CN115366238B - Digital glazing machine - Google Patents

Abstract

The invention relates to the technical field of ceramic glazing equipment, and particularly discloses a digital glazing machine which is provided with a frame, wherein the digital glazing machine comprises: the conveyor is used for conveying the ceramic tile blanks; the glazing assembly is positioned above the conveyor and comprises a glazing head fixing module, a plurality of intermittent glazing heads are arranged on the glazing head fixing module, and the glazing heads are arranged on the glazing head fixing module to be rectangular, and are electromagnetic glazing heads or screw glazing heads; the material receiving assembly is positioned below the conveyor and corresponds to the glazing assembly up and down; the digital glazing machine can be provided with the rectangular glazing heads which are arranged on the glazing head fixing module, and the glazing heads which can be used for intermittent glazing are matched, so that ceramic green bricks which are conveyed to the lower part of the glazing assembly from the conveyor are glazed through the glazing heads, and the concave-convex pattern surface glazing of the ceramic green bricks is conveniently realized, and the glaze can be effectively saved.

Description

Digital glazing machine

Technical Field

The invention relates to the technical field of ceramic glazing equipment, in particular to a digital glazing machine.

Background

In the ceramic tile manufacturing process, glaze spraying is needed before and after printing, and printing is protected by two layers of glaze. At present, most glazing modes are bell jar glazing or straight line glazing, and the two glazing modes are sprayed in a large quantity in the glazing process, so that the glazing quantity is large, waste phenomenon exists, and the production cost is high.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides a digital glazing machine, which aims to solve the problems that intermittent glazing cannot be performed in the glazing process in the background art and the glazing amount is large so as to cause waste.

The technical scheme adopted for solving the technical problems is as follows: a digital glazing machine having a frame, the digital glazing machine comprising:

the conveyor is used for conveying the ceramic tile blanks;

the glazing assembly is positioned above the conveyor and comprises a glazing head fixing module, a plurality of intermittent glazing heads are arranged on the glazing head fixing module, the glazing heads are arranged on the glazing head fixing module to form a rectangle, and the glazing heads are electromagnetic glazing heads or screw glazing heads.

The material receiving assembly is positioned below the conveyor and corresponds to the glazing assembly up and down.

The invention has the advantages that the glazing heads which are arranged in a rectangular shape are arranged on the glazing head fixing module, and the glazing heads which can be used for intermittent glazing are matched, so that the ceramic tile blanks which are conveyed from the conveyor to the lower part of the glazing assembly are glazed through the glazing heads, the glaze is output from top to bottom in a straight line and contacts with the ceramic tile blanks, intermittent glazing can be carried out in an intermittent glazing mode, and simultaneously, each glazing head can be used for single-point glazing, so that concave-convex pattern surface glazing on the ceramic tile blanks is realized, and the glazing heads can be used for intermittent glazing, so that the glaze is flexible to discharge, the glaze can be effectively saved, and the production cost is reduced.

Further, the electromagnetism glazing head is including installing the metal electromagnetism overcoat on the fixed module of glazing head, and the inlet pipe is installed to this metal electromagnetism overcoat upper end, and the ejection of compact adapter sleeve is installed to the lower extreme, and the storage glaze cover that is linked together is installed to this ejection of compact adapter sleeve lower extreme, and the interior lower extreme that should store up the glaze cover is provided with out the glaze passageway, and the glazing mouth that is linked together is installed to this storage glaze cover lower extreme, is provided with the glaze sealing metal pearl corresponding with out the glaze passageway in this storage glaze cover.

After the further structure is adopted, when the glaze applying head adopts the electromagnetic glaze applying head, the glaze is fed through the feeding pipe, enters the discharging connecting sleeve through the metal electromagnetic jacket, then enters the glaze storage jacket, waits for the communication of the glaze outlet channel, is provided with a ball cavity for containing the glaze sealing metal beads in the glaze storage jacket, and can adsorb the glaze sealing metal beads through electromagnetic mode after the metal electromagnetic jacket is electrified, so that the glaze sealing metal beads are separated from the glaze outlet channel, the glaze in the glaze storage jacket can be sprayed out from the glaze outlet nozzle for glaze applying, and after the metal electromagnetic jacket is deenergized, the glaze sealing metal beads block the glaze outlet channel under the gravity to stop glazing, and the response is fast.

Further, a glaze feeding metal channel communicated with the discharging connecting sleeve is arranged in the metal electromagnetic jacket, an electromagnetic coil cavity is arranged between the outer wall of the glaze feeding metal channel and the inner wall of the metal electromagnetic jacket, an electromagnetic coil wound on the glaze feeding metal channel is arranged in the electromagnetic coil cavity, and the feeding pipe is inserted into the upper end of the electromagnetic coil cavity so that the feeding pipe is communicated with the glaze feeding metal channel.

After the further structure is adopted, the glaze metal channel is adsorbed or separated from the glaze sealing metal beads by electrifying or de-electrifying the electromagnetic coil, and the glaze metal channel can simultaneously contain glaze to pass through, so that the structure is compact, and the intermittent glazing process is quick in response.

Further, a sleeve cavity communicated with the glaze inlet metal channel is arranged in the discharging connecting sleeve, a plurality of through grooves are formed in the inner wall of the sleeve cavity, a middle hole is formed in the center of the lower end of the sleeve cavity, a plurality of communication holes communicated with the through grooves are formed in the circumferential direction around the middle hole, and the middle hole and the plurality of communication holes are communicated with the glaze storage sleeve.

After adopting above-mentioned further structure, accessible intercommunicating pore and mesopore constantly supplement the glaze in the glaze storage cover to the quick blowout of glaze, when the glaze sealing metal pearl upwards adsorbed, when the glaze sealing metal pearl shutoff mesopore, the glaze storage cover still accessible intercommunicating pore supplements the glaze, and the glazing is faster.

Further, the screw glazing head comprises a screw glazing sleeve arranged on the glazing head fixing module, a motor is arranged at the upper end of the screw glazing sleeve, a glaze feeding screw rod is arranged in the screw glazing sleeve in a penetrating mode, a spiral groove is formed between threads on the glaze feeding screw rod, a glaze feeding channel is formed between the spiral groove and the inner wall of the screw glazing sleeve, a glazing end is arranged at the lower end of the screw glazing sleeve, and a screw sleeve glaze inlet is formed in one side of the upper portion of the screw glazing sleeve.

After the further structure is adopted, when the glazing head adopts the screw glazing head, the glaze enters through the screw sleeve glaze inlet, is driven by the glaze feeding screw to be conveyed to the glazing end along the glaze feeding channel for glazing, and can quantitatively glazing under the action of the glaze feeding screw.

Further, the upper end of the glaze feeding screw is provided with a motor connecting end, the lower end of the glaze feeding screw is provided with a semicircular end, the upper end of the glaze applying end is provided with an eccentric channel, and the eccentric channel and the center of the semicircular end are not on the same axis.

After the further structure is adopted, the glaze feeding screw rod is matched with the eccentric channel through the semicircular end head and can be used for blocking the eccentric channel, so that intermittent glazing is realized through rotating the glaze feeding screw rod, and the response is quick.

Further, a sealing ring is sleeved on the outer wall of the motor connecting end, and the outer wall of the sealing ring is contacted with the inner wall of the screw glazing sleeve.

After adopting above-mentioned further structure, can prevent through the sealing washer that the frit from oozing, compact structure.

Furthermore, the glazing head fixing module comprises a glazing head fixing seat fixed on the frame, a plurality of fixing holes for fixing the glazing heads are formed in the glazing head fixing seat, baffles are arranged on two sides of the glazing head fixing seat, an element fixing plate is arranged between the baffles and the glazing head fixing seat, a glaze material pipeline is fixedly arranged at the upper end of the baffles, and the glaze material pipeline is communicated with the glazing heads.

After the further structure is adopted, the glazing heads are fixed through the glazing head fixing seat, so that a plurality of glazing heads are perpendicular to ceramic green bricks conveyed in from the lower side, the ceramic green bricks can be flexibly glazed through the glazing heads, and the glazing heads can be conveyed by the glaze material pipeline.

Further, connect the material subassembly including installing the material bottom plate that connects of lower extreme in the frame, should connect the material bottom plate both sides to be provided with and keep off the glaze board, should connect the middle part of material bottom plate to be provided with the collecting vat, should gather material tank one end and be provided with the bin outlet.

After the further structure is adopted, the drip materials in the glazing process can be collected through the collecting groove and discharged through the discharge hole for reuse.

Further, the material receiving bottom plate is inclined to the material collecting groove.

After the further structure is adopted, the drip material can be quickly collected into the material collecting groove through the inclined material receiving bottom plate.

Drawings

Fig. 1 is a schematic perspective view of a digital glazing machine according to the present invention.

Fig. 2 is a schematic diagram of a connection structure between a frame and a receiving assembly.

Fig. 3 is a schematic perspective view of the glazing assembly.

Fig. 4 is a schematic perspective view of the glazing head fixing module.

Fig. 5 is a schematic perspective view of a first embodiment of the glazing head.

Fig. 6 is a schematic diagram of an exploded structure of a first embodiment of the glazing head.

Fig. 7 is a schematic cross-sectional structural view of a first embodiment of the glazing head.

Fig. 8 is a schematic perspective view of a discharge connection sleeve according to the first embodiment.

Fig. 9 is a schematic perspective view of a second embodiment of the glazing head.

Fig. 10 is a schematic cross-sectional structural view of a second embodiment of the glazing head.

In the figure: the device comprises a frame 1, a conveyor 2, a receiving component 3, a ceramic tile blank 4, a glazing component 5, a receiving bottom plate 6, a blocking plate 7, a collecting tank 8, a discharge opening 9, a glazing head fixing module 11, a glazing head 12, a glazing head fixing seat 13, a fixing hole 14, a baffle 15, an element fixing plate 16, a glaze pipe 17, a metal electromagnetic jacket 18, a feeding pipe 19, an electromagnetic coil 20, a discharge connecting sleeve 21, a glaze storage sleeve 22, a glaze outlet nozzle 23, a glaze sealing metal bead 24, a ball cavity 25, a communication hole 26, a middle hole 27, a through groove 28, a glaze outlet channel 29, a glaze inlet metal channel 30, a screw glazing sleeve 31, a screw sleeve glaze inlet 32, a motor 33, a glaze feeding screw 34, a motor connecting end 340, a semicircular end 341, a glazing end 35, an eccentric channel 36 and a sealing ring 37.

Detailed Description

The following describes the embodiments of the present invention further with reference to the drawings. The description of these embodiments is provided to assist understanding of the present invention, but is not intended to limit the present invention. In addition, the technical features of the embodiments of the present invention described below may be combined with each other as long as they do not collide with each other.

Example 1

A digital glazing machine as shown in connection with figures 1 to 4, having a frame 1, the digital glazing machine comprising: the ceramic tile glazing machine comprises a conveyor 2, a receiving assembly 3 and a glazing assembly 5, wherein the conveyor 2 is used for conveying ceramic tile blanks 4, the conveyor 2 is a belt conveyor, the glazing assembly 5 is positioned above the conveyor 2, the glazing assembly 5 comprises a glazing head fixing module 11, a plurality of glazing heads 12 capable of intermittently glazing are arranged on the glazing head fixing module 11, the glazing heads 12 are arranged on the glazing head fixing module to form a rectangle, the glazing heads 12 are electromagnetic glazing heads, the receiving assembly 3 is positioned below the conveyor 2, and the receiving assembly 3 corresponds to the glazing assembly 5 up and down; according to the embodiment, the glazing heads 12 which are arranged into the rectangular shape are arranged on the glazing head fixing module 11, and the glazing heads 12 which can be used for intermittent glazing are matched, so that the ceramic tile blank 4 which is conveyed to the lower part of the glazing assembly 5 from the conveyor 2 is glazed through the glazing heads 12, the glaze is output from top to bottom in a straight line and is contacted with the ceramic tile blank 4, intermittent glazing can be performed in an intermittent glazing mode, and meanwhile, each glazing head 12 can be used for single-point glazing, so that concave-convex pattern surface glazing of the ceramic tile blank can be conveniently realized, and as the glazing heads 12 can be used for intermittent glazing, the glaze discharging is flexible, the glaze can be effectively saved, and the production cost is reduced.

The glazing head fixing module 11 of the embodiment comprises a glazing head fixing seat 13 fixed on the frame 1, a plurality of fixing holes 14 for fixing the glazing heads 12 are formed in the glazing head fixing seat 13, baffle plates 15 are arranged on two sides of the glazing head fixing seat 13, element fixing plates 16 are arranged between the baffle plates 15 and the glazing head fixing seat 13, glaze material pipelines 17 are fixedly arranged at the upper ends of the baffle plates 15, and the glaze material pipelines 17 are communicated with the glazing heads 12; the glazing heads 12 are fixed through the glazing head fixing seats 13, so that the glazing heads 12 are perpendicular to the ceramic tile blanks 4 conveyed in from the lower side, the glazing heads 12 can flexibly glazing the ceramic tile blanks 4, and the glazing heads 12 can be conveyed by the glaze material pipeline 17.

The material receiving assembly 3 comprises a material receiving bottom plate 6 arranged at the inner lower end of the frame 1, glaze blocking plates 7 are arranged on two sides of the material receiving bottom plate 6, a material collecting groove 8 is arranged in the middle of the material receiving bottom plate 6, and a material outlet 9 is arranged at one end of the material collecting groove 8; the drip materials in the glazing process can be collected through the collecting groove 8 and discharged through the discharge hole 9 for reuse; the material receiving bottom plate 6 is inclined to the material collecting groove 8, and the drip materials can be quickly collected into the material collecting groove 8 through the inclined material receiving bottom plate 6.

Referring to fig. 5 to 8, the electromagnetic glazing head comprises a metal electromagnetic jacket 18 mounted on a glazing head fixing module 11, a feeding pipe 19 is mounted at the upper end of the metal electromagnetic jacket 18, a discharging connecting sleeve 21 is mounted at the lower end of the metal electromagnetic jacket, a communicated glaze storage sleeve 22 is mounted at the lower end of the discharging connecting sleeve 21, a clamping position is arranged on the outer wall of the glaze storage sleeve 22, the shape of a fixing hole 14 corresponds to the clamping position, a glaze outlet channel 29 is arranged at the inner lower end of the glaze storage sleeve 22, a glaze outlet nozzle 23 communicated with the lower end of the glaze storage sleeve 22 is mounted, and a glaze sealing metal bead 24 corresponding to the glaze outlet channel 29 is arranged in the glaze storage sleeve 22; when the glaze applying head 12 adopts electromagnetic glaze applying head, glaze is fed through the feeding pipe 19, the glaze enters the discharging connecting sleeve 21 through the metal electromagnetic jacket 18, then enters the glaze storage sleeve 22, the glaze outlet channel 29 is waited to be communicated, the ball cavity 25 for containing the glaze sealing metal beads 24 is arranged in the glaze storage sleeve 22, the glaze sealing metal beads 24 can be adsorbed through electromagnetic mode after the metal electromagnetic jacket 18 is electrified, the glaze sealing metal beads 24 are separated from the glaze outlet channel 29, the glaze in the glaze storage sleeve 22 can be sprayed out from the glaze outlet nozzle 23 for glaze applying, and after the metal electromagnetic jacket 18 is deenergized, the glaze sealing metal beads 24 block the glaze outlet channel 29 under the gravity, and the response is quick.

As shown in fig. 7, a glaze feeding metal channel 30 communicated with a discharge connecting sleeve 21 is arranged in a metal electromagnetic sleeve 18 of the embodiment, an electromagnetic coil cavity is arranged between the outer wall of the glaze feeding metal channel 30 and the inner wall of the metal electromagnetic sleeve 18, an electromagnetic coil 20 wound on the glaze feeding metal channel 30 is arranged in the electromagnetic coil cavity, and a feeding pipe 19 is inserted into the upper end of the electromagnetic coil cavity so as to enable the feeding pipe 19 to be communicated with the glaze feeding metal channel 30; by energizing or de-energizing the solenoid 20, the glaze metal channel 30 is enabled to adsorb or separate from the glaze sealing metal bead 24, and the glaze metal channel 30 can simultaneously accommodate the glaze to pass through, so that the structure is compact, and the intermittent glazing process is quick in response.

The discharging connecting sleeve 21 of the embodiment is internally provided with a sleeve cavity communicated with a glaze feeding metal channel 30, the inner wall of the sleeve cavity is provided with a plurality of through grooves 28, the center of the lower end of the sleeve cavity is provided with a middle hole 27, a plurality of communication holes 26 communicated with the through grooves 28 are arranged around the circumference direction of the middle hole 27, the middle hole 27 and the plurality of communication holes 26 are communicated with the glaze storage sleeve 22, glaze can be continuously supplemented in the glaze storage sleeve 22 through the communication holes 26 and the middle holes 27 so that the glaze can be sprayed out quickly, and when the glaze sealing metal beads 24 are adsorbed upwards, the glaze storage sleeve 22 can still supplement the glaze through the communication holes 26 when the glaze sealing metal beads 24 seal the middle holes 27, and glazing is faster.

Example two

Referring to fig. 1, fig. 2, fig. 3, fig. 4, fig. 9 and fig. 10, the difference between the second embodiment and the first embodiment is that the glazing head 12 is a screw glazing head, the screw glazing head includes a screw glazing sleeve 31 mounted on the glazing head fixing module 11, a motor 33 is mounted at the upper end of the screw glazing sleeve 31, the motor 33 can adopt a gear motor, a glaze feeding screw 34 is threaded in the screw glazing sleeve 31, a spiral groove is formed between threads on the glaze feeding screw 34, a glaze feeding channel is formed between the spiral groove and the inner wall of the screw glazing sleeve 31, a glazing end 35 is mounted at the lower end of the screw glazing sleeve 31, and a screw sleeve glaze inlet 32 is opened at one side of the upper part of the screw glazing sleeve 31; when the glazing head 12 adopts a screw glazing head, glaze enters through the screw sleeve glaze inlet 32, is driven by the glaze feeding screw 34, is conveyed to the glazing end 35 along the glaze feeding channel for glazing, and can quantitatively glazing under the action of the glaze feeding screw 34.

The upper end of the glaze feeding screw 34 of the embodiment is provided with a motor connecting end 340, the lower end is provided with a semicircular end head 341, the upper end of the glazing end head 35 is provided with an eccentric channel 36, and the eccentric channel 36 and the center of the semicircular end head 341 are not on the same axis; the glaze feeding screw 34 is matched with the eccentric channel 36 through the semicircular end head 341 and can be used for blocking the eccentric channel 36, so that intermittent glazing is realized through rotating the glaze feeding screw 34, response is quick, a sealing ring 37 is sleeved on the outer wall of the motor connecting end 340, and the outer wall of the sealing ring 37 is contacted with the inner wall of the screw glazing sleeve 31; the sealing ring 37 can prevent the glaze from exuding, and has compact structure.

The embodiments of the present invention have been described in detail above with reference to the accompanying drawings, but the present invention is not limited to the described embodiments. It will be apparent to those skilled in the art that various changes, modifications, substitutions and alterations can be made to these embodiments without departing from the principles and spirit of the invention, and yet fall within the scope of the invention.

Claims (5)

1. A digital enamelling machine having a frame (1), characterized in that it comprises:

a conveyor (2) for conveying the ceramic green bricks (4);

the glazing assembly (5) is positioned above the conveyor (2), the glazing assembly (5) comprises a glazing head fixing module (11), a plurality of glazing heads (12) capable of intermittently glazing are arranged on the glazing head fixing module (11), the glazing heads (12) are arranged in a rectangular shape on the glazing head fixing module, and the glazing heads (12) are screw glazing heads;

the material receiving component (3) is positioned below the conveyor (2), and the material receiving component (3) corresponds to the glazing component (5) vertically;

the screw glazing head comprises a screw glazing sleeve (31) arranged on a glazing head fixing module (11), a motor (33) is arranged at the upper end of the screw glazing sleeve (31), a glazing screw (34) is arranged in the screw glazing sleeve (31) in a penetrating manner, a spiral groove is formed between threads on the glazing screw (34), a glazing channel is formed between the spiral groove and the inner wall of the screw glazing sleeve (31), a glazing end (35) is arranged at the lower end of the screw glazing sleeve (31), and a screw sleeve glazing inlet (32) is formed in one side of the upper part of the screw glazing sleeve (31);

the upper end of the glaze feeding screw rod (34) is provided with a motor connecting end (340), the lower end of the glaze feeding screw rod is provided with a semicircular end head (341), the upper end of the glaze applying end head (35) is provided with an eccentric channel (36), and the centers of the eccentric channel (36) and the semicircular end head (341) are not on the same axis.

2. The digital glazing machine according to claim 1, wherein a sealing ring (37) is sleeved on the outer wall of the motor connecting end (340), and the outer wall of the sealing ring (37) is contacted with the inner wall of the screw glazing sleeve (31).

3. The digital glazing machine according to claim 2, wherein the glazing head fixing module (11) comprises a glazing head fixing seat (13) fixed on the frame (1), a plurality of fixing holes (14) for fixing the glazing heads (12) are formed in the glazing head fixing seat (13), baffle plates (15) are installed on two sides of the glazing head fixing seat (13), element fixing plates (16) are installed between the baffle plates (15) and the glazing head fixing seat (13), glaze material pipelines (17) are fixedly installed at the upper ends of the baffle plates (15), and the glaze material pipelines (17) are communicated with the glazing heads (12).

4. The digital glazing machine according to claim 1, wherein the material receiving assembly (3) comprises a material receiving bottom plate (6) arranged at the inner lower end of the frame (1), glaze blocking plates (7) are arranged on two sides of the material receiving bottom plate (6), a material collecting groove (8) is arranged in the middle of the material receiving bottom plate (6), and a material discharging opening (9) is arranged at one end of the material collecting groove (8).

5. A digital glazing machine according to claim 4, characterised in that the receiving base plate (6) is inclined towards the collecting trough (8).

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