CN117507392B

CN117507392B - Equipment for automatically forming and automatically mounting handles of plastic barrels

Info

Publication number: CN117507392B
Application number: CN202410016705.6A
Authority: CN
Inventors: 荣延光
Original assignee: Xingtai Zhongde Machinery Manufacturing Co ltd
Current assignee: Xingtai Zhongde Machinery Manufacturing Co ltd
Priority date: 2024-01-05
Filing date: 2024-01-05
Publication date: 2024-03-08
Anticipated expiration: 2044-01-05
Also published as: CN117507392A

Abstract

The invention relates to automatic production equipment for a plastic bucket handle, in particular to equipment for automatically forming and automatically installing the plastic bucket handle; the equipment comprises a driving motor electrically connected with a control box, wherein the driving motor is connected with an upper die connecting rod device, the upper die connecting rod device is connected with an upper die device, the side surface of the upper die device is fixedly connected with a cutter device, the side surface of the cutter device is fixedly connected with a frame, and the side surface of the frame is fixedly connected with a wire feeding straightening device; the lower part of the upper die device is meshed with a lower die linkage device, two sides of the lower die linkage device are symmetrically provided with hook assembly devices, the lower part of the lower die linkage device is connected with a rotary assembly device, the rotary assembly device is connected with a plastic barrel, and a plastic barrel conveying jacking device is arranged below the plastic barrel; the invention solves the problems that the plastic bucket handle produced by the existing bucket hook machine can not be rapidly and automatically molded, the automatic installation of the handle can not be realized, and the like.

Description

Equipment for automatically forming and automatically mounting handles of plastic barrels

Technical Field

The invention relates to automatic production equipment for a plastic bucket handle, in particular to equipment for automatically forming and automatically installing the plastic bucket handle.

Background

The plastic bucket is used for containing liquid and solid articles in the industries of chemical industry, pesticide industry, medicine industry, food industry, hardware electronics industry, electromechanical industry and the like, and has wide application and high yield; the plastic bucket is generally provided with a metal handle, and the forming and installing process of the metal handle comprises the steps of penetrating a steel wire through a handle bracelet, bending the whole steel wire into an arch shape, and bending the end parts of the steel wire to enable two ends to be inserted into installing holes on the edge of the plastic bucket.

In the prior art, the plastic drum handle of bucket hook machine production is through artifical collection and install plastic drum both sides with the manual work with the plastic drum handle, and the bucket hook machine can not install on the plastic drum in step, and when installing the bracelet process, adopts artifical installation in addition, leads to the process many, consuming time long, and the manual work is invested in greatly, and production efficiency is low.

To this end, the applicant has provided an apparatus for automatically forming and automatically mounting handles of plastic barrels, in order to solve the problems set forth in the background art described above.

Disclosure of Invention

The invention aims to provide a device for automatically forming and automatically installing a bucket handle of a plastic bucket, which aims to solve the problems that the bucket handle produced by the existing bucket hook machine cannot be quickly and automatically formed, the automatic installation of the handle cannot be realized, and the like.

In order to solve the technical problems, the equipment for automatically forming and automatically installing the handles of the plastic barrels comprises a driving motor, wherein the driving motor is electrically connected with a control box, the driving motor is connected with an upper die connecting rod device, the upper die connecting rod device is connected with an upper die device, the side surface of the upper die device is fixedly connected with a cutter device, the side surface of the cutter device is fixedly connected with a frame, and the side surface of the frame is fixedly connected with a wire feeding straightening device; the lower part of the upper die device is meshed with a lower die linkage device, two sides of the lower die linkage device are symmetrically provided with hook assembly devices, the lower part of the lower die linkage device is connected with a rotary assembly device, the rotary assembly device is connected with a plastic barrel, and a plastic barrel conveying jacking device is arranged below the plastic barrel;

the upper die connecting rod device comprises an eccentric wheel penetrated by the main shaft, the eccentric wheel is connected with a distance adjusting screw rod through flange threads, and one end of the distance adjusting screw rod is fixedly connected with a double lug groove; cams penetrated by the main shaft are symmetrically arranged on two side surfaces of the eccentric wheel, belt wheels are penetrated by the end parts of the main shaft, and the belt wheels are connected with a driving motor through a belt;

the upper die device comprises an upper die, a single-lug component is fixed on the top of the upper die through a middle screw, and the single-lug component is connected with the double-lug groove; linear guide rails are symmetrically arranged on two sides of the front end surface of the upper die and fixedly connected to the guide rail seat; symmetrical hole slots are formed in the bottom edge of the upper die, and elastic positioning columns are arranged in the inner cavities of the hole slots;

the cutter device comprises an L-shaped cutter seat, an oil cylinder is connected to the outer side of a vertical plate of the L-shaped cutter seat, an oil cylinder connecting block is arranged on the inner side of the vertical plate of the L-shaped cutter seat, a cutter fixing plate is embedded in the oil cylinder connecting block, a cutter is embedded in the cutter fixing plate, and the front end of the cutter penetrates through the cutter guide frame;

the lower die linkage device comprises a lower die backboard, the top edge of the lower die backboard is connected with a tension spring, the surface of the lower die linkage device is provided with symmetrical lower die linear guide rails, the bottom of the side surface of the lower die backboard is provided with a lower die connecting plate, the lower die connecting plate is connected with a lower die, and the lower die and the upper die are meshed with each other on the same vertical surface;

the hook assembly device comprises a mounting vertical plate, a hook die guide sleeve is fixedly arranged at the upper part of the side surface of the mounting vertical plate, a hook die is embedded in the hook die guide sleeve, a hook guide groove is formed in the front end of the hook die, and the rear end of the hook die is connected with an oil cylinder;

the rotary assembly device comprises a positioner fixed on the frame and a rotary support, wherein a rotary servo flange is fixed on the side face of the rotary support, a driving sprocket is arranged on the top face of the rear end of the rotary servo flange, a rotary driving assembly is arranged on the top face of the driving sprocket, the front end of the rotary servo flange penetrates through a cone disc shaft, and the cone disc shaft penetrates through a driven sprocket, a cone barrel flange, the rotary servo flange and a rotary positioning mechanism from top to bottom in sequence.

As still further aspects of the invention: send line alignment device including fixed the line riser A that leans on in the frame, send line riser A side vertical fixation mounting panel, the mounting panel runs through and sets up and send line slider, send line slider top surface and set up rectangular spring, runs through in the middle of sending line slider and set up the bearing, the line wheel is connected to the bearing front end, send line gear train is connected to the bearing rear end, the side vertical fixation of mounting panel send line riser B, send line riser B side to lean on to send line alignment and link the piece board, send line alignment and link the piece board side and set gradually vertical and horizontal alignment ware.

As still further aspects of the invention: the vertical and horizontal straightener comprises a plurality of bearing mounting plates, a plurality of V-shaped wheels are arranged on the side surfaces of the bearing mounting plates, eccentric bearing seats are arranged on the side edges of the bearing mounting plates, the end surfaces of the eccentric bearing seats are connected with the eccentric bearings, and the other end surfaces of the eccentric bearing seats are connected with handles; the lateral side of the transverse straightener is provided with a threading plate.

As still further aspects of the invention: the plastic drum carries jack-up device includes the transport frame, and transport frame rear end sets up initiative gyro wheel, initiative gyro wheel electric connection conveying motor, and transport frame front end sets up driven gyro wheel, and transport frame both sides limit sets up the conveyer belt respectively, and the embedded lift spiral dish of transport frame top surface, lift spiral dish lower extreme connection jack-up ware, transport frame bottom sets up a plurality of adjustable backup pads.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the equipment for automatically forming and automatically installing the bucket handles of the plastic bucket, disclosed by the invention, the bucket handles of the plastic bucket are fully and automatically formed and automatically installed by arranging the upper die connecting rod device, the upper die device, the lower die linkage device, the hook assembly device, the rotary assembly device and the bucket conveying jacking device, so that the labor cost is saved, and the production efficiency is improved.

2. According to the equipment for automatically forming and automatically installing the handles of the plastic barrels, the wire feeding straightening connecting piece plates are provided with the vertical and horizontal straighteners, and the straightening effect of steel wires is achieved by arranging the straighteners in different directions; the straightener comprises a plurality of V-shaped wheels which are distributed up and down, so that the V-shaped wheels can straighten the steel wire more finely, and the occurrence probability of defective products is reduced. Drawings

FIG. 1 is a schematic view of an apparatus for automatically forming and automatically attaching a bucket handle to a plastic bucket;

FIG. 2 is a front view of FIG. 1;

FIG. 3 is a schematic view of the upper die linkage of FIG. 1;

FIG. 4 is a schematic view of the upper die apparatus of FIG. 1;

figure 5 is a front view of the cutter assembly of figure 2;

FIG. 6 is a schematic view of the cutter assembly of FIG. 1;

fig. 7 is a schematic structural view of the wire feeding alignment device of fig. 1;

fig. 8 is a schematic view of an installation structure of the wire feeding alignment device of fig. 1;

FIG. 9 is a schematic diagram of the lower mold linkage of FIG. 1;

FIG. 10 is a schematic view of the hook assembly apparatus of FIG. 1;

FIG. 11 is a schematic view of the rotary assembly device of FIG. 1;

fig. 12 is a schematic structural view of the plastic bucket transporting and jacking device of fig. 1.

Reference numerals: 1-a control box; 2-driving a motor; 3-an upper die connecting rod device; 31-a main shaft; 32-eccentric wheel; 33-a distance adjusting screw; 34-binaural grooves; 35-cam; 36-pulleys; 4-upper die device; 41-upper die; 42-single ear member; 43-linear guide rail; 44-a guide rail seat; 45-elastic positioning columns; 5-a cutter device; 51-L-shaped cutter seat; 52-connecting the oil cylinders; 53-a cutter fixing plate; 54, a cutter; 55-a cutter guide frame; 6-a wire feeding straightening device; 61-feeding a vertical plate A; 62-mounting plates; 63-wire feeding slide blocks; 64-rectangular springs; 65-wire feeding wheels; 66-wire feed gear set; 67-a wire feeding vertical plate B; 68-wire feed alignment tie plate; 691-a bearing mounting plate; 692-V wheels; 693-eccentric bearing blocks; 694-eccentric bearings; 695-handle; 696-threading plate; 7-a lower die linkage; 71-a lower die back plate; 72-a tension spring; 73-lower die linear guide rail; 74-a lower die connecting plate; 75-lower die; 8-hook assembly means; 81-mounting a vertical plate; 82-hook die guide sleeve; 83-hook die; 84-hook guide slots; 9-a rotary assembly device; 91-a positioner; 92-rotating a bracket; 93-rotating the servo flange; 94-a drive sprocket; 95-a rotary drive assembly; 96-cone disc shaft; 97-driven sprocket; 98-cone flange; 99-a rotational positioning mechanism; 10-a plastic bucket conveying and jacking device; 101-a conveyor frame; 102-driving roller; 103-a conveying motor; 104-a conveyor belt; 105-lifting spiral disc; 106-jack; 107-an adjustable support plate; 11-a frame.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are directions or positional relationships based on the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element to be referred to must have a specific direction, be constructed and operated in a specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The invention is further illustrated with reference to specific embodiments.

As shown in fig. 1 to 4, 9 and 10, the apparatus for automatically forming and automatically mounting a plastic bucket handle according to the present embodiment includes: the driving motor 2 is electrically connected with the control box 1, and the driving motor 2 is connected with a belt pulley 36 of the upper die connecting rod device 3 through a belt to provide power; the upper die connecting rod device 3 comprises an eccentric wheel 32 penetrated by a main shaft 31, a shaft hole of the eccentric wheel 32 is deviated to one side, two side surfaces of the eccentric wheel 32 are symmetrically provided with cams 35 penetrated by the main shaft 31, the cams 35 are clamped with the eccentric wheel 32, the eccentric wheel 32 is connected with a distance adjusting screw 33 through flange threads, the distance adjusting screw 33 is used for adjusting the distance between the eccentric wheel 32 and the upper die connecting rod device 3 so as to more precisely control the engagement of dies, one end of the distance adjusting screw 33 is fixedly connected with a double-lug groove 34, the double-lug groove 34 is movably connected with a single-lug component 42 pin shaft fixed on the middle of the top of the 4 upper die device 4, the upper die device 4 comprises an upper die 41, two sides of the front end surface of the upper die 41 are symmetrically provided with linear guide rails 43, the linear guide rails 43 are fixedly connected with a guide rail seat 44, and the upper die 41 can move up and down through the linear guide rails 43 to repeatedly press dies; a symmetrical hole groove is formed in the bottom edge of the upper die 41, an elastic positioning column 45 is arranged in the inner cavity of the hole groove, and the elastic positioning column 45 can accurately determine the position of the upper die 41; the lower die linkage device 7 comprises a lower die backboard 71, the top edge of the lower die backboard 71 is connected with a tension spring 72, the tension spring 72 enables the lower die linkage device 7 to elastically bite the upper die 41 to work, the lower die linkage device 7 also has a damping effect, a symmetrical lower die linear guide rail 73 is arranged on the surface of the lower die linkage device 7, the lower die linear guide rail 73 is connected with the rear end face of the upper die 41 in a sliding mode, the upper die 41 can slide up and down, a lower die connecting plate 74 is arranged at the bottom of the side face of the lower die backboard 71, the lower die connecting plate 74 is connected with a lower die 75, the lower die 75 and the upper die 41 are meshed with each other on the same vertical face, a hook assembly device 8 is symmetrically arranged below the lower die 75, the hook assembly device 8 comprises a mounting vertical plate 81, a hook die guide sleeve 82 is fixedly arranged on the upper portion of the side face of the mounting vertical plate 81, a hook die 83 is embedded in the hook die guide sleeve 82, a hook guide groove 84 is formed in the front end of the hook die 83, an oil cylinder is connected to the rear end of the hook die 83, and the piston moves in the oil cylinder in a reciprocating mode in the direction of the cylinder to push the hook die 83.

During operation, the belt wheel 36 rotates to drive the cam 35 to rotate, the cam 35 rotates to drive the eccentric wheel 32 to rotate, the eccentric wheel 32 rotates on the main shaft 31, the center of the eccentric wheel 32 is not located on a rotating point, the outer edge of the eccentric wheel 32 pushes the double lug groove 34 to do circular motion, the double lug groove 34 is movably connected with the single lug component 42 through the pin shaft, the single lug component 42 is fixedly arranged in the middle of the top of the upper die device 4, the upper die device 4 can only reciprocate up and down along the linear guide rail 43, the up and down reciprocating motion of the upper die device 4 bites the lower die linkage 7, a steel wire is pressed and molded, the tail end of the steel wire can be led into the hook assembly device 8 at the same time, and the tail end of the steel wire penetrates into a plastic barrel hook hole under the action of the hook guide groove 84.

As shown in fig. 4-6, the side surface of the upper die device 4 is fixedly connected with the cutter device 5, the cutter device 5 comprises an L-shaped cutter seat 51, the outer side of a vertical plate of the L-shaped cutter seat 51 is connected with an oil cylinder, the inner side of the vertical plate of the L-shaped cutter seat 51 is provided with an oil cylinder connecting block 52, the oil cylinder connecting block 52 is internally embedded with a cutter fixing plate 53, a piston in the oil cylinder reciprocates to push the cutter fixing plate 53, the cutter fixing plate 53 is internally embedded with a cutter 54, the cutter 54 moves along with the cutter fixing plate 53, a steel wire is cut off, the front end of the cutter 54 penetrates through a cutter guide frame 55, and the cutter guide frame 55 prevents deviation.

As shown in fig. 7-8, the wire feeding straightening device 6 comprises a wire feeding vertical plate a61 fixedly attached to the frame 11, a mounting plate 62 is vertically fixed on the side surface of the wire feeding vertical plate a61, a wire feeding sliding block 63 is arranged in a penetrating manner by the mounting plate 62, the wire feeding sliding block 63 is used for protecting a steel wire from being wound into a wire feeding gear set 66, a rectangular spring 64 is arranged on the top surface of the wire feeding sliding block 63, a bearing penetrates through the middle of the wire feeding sliding block 63, the front end of the bearing is connected with a wire feeding wheel 65, the rear end of the bearing is connected with the wire feeding gear set 66, the distance between the wire feeding wheels 65 is elastically adjusted by the rectangular spring 64, a wire feeding vertical plate B67 is vertically fixed on the side surface of the mounting plate 62, the side surface of the wire feeding vertical plate B67 is attached to a wire feeding straightening connecting plate 68, a wire feeding hole is formed in the wire feeding straightening connecting plate 68, vertical and horizontal straightening devices are sequentially arranged on the side surface of the wire feeding straightening connecting plate 68, the vertical and horizontal straightening devices are connected through the straightening connecting plate, through the straightening device connecting plates are provided with through holes for penetrating the steel wire, and better straightening effect is realized by setting up straightening devices in different directions; the vertical and horizontal straightener comprises a plurality of bearing mounting plates 691 which are distributed in an up-down staggered way, a plurality of V-shaped wheels 692 are arranged on the side face of the bearing mounting plates 691, the V-shaped wheels 692 achieve better straightening effect of steel wires through staggered distribution, eccentric bearing seats 693 are arranged on the side edges of the bearing mounting plates 691, the end faces of the eccentric bearing seats 693 are connected with eccentric bearings 694, the other end faces of the eccentric bearing seats 693 are connected with handles 695, the handles 695 can be pulled up and down to control the bearing mounting plates 691, and therefore the straightening degree of the V-shaped wheels 692 on the steel wires is controlled; the threading board 696 is arranged on the side of the transverse straightener, so that the threading of the steel wire is facilitated, and the protection function is achieved.

As shown in fig. 11, the rotary assembly device 9 comprises a positioner 91 and a rotary bracket 92 which are fixed on the frame 11, wherein the positioner 91 scans hook holes at two sides of the barrel wall, gives an optical signal instruction after confirming the position, and clamps the plastic barrel to a fixed position so as to facilitate the steel wire to penetrate into the corresponding hook hole after compression molding; the side surface of the rotary support 92 is fixed with a rotary servo flange 93, the top surface of the rear end of the rotary servo flange 93 is provided with a driving sprocket 94, the top surface of the driving sprocket 94 is provided with a rotary driving assembly 95, and the rotary driving assembly 95 is electrically connected with the positioner 91 and receives and transmits optical signal instructions; the front end of the rotary servo flange 93 penetrates through a cone disc shaft 96, and the cone disc shaft 96 penetrates through a driven sprocket 97, a cone barrel flange 98, the rotary servo flange 93 and a rotary positioning mechanism 99 in sequence from top to bottom; the rotation driving assembly 95 controls the rotation of the driving sprocket 94, thereby drivingly connecting the driven sprocket 97, and the rotation positioning mechanism 99 is controlled by the rotation driving assembly 95 because the driven sprocket 97 engages the cone flange 98 and the cone flange 98 engages the rotation positioning mechanism 99.

As shown in fig. 12, the plastic bucket conveying and jacking device 10 comprises a conveying frame 101, wherein a driving roller 102 is arranged at the rear end of the conveying frame 101, the driving roller 102 is electrically connected with a conveying motor 103, a driven roller 103 is arranged at the front end of the conveying frame 101, conveying belts 104 are respectively arranged at two side edges of the conveying frame 101, the two conveying belts 104 are conveyed at the same speed by synchronous rolling of the driving roller 102 and the driven roller 103, a lifting spiral disc 105 is embedded in the top surface of the conveying frame 101, and the lower end of the lifting spiral disc 105 is connected with a jacking device 106; when the lifting spiral disc 105 is at the bottommost end, the horizontal position of the lifting spiral disc 105 is lower than the horizontal position of the conveying belt 104, the conveying of the conveying belt 104 to the plastic barrels is not influenced, when the plastic barrels are conveyed to the position right above the lifting spiral disc 105, the jack 106 works to jack the plastic barrels, meanwhile, the conveying of the conveying belt 104 is not influenced, and a plurality of adjustable supporting plates 107 are arranged at the bottom of the conveying rack 101.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present invention, and are not limiting; although the invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced with equivalents; such modifications and substitutions do not depart from the spirit of the technical solutions according to the embodiments of the present invention.

Claims

1. An equipment of plastic drum handle automatic molding and automatic installation barreling handle, its characterized in that: the automatic feeding and straightening device comprises a driving motor (2) electrically connected with a control box (1), wherein the driving motor (2) is connected with an upper die connecting rod device (3), the upper die connecting rod device (3) is connected with an upper die device (4), the side surface of the upper die device (4) is fixedly connected with a cutter device (5), the side surface of the cutter device (5) is fixedly connected with a frame (11), and the side surface of the frame (11) is fixedly connected with a wire feeding and straightening device (6); the lower die device (4) is meshed with the lower die linkage device (7), bent hook assembly devices (8) are symmetrically arranged on two sides of the lower die linkage device (7), a rotary assembly device (9) is connected below the lower die linkage device (7), the rotary assembly device (9) is connected with a plastic barrel, and a plastic barrel conveying jacking device (10) is arranged below the plastic barrel;

the upper die connecting rod device (3) comprises an eccentric wheel (32) penetrated by the main shaft (31), the eccentric wheel (32) is connected with a distance-adjusting screw (33) through flange threads, and one end of the distance-adjusting screw (33) is fixedly connected with a double-lug groove (34); cams (35) penetrated by the main shaft (31) are symmetrically arranged on two side surfaces of the eccentric wheel (32), a belt wheel (36) is penetrated by the end part of the main shaft (31), and the belt wheel (36) is connected with the driving motor (2) through a belt;

the upper die device (4) comprises an upper die (41), a single-lug component (42) is fixed on the top of the upper die (41) through a middle screw, and the single-lug component (42) is connected with the double-lug groove (34); linear guide rails (43) are symmetrically arranged on two sides of the front end surface of the upper die (41), and the linear guide rails (43) are fixedly connected to a guide rail seat (44); symmetrical hole slots are formed in the bottom edge of the upper die (41), and elastic positioning columns (45) are arranged in the inner cavities of the hole slots;

the cutter device (5) comprises an L-shaped cutter seat (51), an oil cylinder is connected to the outer side of a vertical plate of the L-shaped cutter seat (51), an oil cylinder connecting block (52) is arranged on the inner side of the vertical plate of the L-shaped cutter seat (51), a cutter fixing plate (53) is embedded in the oil cylinder connecting block (52), a cutter (54) is embedded in the cutter fixing plate (53), and the front end of the cutter (54) penetrates through a cutter guide frame (55);

the lower die linkage device (7) comprises a lower die backboard (71), the top edge of the lower die backboard (71) is connected with a tension spring (72), a symmetrical lower die linear guide rail (73) is arranged on the surface of the lower die linkage device (7), a lower die connecting plate (74) is arranged at the bottom of the side surface of the lower die backboard (71), the lower die connecting plate (74) is connected with a lower die (75), and the lower die (75) and the upper die (41) are meshed with each other on the same vertical surface;

the hook assembly device (8) comprises a mounting vertical plate (81), a hook die guide sleeve (82) is fixedly arranged at the upper part of the side surface of the mounting vertical plate (81), a hook die (83) is embedded in the hook die guide sleeve (82), a hook guide groove (84) is formed in the front end of the hook die (83), and the rear end part of the hook die (83) is connected with an oil cylinder;

the rotary assembly device (9) comprises a positioner (91) fixed on the frame (11) and a rotary support (92), a rotary servo flange (93) is fixed on the side face of the rotary support (92), a driving sprocket (94) is arranged on the top face of the rear end of the rotary servo flange (93), a rotary driving assembly (95) is arranged on the top face of the driving sprocket (94), the front end of the rotary servo flange (93) penetrates through a conical disc shaft (96), and the conical disc shaft (96) sequentially penetrates through a driven sprocket (97), a conical barrel flange (98), the rotary servo flange (93) and a rotary positioning mechanism (99) from top to bottom.

2. The apparatus for automatically forming and automatically attaching a plastic bucket handle as defined in claim 1 wherein: send line alignment device (6) including fixed line riser A (61) of leaning on in frame (11), send line riser A (61) side vertical fixation mounting panel (62), mounting panel (62) run through and set up send line slider (63), send line slider (63) top surface to set up rectangle spring (64), run through in the middle of send line slider (63) and set up the bearing, send line wheel (65) are connected to the bearing front end, send line gear train (66) are connected to the bearing rear end, the side vertical fixation of mounting panel (62) send line riser B (67), send line riser B (67) side to lean on send line alignment link board (68), send line alignment link board (68) side to set gradually vertical and horizontal straightener.

3. An apparatus for automatically forming and automatically attaching a plastic bucket handle as defined in claim 2 wherein: the vertical and horizontal straightener comprises a plurality of bearing mounting plates (691), a plurality of V-shaped wheels (692) are arranged on the side surfaces of the bearing mounting plates (691), eccentric bearing seats (693) are arranged on the side edges of the bearing mounting plates (691), the end surfaces of the eccentric bearing seats (693) are connected with eccentric bearings (694), and the other end surfaces of the eccentric bearing seats (693) are connected with handles (695); the lateral side of the transverse straightener is provided with a threading plate (696).

4. The apparatus for automatically forming and automatically attaching a plastic bucket handle as defined in claim 1 wherein: the plastic barrel conveying jacking device (10) comprises a conveying rack (101), wherein a driving roller (102) is arranged at the rear end of the conveying rack (101), a conveying motor (103) is electrically connected with the driving roller (102), driven rollers are arranged at the front end of the conveying rack (101), conveying belts (104) are respectively arranged at two side edges of the conveying rack (101), a lifting spiral disc (105) is embedded in the top surface of the conveying rack (101), a jacking device (106) is connected at the lower end of the lifting spiral disc (105), and a plurality of adjustable supporting plates (107) are arranged at the bottom of the conveying rack (101).