CN111975954B - Teapot glazing device - Google Patents

Abstract

The invention relates to a glazing device, in particular to a teapot glazing device. The technical problem to be solved is to provide a teapot glazing device which can automatically plug a spout, glazes a teapot, reduces manual operation and can realize automatic replacement of the teapot. The technical scheme of the invention is as follows: a teapot glazing device comprises: the device comprises a base, wherein first supporting columns are uniformly arranged on the base, and a disc is arranged at the tops of the first supporting columns; the glaze barrel is placed on the base, the water barrel is placed on the base on the rear side of the glaze barrel, the middle of the base is provided with a rotating mechanism, and the top and the bottom of the disc are provided with a pressing mechanism. According to the teapot, the rotating mechanism is beneficial to manually moving the position of the teapot, the teapot can conveniently perform glazing work, the teapot can move up and down through the pressing mechanism, the teapot can be immersed in the glaze box and the water tank, the teapot can be driven to intermittently rotate through the leaf cylinder and the poking piece, a main shaft does not need to be manually rotated, and manual operation is reduced.

Description

Teapot glazing device

Technical Field

The invention relates to a glazing device, in particular to a teapot glazing device.

Background

At present, most teapots are when just making, all are the primary color after the clay baking, in order to make the teapot seem more pleasing to the eye, protect the teapot surface simultaneously, can carry out the glazing to the teapot usually, during the glazing, the workman need put into the glaze bucket with the teapot back-off, and make the bottom of teapot not soaked in the glaze, at the in-process of glazing, the workman still need plug up the hu zui, make the glaze not flow in the inside of teapot, after the glazing, the manual work need put the teapot and soak in the clear water, prevent that the glaze from piling up together, after having soaked the clear water, the glazing work of teapot just calculates the completion, the manual work puts the teapot of glazing aside, wait for the glaze to air-dry, afterwards, the manual work takes next teapot of treating the glaze again.

Above-mentioned mode of glazing exists and needs the manual work to stop up the hu zui, immerses the teapot and carries out the glazing in glaze case and the water tank, needs the artifical shortcoming of changing the teapot repeatedly simultaneously, designs one kind and need not the manual work to stop up the hu zui, carries out the glazing to the teapot automatically to can realize the automatic teapot glazing device of changing of teapot.

Disclosure of Invention

Need the manual work to plug up the hu zui in overcoming artifical glazing's mode, dip the teapot and carry out the glazing with the water tank to need change the shortcoming of teapot repeatedly, the technical problem that solves is: the teapot glazing device can automatically plug the spout, glazes the teapot, reduces manual operation and can realize automatic replacement of the teapot.

The technical scheme of the invention is as follows: a teapot glazing device comprises:

the device comprises a base, wherein first supporting columns are uniformly arranged on the base, and a disc is arranged at the tops of the first supporting columns;

the glaze barrel is placed on the base, the water barrel is placed on the base on the rear side of the glaze barrel, the middle of the base is provided with a rotating mechanism, and the top and the bottom of the disc are provided with a pressing mechanism.

As a further preferable aspect, the rotation mechanism includes:

the second support columns are uniformly arranged on the base, the top of each second support column is connected with a first guide rail piece, the bottom of each disc is uniformly provided with a third support column, the bottom of each third support column is connected with a second guide rail piece, and the second guide rail pieces are positioned right above the first guide rail pieces;

the bottom of the disc is uniformly connected with a fourth support column, the bottom of the fourth support column is provided with a third guide rail piece, and the second guide rail piece is positioned inside the third guide rail piece;

the bottom of the disc is uniformly provided with fifth supporting columns, the bottom of each fifth supporting column is provided with a fourth guide rail piece, and the fourth guide rail piece is positioned right below the third guide rail piece;

the main shaft is rotatably arranged in the center of the base, a round block is arranged in the middle of the main shaft, connecting rods are uniformly arranged outside the round block, the tail ends of the connecting rods are connected with first sliding blocks, and the first sliding blocks are slidably positioned between the first guide rail pieces and the second guide rail pieces;

the second sliding block is uniformly arranged between the third guide rail piece and the fourth guide rail piece in a sliding manner, sliding rails are arranged on the opposite side parts of the first sliding block and the second sliding block, and the third sliding block is arranged between the sliding rails on the two sides in a sliding manner;

the two sides of the bottom of the third sliding block and the bottom wall of the sliding rail opposite to the bottom of the third sliding block are provided with first elastic pieces;

the middle part of the third sliding block is provided with an N-shaped block, the lower part of the N-shaped block is connected with a bent rod, and the tail end of the bent rod is rotatably provided with a clamp for clamping the teapot;

the ratchet wheel is arranged on the upper portion of the main shaft, a sliding box is arranged at the bottom of the disc on one side far away from the glaze barrel, ratchets are arranged in the sliding box in a sliding mode and matched with the ratchet wheel, and a second elastic piece is connected between the side portion of the ratchet wheel on one side far away from the main shaft and the inner portion of the sliding box opposite to the ratchet wheel.

As a further preferable aspect, the pressing mechanism includes:

the first screw rod is rotatably arranged on the front side of the top of the disc close to one side of the glaze barrel, a nut is arranged at the upper part of the first screw rod, a pressure rod is arranged at the bottom of the nut far away from one side of the sliding box, a pressure hole is formed in the disc, and the pressure hole is positioned under the pressure rod;

the disc is provided with a first screw rod, the top of the disc is provided with a first bearing seat, the top of the disc is provided with a first transmission shaft, the rear end of the first transmission shaft and the lower part of the first screw rod are both connected with first bevel gears, and the two first bevel gears are meshed;

the cushion block is arranged on the front side of the top of the disc, the top of the cushion block is provided with a motor, the rotating direction of the motor is clockwise and anticlockwise alternated, the clockwise rotation is changed into the anticlockwise rotation after one circle of clockwise rotation, and an output shaft of the motor is connected with the front end of the first transmission shaft;

the bottom of the disc close to one side of the water bucket is provided with at least two connecting columns, and the bottoms of the connecting columns are connected with ejector blocks.

As a further preferable embodiment, the method further comprises:

the second lead screw is installed to the disc top rotary type that is close to first lead screw one side, the second lead screw all is provided with first round gear with first lead screw top, two first round gear meshes mutually, second lead screw upper portion is equipped with the connecting block, the rotating type evenly installs the connecting axle on the connecting block, both ends all are equipped with the lug about the connecting axle, the connecting axle mid-mounting has the plectrum, the connecting block outer wall evenly is equipped with the flexure strip, flexure strip and plectrum contact, all be connected with the third elastic component between the lug of upper and lower both sides and the relative plectrum lateral part rather than, the third elastic component is around establishing on the connecting axle, a leaf section of thick bamboo is installed to the main shaft upper end, a leaf section of thick bamboo and plectrum cooperate.

As a further preferable embodiment, the method further comprises:

keep away from the base lateral part of kicking block one side and be the rectangle form and be equipped with secondary shaft bearing, lie in the rotary type and install the secondary drive axle between the secondary shaft bearing with one side, be provided with the drum on the secondary drive axle, around being equipped with the conveyer belt between the drum of both sides, the base mid-mounting that is close to drum one side has third bearing, third bearing upper portion is equipped with the third transmission shaft, third transmission shaft middle part all is connected with the second round gear rather than the secondary drive axle end that is close to mutually, two second round gear mesh mutually, third transmission shaft right side all is provided with second bevel gear with the main shaft lower part, two second bevel gear mesh mutually, the base middle part that is close to conveyer belt one side is equipped with L shape support, L shape support end is provided with the top and opens the piece, the top is opened the piece and is matched with the clip.

The invention has the following advantages: 1. through the rotating mechanism, the position of the teapot is convenient to move manually, and the glazing work of the teapot is facilitated.

2. Through pushing down the mechanism, can realize that the teapot reciprocates, make the teapot soak among glaze case and the water tank, accomplish teapot glazing work.

3. Through the fan blade barrel and the poking sheet, the teapot can be driven to intermittently rotate, the main shaft does not need to be manually rotated, and manual operation is reduced.

4. The teapot with the glaze can be automatically placed on the conveyor belt through the top opening block, and the teapot does not need to be taken down manually.

Drawings

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

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

Fig. 3 is a schematic perspective view of a part of the rotating mechanism of the present invention.

Fig. 4 is a perspective view of a third part of the ratchet wheel, the slide box, the ratchet and the second elastic member of the present invention.

Fig. 5 is a schematic perspective view of a part of the pressing mechanism, the second lead screw, the first circular gear and the fan blade cylinder according to the present invention.

Fig. 6 is an enlarged perspective view of part a of the present invention.

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

Wherein: 1-base, 2-first support column, 3-disc, 4-glaze barrel, 5-water barrel, 6-rotating mechanism, 61-second support column, 62-first guide rail piece, 63-third support column, 64-second guide rail piece, 65-fourth support column, 66-third guide rail piece, 67-fifth support column, 68-fourth guide rail piece, 69-main shaft, 610-round block, 611-first slide block, 612-second slide block, 613-slide rail, 614-third slide block, 615-first elastic piece, 616-N block, 617-curved bar, 618-clamp, 619-connecting bar, 620-ratchet wheel, 621-slide box, 622-ratchet, 623-second elastic piece, 7-pressing mechanism, 71-first screw rod, 72-nut, 73-press rod, 74-press hole, 75-first bearing seat, 76-first transmission shaft, 77-first bevel gear, 78-cushion block, 79-motor, 710-connecting column, 711-top block, 8-second screw rod, 9-first circular gear, 10-connecting block, 11-connecting shaft, 12-lug, 13-plectrum, 131-elastic sheet, 14-third elastic piece, 15-leaf cylinder, 16-second bearing seat, 17-second transmission shaft, 18-cylinder, 19-conveyor belt, 20-third bearing seat, 21-third transmission shaft, 22-second circular gear, 23-second conical gear, 24-L-shaped bracket and 25-top opening block.

Detailed Description

The invention is further illustrated by the following specific examples in which, unless otherwise explicitly stated and limited, terms such as: the arrangement, installation, connection are to be understood broadly, for example, they may be fixed, detachable, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example 1

The utility model provides a teapot glazing device, as shown in figure 1, including base 1, first support column 2, disc 3, glaze bucket 4, cask 5, rotary mechanism 6 and pushing down mechanism 7, evenly be equipped with first support column 2 on the base 1, 2 tops of first support column are provided with disc 3, glaze bucket 4 and cask 5 have been placed to the 1 right part of base, cask 5 is located 4 rear sides of glaze bucket, 1 mid-mounting of base has rotary mechanism 6, 3 tops of disc and bottom are equipped with pushing down mechanism 7.

When the teapot needs glazing, the teapot is manually clamped on the part of the rotating mechanism 6, the spout of the teapot is blocked by the part of the rotating mechanism 6, then the part of the pressing mechanism 7 is started, the part of the pressing mechanism 7 moves downwards along with the part of the rotating mechanism 6, the teapot right above the glaze barrel 4 is driven to move downwards and is immersed in the colored glaze, then the part of the pressing mechanism 7 moves upwards, the teapot moves upwards and is separated from the glaze barrel 4 under the action of the part of the rotating mechanism 6, after the teapot is separated from the glaze barrel 4, the part of the rotating mechanism 6 is manually rotated anticlockwise in the process of moving upwards of the part of the pressing mechanism 7, when the next teapot to be glazed is positioned right above the glaze barrel 4, the part of the rotating mechanism 6 stops rotating manually, the teapot which is just glazed is immersed in the water barrel 5 under the action of the pressing mechanism 7, and then the part of the pressing mechanism 7 moves downwards again, the teapot right above the glaze barrel 4 moves downwards to be immersed into the colored glaze, when the part of the lower pressing mechanism 7 moves upwards again, the teapot is separated from the colored glaze, the part of the rotating mechanism 6 is manually rotated anticlockwise again, the teapot in the water barrel 5 moves upwards to be separated from the water barrel 5 and rotates anticlockwise, the next teapot to be glazed moves right above the glaze barrel 4, the teapot which is just glazed is immersed into the water in the water barrel 5, the teapot which is glazed is manually taken down and replaced by another teapot to be glazed, and the steps are repeated, so that the glazing work of the teapot can be completed.

Example 2

As shown in fig. 2-5, the rotating mechanism 6 includes a second supporting column 61, a first guiding rail piece 62, a third supporting column 63, a second guiding rail piece 64, a fourth supporting column 65, a third guiding rail piece 66, a fifth supporting column 67, a fourth guiding rail piece 68, a main shaft 69, a round block 610, a first sliding block 611, a second sliding block 612, a sliding rail 613, a third sliding block 614, a first elastic member 615, an N-shaped block 616, a bending rod 617, a clamp 618, a connecting rod 619, a ratchet 620, a sliding box 621, a ratchet 622 and a second elastic member 623, the base 1 is uniformly provided with the second supporting column 61, the top of the second supporting column 61 is provided with the first guiding rail piece 62, the bottom of the disk 3 is uniformly provided with the third supporting column 63, the bottom of the third supporting column 63 is connected with the second guiding rail piece 64, the second guiding rail piece 64 is located right above the first guiding rail piece 62, the bottom of the disk 3 is uniformly provided with the fourth supporting column 65, the bottom of the fourth supporting column 65 is provided with the third guiding rail piece 66, the second guide rail piece 64 is positioned inside the third guide rail piece 66, the bottom of the disc 3 is uniformly provided with a fifth support column 67, the bottom of the fifth support column 67 is connected with a fourth guide rail piece 68, the fourth guide rail piece 68 is positioned under the third guide rail piece 66, the center of the base 1 is rotatably provided with a main shaft 69, the middle part of the main shaft 69 is provided with a round block 610, the outer part of the round block 610 is uniformly provided with a connecting rod 619, the tail end of the connecting rod 619 is provided with a first slide block 611, the first slide block 611 is slidably positioned between the first guide rail piece 62 and the second guide rail piece 64, a second slide block 612 is slidably and uniformly arranged between the third guide rail piece 66 and the fourth guide rail piece 68, the opposite side parts of the first slide block 611 and the second slide block 612 are both connected with slide rails 613, a third slide block 614 is slidably arranged between the slide rails 613 at both sides, both sides of the bottom of the third slide block 614 are both connected with first elastic pieces 615 with the bottom walls of the slide rails 613, the middle part of the third slide block 614 is provided with an N-shaped block 616, the lower part of the N-shaped block 616 is provided with a curved bar 617, the tail end of the curved bar 617 is rotatably provided with a clamp 618, the upper part of the main shaft 69 is provided with a ratchet 620, the left side of the bottom of the disc 3 is provided with a sliding box 621, the sliding box 621 is internally provided with a ratchet 622 in a sliding way, the ratchet 622 is matched with the ratchet 620, and a second elastic part 623 is connected between the left side of the ratchet 622 and the inside of the sliding box 621.

Manually clamping the teapot on the clamp 618 to enable the clamp 618 to block the spout, then starting the component of the pressing mechanism 7, enabling the component of the pressing mechanism 7 to move downwards to contact with the N-shaped block 616 right above the glaze barrel 4, enabling the N-shaped block 616 to move downwards, enabling the N-shaped block 616 to drive the teapot to move downwards, enabling the third slider 614 to move downwards, enabling the first elastic piece 615 to be compressed, enabling the teapot to move downwards to be immersed in the colored glaze, enabling the component of the pressing mechanism 7 to start moving upwards after the surface of the teapot is stained with the colored glaze, enabling the third slider 614 to drive the N-shaped block 616 to move upwards under the action of the first elastic piece 615, enabling the teapot to move upwards to be separated from the glaze barrel 4, enabling the main shaft 69 to rotate anticlockwise manually during the process that the component of the pressing mechanism 7 moves upwards to separate from the glaze barrel 4, enabling the ratchet 620 to rotate along with the ratchet 620, enabling the ratchet 622 to move leftwards when the ratchet 620 is in contact with the ratchet 622, enabling the second elastic piece 623 to be compressed, and meanwhile enabling the main shaft 69 to drive the connecting rod 619 to rotate, the connecting rod 619 drives the first sliding block 611 to rotate, the first sliding block 611 drives the sliding rail 613 and the third sliding block 614 to rotate, the third sliding block 614 drives the N-shaped blocks 616 and the clamp 618 to rotate, the teapot rotates along with the rotation, when the next teapot to be glazed is positioned right above the glaze barrel 4, the rotation of the main shaft 69 is manually stopped, the ratchet 622 stops rotating, under the action of the second elastic piece 623, the ratchet 622 moves right to fix the ratchet wheel 620, at the moment, the teapot which is just glazed is immersed in the water phase water, then, the component of the pressing mechanism 7 moves down again to enable the teapot right above the glaze barrel 4 to be immersed in the colored glaze, when the component of the pressing mechanism 7 moves up again, the main shaft 69 is manually rotated again when the teapot is separated from the glaze barrel 4, the teapot in the water barrel 5 is separated from the water and rotates anticlockwise, the teapot glazing work is finished, the teapot which is glazed is manually taken down and is replaced by another teapot to be glazed, under the action of the main shaft 69, the teapot is convenient to move manually, and glazing is convenient for the teapot.

The pressing mechanism 7 comprises a first screw rod 71, a nut 72, a press rod 73, a first bearing seat 75, a first transmission shaft 76, a first bevel gear 77, a cushion block 78, a motor 79, a connecting column 710 and a top block 711, the first screw rod 71 is rotatably arranged on the right front side of the top of the disc 3, the nut 72 is arranged on the upper portion of the first screw rod 71, the press rod 73 is connected to the right side of the bottom of the nut 72, a press hole 74 is formed in the disc 3, the press hole 74 is positioned under the press rod 73, the first bearing seat 75 is arranged on the right front side of the top of the disc 3, the first transmission shaft 76 is arranged on the upper portion of the first bearing seat 75, the first bevel gears 77 are arranged at the rear end of the first transmission shaft 76 and the lower portion of the first screw rod 71, the two first bevel gears 77 are meshed, the cushion block 78 is arranged on the front side of the top of the disc 3, the motor 79 is arranged on the top of the cushion block 78, the rotation direction of the motor 79 is clockwise and alternate with counterclockwise rotation after one turn, an output shaft of the motor 79 is connected with the front end of the first transmission shaft 76, two connecting columns 710 are installed on the right side of the bottom of the disc 3, and a top block 711 is arranged at the bottom of each connecting column 710.

After the teapot is clamped, a motor 79 is manually started, an output shaft of the motor 79 rotates clockwise to drive a first transmission shaft 76 to rotate, the first transmission shaft 76 drives a first bevel gear 77 at the rear side of the first transmission shaft to rotate, two first bevel gears 77 are meshed, a first screw rod 71 rotates along with the first transmission shaft, a nut 72 rotates along with the first screw rod 71, the nut 72 moves down to drive a pressing rod 73 to move down, the pressing rod 73 moves down to contact an N-shaped block 616 right above a glaze barrel 4 and drive the N-shaped block 616 to move down, the teapot is immersed in the colored glaze along with the downward movement, a first elastic member 615 is compressed, when the pressing rod 73 moves to the lowest position, the output shaft of the motor 79 starts to rotate anticlockwise, the first screw rod 71 rotates along with the first screw rod 72, the nut 72 drives the pressing rod 73 to move up, under the action of the first elastic member 615, the N-shaped block 616 drives the teapot to move up, the teapot is separated from the glaze barrel 4, and after the teapot is separated from the colored glaze, the main shaft 69 is manually rotated anticlockwise, the N-shaped block 616 moves right to contact the top block 711, the teapot which is just glazed is immersed into the water barrel 5, when the main shaft 69 is rotated again by manpower, the N-shaped block 616 rotates along with the teapot, the teapot moves up to be separated from the water barrel 5 in the rotating process of the N-shaped block 616, the teapot is driven to rotate by the N-shaped block 616, the teapot which is glazed is taken down by manpower, a new teapot to be glazed is replaced, and the teapot can move up and down under the action of the first screw rod 71 and the nut 72, so that the teapot is immersed into the glaze barrel 4.

Example 3

Specifically, as shown in fig. 5-7, the fan blade assembly further comprises a second lead screw 8, a first circular gear 9, a connecting block 10, a connecting shaft 11, a convex block 12, a poking piece 13, an elastic piece 131, a third elastic piece 14 and a fan blade cylinder 15, the second lead screw 8 is rotatably arranged on the right front side of the top of the disc 3, the first circular gear 9 is mounted on the top of each of the second lead screws 8 and the first lead screw 71, the two first circular gears 9 are engaged with each other, the connecting block 10 is arranged on the upper portion of each of the second lead screws 8, the connecting shaft 11 is rotatably and uniformly arranged on each of the connecting blocks 10, the convex blocks 12 are mounted on the upper and lower ends of the connecting shaft 11, the poking piece 13 is arranged in the middle of the connecting shaft 11, the elastic pieces 131 are uniformly arranged on the outer wall of each of the connecting block 10, the elastic pieces 131 are in contact with the poking pieces 13, the third elastic pieces 14 are arranged between the convex blocks 12 on the upper and lower sides of the convex blocks and the convex pieces 13 opposite thereto, the third elastic pieces 14 are wound on the connecting shaft 11, the upper end 69 is provided with the fan blade cylinder 15, the fan blade barrel 15 is engaged with the paddle 13.

Starting the motor 79, the output shaft of the motor 79 drives the first screw rod 71 to rotate clockwise, the press rod 73 moves downwards along with the clockwise rotation, the teapot right above the right box is immersed in the colored glaze, meanwhile, the first screw rod 71 drives the first circular gear 9 at the upper end of the first screw rod to rotate, the two first circular gears 9 are meshed, the second screw rod 8 rotates anticlockwise along with the counterclockwise rotation, the second screw rod 8 drives the connecting block 10 to rotate and move downwards, the connecting block 10 drives the poking piece 13 to rotate, when the poking piece 13 is in contact with the leaf cylinder 15, the poking piece 13 rotates around the connecting shaft 11 and cannot drive the leaf cylinder 15 to rotate, when the output shaft of the motor 79 rotates anticlockwise, the press rod 73 moves upwards, when the teapot is separated from the glaze barrel 4, the second screw rod 8 rotates clockwise, the connecting block 10 rotates along with the clockwise rotation and moves upwards, when the poking piece 13 moves upwards to be in contact with the leaf cylinder 15, under the action of the elastic sheet 131, the poking piece 13 drives the leaf cylinder 15 to rotate clockwise, the leaf cylinder 15 drives the main shaft 69 to rotate, the main shaft 69 drives the teapot to rotate, when the output shaft of the motor 79 rotates clockwise again, the leaf cylinder 15 stops rotating, at the moment, the teapot which is just glazed is immersed into the water barrel 5, the next teapot to be glazed is positioned right above the glaze barrel 4, intermittent rotation of the teapot can be achieved under the action of the leaf cylinder 15 and the poking piece 13, and the main shaft 69 does not need to be rotated manually.

The automatic transmission device also comprises a second bearing seat 16, a second transmission shaft 17, cylinders 18, a conveyor belt 19, a third bearing seat 20, a third transmission shaft 21, a second circular gear 22, a second bevel gear 23, an L-shaped support 24 and a jacking block 25, wherein the front side and the rear side of the left part of the base 1 are respectively provided with the two second bearing seats 16, the second transmission shaft 17 is rotatably arranged between the second bearing seats 16 positioned on the same side, the cylinders 18 are arranged on the second transmission shaft 17, the conveyor belt 19 is wound between the cylinders 18 on the two sides, the middle part of the left side of the base 1 is provided with the third bearing seat 20, the upper part of the third bearing seat 20 is provided with the third transmission shaft 21, the middle part of the third transmission shaft 21 and the right end of the second transmission shaft 17 on the rear side are respectively connected with the second circular gear 22, the two second circular gears 22 are meshed, the right side of the third transmission shaft 21 and the lower part of the main shaft 69 are respectively provided with the second bevel gear 23, and the two second bevel gears 23 are meshed, an L-shaped support 24 is arranged in the middle of the left side of the base 1, the right end of the L-shaped support 24 is connected with an ejecting block 25, and the ejecting block 25 is matched with the clamp 618.

When the fan blade cylinder 15 drives the main shaft 69 to rotate, the second bevel gears 23 at the lower part of the main shaft 69 rotate along with the main shaft, the two second bevel gears 23 are meshed, the third transmission shaft 21 rotates along with the third transmission shaft, the third transmission shaft 21 drives the second circular gear 22 at the middle part of the main shaft to rotate, the two second circular gears 22 are meshed, the second transmission shaft 17 at the rear side rotates along with the second transmission shaft clockwise, the second transmission shafts 17 and the cylinder 18 at the two sides rotate under the action of the conveyor belt 19, when the clamp 618 for clamping the glazed teapot is contacted with the ejecting block 25, the ejecting block 25 ejects the clamp 618, the clamp 618 releases the teapot, the teapot falls on the conveyor belt 19, the conveyor belt 19 drives the ejecting block 25 to move forwards, the glazed teapot can be automatically taken down under the action of the ejecting block 25 without manual taking down, and the teapot to be clamped to be glazed next by the clamp 618 manually.

The embodiments described above are provided to enable persons skilled in the art to make or use the invention and that modifications or variations can be made to the embodiments described above by persons skilled in the art without departing from the inventive concept of the present invention, so that the scope of protection of the present invention is not limited by the embodiments described above but should be accorded the widest scope consistent with the innovative features set forth in the claims.

Claims (4)

1. A teapot glazing device is characterized by comprising:

the device comprises a base (1), wherein first supporting columns (2) are uniformly arranged on the base (1), and a disc (3) is arranged at the tops of the first supporting columns (2);

the glaze barrel (4) is placed on the base (1), the water barrel (5) is placed on the base (1) on the rear side of the glaze barrel (4), the rotating mechanism (6) is arranged in the middle of the base (1), and the pressing mechanisms (7) are installed at the top and the bottom of the disc (3);

the second supporting columns (61) are uniformly arranged on the base (1), the top of each second supporting column (61) is connected with a first guide rail piece (62), the bottom of each disc (3) is uniformly provided with a third supporting column (63), the bottom of each third supporting column (63) is connected with a second guide rail piece (64), and each second guide rail piece (64) is positioned right above the corresponding first guide rail piece (62);

the bottom of the disc (3) is uniformly connected with the fourth supporting columns (65), the bottom of each fourth supporting column (65) is provided with a third guide rail piece (66), and the second guide rail piece (64) is positioned inside the third guide rail piece (66);

the bottom of the disc (3) is uniformly provided with fifth supporting columns (67), the bottom of each fifth supporting column (67) is provided with a fourth guide rail piece (68), and the fourth guide rail piece (68) is positioned right below the third guide rail piece (66);

the main shaft (69) is rotatably installed in the center of the base (1), a round block (610) is arranged in the middle of the main shaft (69), connecting rods (619) are uniformly arranged outside the round block (610), the tail ends of the connecting rods (619) are connected with first sliding blocks (611), and the first sliding blocks (611) are slidably located between the first guide rail piece (62) and the second guide rail piece (64);

the second sliding block (612) is uniformly arranged between the third guide rail piece (66) and the fourth guide rail piece (68) in a sliding manner, sliding rails (613) are respectively arranged on the opposite side parts of the first sliding block (611) and the second sliding block (612), and the third sliding block (614) is arranged between the sliding rails (613) on the two sides in a sliding manner;

the first elastic piece (615) is arranged on each of the two sides of the bottom of the third sliding block (614) and the bottom wall of the sliding rail (613) opposite to the bottom side of the third sliding block;

the middle part of the third sliding block (614) is provided with the N-shaped block (616), the lower part of the N-shaped block (616) is connected with a bent rod (617), and the tail end of the bent rod (617) is rotatably provided with a clamp (618) for clamping the teapot;

the ratchet wheel (620) is arranged at the upper part of the main shaft (69), the bottom of the disc (3) at one side far away from the glaze barrel (4) is provided with a sliding box (621), the sliding box (621) is internally provided with a ratchet (622) in a sliding way, the ratchet (622) is matched with the ratchet wheel (620), and a second elastic piece (623) is connected between the side part of the ratchet (622) at one side far away from the main shaft (69) and the inside of the sliding box (621) opposite to the side part.

2. A teapot glazing unit as claimed in claim 1, characterized in that the hold-down mechanism (7) comprises:

the first screw rod (71) is rotatably arranged on the front side of the top of the disc (3) close to one side of the glaze barrel (4), a nut (72) is arranged at the upper part of the first screw rod (71), a pressure rod (73) is arranged at the bottom of the nut (72) far away from one side of the sliding box (621), a pressure hole (74) is formed in the disc (3), and the pressure hole (74) is positioned under the pressure rod (73);

the top of the disc (3) close to one side of the first screw rod (71) is provided with the first bearing seat (75), the upper part of the first bearing seat (75) is provided with a first transmission shaft (76), the rear end of the first transmission shaft (76) and the lower part of the first screw rod (71) are both connected with first bevel gears (77), and the two first bevel gears (77) are meshed;

the cushion block (78) is arranged on the front side of the top of the disc (3), the top of the cushion block (78) is provided with a motor (79), the rotating direction of the motor (79) is clockwise and anticlockwise alternated, the clockwise rotation is changed into the anticlockwise rotation after one circle of clockwise rotation, and an output shaft of the motor (79) is connected with the front end of the first transmission shaft (76);

the bottom of the disc (3) close to one side of the water bucket (5) is provided with at least two connecting columns (710), and the bottom of each connecting column (710) is connected with a top block (711).

3. A teapot glazing as claimed in claim 2 further comprising:

a second screw rod (8) is rotatably mounted at the top of the disc (3) close to one side of the first screw rod (71), first circular gears (9) are arranged at the tops of the second screw rod (8) and the first screw rod (71), the two first circular gears (9) are meshed with each other, a connecting block (10) is arranged at the upper part of the second screw rod (8), a connecting shaft (11) is uniformly mounted on the connecting block (10) in a rotating manner, convex blocks (12) are arranged at the upper end and the lower end of the connecting shaft (11), a shifting sheet (13) is mounted in the middle of the connecting shaft (11), elastic sheets (131) are uniformly arranged on the outer wall of the connecting block (10), the elastic sheets (131) are contacted with the shifting sheet (13), third elastic pieces (14) are connected between the convex blocks (12) at the upper side and the lower side and the side of the shifting sheet (13) opposite to the convex blocks (12), the third elastic pieces (14) are wound on the connecting shaft (11), a leaf cylinder (15) is mounted at the upper end of the main shaft (69), the fan blade cylinder (15) is matched with the shifting sheet (13).

4. A teapot glazing as claimed in claim 3 further comprising:

the side part of the base (1) far away from one side of the top block (711) is provided with a second bearing seat (16) in a rectangular shape, a second transmission shaft (17) is rotatably arranged between the second bearing seats (16) positioned on the same side, a cylinder (18) is arranged on the second transmission shaft (17), a conveyor belt (19) is wound between the cylinders (18) on two sides, a third bearing seat (20) is arranged in the middle of the base (1) close to one side of the cylinder (18), a third transmission shaft (21) is arranged at the upper part of the third bearing seat (20), the tail ends of the second transmission shaft (17) close to the middle of the third transmission shaft (21) are connected with second circular gears (22), the two second circular gears (22) are meshed, the right side of the third transmission shaft (21) and the lower part of the main shaft (69) are respectively provided with a second conical gear (23), the two second conical gears (23) are meshed, an L-shaped support (24) is arranged in the middle of the base (1) close to one side of the conveyor belt (19), the tail end of the L-shaped support (24) is provided with an ejecting block (25), and the ejecting block (25) is matched with the clamp (618).

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