CN112339085A - Energy-concerving and environment-protective ceramic plate production facility - Google Patents

Abstract

The invention relates to ceramic plate production equipment, in particular to energy-saving and environment-friendly ceramic plate production equipment. The invention provides the energy-saving and environment-friendly ceramic plate production equipment which can efficiently glaze ceramic plates, has higher automation degree and consumes less glaze. An energy-saving and environment-friendly ceramic plate production apparatus comprising: the bottom frame is provided with a workbench; the motor is arranged on the workbench; the coating mechanism is arranged on the workbench; the material conveying mechanism is arranged on the workbench. The ceramic plate glazing machine realizes the placement of glaze through the coating mechanism, then realizes the intermittent leftward transmission of the ceramic plate through the material transmission mechanism, and realizes the rapid glazing of the ceramic plate through the matching of the coating mechanism and the material transmission mechanism.

Description

Energy-concerving and environment-protective ceramic plate production facility

Technical Field

The invention relates to ceramic plate production equipment, in particular to energy-saving and environment-friendly ceramic plate production equipment.

Background

The ceramic plate is after the shaping is accomplished, still need through a series of processing, wherein glazing process is one of the more important processing step in the ceramic plate production process, traditional glazing mode is artifical manual going on more, at first people place the ceramic plate on the workstation, people are glazing the ceramic plate with the brush after that, so glazing efficiency is lower, and it is inhomogeneous to glaze easily when glazing, and the glaze that current glazing device consumed usually is more, and the material loading to the ceramic plate is artifical manual going on more, so just comparatively inconvenient.

Therefore, there is a need to develop an energy-saving and environment-friendly ceramic plate production apparatus which can efficiently glaze ceramic plates, has a high degree of automation, and consumes less glaze.

Disclosure of Invention

In order to overcome the defects that the glaze consumed in the prior art is more and the ceramic plate needs to be loaded manually, the technical problems to be solved are as follows: the ceramic plate production equipment for energy conservation and environmental protection can efficiently glaze ceramic plates, has higher automation degree and consumes less glaze.

The technical scheme is as follows: an energy-saving and environment-friendly ceramic plate production apparatus comprising: the bottom frame is provided with a workbench; the motor is arranged on the workbench; the coating mechanism is arranged on the workbench; the material conveying mechanism is arranged on the workbench.

Further, the coating mechanism includes: the enamel box is arranged on the workbench; the workbench is symmetrically provided with a first column sleeve; the coating component is rotatably arranged between the first column sleeves; the coating component is symmetrically provided with first straight gears; a first torsion spring is arranged between each first straight gear and the corresponding first column sleeve, and the first torsion springs are sleeved on the coating component; the guide blocks are symmetrically arranged on the workbench; the guide blocks are all provided with straight racks in a sliding mode, and the straight racks are meshed with the first straight gears which are close to each other.

Further, the biography material mechanism includes: the workbench is provided with a plurality of second column sleeves; the first rotating shaft is rotatably arranged between the two adjacent second column sleeves; the first rotating shafts are symmetrically provided with rollers; the conveying belts are wound between the two rollers on the same side; the first push blocks are uniformly arranged on the conveying belt; a second spur gear is arranged on the first rotating shaft on one side; and the motor output shaft is provided with a gear lack which is meshed with the second straight gear.

Further, still include discharge mechanism, discharge mechanism includes: the rotary sleeve is symmetrically arranged on the workbench; the material box is rotatably arranged between the rotating sleeves; the second torsion springs are arranged between the two sides of the material box and the rotating sleeve; the guide posts are symmetrically arranged on the material box; the fixture blocks are arranged on the guide columns in a sliding manner and slide on the material box; the guide columns are sleeved with first compression springs, and the first compression springs are connected with the clamping blocks and the material box; the stop blocks are symmetrically arranged on the workbench.

Further, still include feeding agencies, feeding agencies includes: the chassis is symmetrically provided with first guide plates; the small guide blocks are arranged in the first guide plate in a sliding manner; a second compression spring is arranged between the small guide block and the first guide plate; the small guide blocks are provided with second push blocks in a sliding manner, and elastic pieces are arranged between the second push blocks and the small guide blocks; the underframe is symmetrically provided with third column sleeves; a second rotating shaft is rotatably arranged between the third column sleeves; the second rotating shaft is symmetrically provided with rollers; the pull ropes are arranged between the idler wheels and the small guide blocks on the same side and penetrate through the underframe; the underframe is provided with a fourth column sleeve; a third straight gear is rotatably arranged on the fourth column sleeve and is meshed with the missing gear; and a transmission assembly is arranged between the third straight gear and the second rotating shaft.

Further, still include pulling mechanism, pulling mechanism includes: the workbench is symmetrically provided with a second guide plate; the third push block is matched with the first push block and slides in the straight rack; first extension springs are arranged between the first push block and the second guide plate close to the third push block.

Further, still include pushing mechanism, pushing mechanism includes: the chassis is symmetrically provided with third guide plates; the L plates and the third guide plate are both arranged on the guide plate in a sliding mode and matched with the straight rack; the L plate is sleeved with a second extension spring which is connected with a third guide plate; the sliding blocks are arranged on the L plate in a sliding mode and are matched with the second push block.

Further, the motor is a servo motor.

The beneficial effects are that: 1. the ceramic plate glazing machine realizes the placement of glaze through the coating mechanism, then realizes the intermittent leftward transmission of the ceramic plate through the material transmission mechanism, and realizes the rapid glazing of the ceramic plate through the matching of the coating mechanism and the material transmission mechanism.

2. The ceramic plate is placed by the aid of the discharging mechanism, and intermittent discharging of the ceramic plate is achieved by the aid of the material conveying mechanism.

3. Through being equipped with feeding agencies, feeding agencies and passing the cooperation of material mechanism down, realize conveying left to the intermittent type of the ceramic plate that the glazing was accomplished, and then be convenient for people to take off the ceramic plate that the glazing was accomplished.

4. Through being equipped with pulling mechanism, under pulling mechanism and the cooperation of passing material mechanism, realize the automatic promotion to coating mechanism, just so need not artifical manual promotion coating mechanism.

5. Through the cooperation of pushing mechanism, feeding agencies and coating mechanism for pulling mechanism resets better.

Drawings

Fig. 1 is a schematic perspective view of the present invention.

Fig. 2 is a schematic perspective view of the coating mechanism of the present invention.

Fig. 3 is a schematic perspective view of the material conveying mechanism of the present invention.

Fig. 4 is a schematic perspective view of the discharging mechanism of the present invention.

Fig. 5 is a schematic perspective view of a material taking mechanism according to the present invention.

Fig. 6 is a schematic perspective view of the pulling mechanism of the present invention.

Fig. 7 is a schematic perspective view of the pushing mechanism of the present invention.

Number designation in the figures: 1. chassis, 2, workbench, 3, motor, 4, paint mechanism, 41, enamel box, 42, first column jacket, 43, paint component, 44, first spur gear, 45, first torsion spring, 46, guide block, 47, spur rack, 5, material transfer mechanism, 51, second column jacket, 52, first rotating shaft, 53, roller, 54, conveyor belt, 55, first push block, 56, second spur gear, 57, missing gear, 6, discharge mechanism, 61, rotating sleeve, 62, bin, 63, second torsion spring, 64, guide column, 65, block, 66, first compression spring, 67, block, 7, material taking mechanism, 71, first guide plate, 72, small guide block, 721, second compression spring, 73, second push block, 74, third column jacket, 75, second rotating shaft, 76, roller, 77, pull rope, 78, fourth column jacket, 79, third gear, 710, transmission component, 8. the device comprises a pulling mechanism 81, a second guide plate 82, a third pushing block 83, a first extension spring 9, a pushing mechanism 91, a third guide plate 92, an L plate 93, a second extension spring 94 and a sliding block.

Detailed Description

The invention is described in detail below with reference to the figures and the embodiments.

Example 1

An energy-saving and environment-friendly ceramic plate production device is shown in figures 1, 2 and 3 and comprises an underframe 1, a workbench 2, a motor 3, a coating mechanism 4 and a material conveying mechanism 5, wherein the underframe 1 is provided with the workbench 2, the workbench 2 is provided with the motor 3, the workbench 2 is provided with the coating mechanism 4, and the workbench 2 is provided with the material conveying mechanism 5.

When people need use this equipment, at first people pour glaze into coating mechanism 4, place the ceramic plate in passing material mechanism 5 after that, then people just can start motor 3, motor 3 drives and passes material mechanism 5 function, pass material mechanism 5 and then drive the ceramic plate and remove left, people just can manually promote coating mechanism 4 parts after that, make coating mechanism 4 be stained with the glaze, treat that the ceramic plate removes when contacting with coating mechanism 4, coating mechanism 4 carries out the glazing to the ceramic plate, treat that the ceramic plate removes left and when separating with coating mechanism 4, the glazing is accomplished, people just can take off the ceramic plate, so constantly repeated just can realize the quick glazing to the ceramic plate, when people need not use this equipment, close motor 3 can.

The coating mechanism 4 comprises an enamel box 41, a first column sleeve 42, a coating assembly 43, a first straight gear 44, a first torsion spring 45, a guide block 46 and a straight rack 47, the enamel box 41 is arranged on the right side of the upper portion of the workbench 2, the first column sleeves 42 are symmetrically arranged on the right side of the workbench 2 in a front-back mode, the coating assembly 43 is rotatably arranged between the first column sleeves 42, the first straight gear 44 is symmetrically arranged on the coating assembly 43, the first torsion spring 45 is arranged between each first straight gear 44 and the corresponding first column sleeve 42, the first torsion spring 45 is sleeved on the coating assembly 43, the guide block 46 is symmetrically arranged on the right side of the upper portion of the workbench 2 in the front-back mode, the straight rack 47 is arranged on each guide block 46 in a sliding mode, and the straight rack 47 is meshed with the corresponding first straight gear 44.

The material conveying mechanism 5 comprises a second cylinder sleeve 51, a first rotating shaft 52, a roller 53, a conveying belt 54, a first pushing block 55, a second straight gear 56 and a missing gear 57, a plurality of second cylinder sleeves 51 are arranged on the workbench 2, the first rotating shaft 52 is arranged between two adjacent second cylinder sleeves 51 in an equal rotating mode, the roller 53 is symmetrically arranged on the first rotating shaft 52, the conveying belt 54 is wound between the two rollers 53 on the same side, the first pushing block 55 is evenly arranged on the conveying belt 54, the second straight gear 56 is arranged on the front side of the left first rotating shaft 52, the missing gear 57 is arranged on the output shaft of the motor 3, and the missing gear 57 is meshed with the second straight gear 56.

Firstly, people pour glaze into the enamel box 41, then people place a ceramic plate on the right side of the conveyor belt 54, then the motor 3 can be started, the output shaft of the motor 3 drives the gear lacking 57 to rotate, when the toothed part of the gear lacking 57 is meshed with the second straight gear 56, the gear lacking 57 drives the first rotating shaft 52 and the roller 53 on the left side to rotate through the second straight gear 56, the roller 53 on the left side drives the first rotating shaft 52 and the roller 53 on the right side to rotate through the conveyor belt 54, the conveyor belt 54 drives the first push block 55 and the ceramic plate to move leftwards, the ceramic plate stops moving when the toothed part of the gear lacking 57 is separated from the second straight gear 56, then people manually move the straight rack 47 rightwards, the straight rack 47 drives the coating component 43 to rotate through the first straight gear 44, so that the coating component 43 is in torsional contact with the glaze in the enamel box 41, further, the glaze is sucked into the coating component 43, and the, treat that coating subassembly 43 inhales the glaze, people just can loosen spur rack 47, make first torsion spring 45 reset, first torsion spring 45 and then drive coating subassembly 43, first spur gear 44 and spur rack 47 reset, so when coating subassembly 43 and ceramic plate contact, just can carry out the glazing to the ceramic plate, treat that the ceramic plate removes to the time of separating with coating subassembly 43 left, the ceramic plate glazing is accomplished, people just can continue to repeat above-mentioned step afterwards, glazing to next ceramic plate, when people need not use this device, it can to close motor 3.

Example 2

On the basis of embodiment 1, as shown in fig. 1, 4, 5, 6 and 7, the automatic feeding device further comprises a discharging mechanism 6, wherein the discharging mechanism 6 comprises rotary sleeves 61, a material box 62, a second torsion spring 63, guide posts 64, clamping blocks 65, a first compression spring 66 and a stop 67, the rotary sleeves 61 are symmetrically arranged on the front and back of the right side of the workbench 2, the material box 62 is rotatably arranged between the rotary sleeves 61, the second torsion spring 63 is arranged between each of two sides of the material box 62 and the rotary sleeve 61, the guide posts 64 are symmetrically arranged on the front and back of the right side of the material box 62, the clamping blocks 65 are slidably arranged on the guide posts 64, the clamping blocks 65 slide on the material box 62, the first compression springs 66 are respectively sleeved on the guide posts 64, the first compression springs 66 are connected with the clamping blocks 65 and the material box 62, and the stop 67 are symmetrically arranged on.

Firstly, a ceramic plate is placed in the material box 62, then when the first pushing block 55 moves to the lower part of the material box 62, the first pushing block 55 contacts with the bottom of the ceramic plate, because the bottom of the ceramic plate is uneven, the first pushing block 55 can drive the ceramic plate to move leftwards, meanwhile, when the ceramic plate moves, the material box 62 rotates, the second torsion spring 63 deforms, the material box 62 drives all the components on the material box to rotate, when the clamping block 65 rotates to contact with the stop block 67, the clamping block 65 moves leftwards, the first compression spring 66 is compressed, the lower part of the clamping block 65 pushes the ceramic plate, the ceramic plate further moves leftwards, the upper part of the clamping block 65 blocks the rest ceramic plates, when the first pushing block 55 drives the ceramic plate to move to be separated from the material box 62, the second torsion spring 63 drives the material box 62 and all the components on the material box 62 to reset, when the clamping block 65 is separated from, the first compression spring 66 drives the block 65 to return, so that the ceramic plate in the magazine 62 is no longer blocked, and the ceramic plate can be discharged.

The material taking mechanism 7 is further included, the material taking mechanism 7 includes a first guide plate 71, a small guide block 72, a second compression spring 721, a second push block 73, a third column sleeve 74, a second rotating shaft 75, a roller 76, a pull rope 77, a fourth column sleeve 78, a third spur gear 79 and a transmission component 710, the first guide plate 71 is symmetrically arranged on the left side of the upper portion of the underframe 1, the small guide block 72 is arranged in the first guide plate 71 in a sliding manner, the second compression spring 721 is arranged between the small guide block 72 and the first guide plate 71, the second push block 73 is arranged on the small guide block 72 in a sliding manner, an elastic member is arranged between the second push block 73 and the small guide block 72, the third column sleeve 74 is symmetrically arranged on the left side of the underframe 1, the second rotating shaft 75 is arranged between the third column sleeve 74, the roller 76 is symmetrically arranged on the second rotating shaft 75, the roller 76 and the small guide block 72 on the same side are both provided with the pull rope 77 and the pull rope 77 passing through the underframe 1, the fourth column sleeve 78 is arranged on the front, the fourth column sleeve 78 is rotatably provided with a third spur gear 79, the third spur gear 79 is meshed with the missing gear 57, and a transmission assembly 710 is arranged between the third spur gear 79 and the second rotating shaft 75.

When the first pushing block 55 drives the glazed ceramic plate to move to contact with the second pushing block 73, the second pushing block 73 is extruded to move downwards, the elastic member is compressed, after the first pushing block 55 moves to be separated from the ceramic plate, the third spur gear 79 is meshed with the third spur gear 79, the third spur gear 79 drives the second rotating shaft 75 to rotate through the transmission assembly 710, the second rotating shaft 75 drives the small guide block 72 to move leftwards through the roller 76 and the pull rope 77, the second compression spring 721 is compressed, the small guide block 72 drives the ceramic plate to move leftwards through the second pushing block 73, therefore, people can collect the ceramic plate conveniently, after the people take the ceramic plate down, the elastic member drives the second pushing block 73 to reset, and when the third spur gear 79 is separated from the third spur gear 57, the second compression spring 721 drives the small guide block 72 and the second pushing block 73 to reset.

Still include pulling mechanism 8, pulling mechanism 8 is including second deflector 81, third ejector pad 82 and first extension spring 83, the symmetry is equipped with second deflector 81 around on the workstation 2, all be equipped with third ejector pad 82 on the second deflector 81 of slidingtype, third ejector pad 82 and the cooperation of first ejector pad 55, third ejector pad 82 slides in spur rack 47, third ejector pad 82 all with be equipped with first extension spring 83 between the second deflector 81 close.

When the first pushing block 55 moves leftwards to be in contact with the third pushing block 82, the third pushing block 82 is extruded to move outwards, the first stretching spring 83 is stretched, and the third pushing block 82 further pushes the spur rack 47 to move rightwards, so that the spur rack 47 does not need to be pushed manually, and then when the third pushing block 82 moves from a chute in the spur rack 47 to a straight groove, the spur rack 47 is not pushed any more, and further moves leftwards to reset.

Still include pushing mechanism 9, pushing mechanism 9 is including third deflector 91, L board 92, second extension spring 93 and slider 94, chassis 1 top left side front and back symmetry is equipped with third deflector 91, it is equipped with L board 92 all to slide on the third deflector 91, L board 92 and spur rack 47 cooperation, it has second extension spring 93 all to overlap on the L board 92, second extension spring 93 is connected with third deflector 91, it is equipped with slider 94 all to slide on the L board 92, slider 94 and second ejector pad 73 cooperation.

When the ceramic plate moves leftwards to contact the slide block 94, the slide block 94 moves upwards, and then after the second push block 73 passes over the slide block 94, the slide block 94 moves downwards to be reset, thus, when the second pushing block 73 is reset to move rightwards, the sliding block 94 is driven to move rightwards, the sliding block 94 drives the L plate 92 to move rightwards, the second extension spring 93 is extended, then, when L plate 92 contacts spur rack 47, L plate 92 pushes spur rack 47 to the right, and when spur rack 47 moves until third pushing block 82 is located on the left side of spur rack 47, under the restoring action of the first extension spring 83, the third push block 82 moves inward, and then when the second extension spring 93 is extended to the maximum, the second pushing block 73 is separated from the sliding block 94, the second extension spring 93 drives the L-shaped plate 92 to return, and the spur rack 47 is not pushed any more, so that the third push block 82 can be better reset under the reset action of the spur rack 47 and the first extension spring 83.

It should be understood by those skilled in the art that the above embodiments do not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent variations fall within the scope of the present invention.

Claims (8)

1. The utility model provides an energy-concerving and environment-protective ceramic plate production facility which characterized in that includes:

the device comprises a bottom frame (1), wherein a workbench (2) is arranged on the bottom frame (1);

the motor (3) is arranged on the workbench (2);

the coating mechanism (4) is arranged on the workbench (2);

a material conveying mechanism (5), and a material conveying mechanism (5) is arranged on the workbench (2).

2. An energy saving and environmental friendly ceramic board producing apparatus as set forth in claim 1, wherein said painting mechanism (4) comprises:

an enamel box (41), wherein the enamel box (41) is arranged on the workbench (2);

the workbench (2) is symmetrically provided with first column sleeves (42);

the coating component (43) is rotatably arranged between the first column sleeves (42);

the first straight gear (44) is symmetrically arranged on the coating component (43);

a first torsion spring (45) is arranged between each first straight gear (44) and the adjacent first column sleeve (42), and the first torsion springs (45) are sleeved on the paint component (43);

the guide blocks (46) are symmetrically arranged on the workbench (2);

the straight rack (47) is arranged on the guide block (46) in a sliding mode, and the straight rack (47) is meshed with the adjacent first straight gear (44).

3. An energy saving and environmental friendly ceramic plate producing apparatus as claimed in claim 1, wherein said material transfer means (5) comprises:

a second column sleeve (51), wherein a plurality of second column sleeves (51) are arranged on the workbench (2);

the first rotating shaft (52) is rotatably arranged between the two adjacent second column sleeves (51);

the rollers (53) are symmetrically arranged on the first rotating shaft (52);

the conveyor belt (54) is wound between the two rollers (53) on the same side;

the first push blocks (55) are uniformly arranged on the conveyor belt (54);

a second spur gear (56), wherein the first rotating shaft (52) on one side is provided with the second spur gear (56);

a gear lacking wheel (57), the output shaft of the motor (3) is provided with the gear lacking wheel (57), and the gear lacking wheel (57) is meshed with the second straight gear (56).

4. An energy saving and environmental protection ceramic plate production apparatus as claimed in claim 2 or 3, further comprising a discharging mechanism (6), wherein the discharging mechanism (6) comprises:

the rotary sleeve (61) is symmetrically arranged on the workbench (2);

the bin (62) is rotatably arranged between the rotating sleeves (61);

a second torsion spring (63), wherein the second torsion spring (63) is arranged between the two sides of the material box (62) and the rotating sleeve (61);

the guide posts (64) are symmetrically arranged on the feed box (62);

the fixture blocks (65) are arranged on the guide columns (64) in a sliding manner, and the fixture blocks (65) slide on the material box (62);

the guide post (64) is sleeved with the first compression spring (66), and the first compression spring (66) is connected with the clamping block (65) and the material box (62);

the stop blocks (67) are symmetrically arranged on the workbench (2).

5. An energy-saving and environment-friendly ceramic plate production apparatus as claimed in claim 4, further comprising a material taking mechanism (7), wherein the material taking mechanism (7) comprises:

the chassis (1) is symmetrically provided with first guide plates (71);

the small guide blocks (72) are arranged in the first guide plate (71) in a sliding manner;

a second compression spring (721), wherein the second compression spring (721) is arranged between the small guide block (72) and the first guide plate (71);

the second push block (73) is arranged on the small guide block (72) in a sliding mode, and an elastic piece is arranged between the second push block (73) and the small guide block (72);

the third column sleeve (74) is symmetrically arranged on the underframe (1);

a second rotating shaft (75) is rotatably arranged between the second rotating shaft (75) and the third column sleeve (74);

the rollers (76) are symmetrically arranged on the second rotating shaft (75);

the pull ropes (77) are arranged between the idler wheels (76) and the small guide blocks (72) on the same side, and the pull ropes (77) penetrate through the underframe (1);

a fourth column sleeve (78), wherein the underframe (1) is provided with the fourth column sleeve (78);

a third spur gear (79), wherein the fourth column sleeve (78) is rotatably provided with the third spur gear (79), and the third spur gear (79) is meshed with the missing gear (57);

and a transmission assembly (710) is arranged between the transmission assembly (710) and the third spur gear (79) and the second rotating shaft (75).

6. An energy saving and environmental friendly ceramic plate producing apparatus as claimed in claim 5, further comprising a pulling mechanism (8), wherein the pulling mechanism (8) comprises:

the workbench (2) is symmetrically provided with a second guide plate (81);

the third push blocks (82) are arranged on the second guide plate (81) in a sliding mode, the third push blocks (82) are matched with the first push blocks (55), and the third push blocks (82) slide in the straight rack (47);

and a first extension spring (83) is arranged between the first extension spring (83) and the third push block (82) and the adjacent second guide plate (81).

7. An energy saving and environmental friendly ceramic plate producing apparatus as claimed in claim 6, further comprising a pushing mechanism (9), wherein the pushing mechanism (9) comprises:

the third guide plate (91) is symmetrically arranged on the underframe (1);

the L plates (92) are arranged on the third guide plate (91) in a sliding mode, and the L plates (92) are matched with the straight rack (47);

the L plate (92) is sleeved with a second extension spring (93), and the second extension spring (93) is connected with the third guide plate (91);

the sliding blocks (94) are arranged on the sliding blocks (94) and the L plate (92) in a sliding mode, and the sliding blocks (94) are matched with the second pushing block (73).

8. An energy saving and environmental friendly ceramic plate producing apparatus as claimed in claim 1, wherein the motor (3) is a servo motor.

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