CN112024173B - Pottery tile is japanning equipment in batches - Google Patents

Abstract

The invention relates to a painting device, in particular to a ceramic tile batch painting device. The technical problem is how to design a ceramic tile batch painting device which can replace manual work to paint ceramic tiles, is labor-saving, is convenient to operate and has high working efficiency. A pottery tile batch lacquering device comprises: the device comprises a bottom plate, wherein four brackets are fixedly connected to one side of the bottom plate at intervals; the pivot, the connection of pivot rotary type is in keeping away from two per side of bottom plate between support one side. According to the invention, a proper amount of ceramic tiles are placed in the mounting frame, the servo motor is started to rotate forwards, so that the mounting frame can drive the ceramic tiles to rotate forwards to the position below the paint spraying component above to be sprayed with paint, and can also drive the ceramic tiles to rotate forwards to the position below the paint spraying component to be sprayed with paint continuously, the ceramic tiles can be sprayed with paint comprehensively, manual paint spraying for the ceramic tiles is not needed, the labor is saved, the operation is convenient, and the working efficiency is high.

Description

Pottery tile is japanning equipment in batches

Technical Field

The invention relates to a painting device, in particular to a ceramic tile batch painting device.

Background

The pottery tile is made up by using clay as raw material and adding pulverized sedimentary shale component and high-temp. calcining. The application of the glazed tiles is recorded in the West of China, and the glazed tiles with rich colors and bright appearance are manufactured in recent times. The ceramic tile can make a crisp sound when being beaten by hands, the surface is rough when the ceramic tile is produced, and the ceramic tile is painted to make the ceramic tile more beautiful.

At present, most of manual work is carried out the japanning to the pottery piece, and at first people need put the pottery tile neatly, and the reuse is held the continuous removal of the instrument of spraying paint and is spouted paint in pottery tile one side, and the time is one long, and is more hard, and when needing to spray paint to pottery tile opposite side, needs the manual upset with the pottery tile of people, and is more troublesome, leads to work efficiency to hang down.

Therefore, a ceramic tile batch painting device which can replace manual work to paint ceramic tiles, is labor-saving, convenient to operate and high in working efficiency is particularly needed to solve the problems in the prior art.

Disclosure of Invention

In order to overcome the defects that the ceramic tile needs to be continuously moved by holding a paint spraying tool by hands to spray paint, the labor is more wasted, the ceramic tile needs to be manually turned over by hands to enable the other side of the ceramic tile to be sprayed with paint, the operation is more troublesome, and the working efficiency is low, the technical problem of the invention is that: the ceramic tile batch painting equipment can replace manual work to paint ceramic tiles, is labor-saving, and is convenient to operate and high in working efficiency.

A pottery tile batch lacquering device comprises: the device comprises a bottom plate, wherein four brackets are fixedly connected to one side of the bottom plate at intervals; the rotating shaft is rotatably connected between one side of the two brackets at each side far away from the bottom plate; the chain wheel is fixedly sleeved on one side of the rotating shaft close to the bracket; a chain wound between two of the sprockets on each side; the supporting frame is fixedly connected between the rear parts of the left side and the right side of the top of the bottom plate, and paint spraying components are fixedly connected with the top and the middle bottom of the supporting frame at uniform intervals; the servo motor is arranged at the edge of one side of the bottom plate far away from the supporting frame; the number of the contact frames is two, one of the contact frames is fixedly connected between one side of one of the supports far away from the servo motor and one side of the support frame facing the chain and close to the bottom plate, and the other contact frame is fixedly connected between one side of the other support far away from the servo motor and one side of the support frame facing the chain and close to the bottom plate; the touch switch is fixedly connected to one side of the contact frame, which faces the chain and is close to the support frame; the placing assembly is arranged on the chain and matched with the touch switch; and the moving assembly is arranged between the placing assembly and one end of the rotating shaft close to the servo motor, and is fixedly connected with the end part of an output shaft of the servo motor and used for driving the ceramic tile to move.

Further illustratively, the placement module comprises: the mounting blocks are fixedly connected to the outer circumferential direction of the chain at intervals and are in contact fit with the moving assembly; the guide sleeve is fixedly connected to one side of the mounting block facing the contact frame; the movable block is slidably connected in the guide sleeve in a penetrating manner, is matched with the moving assembly and is also matched with the touch switch; the first spring is sleeved on the movable block, one end of the first spring is fixedly connected with the end part of the movable block close to the contact frame, and the other end of the first spring is fixedly connected with one side of the guide sleeve facing the contact frame.

Further, the moving assembly comprises: the fixed block is arranged on the inner side of the outer side surface of the mounting block; the mounting frame is fixedly connected between one sides of the fixed blocks on the two sides; the rotating plates are symmetrically and rotatably connected to two sides of the mounting frame; the torsion spring is connected to the hinged position of the rotating plate and the mounting frame; the number of the clamping rods is four, two of the clamping rods are slidably placed at the edge positions of one side of the two rotating plates far away from the chain wheel, and the other two clamping rods are slidably placed at the edge positions of one side of the two rotating plates close to the chain wheel; the first sliding blocks are four in number, two of the first sliding blocks are slidably placed in the middle of the edge of one side of the mounting frame far away from the chain wheel, and the other two first sliding blocks are slidably placed in the middle of the edge of one side of the mounting frame facing the rotating shaft and matched with the clamping rods; the pushing block is arranged on one side of the mounting frame close to the first sliding block in a sliding mode, and one end of the pushing block is in contact fit with the first sliding block; the contact rod is fixedly connected to one side of the push block, which faces the contact frame and is far away from the mounting frame; the fourth spring is connected between one side of the push block, which is far away from the contact frame, and one side of the mounting frame; the third spring is connected between one side of the first sliding block far away from the push block and the inside of the mounting frame; the number of the transmission wheels is two, one of the transmission wheels is fixedly sleeved at the end part of an output shaft of the servo motor, and the other transmission wheel is fixedly sleeved at one end of the rotating shaft close to the servo motor; the belt is wound between the two driving wheels; the second spring is connected between the inner part of the rotating plate and the end part of the clamping rod facing the mounting frame; the wedge-shaped frame is fixedly connected to one side, far away from the servo motor, in the contact frame close to the bottom plate and matched with the contact rod far away from the servo motor; and the placing plate is fixedly connected to one side of the bottom plate close to the contact frame.

Further, the method further comprises the following steps: the clip block is fixedly connected to one side of the mounting frame far away from the push block; the second sliding block is slidably placed in the clip block; the pull rope is symmetrically and fixedly connected to one side, facing the second sliding block, of the mounting frame, and the tail end of the pull rope penetrates through the mounting frame and is fixedly connected with one side, facing the rotating plate, of the push block; the fifth spring is connected between one side, far away from the chain, of the second sliding block and one side, outside the mounting frame, of the mounting frame; the wedge-shaped rod is fixedly connected to one side of the contact frame far away from the servo motor, is close to the chain, and is matched with the second sliding block.

Further, the method further comprises the following steps: the buffer pad, the buffer pad rigid coupling in keep away from the bottom plate place board one side.

The invention has the following advantages:

1. through putting into the installing frame with appropriate amount of ceramic tile, start servo motor corotation, can make the installing frame drive ceramic tile corotation to the subassembly below that sprays paint of top by spraying paint, and can also drive ceramic tile and continue corotation to the position that the subassembly sprays paint of below continues to be sprayed paint, ceramic tile just also is sprayed paint comprehensively, need not the people and sprays paint to ceramic tile manually, and is more laborsaving, and the operation is still convenient, and work efficiency is high.

2. Through the effect of second slider and stay cord, can spout when one side at the ceramic tile, it is spacing to close the ceramic tile with the outside commentaries on classics board, so, need not the manual outside commentaries on classics board of closing of operating personnel, convenient and fast.

3. Through the effect of blotter, can cushion the installing frame that drops, avoid the installing frame violent with place the board contact and lead to the earthenware tile to rock the breakage.

Drawings

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

FIG. 2 is a schematic diagram of a first partial structure according to the present invention.

FIG. 3 is a second partial structure diagram of the present invention.

Fig. 4 is an enlarged schematic view of part a of the present invention.

FIG. 5 is a third partial structural diagram of the present invention.

Fig. 6 is a schematic perspective view of another embodiment of the present invention.

FIG. 7 is a schematic diagram of a fourth partial structure of the present invention.

In the above drawings: 1: bottom plate, 101: servo motor, 2: a bracket, 3: rotating shaft, 4: sprocket, 5: chain, 6: support frame, 61: contact frame, 7: placement of components, 701: mounting block, 702: movable block, 703: first spring, 704: guide sleeve, 8: moving assembly, 801: installation frame, 802: rotating plate, 803: jamming rod, 804: second spring, 805: torsion spring, 806: first slider, 807: third spring, 808: push block, 809: fourth spring, 810: contact lever, 811: wedge frame, 812: fixed block, 813: a transmission wheel, 814: a belt, 815: place board, 9: paint spraying assembly, 10: touch switch, 11: clip block, 12: second slider, 13: a pull cord, 14: wedge rod, 15: fifth spring, 16: a cushion pad.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention will be described in further detail with reference to the accompanying drawings. It is to be understood that the terms "upper", "lower", "left", "right", "front", "back", "inner", "outer", and the like as used herein, whether or not specifically defined herein, are used in a generic and descriptive sense only and not for purposes of limitation.

Example 1

A pottery tile batch painting device is shown in figures 1, 2, 3, 4, 6 and 7 and comprises a bottom plate 1, a servo motor 101, supports 2, a rotating shaft 3, chain wheels 4, chains 5, a support frame 6, a contact frame 61, a placing component 7, a moving component 8, a paint spraying component 9 and a touch switch 10, wherein the front side and the rear side of the top of the bottom plate 1 are fixedly connected with the two supports 2, the two supports 2 are arranged in a left-right mode, the rotating shaft 3 is rotatably connected between the upper parts of the two supports 2 at the front side and the upper parts of the two supports 2 at the rear side, the chain wheels 4 are fixedly connected at the left side and the right side of the rotating shaft 3, the chains 5 are wound between the front chain wheel 4 at the left side and the rear chain wheel 4 at the right side, the support frame 6 is fixedly connected between the rear parts at the left side and the right side of the top of the bottom plate 1, the paint spraying component 9 is fixedly connected between the top part and the middle bottom of the support frame 6 at even intervals, the left side and the lower part of the support frame 6 are fixedly connected with the contact frame 61, both sides front portion all is fixed connected with touch switch 10 about left side contact frame 61 right flank, and both sides front portion also all is fixed connected with touch switch 10 about right side contact frame 61 left flank, is equipped with on chain 5 and places subassembly 7, and servo motor 101 is installed to 1 top front side left part of bottom plate, and servo motor 101 and the left and right sides are placed and are equipped with between subassembly 7 and the front side pivot 3 and remove subassembly 8.

The placing assembly 7 comprises a mounting block 701, a movable block 702, a first spring 703 and a guide sleeve 704, six mounting blocks 701 are fixedly connected to the chain 5 at uniform intervals, the inner side of the outer side face of each mounting block 701 is in contact fit with the moving assembly 8, the outer side faces of the mounting blocks 701 on the left side and the right side are fixedly connected with the guide sleeve 704, the movable block 702 is arranged in the guide sleeve 704 in a sliding mode, the movable block 702 is in contact fit with the mounting blocks 701, and the first spring 703 is wound between the outer end of the movable block 702 and the outer side face of the guide sleeve 704.

The moving assembly 8 comprises an installation frame 801, a rotating plate 802, a clamping rod 803, a second spring 804, a torsion spring 805, a first sliding block 806, a third spring 807, a pushing block 808, a fourth spring 809, a contact rod 810, a wedge-shaped frame 811, a fixed block 812, a driving wheel 813, a belt 814 and a placing plate 815, wherein the fixed block 812 is placed on the inner side of the outer side surface of the installation block 701, the installation frame 801 is fixedly connected between the inner ends of each two corresponding fixed blocks 812 on the left side and the right side, the rotating plate 802 is rotatably connected with the top and the front and back sides of the installation frame 801, the torsion spring 805 is connected with the hinged part of the rotating plate 802 and the installation frame 801, the clamping rod 803 is slidably placed on the left side of the outer end of the outer rotating plate 802 and the right side of the outer end of the inner rotating plate 802, the second spring 804 is connected between the bottom end of the rotating plate 802, the first sliding block 806 which is symmetrically placed on the middle part of the left side and the right side of the bottom of the installation frame 801 and is slidably matched with the clamping rod 803, a third spring 807 is connected between the inner side surface of the first sliding block 806 and the inside of the installation frame 801, a pushing block 808 is arranged between the middle of the left side of the top of the installation frame 801 and the middle of the right side of the bottom in a sliding manner, a fourth spring 809 is connected between the inner side surface of the pushing block 808 and the outer side surface of the installation frame 801, a wedge-shaped frame 811 is fixedly connected to the rear side of the bottom in the right contact frame 61, the inner end of the pushing block 808 is in contact fit with the first sliding block 806, a contact rod 810 is fixedly connected to the position, far away from the first sliding block 806, of the outer side surface of the pushing block 808, the wedge-shaped frame 811 is matched with the right contact rod 810, driving wheels 813 are fixedly connected to the left end of the front rotating shaft 3 and the end of the output shaft of the servo motor 101, a belt 814 is wound between the two driving wheels, and a placing plate 815 is fixedly connected to the middle of the front side of the top of the bottom plate 1.

Firstly, an operator starts the servo motor 101 to rotate positively, the servo motor 101 rotates positively to drive the moving component 8 to rotate positively, the moving component 8 rotates positively to drive the front side rotating shaft 3 to rotate positively, the front side rotating shaft 3 rotates positively to drive the front side chain wheel 4 to rotate positively, the front side chain wheel 4 rotates positively to drive the chain 5 to rotate positively, the chain 5 rotates positively to drive the placing component 7 to rotate positively, the placing component 7 rotates positively to contact with the contact frame 61 to operate, the placing component 7 operates to limit the moving component 8, at the moment, a proper amount of ceramic tiles are placed in the moving component 8 above the front side, the moving component 8 rotates positively to drive the ceramic tiles to rotate positively, when the moving component 8 rotates positively to drive the ceramic tiles to move to the position under the paint spraying component 9, the placing component 7 contacts with the upper touch switch 10, when the upper paint spraying component 9 is started, the upper paint spraying component 9 sprays paint on one side of the ceramic tile, the ceramic tile is driven to rotate forwards continuously along with the moving component 8 rotating forwards continuously, and then the placing component 7 rotates forwards continuously to be separated from the upper touch switch 10, the upper paint spraying component 9 stops spraying paint, the operation is repeated, when the ceramic tile rotates forwards to the position below the upper paint spraying component 9, the moving component 8 is contacted with the upper touch switch 10 to enable the upper paint spraying component 9 to spray the paint on the ceramic tile, when the moving component 8 rotates forwards continuously to the upper rear side, an operator pushes the moving component 8 to close to block the ceramic tile, when the moving component 8 rotates forwards to the lower side, one side of the ceramic tile which is painted is contacted with the mounting frame 801, the operator presses the moving component 8 to open and not block the side of the ceramic tile which is not painted, when the placing component 7 rotates forwards continuously to be contacted with the lower touch switch 10, the lower paint spraying component 9 is started, meanwhile, the ceramic tile is also positively rotated to the lower part of the paint spraying assembly 9, the lower part of the paint spraying assembly 9 is started to spray paint on the ceramic tile, the ceramic tile is also completely sprayed, when the placing assembly 7 is continuously positively rotated to be separated from the lower part touch switch 10, the lower part of the paint spraying assembly 9 is closed, meanwhile, the placing assembly 7 is also separated from the contact frame 61, the placing assembly 7 does not block the placing part of the moving assembly 8, the placing part of the moving assembly 8 drops downwards, an operator can take up the placing part of the moving assembly 8 to take down the ceramic tile which is sprayed with paint, and then the placing assembly 7 of the moving assembly 8 is placed back into the placing assembly 7 above the front side. When all the ceramic tiles are painted, the servo motor 101 is turned off, the moving assembly 8 stops rotating forwards, and the placing assembly 7 also stops rotating forwards.

When the servo motor 101 is started, the chain 5 rotates positively to drive the mounting block 701 to rotate positively, the mounting block 701 rotates positively to drive the placing part of the moving assembly 8 to rotate positively, the ceramic tile rotates positively, meanwhile, the mounting block 701 also drives the guide sleeve 704 to rotate positively, the guide sleeve 704 rotates positively to drive the moving block 702 to rotate positively, when the moving block 702 rotates positively to contact with the contact frame 61, the contact frame 61 enables the moving block 702 to move inwards, the first spring 703 is compressed, and the moving block 702 moves inwards to block the placing part of the moving assembly 8 to limit the placing part. When the ceramic tile is completely painted, the movable block 702 continues to rotate forwards and is separated from the contact frame 61, and the movable block 702 moves outwards and returns to the original position without stopping the placing part of the moving assembly 8 due to the action of the first spring 703. Thus, the ceramic tile can be prevented from being completely painted due to the fact that the placing part of the moving assembly 8 falls down when rotating forwards to the lower side. When the servo motor 101 is turned off, the chain 5 stops driving the mounting block 701 to rotate forward, and the movable block 702 stops rotating forward.

Initially, the right clamping bar 803 is clamped into the right side of the bottom of the installation frame 801, the installation frame 801 is blocked by the inner side rotating plate 802, and the inner side torsion spring 805 is in a compressed state, when the servo motor 101 is started, the servo motor 101 rotates forward to drive the lower transmission wheel 813 to rotate forward, the lower transmission wheel 813 rotates forward to drive the upper transmission wheel 813 to rotate forward through the belt 814, the upper transmission wheel 813 rotates forward to drive the front side rotating shaft 3 to rotate forward, so that the chain 5 drives the installation block 701 to rotate forward, the installation block 701 rotates forward to drive the fixed block 812 to rotate forward, the fixed block 812 rotates forward to drive the installation frame 801 to rotate forward, the movable block 702 moves inward to block and limit the fixed block 812, the installation frame 801 is limited, at this time, an operator can place a proper amount of ceramic tiles into the installation frame 801 on the front side above, the installation frame 801 rotates forward to drive the ceramic tiles to rotate forward to the position below the paint spraying assembly 9 above, the paint spraying assembly 9 sprays paint on one side of the ceramic tiles, when the mounting frame 801 rotates forward to the upper part of the rear side continuously, an operator pulls the outer rotating plate 802 to swing inward, the torsion spring 805 is compressed, the outer rotating plate 802 swings inward to drive the corresponding clamping rod 803 to swing inward, and further the outer rotating plate 802 swings inward to close, due to the action of the second spring 804, the clamping rod 803 is clamped into the mounting frame 801 to be contacted with the left first sliding block 806, the clamping rod 803 is matched with the mounting frame 801 to fix the outer rotating plate 802, when the mounting frame 801 rotates forward to drive the ceramic tile to rotate downward continuously, the right contact rod 810 is contacted with the wedge bracket 811, the wedge bracket 811 enables the right contact rod 810 to move inward, the right fourth spring 809 is compressed, the right contact rod 810 moves inward to drive the right push block 808 to move inward, the right push block 808 moves inward to drive the first sliding block 806 to move outward, the third spring 807 is compressed, the first sliding block 806 moves outward to drive the right clamping rod 803 to move outward, when the right second spring 804 is compressed and the right clamping rod 803 moves outwards to be separated from the mounting frame 801, the inner rotating plate 802 swings outwards to open and does not block ceramic tiles under the action of the inner torsion spring 805, the right contact rod 810 continues to rotate forwards to separate from the wedge-shaped frame 811, the right contact rod 810 moves outwards to reset under the action of the right fourth spring 809, the right first slider 806 moves inwards to reset under the action of the right third spring 807, and the mounting frame 801 continues to rotate forwards to drive the ceramic tiles to rotate forwards to the position of the lower paint spraying assembly 9 to be painted. When the mounting frame 801 continues to rotate forwards, the movable block 702 rotates forwards to be separated from the contact frame 61 and reset, the fixed block 812 is not blocked by the movable block 702, the mounting frame 801 falls downwards onto the placing plate 815, and an operator can take down the mounting frame 801 to process the painted ceramic tiles.

Example 2

On the basis of the embodiment 1, as shown in fig. 3, 4 and 7, the device further comprises a swage block 11 and a second slide block 12, stay cord 13, wedge bar 14 and fifth spring 15, installing frame 801 bottom left side and top right side all the rigid coupling have back type piece 11, the back type piece 11 internal sliding formula that is equipped with second slider 12, be connected with fifth spring 15 between second slider 12 medial surface and the installing frame 801 lateral surface, 6 trailing flank middle part left sides of support frame rigid coupling have wedge bar 14, wedge bar 14 is located left side chain 5 right sides, wedge bar 14 and the cooperation of left side second slider 12, the top of left side second slider 12 and the bottom of right side second slider 12 all the symmetry formula be connected with stay cord 13, 13 tail ends of left side stay cord run through installing frame 801 left side and outside commentaries on classics board 802 medial surface lower part left side fixed connection, 13 tail ends of right side stay cord run through installing frame 801 right side and inboard commentaries on classics board 802 upper portion right side fixed connection.

When the servo motor 101 is started, the mounting frame 801 further drives the shape-returning block 11 to rotate positively, the shape-returning block 11 rotates positively to drive the second sliding block 12 to rotate positively, when the left-side second sliding block 12 rotates positively to be in contact with the wedge-shaped rod 14, the wedge-shaped rod 14 enables the left-side second sliding block 12 to move inwards, the fifth spring 15 stretches, the left-side second sliding block 12 moves inwards to drive the outer-side rotating plate 802 to swing inwards to be closed through the pull rope 13, and the outer-side rotating plate 802 is closed to block the ceramic tile. When the outer rotating plate 802 swings outwards to reset, the rotating plate 802 swings outwards and drives the left second sliding block 12 to move outwards through the left pulling rope 13 to reset, and the fifth spring 15 also resets. Therefore, the outer rotating plate 802 does not need to be pulled by an operator to swing inwards to be closed, and the operation is convenient and fast.

As shown in fig. 1, the device further comprises a cushion 16, and the cushion 16 is fixed on the top of the placing plate 815.

When the installation frame 801 falls down, the installation frame 801 contacts with the cushion pad 16, and the cushion pad 16 cushions the installation frame 801, so that the pottery tile can be prevented from shaking and breaking due to the fact that the installation frame 801 is violently contacted with the placing plate 815.

It should be understood that the above description is for exemplary purposes only and is not meant to limit the present invention. Those skilled in the art will appreciate that variations of the present invention are intended to be included within the scope of the claims herein.

Claims (3)

1. The utility model provides a pottery tile is japanning equipment in batches, characterized by, including:

the device comprises a bottom plate (1), wherein four brackets (2) are fixedly connected to one side of the bottom plate (1) at intervals;

the rotating shaft (3) is rotatably connected between one sides of the two brackets (2) far away from each side of the bottom plate (1);

the chain wheel (4) is fixedly sleeved on one side of the rotating shaft (3) close to the support (2);

a chain (5), said chain (5) being wound between two of said sprockets (4) on each side;

the supporting frame (6) is fixedly connected between the rear parts of the left side and the right side of the top of the bottom plate (1), and the spray painting assemblies (9) are fixedly connected with the inner top and the middle bottom of the supporting frame (6) at uniform intervals;

the servo motor (101), the servo motor (101) is installed at the edge position of one side of the bottom plate (1) far away from the supporting frame (6);

the number of the contact frames (61) is two, one of the contact frames (61) is fixedly connected between one side of one of the supports (2) far away from the servo motor (101) and one side of the support frame (6) facing the chain (5) and close to the bottom plate (1), and the other one of the contact frames (61) is fixedly connected between one side of the other support frame (2) far away from the servo motor (101) and one side of the support frame (6) facing the chain (5) and close to the bottom plate (1);

the touch switch (10), the touch switch (10) is fixedly connected to one side of the contact frame (61) which faces the chain (5) and is close to the support frame (6);

the placing assembly (7) is arranged on the chain (5) and is matched with the touch switch (10);

the moving assembly (8) is arranged between the placing assembly (7) and one end of the rotating shaft (3) close to the servo motor (101), and is also fixedly connected with the end part of an output shaft of the servo motor (101) and used for driving the ceramic tile to move;

the placing component (7) comprises:

the mounting blocks (701) are fixedly connected to the outer circumferential direction of the chain (5) at intervals and are in contact fit with the moving assembly (8);

a guide sleeve (704), wherein the guide sleeve (704) is fixedly connected to one side of the mounting block (701) facing the contact frame (61);

the movable block (702), the movable block (702) is slidably inserted into the guide sleeve (704), and is matched with the moving assembly (8), and the movable block (702) is also matched with the touch switch (10);

the first spring (703) is sleeved on the movable block (702), one end of the first spring (703) is fixedly connected with the end part of the movable block (702) close to the contact frame (61), and the other end of the first spring (703) is fixedly connected with one side of the guide sleeve (704) facing the contact frame (61);

the moving assembly (8) comprises:

the fixed block (812) is arranged on the inner side of the outer side surface of the mounting block (701);

the mounting frame (801), the mounting frame (801) is fixedly connected between one sides of the fixing blocks (812) at two sides;

the rotating plates (802), the rotating plates (802) are symmetrically and rotatably connected to two sides of the mounting frame (801);

a torsion spring (805), wherein the torsion spring (805) is connected to the hinge joint of the rotating plate (802) and the mounting frame (801);

the number of the clamping rods (803) is four, two of the clamping rods (803) are slidably placed at the edge positions of one side of the two rotating plates (802) far away from the chain wheel (4), and the other two clamping rods are slidably placed at the edge positions of one side of the two rotating plates (802) close to the chain wheel (4);

the number of the first sliding blocks (806) is four, two of the first sliding blocks (806) are slidably placed in the middle of one side edge of the mounting frame (801) far away from the chain wheel (4), and the other two of the first sliding blocks (806) are slidably placed in the middle of one side edge of the mounting frame (801) facing the rotating shaft (3) and are matched with the clamping rods (803);

the pushing block (808) is slidably placed on one side of the mounting frame (801) close to the first sliding block (806), and one end of the pushing block (808) is in contact fit with the first sliding block (806);

the contact rod (810), the contact rod (810) is fixedly connected to one side of the push block (808) which faces the contact frame (61) and is far away from the installation frame (801);

a fourth spring (809), wherein the fourth spring (809) is connected between the side of the push block (808) far away from the contact frame (61) and the side of the mounting frame (801);

a third spring (807), wherein the third spring (807) is connected between the side of the first sliding block (806) far away from the push block (808) and the inside of the mounting frame (801);

the number of the transmission wheels (813) is two, one of the transmission wheels (813) is fixedly sleeved at the end part of an output shaft of the servo motor (101), and the other transmission wheel is fixedly sleeved at one end of the rotating shaft (3) close to the servo motor (101);

a belt (814), said belt (814) being wound between two of said transmission wheels (813);

a second spring (804), wherein the second spring (804) is connected between the inner part of the rotating plate (802) and the end part of the clamping rod (803) facing the mounting frame (801);

the wedge-shaped frame (811) is fixedly connected to one inner side of the contact frame (61) which is far away from the servo motor (101) and close to the bottom plate (1), and is matched with the contact rod (810) which is far away from the servo motor (101);

a placing plate (815), wherein the placing plate (815) is fixedly connected to one side of the bottom plate (1) close to the contact frame (61).

2. The apparatus of claim 1, further comprising:

the die-forging block (11), the die-forging block (11) is fixedly connected to one side of the installation frame (801) far away from the push block (808);

the second sliding block (12), the second sliding block (12) is slidably placed in the die block (11);

the pull rope (13) is symmetrically and fixedly connected to one side, facing the second sliding block (12), of the mounting frame (801), and the tail end of the pull rope (13) penetrates through the mounting frame (801) and is fixedly connected with one side, facing the rotating plate (802), of the push block (808);

the fifth spring (15), the said fifth spring (15) is connected to and kept away from the side of the said second slide block (12) of the said chain (5) and outside one side of the said mounting frame (801);

a wedge rod (14), wherein the wedge rod (14) is fixedly connected to one side of the contact frame (61) far away from the servo motor (101) and close to the chain (5), and the wedge rod (14) is matched with the second sliding block (12).

3. A ceramic tile batch painting apparatus as claimed in claim 2, further comprising:

the buffer pad (16), the buffer pad (16) is fixedly connected to the side of the placing plate (815) far away from the bottom plate (1).

Images