CN114273116A - Removable hanging spraying equipment for teapot with handle - Google Patents

Abstract

The invention relates to the field of spraying, in particular to a removable hanging spraying device for a teapot with a handle. The technical problem of the invention is as follows: the teapot with the handle can cause incomplete spraying of the handle part of the teapot body, the part which is not sprayed needs to be taken out again for secondary spraying and completion, and the time interval is reserved between the secondary spraying and the primary spraying, so that the secondary spraying effect and the primary spraying effect have obvious layering. The technical implementation scheme of the invention is as follows: a removable hanging spraying device for teapots with handles comprises a first bottom plate, a first cup foot, a control screen, a first supporting plate and the like; a group of first cup legs are arranged at four corners below the first bottom plate; a first supporting plate is arranged at the left rear part above the first bottom plate; the control screen is installed in first backup pad side. The invention can realize the omnibearing uniform spraying of teapots with different specifications by limiting, fixing and matching, and can also perform uniform spraying by fitting the radian of the handle shape of the teapot.

Description

Removable hanging spraying equipment for teapot with handle

Technical Field

The invention relates to the field of spraying, in particular to a removable hanging spraying device for a teapot with a handle.

Background

The automatic spraying method for the teapot in the prior art comprises the steps that the teapot rotates automatically, a spray gun is driven by a mechanical arm to be aligned to the surface of the teapot and spray along with the arc line of the teapot to move up and down in a reciprocating mode, the teapot without a handle can be sprayed, the handle of the teapot body can be incompletely sprayed due to the teapot with the handle, the part which is not sprayed needs to be taken out again for secondary spraying completion, time intervals exist between secondary spraying and primary spraying, the secondary spraying effect and the primary spraying effect have obvious layering, the attractiveness of the teapot is seriously affected, the secondary spraying phenomenon also occurs, the surface of the teapot is uneven, the quality problem of products is seriously affected, and the products can be reworked and scrapped.

Disclosure of Invention

The invention provides a portable hanging spraying device for teapots with handles, aiming at overcoming the defects that the teapots with handles can cause incomplete spraying of the handles, parts which are not sprayed need to be taken out again for secondary spraying and completion, time intervals exist between secondary spraying and primary spraying, the secondary spraying effect and the primary spraying effect have obvious layering, the attractiveness of the teapots is seriously influenced, sagging phenomenon is generated in secondary spraying, the surfaces of the teapots are uneven, the quality of products is seriously influenced, and reworking and scrapping of the products can be caused.

The technical implementation scheme of the invention is as follows: a spraying device capable of removing sagging for teapots with handles comprises a first bottom plate, first cup legs, a conveying mechanism, a rotating mechanism, a power transmission mechanism, a pot surface spraying mechanism, a handle spraying mechanism, a sagging removing mechanism, a control screen, a first supporting plate and a first supporting frame; a group of first cup legs are arranged at four corners below the first bottom plate; a first supporting plate is arranged at the left rear part above the first bottom plate; a first supporting frame is arranged on the right side above the first bottom plate; the middle left part and the front side above the first bottom plate are provided with a conveying mechanism; a rotating mechanism is arranged above the conveying mechanism; the control screen is arranged on the side surface of the first supporting plate; a kettle surface spraying mechanism is arranged on one side above the first supporting plate; a kettle surface spraying mechanism and a handle spraying mechanism are arranged on one side above the first support frame, and the kettle surface spraying mechanism is positioned on the front side of the handle spraying mechanism; the other side above the first support frame is provided with a sagging removing mechanism; the transport mechanism is used for conveying the teapot to a required position; the rotating mechanism is used for fixing the teapot and automatically rotating and suspending the rotation; the power transmission mechanism is used for outputting power to the kettle surface spraying mechanism, the handle spraying mechanism and the sagging mechanism; the kettle surface spraying mechanism is used for spraying paint on the outer surface of the teapot uniformly; the handle spraying mechanism is used for completely supplementing the part which is not sprayed by conforming to the modeling radian of the teapot handle; the hanging removal mechanism is used for removing the hanging phenomenon after the teapot is sprayed.

More preferably, the transportation mechanism comprises a first motor, a second support plate, a first synchronizing wheel, a second synchronizing wheel, a first screw rod, a third support plate, a first guide shaft, a fourth support plate and a first sliding seat; the lower part of the first motor is fixedly connected with the first bottom plate; the output shaft of the first motor is rotationally connected with the second supporting plate; the output shaft of the first motor is fixedly connected with the first synchronous wheel; the outer ring surface of the first synchronizing wheel is in transmission connection with the second synchronizing wheel through a belt; the second synchronizing wheel is fixedly connected with the first screw rod; one end of the first screw rod is rotatably connected with the third supporting plate; the other end of the first screw rod is rotatably connected with the fourth supporting plate; the first screw rod is connected with the first sliding seat in a rotating mode; the lower part of the third supporting plate is fixedly connected with the first bottom plate; the third supporting plate is fixedly connected with one end of the first guide shaft; the other end of the first guide shaft is fixedly connected with the fourth supporting plate; the first guide shaft is in sliding connection with the first sliding seat; the lower part of the fourth supporting plate is fixedly connected with the first bottom plate; the upper part of the first sliding seat is fixedly connected with the rotating mechanism.

More preferably, the rotating mechanism comprises a first support, a first straight gear, a second motor, a first spline shaft, a first mounting plate, a first electric push rod, a first rotary disc, a first slide block, a first collecting box, a first cylinder, a first chute plate, a second slide block, a first conical block, a first buffer block, a first cross fixing support, a first spring and a second spring; the lower part of the first bracket is fixedly connected with the first sliding seat; the sliding chute above the first support is in sliding connection with four groups of first sliding blocks on the periphery of the annular array; the output shaft of the second motor is fixedly connected with one end of the first spline shaft; the outer surface of the first spline shaft is rotationally connected with the first mounting plate; the first spline shaft is connected with the first straight gear through a shaft sleeve; the first straight gear is in transmission connection with the first rotating disc; when the first straight gear is meshed with the first rotary disc, the first straight gear rotates with the first rotary disc, and when the first straight gear is disengaged from the first rotary disc, the first rotary disc does not rotate; the lower part of the first mounting plate is rotationally connected with a first electric push rod; the first electric push rod is fixedly connected with the first sliding seat; the lower part of the first rotary disc is fixedly connected with four groups of first sliding blocks around the annular array; the upper part of the first rotating disc is fixedly connected with the first collecting box; the upper part of the first collecting box is fixedly connected with the first cylinder; the upper part of the first cylinder is fixedly connected with the first chute plate; the upper part of the first chute plate is in sliding connection with the second sliding block; the center above the first chute plate is fixedly connected with the first cross-shaped fixed bracket; the upper part of the second sliding block is fixedly connected with the first conical block; the outer side of the first conical block is fixedly connected with the first buffer block; the first cross-shaped fixing bracket is fixedly connected with one end of the first spring; the first cross-shaped fixing bracket is fixedly connected with one end of the second spring; the other end of the first spring is fixedly connected with the first conical block; the other end of the second spring is fixedly connected with the first conical block; the combination of the second sliding block, the first conical block, the first buffer block, the first spring and the second spring is annularly arrayed in four groups around the first cross fixing support as a central point.

More preferably, the power transmission mechanism comprises a third motor, a second spur gear, a third synchronizing wheel, a fourth synchronizing wheel, a second spline shaft, a fifth support plate, a first push plate and a second electric push rod; the lower part of the third motor mounting plate is fixedly connected with the first support frame; the output shaft of the third motor is fixedly connected with the second spline shaft; the second spline shaft is connected with a second straight gear through a shaft sleeve; the second spline shaft is fixedly connected with the third synchronizing wheel; the outer ring surface of the third synchronizing wheel is in transmission connection with the fourth synchronizing wheel through a belt; the fourth synchronizing wheel is fixedly connected with the sagging removing mechanism; the second spline shaft is rotatably connected with the fifth supporting plate; the second spline shaft is connected with the first push plate through a shaft sleeve; the first push plate is fixedly connected with the second electric push rod; the second electric push rod mounting plate is fixedly connected with the first support frame.

More preferably, the kettle surface spraying mechanism comprises a second bracket, a first rotating shaft, a third straight gear, a fifth synchronizing wheel, a sixth synchronizing wheel, a first bidirectional screw rod, a second guide shaft, a second sliding seat, a third sliding seat, a first water tank, a first conical spray head, a first small water tank, a first spray head, a second small water tank, a second spray head, a second water tank and a second conical spray head; the left side below the second bracket is fixedly connected with the first supporting plate; the right side below the second bracket is fixedly connected with the first bracket; the right side of the second bracket is rotationally connected with the first rotating shaft; the outer surface of the first rotating shaft is fixedly connected with a third straight gear and a fifth synchronous gear in sequence; the outer ring surface of the fifth synchronizing wheel is in transmission connection with the sixth synchronizing wheel through a belt; the sixth synchronizing wheel is fixedly connected with the first bidirectional screw rod; both sides of the first bidirectional screw rod are rotatably connected with the second bracket; the outer surface of the first bidirectional screw rod is sequentially connected with the second sliding seat and the third sliding seat in a screwing manner; both sides of the second guide shaft are fixedly connected with the second bracket; the outer surface of the second guide shaft is sequentially in sliding connection with the second sliding seat and the third sliding seat; the lower part of the second sliding seat is fixedly connected with a second small water tank; the left side below the second small water tank is fixedly connected with a plurality of groups of second spray heads which are distributed at equal intervals; the right side below the second small water tank is fixedly connected with the second water tank; the left side of the second water tank is fixedly connected with a plurality of groups of second conical spray heads which are distributed at equal intervals; the lower part of the third sliding seat is fixedly connected with the first water tank; the right side of the first water tank is fixedly connected with a plurality of groups of first conical spray heads which are distributed at equal intervals; the lower part of the first water tank is fixedly connected with the first small water tank; the right side above the first small water tank is fixedly connected with a plurality of groups of first spray heads which are distributed at equal intervals.

More preferably, the handle spraying mechanism comprises a first slide rail, a second cylinder, a first L-shaped push block, a third cylinder, a third slide block, a second L-shaped push block, a third spline shaft, a fourth straight gear, a sixth support plate, a fifth straight gear, a sixth straight gear, a second screw rod, a third guide shaft, a fourth slide seat, a third support, a fourth motor, a second rotating shaft, a second rotating disc, a fourth cylinder, a third rotating disc, a first hollow guide rod, a first guide pipe and a first concave spray head; the lower part of the first slide rail is fixedly connected with the first support frame; the first sliding rail is in sliding connection with the third sliding block; the side surface of the second cylinder is fixedly connected with the first support frame; the second cylinder is rotatably connected with the first L-shaped push block through a torsion spring; the side surface of the first L-shaped push block is fixedly connected with the third cylinder; the third cylinder is in sliding connection with the third sliding block; the side surface of the third sliding block is fixedly connected with the second L-shaped pushing block; the second L-shaped push block is connected with the third spline shaft through a shaft sleeve; the third spline shaft is connected with the fourth straight gear through a shaft sleeve; the outer surface of the third spline shaft is rotationally connected with the sixth supporting plate; the side surface of the third spline shaft is fixedly connected with a fifth straight gear; a second straight gear is arranged on the side surface of the fifth straight gear; when the fifth straight gear is meshed with the second straight gear, the fifth straight gear drives the second straight gear to rotate, and when the fifth straight gear is disconnected from the second straight gear, the second straight gear does not rotate; the lower part of the sixth supporting plate is fixedly connected with the first supporting frame; a sixth straight gear is arranged on the right side surface of the fourth straight gear; a third straight gear is arranged on the left side surface of the fourth straight gear; when the fourth straight gear is meshed with the sixth straight gear, the fourth straight gear is disconnected from the third straight gear and is meshed with the third straight gear, the fourth straight gear drives the sixth straight gear to rotate, the third straight gear does not rotate, when the fourth straight gear is disconnected from the sixth straight gear and is meshed with the third straight gear, the fourth straight gear drives the third straight gear to rotate, and the sixth straight gear does not rotate; the sixth straight gear is fixedly connected with the second screw rod; both sides of the second screw rod are rotatably connected with the third bracket; the second screw rod is connected with the fourth sliding seat in a screwing way; both sides of the third guide shaft are fixedly connected with the third bracket; the third guide shaft is in sliding connection with the fourth sliding seat; the fourth sliding seat is fixedly connected with a fourth motor mounting plate; the output shaft of the fourth motor is fixedly connected with the second rotating shaft; the second rotating shaft is fixedly connected with the second rotating disc; the second turntable is fixedly connected with three groups of fourth cylinders on the periphery of the annular array; three groups of fourth cylinders around the annular array are fixedly connected with the third turntable; the third turntable is fixedly connected with the first hollow guide rod; the first hollow guide rods are fixedly connected with three groups of first guide rods on the periphery of the annular array; the central part of the first hollow guide rod is fixedly connected with the first flow guide pipe; three groups of first guide rods which are uniformly distributed are fixedly connected with the first concave spray head; the first flow guide pipe is fixedly connected with the first concave spray head.

More preferably, the sagging removing mechanism comprises a fourth spline shaft, a seventh support plate, a second mounting plate, a third electric push rod, a seventh straight gear, an eighth straight gear, a third rotating shaft, an eighth support plate, a seventh synchronizing wheel, an eighth synchronizing wheel, a third screw rod, a fourth guide shaft, a fifth sliding seat, a fourth support, a third mounting plate, a first air box, a first electric slide rail, a first fixing block, a first hollow guide rod, a first guide block and a third spring; the fourth spline shaft is rotationally connected with the seventh supporting plate; the fourth spline shaft is connected with the second mounting plate through a shaft sleeve; the fourth spline shaft is connected with the seventh straight gear through a shaft sleeve; the fourth spline shaft is rotationally connected with the eighth supporting plate; the lower part of the seventh supporting plate is fixedly connected with the first supporting frame; the second mounting plate is fixedly connected with a third electric push rod; the lower part of the mounting plate of the third electric push rod is fixedly connected with the first support frame; the eighth straight gear is arranged on the side surface of the seventh straight gear; when the seventh straight gear is meshed with the eighth straight gear, the seventh straight gear drives the eighth straight gear to rotate, and when the seventh straight gear is disconnected from the eighth straight gear, the eighth straight gear does not rotate; the eighth straight gear is fixedly connected with one end of the third rotating shaft; the third rotating shaft is rotatably connected with the eighth supporting plate; the third rotating shaft is fixedly connected with the seventh synchronizing wheel; the other end of the third rotating shaft is rotatably connected with the fourth bracket; the lower part of the eighth supporting plate is fixedly connected with the first supporting frame; the outer ring surface of the seventh synchronizing wheel is in transmission connection with the eighth synchronizing wheel through a belt; the eighth synchronizing wheel is fixedly connected with the third screw rod; both sides of the third screw rod are rotatably connected with the fourth bracket; the third screw rod is in screwed connection with the fifth sliding seat; both sides of the fourth guide shaft are fixedly connected with the fourth bracket; the fourth guide shaft is in sliding connection with the fifth sliding seat; the lower part of the fifth sliding seat is fixedly connected with a third mounting plate; the lower part of the fourth bracket is fixedly connected with the first bracket; the middle part of the side surface of the third mounting plate is fixedly connected with the first air box; the lower part of the side surface of the third mounting plate is fixedly connected with the first electric slide rail; the first electric slide rail is fixedly connected with the first fixed block through a slide block; the first fixing block is connected with the first hollow guide rod in a sliding manner; the inner part of the round hole of the first fixed block is fixedly connected with a third spring; the middle part of the outer surface of the first hollow guide rod is fixedly connected with the first guide block; the lower part of the first guide block is fixedly connected with a third spring.

More preferably, the first turntable is centrally provided with an inner gear ring.

More preferably, the first concave type nozzle is provided in a diabolo type.

More preferably, the first hollow guide rod is internally provided with a through cylindrical groove.

The invention has the beneficial effects that: the teapot spraying device can realize the omnibearing uniform spraying of teapots with different specifications by limiting, fixing and matching, can also be attached to the radian of the handle shape of the teapot for uniform spraying, has small switching time difference, greatly reduces the excessive overlapping of paint layers of the teapot and the teapot in a transition region, and realizes uniform coverage fusion; the paint sagging after spraying can be guided and removed by the guide rod, the product quality can be effectively improved, and the surface of the teapot is bright, full and beautiful.

Drawings

FIG. 1 is a schematic perspective view of a first embodiment of the removable drip spray apparatus for a teapot with handles according to the present invention;

FIG. 2 is a schematic perspective view of a second embodiment of the removable drip spray apparatus for a teapot with a handle according to the present invention;

FIG. 3 is a schematic perspective view of a third embodiment of the present invention for a removable drip spray apparatus for a teapot with handles;

FIG. 4 is a perspective view of the transport mechanism of the present invention;

fig. 5 is a schematic perspective view of a first rotary mechanism according to the present invention;

fig. 6 is a schematic perspective view of a second rotary mechanism of the present invention;

FIG. 7 is a schematic view of a first partially assembled body of the rotating mechanism of the present invention;

FIG. 8 is a schematic view of a second partially assembled body of the rotary mechanism of the present invention;

fig. 9 is a perspective view of a third part of the rotary mechanism of the present invention;

FIG. 10 is a perspective view of the power transmission mechanism of the present invention;

FIG. 11 is a schematic view of a first three-dimensional structure of the kettle surface spraying mechanism of the present invention;

FIG. 12 is a schematic view of a second three-dimensional structure of the kettle surface spraying mechanism of the present invention;

FIG. 13 is a schematic perspective view of a first embodiment of the handle spraying mechanism of the present invention;

FIG. 14 is a schematic perspective view of a second embodiment of the handle spray mechanism of the present invention;

FIG. 15 is a schematic perspective view of a first embodiment of a de-sagging mechanism of the present invention;

FIG. 16 is a schematic perspective view of a second embodiment of the de-sagging mechanism of the present invention;

fig. 17 is a schematic perspective view of a part of the de-sagging mechanism of the present invention.

Wherein the figures include the following reference numerals: 1-a first bottom plate, 2-a first cup foot, 3-a transportation mechanism, 4-a rotation mechanism, 5-a power transmission mechanism, 6-a kettle surface spraying mechanism, 7-a handle spraying mechanism, 8-a sagging removing mechanism, 9-a control screen, 10-a first support plate, 11-a first support frame, 301-a first motor, 302-a second support plate, 303-a first synchronizing wheel, 304-a second synchronizing wheel, 305-a first screw rod, 306-a third support plate, 307-a first guide shaft, 308-a fourth support plate, 309-a first slide seat, 401-a first support frame, 402-a first straight gear, 308-a second motor, 404-a first spline shaft, 405-a first mounting plate, 406-a first electric push rod, 403-a first rotating disc, 408-a first slide block, 409-a first collecting box, 410-a first cylinder, 411-a first chute plate, 412-a second slide block, 413-a first conical block, 414-a first buffer block, 415-a first cross fixing support, 416-a first spring, 417-a second spring, 501-a third motor, 502-a second spur gear, 503-a third synchronous gear, 504-a fourth synchronous gear, 505-a second spline shaft, 506-a fifth support plate, 507-a first push plate, 508-a second electric push rod, 601-a second support, 602-a first rotating shaft, 603-a third spur gear, 604-a fifth synchronous gear, 605-a sixth synchronous gear, 606-a first bidirectional screw rod, 607-a second guide shaft, 608-a second slide seat, 609-a third slide seat, 610-a first water tank, 611-a first conical spray head, 612-a first small water tank, 613-a first spray head, 614-a second small water tank, 615-a second spray head, 616-a second water tank, 617-a second conical spray head, 701-a first slide rail, 702-a second cylinder, 703-a first L-shaped push block, 704-a third cylinder, 705-a third slide block, 706-a second L-shaped push block, 707-a third spline shaft, 708-a fourth straight gear, 709-a sixth support plate, 710-a fifth straight gear, 711-a sixth straight gear, 712-a second screw rod, 713-a third guide shaft, 714-a fourth slide block, 715-a third support, 716-a fourth motor, 717-a second rotating shaft, 718-a second rotating disc, 719-a fourth cylinder, 720-third rotating disc, 721-first hollow guide rod, 722-first guide rod, 723-first guide pipe, 724-first concave spray head, 801-fourth spline shaft, 802-seventh support plate, 803-second mounting plate, 804-third electric push rod, 805-seventh straight gear, 806-eighth straight gear, 807-third rotating shaft, 808-eighth support plate, 809-seventh synchronous gear, 810-eighth synchronous gear, 811-third screw rod, 812-fourth guide shaft, 813-fifth sliding seat, 814-fourth support, 815-third mounting plate, 816-first air box, 817-first electric sliding rail, 818-first fixed block, 819-first hollow guide rod, 820-first guide block and 821-third spring.

Detailed Description

It is to be noted that, in the case of the different described embodiments, identical components are provided with the same reference numerals or the same component names, wherein the disclosure contained in the entire description can be transferred to identical components having the same reference numerals or the same component names in a meaningful manner. The positional references selected in the description, such as upper, lower, lateral, etc., refer also to the directly described and illustrated figures and are to be read into the new position in the sense of a change in position.

Examples

A can go the sagging spraying equipment to the teapot with handle, as shown in fig. 1-17, including the first bottom plate 1, the first cup foot 2, the transport mechanism 3, the rotary mechanism 4, the power transmission mechanism 5, the pot surface spraying mechanism 6, the handle spraying mechanism 7, go the sagging mechanism 8, the control screen 9, the first supporting plate 10 and the first supporting rack 11; a group of first cup legs 2 are arranged at four corners below the first bottom plate 1; a first supporting plate 10 is arranged at the left rear part above the first bottom plate 1; a first supporting frame 11 is arranged on the right side above the first bottom plate 1; the middle left part and the front side above the first bottom plate 1 are provided with a conveying mechanism 3; a rotating mechanism 4 is arranged above the conveying mechanism 3; the control screen 9 is arranged on the side surface of the first supporting plate 10; a kettle surface spraying mechanism 6 is arranged on one side above the first supporting plate 10; a kettle surface spraying mechanism 6 and a handle spraying mechanism 7 are arranged on one side above the first support frame 11, and the kettle surface spraying mechanism 6 is positioned on the front side of the handle spraying mechanism 7; the other side of the upper part of the first supporting frame 11 is provided with a sagging removing mechanism 8.

The transport mechanism 3 comprises a first motor 301, a second support plate 302, a first synchronous wheel 303, a second synchronous wheel 304, a first screw rod 305, a third support plate 306, a first guide shaft 307, a fourth support plate 308 and a first slide base 309; the lower part of the first motor 301 is fixedly connected with the first bottom plate 1; an output shaft of the first motor 301 is rotatably connected with the second support plate 302; the output shaft of the first motor 301 is fixedly connected with a first synchronous wheel 303; the outer ring surface of the first synchronizing wheel 303 is in transmission connection with a second synchronizing wheel 304 through a belt; the second synchronizing wheel 304 is fixedly connected with the first screw 305; one end of the first screw 305 is rotatably connected with the third support plate 306; the other end of the first screw 305 is rotatably connected with the fourth supporting plate 308; the first screw 305 is screwed with the first slide base 309; the lower part of the third supporting plate 306 is fixedly connected with the first bottom plate 1; the third supporting plate 306 is fixedly connected with one end of the first guide shaft 307; the other end of the first guide shaft 307 is fixedly connected with the fourth supporting plate 308; the first guide shaft 307 is slidably connected to a first slide base 309; the lower part of the fourth supporting plate 308 is fixedly connected with the first bottom plate 1; the upper part of the first slide 309 is fixedly connected with the rotating mechanism 4.

The rotating mechanism 4 comprises a first bracket 401, a first straight gear 402, a second motor 403, a first spline shaft 404, a first mounting plate 405, a first electric push rod 406, a first rotary disc 407, a first slide block 408, a first collection box 409, a first cylinder 410, a first chute plate 411, a second slide block 412, a first conical block 413, a first buffer block 414, a first cross fixing bracket 415, a first spring 416 and a second spring 417; the lower part of the first bracket 401 is fixedly connected with a first sliding seat 309; the sliding groove above the first support 401 is in sliding connection with four groups of first sliding blocks 408 on the periphery of the annular array; an output shaft of the second motor 403 is fixedly connected with one end of the first spline shaft 404; the outer surface of the first spline shaft 404 is rotatably connected with the first mounting plate 405; the first spline shaft 404 is connected with the first straight gear 402 through a shaft sleeve; the first straight gear 402 is in transmission connection with the first rotating disc 407; when the first straight gear 402 is meshed with the first rotary disc 407, the first straight gear 402 rotates with the first rotary disc 407, and when the first straight gear 402 is disengaged from the first rotary disc 407, the first rotary disc 407 does not rotate; the lower part of the first mounting plate 405 is rotatably connected with a first electric push rod 406; the first electric push rod 406 is fixedly connected with the first slide seat 309; the lower part of the first rotary disc 407 is fixedly connected with four groups of first sliding blocks 408 arranged around the annular array; the upper part of the first rotating disc 407 is fixedly connected with the first collecting box 409; the upper part of the first collecting box 409 is fixedly connected with the first cylinder 410; the upper part of the first cylinder 410 is fixedly connected with a first chute plate 411; the upper part of the first chute plate 411 is connected with the second sliding block 412 in a sliding manner; the center above the first chute plate 411 is fixedly connected with a first cross fixing bracket 415; the upper part of the second sliding block 412 is fixedly connected with a first conical block 413; the outer side of the first conical block 413 is fixedly connected with the first buffer block 414; the first cross fixing bracket 415 is fixedly connected with one end of the first spring 416; the first cross fixing bracket 415 is fixedly connected with one end of a second spring 417; the other end of the first spring 416 is fixedly connected with the first conical block 413; the other end of the second spring 417 is fixedly connected with the first conical block 413; the combination of the second sliding block 412, the first conical block 413, the first buffer block 414, the first spring 416 and the second spring 417 is arranged in four groups around the first cross fixing bracket 415 as a central point in an annular array.

The power transmission mechanism 5 comprises a third motor 501, a second spur gear 502, a third synchronous gear 503, a fourth synchronous gear 504, a second spline shaft 505, a fifth support plate 506, a first push plate 507 and a second electric push rod 508; the lower part of the mounting plate of the third motor 501 is fixedly connected with the first support frame 11; an output shaft of the third motor 501 is fixedly connected with the second spline shaft 505; the second spline shaft 505 is connected with the second spur gear 502 through a shaft sleeve; the second spline shaft 505 is fixedly connected with the third synchronizing wheel 503; the outer ring surface of the third synchronizing wheel 503 is in transmission connection with the fourth synchronizing wheel 504 through a belt; the fourth synchronizing wheel 504 is fixedly connected with the sagging removing mechanism 8; the second spline shaft 505 is rotatably connected with the fifth support plate 506; the second spline shaft 505 is connected with the first push plate 507 through a shaft sleeve; the first push plate 507 is fixedly connected with the second electric push rod 508; the second electric push rod 508 mounting plate is fixedly connected with the first support frame 11.

The kettle surface spraying mechanism 6 comprises a second bracket 601, a first rotating shaft 602, a third spur gear 603, a fifth synchronizing wheel 604, a sixth synchronizing wheel 605, a first bidirectional screw 606, a second guide shaft 607, a second slide seat 608, a third slide seat 609, a first water tank 610, a first conical spray head 611, a first small water tank 612, a first spray head 613, a second small water tank 614, a second spray head 615, a second water tank 616 and a second conical spray head 617; the left side below the second bracket 601 is fixedly connected with the first supporting plate 10; the right side below the second bracket 601 is fixedly connected with the first bracket 11; the right side of the second bracket 601 is rotatably connected with the first rotating shaft 602; the outer surface of the first rotating shaft 602 is fixedly connected with a third straight gear 603 and a fifth synchronous gear 604 in sequence; the outer ring surface of the fifth synchronizing wheel 604 is in transmission connection with the sixth synchronizing wheel 605 through a belt; the sixth synchronizing wheel 605 is fixedly connected with the first bidirectional screw 606; two sides of the first bidirectional screw 606 are rotatably connected with the second bracket 601; the outer surface of the first bidirectional screw 606 is sequentially screwed with the second sliding seat 608 and the third sliding seat 609; both sides of the second guide shaft 607 are fixedly connected with the second bracket 601; the outer surface of the second guide shaft 607 is connected with a second sliding seat 608 and a third sliding seat 609 in a sliding way; the lower part of the second sliding seat 608 is fixedly connected with a second small water tank 614; the left side below the second small water tank 614 is fixedly connected with a plurality of groups of second spray heads 615 which are distributed at equal intervals; the right side below the second small water tank 614 is fixedly connected with the second water tank 616; the left side of the second water tank 616 is fixedly connected with a plurality of groups of second conical nozzles 617 which are distributed at equal intervals; the lower part of the third sliding seat 609 is fixedly connected with the first water tank 610; the right side of the first water tank 610 is fixedly connected with a plurality of groups of first conical spray heads 611 which are distributed at equal intervals; the lower part of the first water tank 610 is fixedly connected with a first small water tank 612; the right side above the first small water tank 612 is fixedly connected with a plurality of groups of first nozzles 613 which are distributed at equal intervals.

The handle spraying mechanism 7 comprises a first sliding rail 701, a second cylinder 702, a first L-shaped push block 703, a third cylinder 704, a third sliding block 705, a second L-shaped push block 706, a third spline shaft 707, a fourth spur gear 708, a sixth supporting plate 709, a fifth spur gear 710, a sixth spur gear 711, a second screw rod 712, a third guide shaft 713, a fourth sliding seat 714, a third bracket 715, a fourth motor 716, a second rotating shaft 717, a second rotating disc 718, a fourth cylinder 719, a third rotating disc 720, a first hollow guide rod 721, a first guide rod 722, a first guide pipe 723 and a first concave spray head 724; the lower part of the first slide rail 701 is fixedly connected with the first support frame 11; the first slide rail 701 is connected with the third slide block 705 in a sliding manner; the side surface of the second cylinder 702 is fixedly connected with the first support frame 11; the second cylinder 702 is rotatably connected with the first L-shaped push block 703 through a torsion spring; the side surface of the first L-shaped push block 703 is fixedly connected with the third cylinder 704; the third cylinder 704 is connected with a third slide 705 in a sliding manner; the side surface of the third sliding block 705 is fixedly connected with a second L-shaped push block 706; the second L-shaped push block 706 is connected with a third spline shaft 707 through a shaft sleeve; the third spline shaft 707 is connected to the fourth spur gear 708 by a sleeve; the outer surface of the third spline shaft 707 is rotationally connected with a sixth support plate 709; the side surface of the third spline shaft 707 is fixedly connected with a fifth straight gear 710; a second spur gear 502 is arranged on the side surface of the fifth spur gear 710; when the fifth spur gear 710 is meshed with the second spur gear 502, the fifth spur gear 710 drives the second spur gear 502 to rotate, and when the fifth spur gear 710 is disengaged from the second spur gear 502, the second spur gear 502 does not rotate; the lower part of the sixth supporting plate 709 is fixedly connected with the first supporting frame 11; a sixth spur gear 711 is arranged on the right side surface of the fourth spur gear 708; a third straight gear 603 is arranged on the left side surface of the fourth straight gear 708; when the fourth spur gear 708 is meshed with the sixth spur gear 711, the fourth spur gear 708 is disengaged from the third spur gear 603, the fourth spur gear 708 drives the sixth spur gear 711 to rotate, the third spur gear 603 does not rotate, when the fourth spur gear 708 is disengaged from the sixth spur gear 711, the fourth spur gear 708 is meshed with the third spur gear 603, the fourth spur gear 708 drives the third spur gear 603 to rotate, and the sixth spur gear 711 does not rotate; the sixth spur gear 711 is fixedly connected with the second screw 712; both sides of the second lead screw 712 are rotatably connected with the third support 715; the second screw 712 is screwed with the fourth sliding seat 714; both sides of the third guide shaft 713 are fixedly connected with a third bracket 715; the third guide shaft 713 is slidably connected to the fourth slider 714; the fourth sliding seat 714 is fixedly connected with a fourth motor 716 mounting plate; the output shaft of the fourth motor 716 is fixedly connected with the second rotating shaft 717; the second rotating shaft 717 is fixedly connected with the second rotating disk 718; the second turntable 718 is fixedly connected with three groups of fourth columns 719 around the annular array; three groups of fourth cylinders 719 around the annular array are fixedly connected with the third turntable 720; the third turntable 720 is fixedly connected with the first hollow guide rod 721; the first hollow guide rods 721 are fixedly connected with three groups of first guide rods 722 around the annular array; the center of the first hollow guide 721 is fixedly connected with the first flow guide 723; three groups of first guide rods 722 which are uniformly distributed are fixedly connected with the first concave spray head 724; the first flow guide pipe 723 is fixedly connected with the first concave nozzle 724.

The sagging removing mechanism 8 comprises a fourth spline shaft 801, a seventh support plate 802, a second mounting plate 803, a third electric push rod 804, a seventh straight gear 805, an eighth straight gear 806, a third rotating shaft 807, an eighth support plate 808, a seventh synchronous wheel 809, an eighth synchronous wheel 810, a third screw rod 811, a fourth guide shaft 812, a fifth sliding seat 813, a fourth support 814, a third mounting plate 815, a first air bellow 816, a first electric sliding rail 817, a first fixed block 818, a first hollow guide rod 819, a first guide block 820 and a third spring 821; the fourth spline shaft 801 is rotatably connected with the seventh support plate 802; the fourth spline shaft 801 is connected with the second mounting plate 803 through a bushing; the fourth spline shaft 801 is connected with a seventh spur gear 805 through a shaft sleeve; the fourth spline shaft 801 is rotatably connected with the eighth support plate 808; the lower part of the seventh supporting plate 802 is fixedly connected with the first supporting frame 11; the second mounting plate 803 is fixedly connected with the third electric push rod 804; the lower part of the mounting plate of the third electric push rod 804 is fixedly connected with the first support frame 11; an eighth spur gear 806 is provided on the side of the seventh spur gear 805; when seventh spur gear 805 is meshed with eighth spur gear 806, seventh spur gear 805 drives eighth spur gear 806 to rotate, and when seventh spur gear 805 is disengaged from eighth spur gear 806, eighth spur gear 806 does not rotate; the eighth spur gear 806 is fixedly connected with one end of the third rotating shaft 807; the third rotating shaft 807 is rotatably connected with the eighth supporting plate 808; the third rotating shaft 807 is fixedly connected with a seventh synchronizing wheel 809; the other end of the third rotating shaft 807 is rotatably connected with the fourth bracket 814; the lower part of the eighth supporting plate 808 is fixedly connected with the first supporting frame 11; the outer ring surface of the seventh synchronizing wheel 809 is in transmission connection with the eighth synchronizing wheel 810 through a belt; the eighth synchronizing wheel 810 is fixedly connected with the third screw mandrel 811; both sides of the third screw 811 are rotatably connected with the fourth bracket 814; the third screw mandrel 811 is screwed with the fifth sliding seat 813; both sides of the fourth guiding shaft 812 are fixedly connected with the fourth bracket 814; the fourth guide shaft 812 is slidably connected with the fifth sliding seat 813; the lower part of the fifth sliding seat 813 is fixedly connected with a third mounting plate 815; the lower part of the fourth bracket 814 is fixedly connected with the first support frame 11; the middle part of the side surface of the third mounting plate 815 is fixedly connected with the first air box 816; the lower part of the side surface of the third mounting plate 815 is fixedly connected with a first electric slide rail 817; the first electric sliding rail 817 is fixedly connected with the first fixed block 818 through a sliding block; the first fixing block 818 is slidably connected with the first hollow guide rod 819; the inside of the round hole of the first fixing block 818 is fixedly connected with the third spring 821; the middle part of the outer surface of the first hollow guide rod 819 is fixedly connected with the first guide block 820; the lower part of the first guide block 820 is fixedly connected with a third spring 821.

The center of the first rotating disc 407 is provided with an inner gear ring.

The first concave nozzle 724 is arranged in a diabolo shape.

A through cylindrical groove is disposed inside the first hollow guide rod 819.

When in use, the removable hanging spraying equipment for the teapot with the handle is firstly placed at a position to be used, the first bottom plate 1 on the first cup leg 2 is placed at a stable position, then the external power supply is connected, and the equipment is controlled and started through the control screen 9; firstly, the rotating mechanism 4 is linked to operate through the conveying mechanism 3, so that the rotating mechanism 4 moves to a material loading position, after the teapot is placed and fixed on the rotating mechanism 4 in a reversed mode, the rotating mechanism 4 is reset and moved to be right below the pot surface spraying mechanism 6, when the rotating mechanism 4 moves to be right below the pot surface spraying mechanism 6, the rotating mechanism 4 rotates, meanwhile, the pot surface spraying mechanism 6 starts spraying paint to spray the teapot, and the rotating mechanism 4 rotates to be matched with the teapot to uniformly spray the paint on the surface of the teapot; after the surface of the teapot is painted, the teapot surface spraying mechanism 6 stops painting, meanwhile, the rotating mechanism 4 does not rotate any more, the teapot surface spraying mechanism 6 is reset, and the handle position holding position of the teapot faces to one side of the first concave sprayer 724 of the handle spraying mechanism 7; at this time, when the rotating mechanism 4 stops rotating, the first electric push rod 406 drives the first mounting plate 405 to descend, so that the first mounting plate 405 drives the fourth spur gear 708 to disengage, and meanwhile, the first mounting plate 405 descends to touch the first L-shaped push block 703 of the handle spraying mechanism 7; the fourth straight gear 708 and the sixth straight gear 711 of the handle spraying mechanism 7 are meshed for operation, and the handle spraying mechanism 7 moves to be close to the inner wall of the teapot handle for adhesion and paint spraying; the first concave spray head 724 of the handle spraying mechanism 7 can be matched with the fourth motor 716 to rotate so as to uniformly spray paint on the surface of the teapot handle; after the surface of the teapot handle is painted, the first concave spray head 724 stops painting, meanwhile, the fourth motor 716 stops running, and the handle painting mechanism 7 is reset; when the conveying mechanism 3 is linked with the rotating mechanism 4 to move to the position below the sagging removing mechanism 8, the rotating mechanism 4 rotates, and meanwhile, the sagging removing mechanism 8 starts to remove the sagging paint of the teapot; when the sagging is removed by the sagging removing mechanism 8, the rotating mechanism 4 stops rotating, and meanwhile, the conveying mechanism 3 is linked with the rotating mechanism 4 to move to a discharging position, so that the teapot is taken down; the teapot spraying device can realize the omnibearing uniform spraying of teapots with different specifications by limiting, fixing and matching, can also be attached to the radian of the handle shape of the teapot for uniform spraying, has small switching time difference, greatly reduces the excessive overlapping of paint layers of the teapot and the teapot in a transition region, and realizes uniform coverage fusion; the paint sagging after spraying can be guided and removed by the guide rod, the product quality can be effectively improved, and the surface of the teapot is bright, full and beautiful.

When the first motor 301 starts to operate, the output shaft of the first motor 301 drives the first synchronizing wheel 303 to rotate, the first synchronizing wheel 303 drives the second synchronizing wheel 304 to rotate, the second synchronizing wheel 304 drives the first screw 305 in the third supporting plate 306 and the fourth supporting plate 308 to rotate, and the first screw 305 drives the first slide base 309 screwed with the first screw to slide on the first guide shaft 307.

When the first mounting plate 405 of the rotating mechanism 4 faces one side of the first L-shaped push block 703 of the handle spraying mechanism 7, at this time, the first bracket 401 is fixedly connected with the first slide seat 309, the transporting mechanism 3 is linked with the rotating mechanism 4, the rotating mechanism 4 is moved to a loading position for loading, the teapot needs to be inverted during loading, the holding position of the handle position of the teapot faces one side of the first concave spray head 724 of the handle spraying mechanism 7, and meanwhile, the four second sliding blocks 412, the four first conical blocks 413, the four first buffer blocks 414, the four first springs 416 and the four second spring 417 components are centered on the first cross fixing bracket 415, and after being compressed toward the center of the first cross fixing bracket 415 by force, the teapot can be placed on the rotating mechanism 4 and fixed; when the teapot is fixed, the conveying mechanism 3 drives the rotating mechanism 4 to move to the position below the teapot surface spraying mechanism 6, at this time, the teapot surface spraying mechanism 6 moves to the position to be sprayed, when the rotating mechanism 4 is ready to rotate, the first electric push rod 406 is pushed out, the first electric push rod 406 drives the first mounting plate 405 and the shaft sleeve on the first spline shaft 404 to ascend, the shaft sleeve on the first spline shaft 404 drives the first straight gear 402 to be meshed with the first rotating disc 407, at this time, the second motor 403 starts to operate, the output shaft of the second motor 403 drives the first spline shaft 404 to rotate, the first spline shaft 404 drives the first straight gear 402 to rotate, the first straight gear 402 drives the first rotating disc 407 to rotate, the first rotating disc 407 drives the four groups of first sliders 408 to rotate in the sliding grooves of the first bracket 401, and the first rotating disc 407 drives the first collecting box 409, the first cylinder 410, the first sliding groove plate 411, the second slider 412 and the first tapered block 413 to rotate, The combination of the first buffer block 414, the first spring 416 and the second spring 417 rotates by taking the first cross-shaped fixed bracket 415 as a center, and at this time, the rotating mechanism 4 is matched with the kettle surface spraying mechanism 6 to uniformly spray paint on the kettle surface of the teapot; when the kettle surface is sprayed, the kettle surface spraying mechanism 6 is reset, and the rotating mechanism 4 is ready to stop rotating, at the moment, the first electric push rod 406 retreats, the first electric push rod 406 drives the first mounting plate 405 and the shaft sleeve on the first spline shaft 404 to descend, the shaft sleeve on the first spline shaft 404 drives the first straight gear 402 to descend, the first straight gear 402 is disengaged from the first rotary disc 407, the handle holding position of the teapot faces to one side of the first concave nozzle 724 of the handle spraying mechanism 7, and the rotating mechanism 4 stops rotating; when the first electric push rod 406 retracts, the handle spraying mechanism 7 drives the fourth straight gear 708 to be meshed with the sixth straight gear 711, and the handle spraying mechanism 7 is driven to spray the handle of the teapot; the mechanism realizes the limit fixation of the teapot and the uniform spraying of the rotary function of the teapot matched with the spraying mechanism.

When the transportation mechanism 3 drives the rotation mechanism 4 to move below the spraying mechanism, the second electric push rod 508 is pushed out, the second electric push rod 508 drives the first push plate 507 and the shaft sleeve on the second spline shaft 505 to move, the shaft sleeve on the second spline shaft 505 drives the second spur gear 502 to move, when the second spur gear 502 is engaged with the fifth spur gear 710 in the handle spraying mechanism 7, the third motor 501 starts to rotate, the output shaft of the third motor 501 drives the second spline shaft 505 in the first push plate 507 to rotate, the second spline shaft 505 drives the second spur gear 502 to rotate, the second spur gear 502 drives the fifth spur gear 710 to rotate, the fifth spur gear 710 drives the third spline shaft 707 and the fourth spur gear 708 in the sixth support plate 709 to rotate, because the fourth spur gear 708 is engaged with the third spur gear 603, the fourth spur gear 708 is disengaged from the sixth spur gear 711, at this time, the fourth spur gear 708 drives the third spur gear 603 to rotate, the kettle surface spraying mechanism 6 outputs power, meanwhile, the second spline shaft 505 drives the third synchronizing wheel 503 to rotate, and the third synchronizing wheel 503 drives the fourth synchronizing wheel 504 to rotate; the fourth synchronizing wheel 504 drives the fourth spline shaft 801 of the sagging removing mechanism 8 to rotate, so that the sagging removing mechanism 8 continuously outputs power; after the kettle surface spraying mechanism 6 finishes spraying and resetting, the third motor 501 continuously operates to switch gear states, the fourth straight gear 708 is disengaged from the third straight gear 603, the fourth straight gear 708 is engaged with the sixth straight gear 711, and the third motor 501 outputs power for the handle spraying mechanism 7; the mechanism is realized by providing power output for the kettle surface spraying mechanism 6, the handle spraying mechanism 7 and the sagging removing mechanism 8.

When the transport mechanism 3 drives the rotation mechanism 4 to move below the spraying mechanism, and the rotation mechanism 4 is ready to rotate, the third motor 501 starts to rotate, the third spur gear 603 drives the first rotation shaft 602 to rotate, the first rotation shaft 602 drives the fifth synchronizing wheel 604 to rotate, the fifth synchronizing wheel 604 drives the sixth synchronizing wheel 605 to rotate, the sixth synchronizing wheel 605 drives the first bidirectional screw 606 in the second bracket 601 to rotate, the first bidirectional screw 606 drives the second sliding seat 608 and the third sliding seat 609 which are screwed with the first bidirectional screw to slide on the second guide shaft 607, the second sliding seat 608 drives the second small water tank 614, the second spray head 615, the second water tank 616 and the second conical spray head 617 below to move, the third sliding seat drives the first water tank 610, the first conical spray head 611, the first small water tank 612 and the first spray head 613 below to move, the second sliding seat 608 and the third sliding seat 609 move relatively on the first bidirectional screw 606 and the second guide shaft 607, moving to the spraying position of the teapot, uniformly spraying paint on the surface of the teapot, after the paint is sprayed, starting to stop rotating the rotating mechanism 4, when the holding position of the handle of the teapot faces to one side of the first concave sprayer 724 of the handle spraying mechanism 7, stopping rotating the rotating mechanism 4, and simultaneously enabling the second sliding seat 608 and the third sliding seat 609 to drive the sprayer to reset by the reverse rotation of the third motor 501; the mechanism realizes uniform spraying by using the cambered surface spraying method of the second water tank 616, the second conical spray head 617, the first water tank 610 and the first conical spray head 611 of the spraying mechanism to be attached to the kettle surface of the teapot.

When the kettle surface spraying mechanism 6 is reset, the handle holding opening of the teapot faces to one side of the first concave spray head 724 of the handle spraying mechanism 7; at this time, the rotating mechanism 4 is ready to stop rotating, the second motor 403 stops rotating, the first electric push rod 406 retreats, the rotating mechanism 4 does not rotate any more, the first electric push rod 406 drives the first mounting plate 405 to descend, so that the first mounting plate 405 drives the shaft sleeve on the first spline shaft 404 to descend, the shaft sleeve on the first spline shaft 404 drives the first straight gear 402 to descend and disengage, and meanwhile, the first L-shaped push block 703 is touched when the first mounting plate 405 descends; the first L-shaped push block 703 rotates through the torsion spring in the second cylinder 702, the first L-shaped push block 703 drives the third cylinder 704 to slide in the through groove on the third slide block 705, so that the third slide block 705 slides in the first slide rail 701, the third slide block 705 drives the second L-shaped push block 706 and the bushing on the third spline shaft 707 to move, the bushing on the third spline shaft 707 drives the fourth spur gear 708 to move, so that the fourth spur gear 708 is disengaged from the third spur gear 603 and runs in engagement with the sixth spur gear 711, the third motor 501 in the power transmission mechanism 5 starts to rotate, the fourth spur gear 708 drives the sixth spur gear 711 to rotate, the sixth spur gear 711 drives the second lead screw 712 in the third bracket 715 to rotate, the second lead screw 712 drives the fourth slide seat 714 screwed thereto to slide on the third guide shaft 713, when the fourth slide seat 714 drives the first concave nozzle 724 to move into the handle shape of the teapot, the fourth motor 716 starts to rotate, the output shaft of the fourth motor 716 drives the second rotating shaft 717 to rotate, the second rotating shaft 717 drives the components of the fourth cylinder 719, the third rotating disc 720, the first hollow guide rod 721, the first guide rod 722, the first flow guide pipe 723 and the first concave spray head 724 on the second rotating disc 718 to rotate, the first concave spray head 724 rotates to uniformly spray paint along the radian of the handle shape of the teapot, the fourth motor 716 stops rotating after the paint spraying is finished, meanwhile, the third motor 501 rotates reversely to drive the fourth sliding seat 714 to reset, after the resetting is finished, the third motor 501 in the power transmission mechanism 5 stops rotating, the second electric push rod 508 retracts, the second electric push rod 508 drives the first push plate 507 and the shaft sleeve on the second spline shaft 505 to move, the shaft sleeve on the second spline shaft 505 drives the second spur gear 502 to move, when the second spur gear 502 is disengaged from the fifth spur gear 710 in the handle spraying mechanism 7, the power transmission mechanism 5 disconnects the connection power of the kettle surface spraying mechanism 6 and the handle spraying mechanism 7; at this time, the first electric push rod 406 in the rotating mechanism 4 is pushed out, the first electric push rod 406 drives the first mounting plate 405 and the shaft sleeve on the first spline shaft 404 to ascend, the shaft sleeve on the first spline shaft 404 drives the first spur gear 402 to ascend and engage with the first rotating disc 407, the rotating mechanism 4 starts to rotate, meanwhile, the first mounting plate 405 ascends and does not touch the first L-shaped push block 703 any more, the first L-shaped push block 703 is automatically rotated and reset under the action of a torsion spring, the first L-shaped push block 703 drives the third cylinder 704 to slide in the through groove on the third slider 705, so that the third slider 705 slides in the first sliding rail 701, the third slider 705 drives the second L-shaped push block 706, the third spline shaft 707 and the fourth spur gear 708 to move, so that the fourth spur gear 708 engages with the third spur gear 603 and disengages from the sixth spur gear 711, at this time, the transport mechanism 3 moves the rotating mechanism 4 linked with the transport mechanism to the lower part of the sagging mechanism 8, preparing to remove sagging paint of the teapot; the function of this mechanism is to spray paint evenly by the first concave spray head 724 against the arc of the teapot handle shape.

When the teapot handle is sprayed, the rotating mechanism 4 is ready to rotate, and the conveying mechanism 3 moves the rotating mechanism 4 linked with the conveying mechanism to the position below the sagging removing mechanism 8, the third electric push rod 804 is pushed out, the third electric push rod 804 drives the second mounting plate 803 and the shaft sleeve on the fourth spline shaft 801 to move, the shaft sleeve on the fourth spline shaft 801 drives the seventh spur gear 805 to move and engage with the eighth spur gear 806, at this time, the third motor 501 in the power transmission mechanism 5 starts to rotate, the fourth synchronous gear 504 drives the fourth spline shaft 801 in the seventh support plate 802 and the eighth support plate 808 to rotate, the fourth spline shaft 801 drives the seventh spur gear 805 to rotate, the seventh spur gear 805 drives the eighth spur gear 806 to rotate, the eighth spur gear 806 drives the third rotating shaft 807 in the eighth support plate 808 to rotate, the third rotating shaft 807 drives the seventh synchronous gear 809 to rotate, the seventh synchronous gear 809 drives the eighth synchronous gear 810 to rotate, the eighth synchronizing wheel 810 drives a third screw 811 in the fourth support 814 to rotate, the third screw 811 drives a fifth slide 813 screwed with the third screw to slide on a fourth guide shaft 812, the fifth slide 813 drives a third mounting plate 815, a first air box 816, a first electric slide 817, a first fixed block 818, a first hollow guide rod 819, a first guide block 820 and a third spring 821 to move, when the fifth slide 813 drives the first hollow guide rod 819 to move to the lower part of the inverted teapot, the movement stops at the moment, the first air box 816 starts blowing air, and simultaneously the first electric slide 817 drives the first fixed block 818 to move upwards, the movement stops when the first hollow guide rod 819 contacts with a spout at the lower part of the inverted teapot, at the moment, the second motor 403 starts to rotate, the rotary mechanism 4 teapot starts to rotate with the rotary mechanism, and the sagging paint formed on the teapot surface is acted by the air blown by the first air box 816 and slowly flows downwards, when the sagging paint is collected below the inverted teapot spout, the first hollow diversion rod 819 guides the sagging paint of the inverted teapot spout, the paint is acted by the wind force of the first air bellow 816 and the centrifugal force of the rotating mechanism 4, the paint flows downwards along the through hole of the contact part of the first hollow diversion rod 819 and the teapot and flows into the box of the first collection box 409, after the sagging paint is removed, the first electric slide rail 817 drives the first fixing block 818 to move downwards, the first hollow diversion rod 819 is not contacted with the teapot any more, at this time, the third motor 501 rotates reversely to drive the fifth slide carriage 813 in the sagging mechanism 8 to reset, after the resetting is completed, the third motor 501 and the second motor 403 stop rotating, at this time, the third electric push rod 804 retracts, the third electric push rod 804 drives the shaft sleeves on the second mounting plate 803 and the fourth mounting plate 801 to move, the shaft sleeve on the fourth spline shaft 801 drives the seventh spline shaft straight gear 805 to move to be disengaged with the eighth straight gear 806, the power transmission of the power transmission mechanism 5 and the sagging removing mechanism 8 is cut off, meanwhile, the conveying mechanism 3 drives the rotating mechanism 4 to move to a discharging position, and the teapot of the rotating mechanism 4 is taken away; this mechanism achieves the effect of removing sagging by using the contact of the first hollow deflector rod 819 with the teapot to direct the paint to flow down.

The first spur gear 402 may be engaged with an inner gear ring at the center of the first turntable 407.

The first concave spray head 724 can be made to spray evenly around the arc of the teapot handle shape.

The sagging paint of the teapot can flow into the first collection box 409 to be collected along the cylindrical groove inside the first hollow guide rod 819.

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 (10)

1. A removable hanging spraying device for teapots with handles comprises a first bottom plate (1), first cup legs (2), a control screen (9), a first supporting plate (10) and a first supporting frame (11); a group of first cup legs (2) are arranged at four corners below the first bottom plate (1); a first supporting plate (10) is arranged at the left rear part above the first bottom plate (1); the control screen (9) is arranged on the side surface of the first supporting plate (10); a first support frame (11) is arranged on the right side above the first bottom plate (1); the kettle surface spraying device is characterized by also comprising a conveying mechanism (3), a rotating mechanism (4), a power transmission mechanism (5), a kettle surface spraying mechanism (6), a handle spraying mechanism (7) and a sagging removing mechanism (8); the middle left part and the front side above the first bottom plate (1) are provided with a conveying mechanism (3); a rotating mechanism (4) is arranged above the conveying mechanism (3); a kettle surface spraying mechanism (6) is arranged on one side above the first supporting plate (10); a kettle surface spraying mechanism (6) and a handle spraying mechanism (7) are installed on one side above the first support frame (11), and the kettle surface spraying mechanism (6) is located on the front side of the handle spraying mechanism (7); the other side of the upper part of the first support frame (11) is provided with a sagging removing mechanism (8); the transport mechanism (3) is used for transporting the teapot to a required position; the rotating mechanism (4) is used for fixing the teapot and automatically rotating and suspending the rotation; the power transmission mechanism (5) is used for outputting power to the kettle surface spraying mechanism (6), the handle spraying mechanism (7) and the sagging removal mechanism (8); the kettle surface spraying mechanism (6) is used for spraying paint on the outer surface of the teapot uniformly; the handle spraying mechanism (7) is used for completely supplementing the part which is not sprayed by the radian of the handle of the teapot; the sagging removing mechanism (8) is used for removing the sagging phenomenon after the teapot is sprayed.

2. The removable hanging spraying device for the teapot with the handle as claimed in claim 1, characterized in that the transport mechanism (3) comprises a first motor (301), a second support plate (302), a first synchronizing wheel (303), a second synchronizing wheel (304), a first screw rod (305), a third support plate (306), a first guide shaft (307), a fourth support plate (308) and a first slide (309); the lower part of the first motor (301) is fixedly connected with the first bottom plate (1); an output shaft of the first motor (301) is rotationally connected with the second supporting plate (302); an output shaft of the first motor (301) is fixedly connected with a first synchronous wheel (303); the outer ring surface of the first synchronizing wheel (303) is in transmission connection with the second synchronizing wheel (304) through a belt; the second synchronizing wheel (304) is fixedly connected with the first screw rod (305); one end of the first screw rod (305) is rotatably connected with the third support plate (306); the other end of the first screw rod (305) is rotationally connected with a fourth supporting plate (308); the first screw rod (305) is connected with the first sliding seat (309) in a screwing way; the lower part of the third supporting plate (306) is fixedly connected with the first bottom plate (1); the third support plate (306) is fixedly connected with one end of the first guide shaft (307); the other end of the first guide shaft (307) is fixedly connected with a fourth supporting plate (308); the first guide shaft (307) is connected with the first sliding seat (309) in a sliding way; the lower part of the fourth supporting plate (308) is fixedly connected with the first bottom plate (1); the upper part of the first sliding seat (309) is fixedly connected with the rotating mechanism (4).

3. The removable hanging spraying device for the teapot with the handle as claimed in claim 2, wherein the rotating mechanism (4) comprises a first bracket (401), a first straight gear (402), a second motor (403), a first spline shaft (404), a first mounting plate (405), a first electric push rod (406), a first rotary disc (407), a first slider (408), a first collection box (409), a first cylinder (410), a first chute plate (411), a second slider (412), a first conical block (413), a first buffer block (414), a first cross fixing bracket (415), a first spring (416) and a second spring (417); the lower part of the first bracket (401) is fixedly connected with a first sliding seat (309); the sliding groove above the first support (401) is in sliding connection with four groups of first sliding blocks (408) on the periphery of the annular array; an output shaft of the second motor (403) is fixedly connected with one end of the first spline shaft (404); the outer surface of the first spline shaft (404) is rotationally connected with the first mounting plate (405); the first spline shaft (404) is connected with the first straight gear (402) through a shaft sleeve; the first straight gear (402) is in transmission connection with the first rotating disc (407); when the first straight gear (402) is meshed with the first rotating disc (407), the first straight gear (402) rotates with the first rotating disc (407), and when the first straight gear (402) is not meshed with the first rotating disc (407), the first rotating disc (407) does not rotate; the lower part of the first mounting plate (405) is rotationally connected with a first electric push rod (406); the first electric push rod (406) is fixedly connected with the first sliding seat (309); the lower part of the first turntable (407) is fixedly connected with four groups of first sliding blocks (408) arranged around the annular array; the upper part of the first rotating disc (407) is fixedly connected with a first collecting box (409); the upper part of the first collecting box (409) is fixedly connected with a first cylinder (410); the upper part of the first cylinder (410) is fixedly connected with a first chute plate (411); the upper part of the first chute plate (411) is in sliding connection with the second sliding block (412); the center above the first chute plate (411) is fixedly connected with a first cross-shaped fixed bracket (415); the upper part of the second sliding block (412) is fixedly connected with the first conical block (413); the outer side of the first conical block (413) is fixedly connected with a first buffer block (414); the first cross fixing bracket (415) is fixedly connected with one end of a first spring (416); the first cross fixing bracket (415) is fixedly connected with one end of a second spring (417); the other end of the first spring (416) is fixedly connected with the first conical block (413); the other end of the second spring (417) is fixedly connected with the first conical block (413); the combination of the second sliding block (412), the first conical block (413), the first buffer block (414), the first spring (416) and the second spring (417) is arranged in four groups in a circle array by taking the first cross fixing support (415) as a central point.

4. The removable hanging spraying device for the teapot with the handle as claimed in claim 3, wherein the power transmission mechanism (5) comprises a third motor (501), a second spur gear (502), a third synchronous gear (503), a fourth synchronous gear (504), a second spline shaft (505), a fifth support plate (506), a first push plate (507) and a second electric push rod (508); the lower part of the mounting plate of the third motor (501) is fixedly connected with the first support frame (11); an output shaft of the third motor (501) is fixedly connected with the second spline shaft (505); the second spline shaft (505) is connected with the second straight gear (502) through a shaft sleeve; the second spline shaft (505) is fixedly connected with the third synchronous wheel (503); the outer ring surface of the third synchronous wheel (503) is in transmission connection with the fourth synchronous wheel (504) through a belt; the fourth synchronizing wheel (504) is fixedly connected with the sagging removing mechanism (8); the second spline shaft (505) is rotationally connected with the fifth support plate (506); the second spline shaft (505) is connected with the first push plate (507) through a shaft sleeve; the first push plate (507) is fixedly connected with the second electric push rod (508); the mounting plate of the second electric push rod (508) is fixedly connected with the first support frame (11).

5. The removable sagging spraying device for teapots with handles as claimed in claim 4, wherein the pot surface spraying mechanism (6) comprises a second bracket (601), a first rotating shaft (602), a third spur gear (603), a fifth synchronizing wheel (604), a sixth synchronizing wheel (605), a first bidirectional screw (606), a second guiding shaft (607), a second slide carriage (608), a third slide carriage (609), a first water tank (610), a first conical spray head (611), a first small water tank (612), a first spray head (613), a second small water tank (614), a second spray head (615), a second water tank (616) and a second conical spray head (617); the left side below the second bracket (601) is fixedly connected with the first supporting plate (10); the right side below the second bracket (601) is fixedly connected with the first bracket (11); the right side of the second bracket (601) is rotatably connected with the first rotating shaft (602); the outer surface of the first rotating shaft (602) is fixedly connected with a third straight gear (603) and a fifth synchronous gear (604) in sequence; the outer ring surface of the fifth synchronizing wheel (604) is in transmission connection with a sixth synchronizing wheel (605) through a belt; the sixth synchronizing wheel (605) is fixedly connected with the first bidirectional screw rod (606); both sides of the first bidirectional screw rod (606) are rotatably connected with the second bracket (601); the outer surface of the first bidirectional screw rod (606) is sequentially screwed with the second sliding seat (608) and the third sliding seat (609); both sides of the second guide shaft (607) are fixedly connected with the second bracket (601); the outer surface of the second guide shaft (607) is sequentially connected with a second sliding seat (608) and a third sliding seat (609) in a sliding way; the lower part of the second sliding seat (608) is fixedly connected with a second small water tank (614); the left side below the second small water tank (614) is fixedly connected with a plurality of groups of second spray heads (615) which are distributed at equal intervals; the right side below the second small water tank (614) is fixedly connected with the second water tank (616); the left side of the second water tank (616) is fixedly connected with a plurality of groups of second conical spray heads (617) which are distributed at equal intervals; the lower part of the third sliding seat (609) is fixedly connected with the first water tank (610); the right side of the first water tank (610) is fixedly connected with a plurality of groups of first conical spray heads (611) which are distributed at equal intervals; the lower part of the first water tank (610) is fixedly connected with a first small water tank (612); the right side above the first small water tank (612) is fixedly connected with a plurality of groups of first spray heads (613) which are distributed at equal intervals.

6. The removable hanging spraying device for the teapot with the handle as claimed in claim 5, wherein the handle spraying mechanism (7) comprises a first sliding rail (701), a second cylinder (702), a first L-shaped push block (703), a third cylinder (704), a third sliding block (705), a second L-shaped push block (706), a third spline shaft (707), a fourth spur gear (708), a sixth supporting plate (709), a fifth spur gear (710), a sixth spur gear (711), a second screw rod (712), a third guide shaft (713), a fourth sliding seat (714), a third bracket (715), a fourth motor (716), a second rotating shaft (717), a second rotating disc (718), a fourth cylinder (719), a third rotating disc (720), a first hollow guide rod (721), a first guide rod (722), a first guide pipe (723) and a first concave spray head (724); the lower part of the first slide rail (701) is fixedly connected with a first support frame (11); the first sliding rail (701) is in sliding connection with the third sliding block (705); the side surface of the second cylinder (702) is fixedly connected with the first support frame (11); the second cylinder (702) is rotatably connected with the first L-shaped push block (703) through a torsion spring; the side surface of the first L-shaped push block (703) is fixedly connected with the third cylinder (704); the third cylinder (704) is in sliding connection with the third sliding block (705); the side surface of the third sliding block (705) is fixedly connected with a second L-shaped push block (706); the second L-shaped push block (706) is connected with a third spline shaft (707) through a shaft sleeve; the third spline shaft (707) is connected with a fourth straight gear (708) through a shaft sleeve; the outer surface of the third spline shaft (707) is rotationally connected with a sixth supporting plate (709); the side surface of the third spline shaft (707) is fixedly connected with a fifth straight gear (710); a second spur gear (502) is arranged on the side surface of the fifth spur gear (710); when the fifth spur gear (710) is meshed with the second spur gear (502), the fifth spur gear (710) drives the second spur gear (502) to rotate, and when the fifth spur gear (710) is disconnected from the second spur gear (502), the second spur gear (502) does not rotate; the lower part of the sixth supporting plate (709) is fixedly connected with the first supporting frame (11); a sixth straight gear (711) is arranged on the right side surface of the fourth straight gear (708); a third straight gear (603) is arranged on the left side surface of the fourth straight gear (708); when the fourth straight gear (708) is meshed with the sixth straight gear (711), the fourth straight gear (708) is disengaged from the third straight gear (603), the fourth straight gear (708) drives the sixth straight gear (711) to rotate, the third straight gear (603) does not rotate, when the fourth straight gear (708) is disengaged from the sixth straight gear (711), the fourth straight gear (708) is meshed with the third straight gear (603), the fourth straight gear (708) drives the third straight gear (603) to rotate, and the sixth straight gear (711) does not rotate; the sixth straight gear (711) is fixedly connected with the second screw rod (712); both sides of the second screw rod (712) are rotatably connected with the third bracket (715); the second screw rod (712) is in screwed connection with the fourth sliding seat (714); both sides of the third guide shaft (713) are fixedly connected with a third bracket (715); the third guide shaft (713) is connected with the fourth sliding seat (714) in a sliding way; the fourth sliding seat (714) is fixedly connected with a fourth motor (716) mounting plate; the output shaft of the fourth motor (716) is fixedly connected with the second rotating shaft (717); the second rotating shaft (717) is fixedly connected with the second rotating disc (718); the second turntable (718) is fixedly connected with three groups of fourth cylinders (719) at the periphery of the annular array; three groups of fourth cylinders (719) around the annular array are fixedly connected with a third turntable (720); the third rotary table (720) is fixedly connected with the first hollow guide rod (721); the first hollow guide rods (721) are fixedly connected with three groups of first guide rods (722) on the periphery of the annular array; the central part of the first hollow guide rod (721) is fixedly connected with a first flow guide pipe (723); three groups of first guide rods (722) which are uniformly distributed are fixedly connected with the first concave spray head (724); the first flow guide pipe (723) is fixedly connected with the first concave spray head (724).

7. The desludgable spraying equipment for the teapot with the handle is characterized in that the desludgable mechanism (8) comprises a fourth spline shaft (801), a seventh supporting plate (802), a second mounting plate (803), a third electric push rod (804), a seventh straight gear (805), an eighth straight gear (806), a third rotating shaft (807), an eighth supporting plate (808), a seventh synchronous gear (809), an eighth synchronous gear (810), a third screw rod (811), a fourth guide shaft (812), a fifth sliding seat (813), a fourth support (814), a third mounting plate (815), a first bellows (816), a first electric sliding rail (817), a first fixed block (818), a first hollow guide rod (819), a first guide block (820) and a third spring (821); the fourth spline shaft (801) is rotationally connected with the seventh support plate (802); the fourth spline shaft (801) is connected with the second mounting plate (803) through a shaft sleeve; the fourth spline shaft (801) is connected with the seventh straight gear (805) through a shaft sleeve; the fourth spline shaft (801) is rotationally connected with the eighth support plate (808); the lower part of the seventh supporting plate (802) is fixedly connected with the first supporting frame (11); the second mounting plate (803) is fixedly connected with a third electric push rod (804); the lower part of the mounting plate of the third electric push rod (804) is fixedly connected with the first support frame (11); the eighth spur gear (806) is arranged on the side surface of the seventh spur gear (805); when the seventh straight gear (805) is meshed with the eighth straight gear (806), the seventh straight gear (805) drives the eighth straight gear (806) to rotate, and when the seventh straight gear (805) is disconnected from the eighth straight gear (806), the eighth straight gear (806) does not rotate; the eighth straight gear (806) is fixedly connected with one end of the third rotating shaft (807); the third rotating shaft (807) is rotatably connected with the eighth supporting plate (808); the third rotating shaft (807) is fixedly connected with a seventh synchronizing wheel (809); the other end of the third rotating shaft (807) is rotatably connected with a fourth bracket (814); the lower part of the eighth supporting plate (808) is fixedly connected with the first supporting frame (11); the outer ring surface of the seventh synchronous wheel (809) is in transmission connection with the eighth synchronous wheel (810) through a belt; the eighth synchronizing wheel (810) is fixedly connected with the third screw rod (811); both sides of the third screw rod (811) are rotatably connected with the fourth bracket (814); the third screw rod (811) is screwed with the fifth sliding seat (813); both sides of the fourth guide shaft (812) are fixedly connected with a fourth bracket (814); the fourth guide shaft (812) is in sliding connection with the fifth sliding seat (813); the lower part of the fifth sliding seat (813) is fixedly connected with a third mounting plate (815); the lower part of the fourth bracket (814) is fixedly connected with the first bracket (11); the middle part of the side surface of the third mounting plate (815) is fixedly connected with the first air box (816); the lower part of the side surface of the third mounting plate (815) is fixedly connected with a first electric sliding rail (817); the first electric sliding rail (817) is fixedly connected with the first fixed block (818) through a sliding block; the first fixing block (818) is in sliding connection with the first hollow flow guide rod (819); the inner part of the round hole of the first fixed block (818) is fixedly connected with a third spring (821); the middle part of the outer surface of the first hollow guide rod (819) is fixedly connected with the first guide block (820); the lower part of the first guide block (820) is fixedly connected with a third spring (821).

8. The detachable hanging spraying device for teapots with handles as claimed in claim 7, wherein the center of the first rotating disk (407) is provided with an inner gear ring.

9. The detachable hang sprayer for teapots with handles as claimed in claim 8, wherein the first concave sprayer (724) is of diabolo type.

10. The removable drip spray apparatus for teapots with handles as claimed in claim 9, wherein the first hollow guide rod (819) has a through cylindrical slot therein.

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