CN220031432U - Green ceramic tile dyestripping structure - Google Patents

Abstract

The utility model provides a raw ceramic tile film tearing structure, which belongs to the technical field of raw ceramic tile equipment and aims to solve the problem that the production efficiency of raw ceramic tiles is low due to complicated manual operation and operation of workers when the traditional raw ceramic tiles are used for producing film tearing, and the raw ceramic tile film tearing structure comprises a raw ceramic tile conveying belt, an adsorption support frame, a film tearing driving motor, a film tearing mechanism, a film tearing driving shaft and a film tearing removing mechanism; the adsorption supporting frame is fixedly connected below the front end of the driving supporting frame, and is of a rectangular frame structure; the film tearing driving motor is fixedly connected to the rear of the driving support frame; the film tearing mechanism is arranged in front of the driving support frame; the film tearing driving shaft is rotationally connected to the front of the driving supporting frame, and is fixedly connected with the film tearing driving motor in a coaxial manner; the tearing film removing mechanism is arranged in front of the driving support frame, so that the surface film of the green ceramic piece is automatically torn off, the labor intensity of workers is reduced, and the production efficiency of the green ceramic piece is improved.

Description

Green ceramic tile dyestripping structure

Technical Field

The utility model belongs to the technical field of green ceramic tile equipment, and particularly relates to a green ceramic tile dyestripping structure.

Background

The green ceramic chip is the most critical raw material in the co-firing ceramic process, the low-temperature co-firing ceramic production technology is to punch holes on the green ceramic chip, perform hole grouting, conduct, print resistance and other processes to manufacture a required circuit pattern, and embed a plurality of passive elements into the circuit pattern, wherein the existing green ceramic chip process flow is as follows: slitting, slicing, film tearing, punching, film covering, hole filling, drying, leveling, printing, film tearing, lamination, encapsulation, lamination, sintering and cutting.

The prior application number is: the utility model discloses a green ceramic tile film tearing device and a green ceramic tile film tearing method, wherein the green ceramic tile film tearing device comprises a film tearing mechanism, a feeding mechanism and a receiving mechanism, the film tearing mechanism comprises a working frame and a film tearing assembly, the film tearing assembly is horizontally and slidably connected with the working frame through a mounting bracket, the film tearing assembly is slidably connected with the mounting bracket through a fixing bracket, the feeding mechanism comprises a supporting frame, a bearing assembly for bearing green ceramic tiles is slidably arranged on the supporting frame, a driving piece for driving the bearing assembly to slide is arranged on the supporting frame, the receiving assembly comprises a mounting bracket, and a material guiding assembly is further arranged on the mounting bracket. The dyestripping mechanism carries out the dyestripping operation, through horizontal slip on the work frame between the installation to be convenient for adjust this dyestripping machine's station according to different operational environment, feeding mechanism is used for transmitting the raw materials, thereby be convenient for transmit the raw ceramic tile to the established position on, through setting up material receiving assembly, the scroll after the recycle of being convenient for.

Based on the above, when the existing raw ceramic tile is used for producing the film, the manual operation is generally carried out on the production line by workers, the workers need to tear off the film and put the film into the waste box, the labor intensity of the workers is high, the operation is complex, and the production efficiency of the raw ceramic tile is low.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a raw ceramic tile film tearing structure, which aims to solve the problems that when the traditional raw ceramic tile film is torn off, a worker generally performs manual operation on a production line, the worker needs to tear off a coating film and then put the coating film into a waste box, the labor intensity of the worker is high, the operation is complicated, and the production efficiency of the raw ceramic tile is low.

The utility model discloses a purpose and an effect of a raw ceramic tile dyestripping structure, which are achieved by the following specific technical means:

a raw ceramic tile film tearing structure comprises a raw ceramic tile conveying belt, a driving support frame, an adsorption support frame, a film tearing driving motor, a film tearing mechanism, a film tearing driving shaft, a film tearing removing mechanism, a placing frame and raw ceramic tile pieces;

the driving support frame is arranged at the rear of the green ceramic chip conveying belt;

the adsorption supporting frame is fixedly connected below the front end of the driving supporting frame, and is of a rectangular frame structure;

the film tearing driving motor is fixedly connected to the rear of the driving support frame;

the film tearing mechanism is arranged in front of the driving support frame;

the film tearing driving shaft is rotationally connected to the front of the driving supporting frame, and is fixedly connected with the film tearing driving motor in a coaxial manner;

the tearing film removing mechanism is arranged in front of the driving support frame;

the placement frames are provided with a plurality of groups, and the groups of placement frames are respectively and fixedly connected above the green ceramic chip conveying belt;

the raw ceramic piece is provided with a plurality of groups, and the raw ceramic piece is respectively placed in the placement frame.

Further, the adsorption supporting frame comprises: an adsorption fan;

the adsorption fan is fixedly connected to the inside of the adsorption supporting frame, and the adsorption fan is of a negative pressure fan structure.

Further, the dyestripping mechanism is including: a film tearing guide post, a film tearing extrusion spring and a film tearing adhesive plate;

eight groups of film tearing guide posts are arranged in total and are respectively connected with the periphery of the film tearing driving shaft in a sliding manner;

eight groups of film tearing extrusion springs are arranged in total and are fixedly connected to the periphery of the film tearing guide post respectively;

the film tearing and sticking plates are four groups, the four groups of film tearing and sticking plates are tile-shaped structures, and the four groups of film tearing and sticking plates are respectively and fixedly connected to the periphery of the film tearing guide post.

Further, the dyestripping mechanism includes: the film taking limiting piece, the film taking sliding piece, the film taking spring and the film taking driving piece;

the film taking limiting pieces are provided with a plurality of groups, the film taking limiting pieces are respectively and fixedly connected above the raw ceramic chip conveying belt, and the film taking limiting pieces are all provided with V-shaped groove structures;

the film taking slide piece is of a cylindrical structure and is connected to the periphery of the film tearing driving shaft in a sliding manner;

the film taking spring is rotationally connected to the front of the driving support frame, and the front end of the film taking spring is fixedly connected with the film taking slide piece;

the film taking driving piece is fixedly connected below the film taking sliding piece.

Further, the tear film removing mechanism further comprises: a collection box;

the collecting box is fixedly connected to the rear of the film taking limiting piece.

Further, the placement frame comprises: a vent attachment hole;

the ventilation attachment holes are provided with a plurality of groups, and the ventilation attachment holes are respectively arranged in the placement frame.

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

according to the utility model, through the arrangement of the adsorption fan, when the film tearing of the green ceramic piece is required, the adsorption fan is started at the moment, so that the adsorption of the green ceramic piece is realized by the adsorption fan, and the stability of the green ceramic piece in the film tearing process is ensured.

According to the utility model, through the arrangement of the film tearing mechanism, when the film tearing is required to be carried out on the green ceramic piece, the film tearing driving motor is turned on, the film tearing driving motor rotates to drive the film tearing driving shaft to rotate, the film tearing driving shaft rotates to drive the film tearing guide post to rotate, the film tearing guide post rotates to drive the film tearing adhesive plate to rotate, and the film tearing adhesive plate rotates to realize automatic tearing of the surface film of the green ceramic piece, so that the labor intensity of workers is reduced, and the production efficiency of the green ceramic piece is improved.

According to the utility model, through the arrangement of the film tearing and removing mechanism, after the film tearing of the film tearing and adhering plate is completed, the raw ceramic piece conveying belt drives the placing frame to move rightwards, after the placing frame moves past the film taking driving piece, the film taking driving piece enters the V-shaped groove structure of the film taking limiting piece, then the film taking driving piece moves forwards under the action of the film taking spring, the film taking driving piece moves forwards to drive the film taking sliding piece to move forwards, the film taking sliding piece moves forwards to remove the film on the periphery of the film tearing and adhering plate, and the falling film enters the collecting box, so that the collecting box can collect the film, the film taking operation is facilitated, the whole film tearing device can continuously run, and the production efficiency of the raw ceramic piece is improved.

The utility model realizes the adsorption of the green ceramic piece, ensures the stability of the green ceramic piece when tearing the film, realizes the automatic tearing of the surface film of the green ceramic piece, reduces the labor intensity of workers, facilitates the film taking operation, ensures that the whole film tearing device can continuously operate, and improves the production efficiency of the green ceramic piece.

Drawings

Fig. 1 is a schematic view of the overall structure of the present utility model.

FIG. 2 is a schematic view of a tear film adhesive panel structure according to the present utility model.

Fig. 3 is a schematic view of a film taking limiting member according to the present utility model.

Fig. 4 is a schematic view of the structure of the vent attachment hole of the present utility model.

Fig. 5 is a schematic structural view of the film tearing mechanism of the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a green ceramic chip conveyor belt; 2. driving the supporting frame; 3. an adsorption supporting frame; 301. an adsorption fan; 4. a film tearing driving motor; 5. a film tearing mechanism; 501. a film tearing drive shaft; 502. a dyestripping guide post; 503. a tearing film extrusion spring; 504. tearing the film and sticking the film; 6. a tear film removing mechanism; 601. taking a film limiting piece; 602. taking a film slider; 603. taking a membrane spring; 604. taking a film driving piece; 605. a collection box; 7. placing a frame; 701. a vent attachment hole; 8. green ceramic tile pieces.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples.

Examples:

as shown in fig. 1 to 5:

the utility model provides a raw ceramic tile film tearing structure which comprises a raw ceramic tile conveying belt 1, a driving support frame 2, an adsorption support frame 3, a film tearing driving motor 4, a film tearing mechanism 5, a film tearing driving shaft 501, a film tearing removing mechanism 6, a placing frame 7 and a raw ceramic tile piece 8;

the driving support frame 2 is arranged at the rear of the green ceramic tile conveying belt 1;

the adsorption supporting frame 3 is fixedly connected below the front end of the driving supporting frame 2, and the adsorption supporting frame 3 is of a rectangular frame structure;

the film tearing driving motor 4 is fixedly connected to the rear of the driving support frame 2;

the film tearing mechanism 5 is arranged in front of the driving support frame 2;

the film tearing driving shaft 501 is rotationally connected to the front of the driving supporting frame 2, and the film tearing driving shaft 501 is fixedly connected with the film tearing driving motor 4 in a coaxial way;

the tearing film removing mechanism 6 is arranged in front of the driving support frame 2;

the placement frames 7 are provided with a plurality of groups, and the placement frames 7 are respectively and fixedly connected above the raw ceramic chip conveyor belt 1;

the green ceramic chip pieces 8 are provided with a plurality of groups, and the green ceramic chip pieces 8 are respectively placed in the placement frame 7.

Wherein, adsorb support frame 3 including: an adsorption fan 301;

the adsorption fan 301 is fixedly connected in the adsorption supporting frame 3, the adsorption fan 301 is of a negative pressure fan structure, in use, the adsorption fan 301 realizes the adsorption of the green ceramic piece 8, and the stability of the green ceramic piece 8 in film tearing is ensured.

Wherein, tear film mechanism 5 is including: a tear film guide post 502, a tear film pressing spring 503, and a tear film adhesive plate 504;

eight groups of dyestripping guide posts 502 are arranged in total, and the eight groups of dyestripping guide posts 502 are respectively and slidably connected to the periphery of the dyestripping driving shaft 501;

eight groups of dyestripping extrusion springs 503 are arranged in total, and the eight groups of dyestripping extrusion springs 503 are respectively fixedly connected to the periphery of the dyestripping guide column 502;

the dyestripping sticky plate 504 sets up four altogether, four groups of dyestripping sticky plates 504 are tile-shaped structure, four groups of dyestripping sticky plates 504 are fixed connection respectively in the periphery of dyestripping guide post 502, in use, when needs carry out the dyestripping to raw ceramic piece 8, open dyestripping driving motor 4 this moment, dyestripping driving motor 4 rotates and drives dyestripping drive shaft 501 and rotate, dyestripping drive shaft 501 rotates and drives dyestripping guide post 502 and rotate, dyestripping guide post 502 rotates and drives dyestripping sticky plate 504 and rotate, dyestripping sticky plate 504 rotates and realizes the automatic tear to raw ceramic piece 8 surface film, workman's intensity of labour has been alleviateed, raw ceramic piece's production efficiency has been improved.

Wherein, tear film mechanism 6 is including: a film taking limiting piece 601, a film taking sliding piece 602, a film taking spring 603 and a film taking driving piece 604;

the film taking limiting pieces 601 are provided with a plurality of groups, the film taking limiting pieces 601 are respectively and fixedly connected above the raw ceramic chip conveying belt 1, and the film taking limiting pieces 601 are all provided with V-shaped groove structures;

the film taking slide piece 602 is of a cylindrical structure, and the film taking slide piece 602 is connected to the periphery of the film tearing driving shaft 501 in a sliding manner;

the film taking spring 603 is rotationally connected to the front of the driving support frame 2, and the front end of the film taking spring 603 is fixedly connected with the film taking slide piece 602;

the film taking driving piece 604 is fixedly connected below the film taking sliding piece 602, in use, after the film tearing of the film tearing adhesive plate 504 is completed, the raw ceramic tile conveying belt 1 drives the placing frame 7 to move rightwards, after the placing frame 7 moves past the film taking driving piece 604, the film taking driving piece 604 enters the V-shaped groove structure of the film taking limiting piece 601, then the film taking driving piece 604 moves forwards under the action of the film taking spring 603, the film taking driving piece 604 moves forwards to drive the film taking sliding piece 602 to move forwards, the film taking sliding piece 602 moves forwards to take off the film on the periphery of the film tearing adhesive plate 504, the film taking operation is facilitated, the whole film tearing device can continuously operate, and the production efficiency of raw ceramic tiles is improved.

Wherein, tear film mechanism 6 still includes: a collection tank 605;

the collecting box 605 is fixedly connected to the rear of the film taking limiting part 601, in use, when the film tearing of the film tearing adhesive plate 504 is completed, the raw ceramic tile conveying belt 1 drives the placing frame 7 to move rightwards, after the placing frame 7 moves past the position of the film taking driving part 604, the film taking driving part 604 enters the V-shaped groove structure of the film taking limiting part 601, then the film taking driving part 604 moves forwards under the action of the film taking spring 603, the film taking driving part 604 moves forwards to drive the film taking sliding part 602 to move forwards, the film taking sliding part 602 moves forwards to take off the film at the periphery of the film tearing adhesive plate 504, the falling film enters the collecting box 605, the collecting box 605 realizes the collection of the film, facilitates the film taking operation, enables the whole film tearing device to continuously run, and improves the production efficiency of the raw ceramic tile.

Wherein, place frame 7 including: a vent attachment hole 701;

the ventilation attachment holes 701 are provided with a plurality of groups, the ventilation attachment holes 701 are respectively formed in the placement frame 7, when the raw ceramic piece 8 needs to be torn off, the adsorption fan 301 is turned on at the moment, the adsorption fan 301 realizes the adsorption of the raw ceramic piece 8, and the stability of the raw ceramic piece 8 in the tearing process is ensured.

Specific use and action of the embodiment:

first, when needs carry out the dyestripping to raw ceramic piece 8, open dyestripping driving motor 4 this moment, dyestripping driving motor 4 rotates and drives dyestripping drive shaft 501 and rotate, and dyestripping drive shaft 501 rotates and drives dyestripping guide post 502 and rotate, and dyestripping guide post 502 rotates and drives dyestripping sticky plate 504 and rotate, and dyestripping sticky plate 504 rotates and realizes the automatic tear to raw ceramic piece 8 surface film, has alleviateed workman's intensity of labour, has improved raw ceramic piece's production efficiency.

Then, when the film tearing needs to be carried out on the green ceramic piece 8, the adsorption fan 301 is turned on at the moment, the adsorption fan 301 realizes the adsorption on the green ceramic piece 8, and the stability of the green ceramic piece 8 in the film tearing process is ensured.

Finally, when the film tearing of the film tearing sticky plate 504 is completed, the raw ceramic chip conveyor belt 1 drives the placing frame 7 to move rightwards, after the placing frame 7 moves through the position of the film taking driving piece 604, the film taking driving piece 604 enters the V-shaped groove structure of the film taking limiting piece 601, then the film taking driving piece 604 moves forwards under the action of the film taking spring 603, the film taking driving piece 604 moves forwards to drive the film taking sliding piece 602 to move forwards, the film taking sliding piece 602 moves forwards to take off the film on the periphery of the film tearing sticky plate 504, the dropped film enters the collecting box 605, the collecting box 605 collects the film, film taking operation is facilitated, the whole film tearing device can run continuously, and the production efficiency of the raw ceramic chip is improved.

Claims (6)

1. The utility model provides a green ceramic piece dyestripping structure which characterized in that: the device comprises a raw ceramic piece conveying belt (1), a driving support frame (2), an adsorption support frame (3), a film tearing driving motor (4), a film tearing mechanism (5), a film tearing driving shaft (501), a film tearing removing mechanism (6), a placing frame (7) and a raw ceramic piece (8); the driving support frame (2) is arranged at the rear of the green ceramic chip conveying belt (1); the adsorption supporting frame (3) is fixedly connected below the front end of the driving supporting frame (2), and the adsorption supporting frame (3) is of a rectangular frame structure; the film tearing driving motor (4) is fixedly connected to the rear of the driving support frame (2); the film tearing mechanism (5) is arranged in front of the driving support frame (2); the film tearing driving shaft (501) is rotationally connected to the front of the driving supporting frame (2), and the film tearing driving shaft (501) is fixedly connected with the film tearing driving motor (4) in a coaxial way; the tearing film removing mechanism (6) is arranged in front of the driving support frame (2); the placing frames (7) are provided with a plurality of groups, and the groups of placing frames (7) are respectively and fixedly connected above the raw ceramic chip conveying belt (1); the ceramic tile pieces (8) are provided with a plurality of groups, and the ceramic tile pieces (8) are respectively placed in the placement frame (7).

2. A green tile dyestripping structure according to claim 1, wherein: the adsorption supporting frame (3) comprises: an adsorption fan (301); the adsorption fan (301) is fixedly connected to the inside of the adsorption supporting frame (3), and the adsorption fan (301) is of a negative pressure fan structure.

3. A green tile dyestripping structure according to claim 1, wherein: the film tearing mechanism (5) comprises: a tearing film guide post (502), a tearing film extrusion spring (503) and a tearing film sticking plate (504); eight groups of film tearing guide posts (502) are arranged in total, and the eight groups of film tearing guide posts (502) are respectively and slidably connected to the periphery of the film tearing driving shaft (501); eight groups of film tearing extrusion springs (503) are arranged in total, and the eight groups of film tearing extrusion springs (503) are fixedly connected to the periphery of the film tearing guide column (502) respectively; the film tearing and sticking plates (504) are arranged in four groups, the four groups of film tearing and sticking plates (504) are of tile-shaped structures, and the four groups of film tearing and sticking plates (504) are respectively and fixedly connected to the periphery of the film tearing guide column (502).

4. A green tile dyestripping structure according to claim 1, wherein: the tearing film removing mechanism (6) comprises: a film taking limiting piece (601), a film taking sliding piece (602), a film taking spring (603) and a film taking driving piece (604); the film taking limiting pieces (601) are provided with a plurality of groups, the film taking limiting pieces (601) are respectively and fixedly connected above the raw ceramic chip conveying belt (1), and the film taking limiting pieces (601) are all provided with V-shaped groove structures; the film taking slide piece (602) is of a cylindrical structure, and the film taking slide piece (602) is connected to the periphery of the film tearing driving shaft (501) in a sliding manner; the film taking spring (603) is rotationally connected to the front of the driving support frame (2), and the front end of the film taking spring (603) is fixedly connected with the film taking slide piece (602); the film taking driving piece (604) is fixedly connected below the film taking sliding piece (602).

5. The green tile dyestripping structure of claim 4, wherein: the tearing film removing mechanism (6) further comprises: a collection tank (605); the collecting box (605) is fixedly connected to the rear of the film taking limiting part (601).

6. A green tile dyestripping structure according to claim 1, wherein: the placement frame (7) comprises: a ventilation attachment hole (701); the ventilation attachment holes (701) are provided with a plurality of groups, and the ventilation attachment holes (701) are respectively arranged in the placement frame (7).