CN117183053B - Blank pulling device for ceramic processing - Google Patents

Abstract

The invention is applicable to the technical field of ceramic processing, and particularly relates to a blank pulling device for ceramic processing, which comprises: the base is provided with at least two groups of guide wheels, the guide wheels are connected through two groups of transmission chains, a plurality of groups of mandrels are fixedly arranged between the two groups of transmission chains, a group of rotating seats are arranged between every two adjacent groups of mandrels, the rotating seats are rotationally connected with the mandrels, sliding rods are fixedly arranged on the rotating seats, sliding sleeves are sleeved on the sliding rods, the sliding sleeves are fixedly arranged on the mandrels, a die fixing assembly is arranged on the rotating seats, and a magnetic driving mechanism is arranged on the base; the raw material conveying mechanism is fixedly arranged on the base. According to the invention, the raw materials can be conveyed in a directional manner by arranging the raw material conveying mechanism, and after the raw materials are conveyed, the raw materials can be subjected to blank drawing treatment, and the quality of blank drawing is ensured by twice blank drawing, so that the degree of automation is improved, and the output efficiency of ceramic products is improved.

Description

Blank pulling device for ceramic processing

Technical Field

The invention belongs to the technical field of ceramic processing, and particularly relates to a blank pulling device for ceramic processing.

Background

Drawing is one of seventy-two steps in making ceramics, also known as green, and is the initial stage of forming. The prepared pug is placed on a blank car, and a blank piece with a certain shape and size is manufactured by a wheel forming method. The drawing method is a traditional method for producing Chinese ceramic ware, and is suitable for manufacturing circular ware and cutting ware. And (3) blank drawing and molding: centering, perforating, pulling up and repairing. The key point of drawing is that the heart is flat and the eyes are quasi-stable, and the purpose of drawing the blank is also important. The trimming is further perfected on the basis of blank drawing, and the inner shape and the outer shape of the machine shape are determined.

In the current ceramic processing process, manual blank pulling operation is generally adopted, so that the manual blank pulling efficiency is low, a continuous production line cannot be constructed, and the production efficiency is affected.

Disclosure of Invention

The invention aims to provide a blank pulling device for ceramic processing, which aims to solve the problems that in the current ceramic processing process, manual blank pulling operation is usually adopted, the manual blank pulling efficiency is low, a continuous production line cannot be constructed, and the production efficiency is affected.

The present invention is achieved by a preform pulling apparatus for ceramic processing, comprising:

the base is provided with at least two groups of guide wheels, the guide wheels are connected through two groups of transmission chains, a plurality of groups of mandrels are fixedly arranged between the two groups of transmission chains, a group of rotating seats are arranged between two adjacent groups of mandrels, one end of each rotating seat is rotationally connected with the mandrels through a rotating sleeve, a sliding rod is fixedly arranged on each rotating seat, a sliding sleeve is sleeved on each sliding rod, the sliding sleeve is fixedly arranged on the mandrel, which is close to one side of each rotating seat, a die fixing assembly is arranged on each rotating seat, and a magnetic driving mechanism is arranged on the base and used for driving the die to rotate;

the raw material conveying mechanism is fixedly arranged on the base and used for throwing raw materials into the die.

Preferably, the raw material conveying mechanism comprises a second support and a guide cylinder, the second support is fixedly arranged on the base, a guide block is arranged on the side wall of the guide cylinder, a guide groove is formed in the second support, the guide cylinder is in sliding connection with the second support through the guide block and the guide groove, a guide rail is arranged on the guide cylinder, a group of pushing plates are slidably arranged on the guide rail, a group of screw sleeves are fixedly connected onto the pushing plates, a group of feeding motors are fixedly arranged on the second support, a screw is arranged on a rotating shaft of the feeding motor, the screw is in matched connection with the screw sleeve, a group of mounting brackets are fixedly arranged on the second support, a group of first electromagnets are fixedly arranged at the end part of each mounting bracket, guide rods are fixedly arranged on two sides of each mounting bracket, sliding magnetic blocks are slidably arranged on the guide rods, the two groups of sliding magnetic blocks are connected through cutting cables, a group of second electromagnets are fixedly arranged on the tops of the guide rods, a group of feeding magnets are fixedly connected onto a group of feeding magnetic blocks through rotation, a group of the first magnetic blocks and a second magnetic block are fixedly arranged on the second support, a group of feeding cylinder and a second magnetic block are fixedly arranged on the second support, a second magnetic block is fixedly arranged on the first magnetic block and a second magnetic block, a second magnetic block is fixedly arranged on the second support, a first magnetic block and a second magnetic block fixedly arranged on the second magnetic block and a second magnetic block fixedly arranged on a second mounting support.

Preferably, the male die assembly comprises a telescopic cylinder, a fixed male die is detachably connected to the telescopic end of the telescopic cylinder, a cavity is formed in the core of the fixed male die, a core male die is slidably arranged in the cavity, the core male die is connected with the fixed male die through a spring, a through hole is formed in the top of the fixed male die, a limiting stay rope is arranged in the through hole, one end of the limiting stay rope is fixedly connected with the core male die, and the other end of the limiting stay rope is fixedly connected with the second support.

Preferably, the second bracket is fixedly provided with an air pressure control assembly, one end of the feeding barrel, which is far away from the guide barrel, is provided with an opening, and the opening is communicated with the air pressure control assembly through a hose.

Preferably, the magnetic force driving mechanism comprises a first support and a movable magnetic seat, the first support is fixedly arranged on the base, a rotating motor is fixedly arranged on the base, a transmission square shaft is fixedly connected to an output shaft of the rotating motor, a shaft sleeve is slidably arranged on the transmission square shaft, the movable magnetic seat is fixedly arranged on the shaft sleeve, a plurality of magnetic columns are fixedly arranged on the movable magnetic seat, the die fixing assembly comprises a magnetic attraction base, the magnetic attraction base is rotationally connected with the rotating seat, and a plurality of magnetic columns are arranged at the bottom of the magnetic attraction base.

Preferably, the magnetic attraction base is provided with a plurality of positioning holes.

Preferably, the bottom of the base is provided with a moving assembly.

According to the blank pulling device for ceramic processing, provided by the invention, the raw materials can be directionally conveyed by arranging the raw material conveying mechanism, after the raw materials are conveyed, blank pulling treatment can be carried out on the raw materials, the quality of blank pulling is ensured by twice blank pulling, the degree of automation is improved, and the output efficiency of ceramic products is improved.

Drawings

FIG. 1 is a front view of a device for pulling a ceramic blank for ceramic processing according to an embodiment of the present invention;

fig. 2 is a schematic view illustrating a first view angle of a blank drawing device for ceramic processing according to an embodiment of the present invention;

FIG. 3 is a schematic view of a second view angle of a blank pulling device for ceramic processing according to an embodiment of the present invention;

FIG. 4 is a top view of a device for pulling a preform for ceramic processing according to an embodiment of the present invention;

FIG. 5 is a schematic structural diagram of a magnetic driving mechanism according to an embodiment of the present invention;

FIG. 6 is a schematic three-dimensional structure of a raw material conveying mechanism according to an embodiment of the present invention;

FIG. 7 is a front view of a feedstock delivery mechanism provided in an embodiment of the present invention;

fig. 8 is a side view of a feedstock delivery mechanism provided in an embodiment of the present invention.

In the accompanying drawings: 1. a base; 2. a guide wheel; 3. a drive chain; 4. a magnetic base; 5. fixing the magnetic base; 6. a first bracket; 7. a second bracket; 8. a transmission square shaft; 9. a movable magnetic base; 10. a shaft sleeve; 11. an air pressure control assembly; 12. a hose; 13. a feeding cylinder; 14. a mounting bracket; 15. a first electromagnet; 16. a first fixed magnetic block; 17. a second electromagnet; 18. sliding magnetic blocks; 19. a feeding motor; 20. a guide cylinder; 21. a screw; 22. a screw sleeve; 23. a guide rail; 24. positioning holes; 25. a mandrel; 26. a rotating sleeve; 27. a slide bar; 28. a sliding sleeve; 29. a pushing plate; 30. a telescopic cylinder; 31. fixing the male die; 32. a core male die; 33. a spring; 34. and limiting the inhaul cable.

Detailed Description

The present invention will be described in further detail with reference to the drawings and examples, in order to make the objects, technical solutions and advantages of the present invention more apparent. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the invention.

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, a front view of a blank drawing device for ceramic processing according to an embodiment of the present invention includes:

the base 1, install two at least groups of guide pulleys 2 on the base 1, the guide pulleys 2 are connected through two sets of drive chains 3, fixedly provided with multiunit dabber 25 between two sets of drive chains 3, all be provided with a set of rotation seat between two adjacent dabber 25, the one end of rotation seat is rotated with dabber 25 through rotating cover 26 and is connected, fixedly provided with slide bar 27 on the rotation seat, the cover is equipped with sliding sleeve 28 on the slide bar 27, sliding sleeve 28 fixed mounting is on the dabber 25 that rotates seat and is close to rotation cover 26 one side, be provided with the mould fixed subassembly on the rotation seat, install magnetic drive mechanism on the base 1, magnetic drive mechanism is used for driving the mould rotation;

the raw material conveying mechanism is fixedly arranged on the base 1 and used for throwing raw materials into the die.

In this embodiment, the guide wheel 2 may be a sprocket, the driving chain 3 cooperates with the sprocket, at least one group of power motors is installed on the base 1, the power motors are used for driving the guide wheel 2 to rotate, when the power motors operate, the two groups of driving chains 3 will synchronously rotate, the two groups of driving chains 3 will drive the movement of the mandrel 25, when the blank is pulled, the raw material mud column for processing ceramics is placed into the raw material conveying mechanism, the raw material conveying mechanism is utilized to transport the raw material mud column, and cut into mud segments with preset lengths, the rotating base is provided with a die fixing assembly, based on different ceramic products, different dies are installed on the rotating base, the die fixing assembly is driven by utilizing the magnetic driving assembly, so that the die fixing assembly will drive the dies to rotate, when the dies move to the lower part of the raw material conveying mechanism, the cut mud segments are thrown downwards by the raw material conveying mechanism, so that the cut mud segments enter the dies, at the moment, the blank pulling operation is completed by utilizing the convex dies arranged on the raw material conveying mechanism to match with the dies, the blank pulling operation is enabled by the power motors, the next die moves to the lower part of the raw material conveying mechanism, and the continuous operation of the raw material segments is realized by throwing the raw material segments downwards.

As shown in fig. 1, fig. 2, fig. 3, fig. 4, fig. 6, fig. 7 and fig. 8, as a preferred embodiment of the present invention, the raw material conveying mechanism includes a second support 7 and a guide cylinder 20, the second support 7 is fixedly mounted on the base 1, a guide block is provided on a side wall of the guide cylinder 20, a guide groove is provided on the second support 7, the guide cylinder 20 is slidably connected with the second support 7 through a guide block and a guide groove, a guide rail 23 is provided on the guide cylinder 20, a set of push plate 29 is slidably provided on the guide rail 23, a set of screw sleeves 22 is fixedly connected to the push plate 29, a set of feed motor 19 is fixedly mounted on the second support 7, a screw 21 is mounted on a rotating shaft of the feed motor 19, the screw 21 is cooperatively connected with the screw sleeves 22, a set of mounting support 14 is fixedly mounted on the second support 7, a set of first electromagnets 15 is fixedly provided at an end of the mounting support 14, two sides of the mounting support 14 are fixedly provided with guide blocks, a set of guide block 18 is fixedly provided on two sides of the mounting support 14, a set of guide block is fixedly provided with a guide block 16, a set of guide block is fixedly connected with a magnetic block 13 is fixedly provided on the second support 13, and is fixedly provided with a set of guide cylinder 13, and is fixedly connected with a set of magnetic guide block 13, and is fixedly provided with a set of rotary drum 13.

In this embodiment, the raw material conveying mechanism is used for transporting materials, cutting materials and throwing materials, when in use, the mud column is directly placed in the guide cylinder 20, at this time, the feeding motor 19 is started to drive the screw 21 to rotate, so that the screw sleeve 22 drives the pushing plate 29 to move to the far end, so that the mud column is convenient to throw in, after the mud column is thrown in, the feeding motor 19 is started, so that the pushing plate 29 can push the mud column to move towards the feeding cylinder 13, before the mud column is cut, the first electromagnet 15 is electrified, so that the first electromagnet 15 is adsorbed with the first fixed magnetic block 16, at this time, the feeding cylinder 13 is in a horizontal state, at this time, the axis of the feeding cylinder 13 and the guide cylinder 20 coincides, then under the pushing of the pushing plate 29, the mud column gradually enters into the feeding cylinder 13 from the guide cylinder 20, at this time, the second electromagnet 17 and the sliding magnetic block 18 are in a mutually repulsive state, then the sliding magnetic blocks 18 will be located at the bottommost end, at this time, the magnetic poles of the second electromagnet 17 are switched, so that the second electromagnet 17 and the sliding magnetic blocks 18 attract each other, then under the action of magnetic force, the two groups of sliding magnetic blocks 18 will rise along the guide rod, and the cutting cable arranged between the two groups of sliding magnetic blocks 18 will cut the mud column in the rising process, at this time, the mud section obtained by cutting is located in the feeding cylinder 13, the rest mud column is still located in the guiding cylinder 20, the feeding motor 19 is started, at this time, the screw 21 rotates reversely, so that the pushing plate 29 moves distally, when the pushing plate 29 moves to the end of the guiding cylinder 20, the guiding cylinder 20 is driven to move continuously for a distance, the guiding cylinder 20 slides relative to the second bracket 7, the guiding cylinder 20 and the feeding cylinder 13 are pulled apart, at this time, the first electromagnet 15 switches the magnetic poles, when the support arm is arranged, the connection part of the feeding cylinder 13 and the support arm is far away from the guide cylinder 20, so that the gravity center of the whole feeding cylinder 13 and the mud section is positioned at one side of the rotation center of the feeding cylinder 13 to drive the feeding cylinder 13 to turn over to enter a vertical state, the third electromagnet is used for adsorbing the second fixed magnetic block to ensure that the feeding cylinder 13 is in the vertical state, the end part of the feeding cylinder 13 is provided with an opening, and therefore the mud section falls into the female die under the action of dead weight, at the moment, the second electromagnet 17 can switch magnetic poles, the sliding magnetic block 18 moves to the lowest end along the guide rod, then the third electromagnet switches the magnetic poles, the first electromagnet 15 also switches the magnetic poles, and the feeding cylinder 13 returns to the horizontal state again to wait for the next material conveying operation; when the mud section falls into the female die, the mud section is subjected to blank pulling treatment by utilizing the male die assembly, so that the effect of automatic blank pulling is realized.

As shown in fig. 1 and 8, as a preferred embodiment of the present invention, the male die assembly includes a telescopic cylinder 30, a fixed male die 31 is detachably connected to a telescopic end of the telescopic cylinder 30, a cavity is provided at a core of the fixed male die 31, a core male die 32 is slidably provided in the cavity, the core male die 32 is connected to the fixed male die 31 through a spring 33, a through hole is provided at a top of the fixed male die 31, a limit cable 34 is provided in the through hole, one end of the limit cable 34 is fixedly connected to the core male die 32, and the other end of the limit cable 34 is fixedly connected to the second bracket 7.

In this embodiment, a water tank is disposed on the second support 7, water in the water tank is connected to the cavity of the fixed male die 31 through a pipe, the water gradually permeates downwards along the inner wall of the cavity to lubricate the male die, after the mud section falls into the female die, the mud section is driven to rotate by using a die fixing component disposed below, at this time, the fixed male die 31 is driven to move downwards by using the telescopic cylinder 30, at this time, the limit cable 34 is not completely straightened, so that it is in a loose state, under the action of the spring 33, the core male die 32 is lower than the fixed male die 31, so that the core male die 32 is firstly contacted with the mud section to perform blank drawing treatment on the mud section from the core, then, along with the extension of the telescopic cylinder 30, the limit cable 34 is in a stretched state, the core male die 32 gradually retracts into the fixed male die 31, so that the two form a whole, further blank drawing treatment on the mud section is completed, the female die is matched, then the telescopic cylinder 30 retracts, and the next mud section is switched, so that continuous operation is realized.

As shown in fig. 1, as a preferred embodiment of the present invention, the air pressure control assembly 11 is fixedly installed on the second bracket 7, and an opening is provided at an end of the feeding cylinder 13 away from the guiding cylinder 20, and the opening is communicated with the air pressure control assembly 11 through a hose 12.

In this embodiment, by setting the air pressure control assembly 11, when the guide cylinder 20 is not turned to the vertical state yet, the inside of the guide cylinder 20 is negative pressure, so that the mud section is prevented from sliding off from the inside of the guide cylinder 20 in advance, and when the guide cylinder 20 is in the vertical state, the inside of the guide cylinder 20 is positive pressure through the air pressure control assembly 11, so that the mud section is promoted to be discharged, and the mud section is prevented from being discharged from the guide cylinder smoothly due to excessive tackiness.

As shown in fig. 1 and 5, as a preferred embodiment of the present invention, the magnetic driving mechanism includes a first bracket 6 and a movable magnetic seat 9, the first bracket 6 is fixedly installed on the base 1, a rotating motor is fixedly installed on the base 1, a driving square shaft 8 is fixedly connected to an output shaft of the rotating motor, a shaft sleeve 10 is slidably provided on the driving square shaft 8, the movable magnetic seat 9 is fixedly installed on the shaft sleeve 10, a plurality of magnetic columns are fixedly provided on the movable magnetic seat 9, the mold fixing assembly includes a magnetic attraction base 4, the magnetic attraction base 4 is rotatably connected with the rotating seat, and a plurality of magnetic columns are installed at the bottom of the magnetic attraction base 4.

In this embodiment, when the female die needs to be controlled to rotate, the transmission chain 3 drives the rotating seat to move, so that the axes of the movable magnetic seat 9 and the magnetic attraction base 4 are coincident, at this time, because a plurality of magnetic columns are arranged on the movable magnetic seat 9 and the magnetic attraction base 4, the corresponding magnetic columns are mutually coupled, the movable magnetic seat 9 and the magnetic attraction base 4 do not generate a magnetic field, are magnetic materials and can be attracted by the magnetic columns, and then when the movable magnetic seat 9 is close to the magnetic attraction base 4, under the action of the magnetic columns, the shaft sleeve 10 drives the movable magnetic seat 9 to slide upwards, and at this time, the rotating motor drives the movable magnetic seat 9 to rotate, and can indirectly drive the magnetic attraction base 4 to rotate, so that the female die above can be driven to rotate.

As a preferred embodiment of the present invention, the magnetic base 4 is provided with a plurality of positioning holes 24.

As a preferred embodiment of the present invention, the bottom of the base 1 is provided with a moving assembly.

In this embodiment, the moving assembly is not shown in the drawing, the moving assembly includes four sets of universal wheels and brakes, the four sets of universal wheels are fixedly installed at the bottom of the base 1, the brakes are installed on the universal wheels, when the device needs to be moved, the brakes are unlocked, the device is driven to move by pushing the base 1, after position adjustment is completed, the universal wheels are locked by the brakes, so that the base 1 cannot move relative to the ground, and stability in the use process is ensured.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (6)

1. A green sheet pulling apparatus for ceramic processing, comprising:

the base (1), install two at least groups of guide pulleys (2) on base (1), guide pulleys (2) are connected through two sets of drive chains (3), fixedly provided with multiunit dabber (25) between two sets of drive chains (3), all be provided with a set of rotation seat between two adjacent dabber (25), the one end of rotation seat is rotated with dabber (25) through rotating cover (26) and is connected, the fixed slide bar (27) that is provided with on the rotation seat, the cover is equipped with sliding sleeve (28) on slide bar (27), sliding sleeve (28) fixed mounting is on dabber (25) that the rotation seat is close to rotation cover (26) one side, be provided with mould fixed subassembly on the rotation seat, install magnetic force actuating mechanism on base (1), magnetic force actuating mechanism is used for driving the mould rotatory;

the raw material conveying mechanism is fixedly arranged on the base (1) and used for throwing raw materials into the die;

the raw material conveying mechanism comprises a second bracket (7) and a guide cylinder (20), wherein the second bracket (7) is fixedly arranged on a base (1), a guide block is arranged on the side wall of the guide cylinder (20), a guide groove is formed in the second bracket (7), the guide cylinder (20) is in sliding connection with the second bracket (7) through the guide block and the guide groove, a guide rail (23) is arranged on the guide cylinder (20), a group of pushing plates (29) are arranged on the guide rail (23) in a sliding manner, a group of screw rod sleeves (22) are fixedly connected to the pushing plates (29), a group of feeding motors (19) are fixedly arranged on the second bracket (7), a screw rod (21) is arranged on a rotating shaft of each feeding motor (19), the screw rod (21) is in matched connection with the screw rod sleeve (22), a group of mounting brackets (14) are fixedly arranged on the second bracket (7), a group of first electromagnets (15) are fixedly arranged at the end parts of the mounting brackets (14), a group of magnets (18) are fixedly arranged on the two sides of the mounting brackets, a group of magnets (18) are fixedly connected to the two sides of the two groups of magnets (13) through the guide rods (18), the feeding cylinder (13) and the guide cylinder (20) are coaxially arranged, a first fixed magnetic block (16) and a second fixed magnetic block are fixedly arranged on the feeding cylinder (13), the first fixed magnetic block (16) and the second fixed magnetic block are respectively located at two sides of a rotating shaft of the feeding cylinder (13), a third electromagnet is fixedly arranged on the mounting bracket (14), and a male die assembly is fixedly arranged on the second bracket (7).

2. The blank pulling device for ceramic processing according to claim 1, wherein the male die assembly comprises a telescopic cylinder (30), a fixed male die (31) is detachably connected to a telescopic end of the telescopic cylinder (30), a cavity is formed in a core of the fixed male die (31), a core male die (32) is slidably arranged in the cavity, the core male die (32) is connected with the fixed male die (31) through a spring (33), a through hole is formed in the top of the fixed male die (31), a limiting stay rope (34) is arranged in the through hole, one end of the limiting stay rope (34) is fixedly connected with the core male die (32), and the other end of the limiting stay rope (34) is fixedly connected with the second support (7).

3. The ceramic processing blank pulling device according to claim 1, wherein the second bracket (7) is fixedly provided with a pneumatic control assembly (11), one end of the feeding barrel (13) far away from the guide barrel (20) is provided with an opening, and the opening is communicated with the pneumatic control assembly (11) through a hose (12).

4. The blank pulling device for ceramic processing according to claim 1, wherein the magnetic driving mechanism comprises a first bracket (6) and a movable magnetic seat (9), the first bracket (6) is fixedly installed on the base (1), a rotating motor is fixedly installed on the base (1), a transmission square shaft (8) is fixedly connected to an output shaft of the rotating motor, a shaft sleeve (10) is slidably arranged on the transmission square shaft (8), the movable magnetic seat (9) is fixedly installed on the shaft sleeve (10), a plurality of magnetic columns are fixedly arranged on the movable magnetic seat (9), the die fixing assembly comprises a magnetic attraction base (4), the magnetic attraction base (4) is rotationally connected with the rotating seat, and a plurality of magnetic columns are installed at the bottom of the magnetic attraction base (4).

5. The ceramic processing blank pulling device according to claim 4, wherein the magnetic base (4) is provided with a plurality of positioning holes (24).

6. The ceramic processing blank pulling device according to claim 4, wherein the moving assembly is installed at the bottom of the base (1), the moving assembly comprises four groups of universal wheels and a brake, the four groups of universal wheels are fixedly installed at the bottom of the base (1), and the brake is installed on the universal wheels.