried particle amount can be ensured to be provided for the material distribution of the dried particle material distribution unit 42, the material distribution effect of the dried particle material distribution unit 42 can be ensured, the material is fed to the second feeding device 432 of the feeding unit 43 through the first feeding device 431 of the feeding unit 43, then the material is fed to each hopper 422 of the material distribution device 421 of the dried particle material distribution unit 42 through the second feeding device 432 of the feeding unit 43, and the feeding stability can be effectively improved.

Preferably, the dry particle distributing machine 4 further comprises an adsorption unit 44, the adsorption unit 44 comprises a plurality of dry particle adsorption devices 441, each dry particle distributing group is provided with one dry particle adsorption device 441, and each dry particle distributing group is sequentially provided with the sizing unit 41, the dry particle distributing unit 42 and the dry particle adsorption device 441 according to the conveying direction of the main belt 1;

the dry-pellet adsorption device 441 of the adsorption unit 44 comprises a suction hood 442 and a suction tube, the suction hood 442 of the dry-pellet adsorption device 441 is provided with a suction opening 443, the suction tube is connected with the suction opening 443 of the suction hood 442, and the suction tube of the dry-pellet adsorption device 441 is connected with an input end of the material recycling machine 5.

Through setting up adsorption unit 44, glue is printed in the restricted area of ceramic brick base to glueing unit 41, then dry grain cloth unit 42 is after the restricted area location cloth dry grain that ceramic brick base was printed with glue, the area that can be greater than printing glue a little of the dry grain of printing, adsorption unit 44 can adsorb the dry grain of the glue that does not adhere to glue that glueing unit 41 printed, effectively improves the definition of pattern effect, and with current use inkjet printer earlier to carry out the inkjet printing pattern, again according to pattern texture cloth glueing water and carry out whole face shop dry grain and compare, the absorption volume of dry grain is less a lot, has avoided the waste of dry grain.

By providing the suction cover 442 and the suction pipe of the dry particle suction device 441 and connecting the suction pipe of the dry particle suction device 441 to the input end of the reclaimer 5, after the dry particle suction device 441 finishes suction of the dry particles which are not adhered to the glue printed by the glue applying unit 41, the sucked dry particles can be recovered to the reclaimer 5.

Preferably, the material returning machine 5 comprises a material returning hopper 51, a material supplying hopper 53 and a second driving device 53, wherein the material supplying hopper 53 is arranged below the material returning hopper 51, the second driving device 53 is fixedly installed at the top of the material returning hopper 51, a third material supplying port 511 is arranged at one side of the material returning hopper 51 close to the top, the third material supplying port 511 of the material returning hopper 51 is connected with a suction pipe of the dry particle adsorption device 441 of the adsorption unit 44 of the dry particle distributing machine 4, a third material supplying port 521 is arranged at the bottom of the material supplying hopper 53, and the third material supplying port 521 of the material supplying hopper 53 is connected with a first material supplying port 433 of the first material supplying device 431 of the material supplying unit 43 of the dry particle distributing machine 4.

Preferably, the second driving device 53 is a dust removing fan.

The material returning machine 5 returns dry particles of glue which is not adhered to the glue applying unit 41 and printed by the glue applying unit to the material returning hopper 51 under the driving of the second driving device 53, and then the dry particles are fed to the dry particle distributing machine 4 from the material feeding hopper 53 of the material returning machine 5, so that the recovery and the reutilization of the dry particles are completed, the loss of the dry particles in the ceramic tile decorating process is effectively reduced, and the production cost is reduced.

Preferably, the reclaimer 5 further includes a first fixing bracket 54 and a second fixing bracket 55, the reclaiming hopper 51 of the reclaimer 5 is fixed to the first fixing bracket 54, the bottom of the second fixing bracket 55 is connected with a plurality of rollers 551, the second fixing bracket 55 is disposed in the first fixing bracket 54, and the feeding hopper 53 of the reclaimer 5 is fixed to the second fixing bracket 55.

By arranging the first fixing bracket 54, the material returning hopper 51 of the material returning machine 5 is fixed to the first fixing bracket 54, and the first fixing bracket 54 plays a role of fixing and supporting the material returning hopper 51 of the material returning machine 5, so that the material returning stability of the material returning hopper 51 of the material returning machine 5 is improved;

by arranging the second fixing frame 55 and connecting the bottom of the second fixing frame 55 with the plurality of rollers 551, the feeding hopper 53 of the material returning machine 5 is fixed to the second fixing frame 55, and when the amount of dry-particle returning of the returning hopper 51 of the material returning machine 5 is insufficient, the feeding hopper 53 of the material returning machine 5 can be pulled out from the first fixing frame 54 to feed the material to the feeding hopper 53 of the material returning machine 5.

Preferably, the dry pellet distributing machine 6 comprises a dry pellet distributing unit, the dry pellet distributing unit comprises a dry pellet distributing device 61, the dry pellet distributing device 61 comprises a distributing hopper 611 and a discharging roller 612, and the discharging roller 612 is arranged below the distributing hopper 611;

the distributing hopper 611 comprises a first side wall 614 and a second side wall 615, a second discharging hole 613 is reserved between the first side wall 614 and the circumferential surface of the blanking roller 612, the blanking roller 612 rotates along the direction of the second discharging hole 613, and the second side wall 615 abuts against the edge of the blanking roller 612;

the dry particle piece distributing device further comprises a vibrating screen 62, and the vibrating screen 62 is arranged below the second discharging hole 613 of the dry particle piece distributing device 61.

The laying of dry grain pieces on the ceramic tile blanks conveyed by the main belt 1 can be completed by the dry grain piece distributing device 61 of the dry grain piece distributing unit, and the blanking effect of the dry grain pieces can be controlled by controlling the rotating speed of the blanking roller 612, so that the texture stereoscopic impression of the ceramic tile decoration is increased;

through setting up sieve 62 shakes, guarantees that dry grain piece lays can not overlap when the ceramic adobe top layer that main belt 1 carried, has guaranteed the surface smoothness of ceramic adobe and the degree of consistency of top layer decorative effect.

The technical principle of the present invention is described above in connection with 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 inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. A ceramic tile decoration production system capable of distributing complex patterns is characterized by comprising a main belt, a glaze printer, an ink-jet printer, a dry particle distributing machine, a material returning machine and a dry particle distributing machine, wherein the main belt is used for conveying ceramic tile blanks, the glaze printer, the ink-jet printer, the dry particle distributing machine and the dry particle distributing machine are sequentially arranged above the main belt along the conveying direction of the main belt, the material supplying end of the dry particle distributing machine is connected with the material discharging end of the material returning machine, and the material returning end of the dry particle distributing machine is connected with the material feeding end of the material returning machine;

the glaze printer is used for printing glaze on the ceramic adobe; the ink-jet printer is used for printing patterns on the ceramic green bricks in an ink-jet mode; the dry particle distributing machine is used for positioning and distributing dry particles on the surface of the ink-jet pattern of the ceramic green brick; the dry particle piece distributing machine is used for spreading dry particle pieces on the ceramic green bricks;

the dry particle distributing machine comprises a glue applying unit and a dry particle distributing unit, wherein the glue applying unit is used for printing glue on a limited area of the ceramic green bricks on the main belt, and the dry particle distributing unit is used for distributing dry particles on the limited area of the ceramic green bricks on the main belt, which are printed with the glue;

the dry particle distributing unit of the dry particle distributing machine comprises a distributing device, a plurality of parallel distributing devices are arranged right above the main belt, and the arrangement direction of the distributing devices is vertical to the conveying direction of the main belt;

the distributing device comprises a hopper, a discharging adjusting module and an auxiliary belt; the hopper is of a hollow structure which is communicated up and down, a discharge hole is formed in the bottom of the hopper, the auxiliary belt is arranged right below the hopper, and the conveying direction of the auxiliary belt is the same as that of the main belt;

the blanking adjusting module comprises a cover plate and a first driving device; the cover plate is positioned below the discharge hole, one end of the cover plate is connected with the output end of the first driving device, and the first driving device drives the cover plate to do lifting reciprocating motion; the cover plate covers a discharge hole of the hopper in an initial state, and the first driving device drives the cover plate to descend in a material distribution state;

the sizing unit is at least provided with two, the dry particle distributing unit is at least provided with two, one sizing unit and one dry particle distributing unit are a group of dry particle distributing groups, the dry particle distributing groups are sequentially provided with the sizing unit and the dry particle distributing unit according to the conveying direction of the main belt, and the types of dry particles of at least two groups of dry particle distributing groups are different.

2. The ceramic tile decoration production system capable of distributing complex patterns according to claim 1, wherein the distance between the glaze printer and the ink-jet printer is 15-25 m, the distance between the ink-jet printer and the dry particle distributing machine is 1-10 m, and the distance between the dry particle distributing machine and the dry particle piece distributing machine is 1-10 m;

and the distance between the sizing unit and the dry particle distributing unit in the dry particle distributing group is 10-30 cm.

3. The decoration production system of ceramic tiles with complicated patterns capable of being distributed according to claim 1, wherein the cover plate of the blanking adjusting module of the distribution device of the dry particle distribution unit comprises a bottom plate, a rear baffle, a left baffle and a right baffle, wherein the rear baffle is formed at the rear end of the bottom plate, and the left baffle and the right baffle are respectively formed at the left end and the right end of the bottom plate;

the height of the rear baffle, the height of the left baffle and the height of the right baffle are all larger than the lifting stroke of the cover plate, and the bottom plate is matched with the discharge hole of the hopper.

4. The decoration production system of ceramic tiles with complicated patterns capable of being distributed according to claim 3, wherein the rear side wall of the hopper of the distribution device of the dry particle distribution unit is inclined backwards from bottom to top, and the rear baffle plate of the cover plate is matched with the rear side wall of the hopper;

the first driving device is arranged on the rear side wall of the hopper, and the output end of the first driving device is connected with the rear baffle of the cover plate.

5. The decoration production system of ceramic tiles with complicated patterns capable of being distributed according to claim 4, wherein the left and right ends of the rear side wall of the hopper of the distributing device of the dry particle distributing unit are provided with discharging guide rails, and the left and right ends of the rear baffle plate of the cover plate are movably clamped in the corresponding discharging guide rails;

pulleys matched with the blanking guide rails on the rear side wall are arranged at the left end and the right end of the rear baffle of the cover plate.

6. The ceramic tile decoration production system capable of distributing complex patterns according to claim 5, wherein the lower end of the rear side wall of the hopper of the distributing device of the dry particle distributing unit is connected with the rear baffle of the cover plate through a material blocking part, and the material blocking part is a flexible soft belt.

7. The ceramic tile decoration production system capable of distributing complex patterns according to claim 2, wherein the dry particle distributing machine further comprises a plurality of feeding units, the plurality of feeding units are respectively fixed on the rack of the dry particle distributing machine and respectively correspond to the dry particle distributing units one by one, the feeding units are arranged above the hoppers of the dry particle distributing units, and the feeding units feed the hoppers of the distributing devices of the dry particle distributing units;

the feeding unit comprises a first feeding device, a second feeding device, a first feeding guide rail and a first feeding driving device;

the first feeding device is arranged at one end of the first feeding guide rail and is positioned above the second feeding device, the second feeding device is slidably arranged on the first feeding guide rail, the first feeding driving device drives the second feeding device to reciprocate along the first feeding guide rail, the second feeding device is arranged between the first feeding device of the feeding unit and the hopper, the first feeding device is fixed on the frame of the dry particle distributing machine, 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 blanking hole, the first feeding hole of the first feeding device is connected with the output end of the material returning machine, the top of the second feeding device is provided with a second feeding hole, and the first blanking hole of the first feeding device is matched with the second feeding hole of the second feeding device, and a second feed opening is formed in the bottom of the second feeding device.

8. The decoration production system of ceramic tiles with complicated patterns capable of being distributed according to claim 7, characterized in that the dry particle distributor further comprises an adsorption unit, the adsorption unit comprises a plurality of dry particle adsorption devices, each dry particle distribution group is provided with one dry particle adsorption device, and each dry particle distribution group is provided with the sizing unit, the dry particle distribution unit and the dry particle adsorption device in sequence according to the conveying direction of the main belt;

the dry particle adsorption device of the adsorption unit comprises a suction hood and a suction pipe, wherein the suction hood of the dry particle adsorption device is provided with a suction port, the suction pipe is connected with the suction port of the suction hood, and the suction pipe of the dry particle adsorption device is connected with the input end of the material returning machine.

9. The ceramic tile decoration production system capable of distributing the complex patterns according to claim 8, wherein the material returning machine comprises a material returning hopper, a material supplying hopper and a second driving device, the material supplying hopper is arranged below the material returning hopper, the second driving device is fixedly arranged at the top of the material returning hopper, a third feeding port is arranged at one side of the material returning hopper close to the top, the third feeding port of the material returning hopper is connected with a suction pipe of a dry particle adsorption device of an adsorption unit of the dry particle distributing machine, a third discharging port is arranged at the bottom of the material supplying hopper, and the third discharging port of the material supplying hopper is connected with a first feeding port of a first feeding device of a feeding unit of the dry particle distributing machine.

10. The ceramic tile decoration production system capable of distributing complex patterns according to claim 1, wherein the dry pellet distribution machine comprises a dry pellet distribution unit, the dry pellet distribution unit comprises a dry pellet distribution device, the dry pellet distribution device comprises a distribution hopper and a blanking roller, and the blanking roller is arranged below the distribution hopper;

the cloth hopper comprises a first side wall and a second side wall, a second discharge hole is reserved between the first side wall and the circumferential surface of the blanking roller, the blanking roller rotates along the direction of the second discharge hole, and the second side wall is abutted against the edge of the blanking roller;

the dry particle piece distributing device is characterized by further comprising a vibrating screen, wherein the vibrating screen is arranged below a second discharge hole of the dry particle piece distributing device.

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