阅读说明：本技术 一种用于流苏穗子均匀铺设的机构 (Mechanism for uniformly laying tassel ears ) 是由 邵瑞瑞 于 2021-06-25 设计创作，主要内容包括：一种用于流苏穗子均匀铺设的机构,其技术方案是：包括架体,架体顶部设有用于输送线材的原料输送机构,原料输送机构的底部还设有绕线机构、切割机构以及承载机构；原料输送机构包括固定设置在架体上供线材传送的输送架,还包括用于自动夹持线材输送处理的夹持输送组件；绕线机构用于对输送的流苏线材进行捆绑处理,绕线机构包括绕线转盘,绕线转盘上绕制有缠绕线；切割机构包括对绕线后的流苏线材进行切割处理的切割件；承载机构用于承载输送流苏线材,承载机构包括多个工位杆和驱动多个工位杆移动的旋转工作台,本申请具有自动对流苏穗子进行加工的效果,进而提高流苏穗子加工质量以及加工效率的技术效果。(A mechanism for evenly laying tassel ears adopts the technical scheme that: the wire winding machine comprises a frame body, wherein a raw material conveying mechanism for conveying wires is arranged at the top of the frame body, and a wire winding mechanism, a cutting mechanism and a bearing mechanism are further arranged at the bottom of the raw material conveying mechanism; the raw material conveying mechanism comprises a conveying frame fixedly arranged on the frame body and used for conveying the wires, and also comprises a clamping conveying assembly used for automatically clamping the wires and conveying the wires; the winding mechanism is used for binding conveyed tassel wires and comprises a winding turntable, and winding wires are wound on the winding turntable; the cutting mechanism comprises a cutting piece for cutting the wound tassel wire; bearing mechanism is used for bearing and carries tassels wire rod, and bearing mechanism includes the swivel work head that a plurality of station poles of a plurality of stations of drive removed, and this application has the effect of automatic processing to the tassels ear, and then improves tassels ear processingquality and machining efficiency's technological effect.)

1. The utility model provides a mechanism that is used for tassel ear evenly to lay which characterized in that: the wire rod cutting device comprises a frame body (1), wherein a raw material conveying mechanism (2) for conveying wire rods is arranged at the top of the frame body (1), and a winding mechanism (5), a cutting mechanism (6) and a bearing mechanism (7) are further arranged at the bottom of the raw material conveying mechanism (2);

the raw material conveying mechanism (2) comprises a conveying frame (21) fixedly arranged on the frame body (1) and used for conveying wires, and further comprises a clamping conveying assembly (22) used for automatically clamping the wires and conveying the wires;

the winding mechanism (5) is used for binding conveyed tassel wires, the winding mechanism (5) comprises a winding turntable (51), and winding wires are wound on the winding turntable (51);

the cutting mechanism (6) comprises a cutting piece (61) for cutting the wound tassel wire;

the bearing mechanism (7) is used for bearing and conveying tassel wires, and the bearing mechanism (7) comprises a plurality of station rods (72) and a rotary workbench (71) for driving the station rods (72) to move.

2. The mechanism for the uniform laying of tassel ears as claimed in claim 1, wherein: the bottom of the raw material conveying mechanism (2) is provided with an accurate feeding mechanism (3) which is arranged on the side wall of the frame body (1) in a sliding mode, the accurate feeding mechanism (3) comprises an accurate positioning assembly (31) for restraining and positioning wires, and a displacement assembly (32) for driving the accurate positioning assembly (31) to move;

the bottom of the accurate feeding mechanism (3) is provided with a wire uniform-laying mechanism (4) for uniformly laying wires, and the wire uniform-laying mechanism (4) comprises a clamping assembly (41) for clamping the wires and a pressing assembly (42) for further pressing the wires;

the clamping and conveying assembly (22) comprises a conveying sliding table (23) which is arranged on the side wall of the frame body (1) in a sliding mode, and the clamping and conveying assembly (22) further comprises a conveying clamping piece (24) which is arranged on the conveying sliding table (23);

carry holder (24) including fixed centre gripping cylinder (25) that sets up on carrying slip table (23), still including fixed supporting rod (26) and the slip supporting rod (27) that are used for the centre gripping wire rod, be equipped with the piston rod on centre gripping cylinder (25), piston rod and slip supporting rod (27) fixed connection.

3. The mechanism for the uniform laying of tassel ears as claimed in claim 2, characterized in that: the accurate positioning assembly (31) comprises a vertically arranged feeding pipeline, the feeding pipeline comprises a feeding hopper (331), a straight pipe (332) and an inclined nozzle (333), the feeding hopper (331) is arranged at the bottoms of a fixed clamping rod (26) and a sliding clamping rod (27), the straight pipe (332) is vertically arranged downwards, and the inclined nozzle (333) is arranged at the bottom of the straight pipe (332);

displacement subassembly (32) are including sliding displacement slip table (34) that sets up support body (1) lateral wall, be equipped with pipeline mounting (35) that are used for fixed pipeline feeding on displacement slip table (34), displacement subassembly (32) still including the slip table driving piece that is used for driving displacement slip table (34) and reciprocates.

4. The mechanism for the uniform laying of tassel ears as claimed in claim 3, wherein: the clamping assembly (41) comprises a clamping support, the clamping support is fixedly arranged on the frame body (1), the clamping assembly (41) further comprises a clamping cylinder (44) fixedly arranged on the clamping support, a push rod is arranged on the clamping cylinder (44), and an L-shaped push plate (45) pushed by the push rod is arranged at the top of the clamping cylinder (44);

the clamping assembly (41) further comprises an air clamping piece (46) fixedly arranged on the L-shaped push plate (45), and the air clamping piece (46) is used for clamping tassels.

5. The mechanism for the even laying of tassel ears as claimed in claim 4, wherein: the pressing assembly (42) is arranged opposite to the air clamping piece (46), the pressing assembly (42) comprises a pressing air cylinder (421) fixedly arranged on the frame body (1), and the pressing assembly (42) further comprises a pressing piece (422) arranged on a push rod of the pressing air cylinder (421);

the pressing piece (422) comprises a pressing rod (47) fixedly arranged on a push rod of the pressing cylinder (421), the pressing rod (47) is arranged in a C shape, and the pressing piece (422) further comprises a pressing belt (48) arranged at a gap of the C-shaped pressing rod (47);

the air clamp (46) comprises an air clamp plate (461) arranged at the top of the L-shaped push plate (45) and an air clamp (462) arranged on the air clamp plate (461) and used for clamping tassels, two clamping jaws (463) used for clamping tassels are arranged on the air clamp (462), and clamping belts (464) are connected to the two clamping jaws (463).

6. The mechanism for the even laying of tassel ears as claimed in claim 1, wherein:

be equipped with on support body (1) and supply cutting mechanism (6) and wire winding mechanism (5) to install and handle horizontal bracket component (73), horizontal bracket component (73) are including horizontal support frame (74) that a plurality of levels set up, and are a plurality of be provided with horizontal shelf board (75) in horizontal support frame (74), be equipped with the locating hole that supplies accurate locating component (31) and tassel to pass on horizontal shelf board (75).

7. The mechanism for the even laying of tassel ears as claimed in claim 6, wherein: the winding mechanism (5) is arranged at the bottom of the horizontal support frame (74), the bottom of the winding turntable (51) is provided with a fixedly connected winding plate (52), and the winding plate (52) is provided with an inner wire bin (53) for providing an inner winding wire;

the winding mechanism (5) further comprises a stepping motor (54) arranged on the horizontal support frame (74), the stepping motor (54) is used for driving the winding turntable (51) to rotate, and a through hole (55) corresponding to the positioning hole is formed in the central shaft of the winding turntable (51).

8. The mechanism for the even laying of tassel ears as claimed in claim 7, wherein: be equipped with the pivot on step motor (54), the pivot is vertical to be worn to establish on horizontal support frame (74), be equipped with in the pivot and be used for driving wire winding carousel (51) pivoted drive runner (56), the cover is equipped with synchronous driving band (57) on drive runner (56) and wire winding carousel (51).

9. The mechanism for the even laying of tassel ears as claimed in claim 6, wherein: the cutting mechanism (6) is arranged on the horizontal support frame (74), the cutting part (61) comprises a cutting motor (611) arranged on the horizontal frame plate (75), and a rotating shaft of the cutting motor (611) is provided with a horizontally placed cutting wafer (612);

the cutting piece (61) further comprises a cutting sliding table (613) used for driving the cutting motor (611) to move.

10. The mechanism for the uniform laying of tassel ears as claimed in claim 9, wherein: cutting mechanism (6) still include carry out the piece (62) that supports that retrains the processing to tassel wire rod, support piece (62) including fixed setting up support tight cylinder (63) on horizontal support frame (74), support and be equipped with the push rod on tight cylinder (63), support piece (62) still including setting up support piece (64) on supporting tight cylinder (63) push rod, support arc silica gel piece (65) that are used for supporting tight processing on the lateral wall of piece (64).

Technical Field

The invention relates to the technical field of tassel ear production, in particular to a mechanism for uniformly laying tassel ears.

Background

Tassels are drooping ears made of silk threads and the like and are often used at skirt hems and the like of stage clothes. Tassels, also known as tassels, are pendulous ornaments, which are tied with colorful feathers or velvet, such as tassels, and are usually hung at the four corners of a window curtain in a net or on handles of jade pendant fans.

The tassels produced in the current market mostly adopt a manual manufacturing mode, the manual production efficiency is low, the quality is unstable, and meanwhile, the long-time mechanical labor of workers causes great damage to the bodies of the workers; the long-time work not only influences the production efficiency of the tassels, but also influences the processing quality of the tassels, so that equipment for automatically producing the tassels is urgently needed, and the production efficiency and the production quality of the tassels are improved.

Disclosure of Invention

In order to solve the technical problem, the invention provides a mechanism for uniformly laying tassel ears.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a mechanism for uniformly laying tassel ears comprises a frame body, wherein a raw material conveying mechanism for conveying wires is arranged at the top of the frame body, and a winding mechanism, a cutting mechanism and a bearing mechanism are further arranged at the bottom of the raw material conveying mechanism;

the raw material conveying mechanism comprises a conveying frame fixedly arranged on a frame body and used for conveying wires, and also comprises a clamping conveying assembly used for automatically clamping the wires and conveying the wires;

the winding mechanism is used for binding conveyed tassels, and comprises a winding turntable, and winding wires are wound on the winding turntable;

the cutting mechanism comprises a cutting piece for cutting the wound tassel wire;

the bearing mechanism is used for bearing and conveying tassel wires and comprises a plurality of station rods and a rotary workbench for driving the station rods to move.

Preferably, the bottom of the raw material conveying mechanism is provided with an accurate feeding mechanism which is arranged on the side wall of the frame body in a sliding manner, and the accurate feeding mechanism comprises an accurate positioning assembly for restraining and positioning the wire and a displacement assembly for driving the accurate positioning assembly to move;

the bottom of the accurate feeding mechanism is provided with a wire uniform-laying mechanism for uniformly laying wires, and the wire uniform-laying mechanism comprises a clamping assembly for clamping the wires and a pressing assembly for further pressing the wires;

the clamping and conveying assembly comprises a conveying sliding table which is arranged on the side wall of the frame body in a sliding mode, and the clamping and conveying assembly further comprises a conveying clamping piece which is arranged on the conveying sliding table;

the conveying clamping piece comprises a clamping cylinder fixedly arranged on the conveying sliding table, a fixed clamping rod and a sliding clamping rod, the fixed clamping rod and the sliding clamping rod are used for clamping wire rods, a piston rod is arranged on the clamping cylinder, and the piston rod is fixedly connected with the sliding clamping rod.

Preferably, the accurate positioning assembly comprises a vertically arranged feeding pipeline, the feeding pipeline comprises a feeding hopper, a straight pipe and an inclined nozzle, the feeding hopper is arranged at the bottoms of the fixed clamping rod and the sliding clamping rod, the straight pipe is vertically arranged downwards, and the inclined nozzle is arranged at the bottom of the straight pipe;

the displacement subassembly sets up the displacement slip table of support body lateral wall including sliding, be equipped with the pipeline mounting that is used for fixed conveying pipeline on the displacement slip table, the displacement subassembly is still including the slip table driving piece that is used for driving the displacement slip table and reciprocates.

Preferably, the clamping assembly comprises a clamping support, the clamping support is fixedly arranged on the frame body, the clamping assembly further comprises a clamping cylinder fixedly arranged on the clamping support, a push rod is arranged on the clamping cylinder, and an L-shaped push plate for pushing the push rod is arranged at the top of the clamping cylinder;

the clamping assembly further comprises an air clamping piece fixedly arranged on the L-shaped push plate, and the air clamping piece is used for clamping tassels.

Preferably, the compressing assembly is arranged opposite to the air clamping piece, the compressing assembly comprises a compressing cylinder fixedly arranged on the frame body, and the compressing assembly further comprises a compressing piece arranged on a push rod of the compressing cylinder;

the pressing piece comprises a pressing rod fixedly arranged on a pressing cylinder push rod, the pressing rod is arranged in a C shape, and the pressing piece further comprises a pressing belt arranged at a C-shaped gap of the pressing rod;

the gas clamp piece is including setting up the gas splint at L type push pedal top, still including setting up the gas clamp that is used for centre gripping tassel on the gas splint board, be equipped with two clamping jaws that are used for centre gripping tassel on the gas clamp, be connected with on two clamping jaws and smuggle secretly.

Preferably, be equipped with on the support body and supply cutting mechanism and winding mechanism to install and handle horizontal bracket component, horizontal bracket component includes the horizontal support frame that a plurality of levels set up, and is a plurality of be equipped with the horizontal shelf board in the horizontal support frame, be equipped with the locating hole that supplies accurate locating component and tassels to pass on the horizontal shelf board.

Preferably, the winding mechanism is arranged at the bottom of the horizontal support frame, a winding plate fixedly connected with the bottom of the winding turntable is arranged at the bottom of the winding turntable, and an inner wire bin for providing an inner winding wire is arranged on the winding plate;

the winding mechanism further comprises a stepping motor arranged on the horizontal support frame, the stepping motor is used for driving the winding turntable to rotate, and a through hole corresponding to the positioning hole is formed in the center shaft of the winding turntable.

Preferably, a rotating shaft is arranged on the stepping motor, the rotating shaft vertically penetrates through the horizontal support frame, a driving rotating wheel used for driving the winding turntable to rotate is arranged on the rotating shaft, and a synchronous driving belt is sleeved on the driving rotating wheel and the winding turntable.

Preferably, the cutting mechanism is arranged on the horizontal support frame, the cutting part comprises a cutting motor arranged on the horizontal frame plate, and a rotating shaft of the cutting motor is provided with a horizontally placed cutting wafer;

the cutting piece also comprises a cutting sliding table used for driving the cutting motor to move.

Preferably, cutting mechanism still includes the tight piece that supports that retrains the processing to the tassel wire rod, support tight piece including fixed the setting on the horizontal support frame support the tight cylinder, support and be equipped with the push rod on the tight cylinder, support the tight piece still including setting up the tight piece that supports on supporting the tight cylinder push rod, be used for supporting the arc silica gel piece of tight processing on the lateral wall of tight piece.

The invention has the beneficial effects that:

1. conveying tassels to a precise feeding mechanism by using a raw material conveying mechanism for precise conveying, carrying out constraint treatment on the tassels by using the precise conveying mechanism, conveying the tassels to the bottom by using the precise conveying mechanism, carrying out fixed constraint treatment on the bunched tassels by using a bottom wire uniform laying mechanism, then binding the fixed tassels by using a winding mechanism, completing the effects of automatically conveying tassels and binding the bundles, and finally cutting the bound bundles by using a cutting mechanism, so that the full-automatic processing process of the tassels is realized, and the efficiency and the quality of the tassels are sequentially improved;

2. the accurate feeding mechanism is divided into the accurate positioning assembly and the displacement assembly, the tassel wires are restrained by the vertically arranged feeding pipeline, the restrained wires are not entangled with other mechanisms, and the smoothness and the safety performance of wire harness transmission are improved;

3. the wire rod is all spread the pencil that the mechanism conveyed accurate feeding mechanism and is carried out further restraint for tassels wire rod restraint is on the station pole, and then the winding mechanism of being convenient for carries out the wire winding to the pencil and bindes the processing, utilizes the relative setting of centre gripping subassembly and compress tightly the subassembly, makes tassels wire rod compress tightly on the station pole, makes tassels wire rod wind under fixed state, improves the processingquality of streamline wire rod.

Drawings

Fig. 1 is a schematic overall structure diagram of embodiment 1 of the present application;

FIG. 2 is a side view of the material conveying mechanism according to embodiment 1 of the present application;

FIG. 3 is a plan view of the raw material conveying mechanism according to embodiment 1 of the present application;

fig. 4 is a side wall view of the precision feeding mechanism of embodiment 1 of the present application;

FIG. 5 is a front view of the precision positioning assembly of FIG. 4;

fig. 6 is a side view of the whole structure for embodying the wire uniform-laying mechanism in embodiment 1 of the present application;

FIG. 7 is a top view of embodiment 1 of the present application for embodying a clamping assembly;

fig. 8 is a schematic cross-sectional view illustrating a winding mechanism and a cutting mechanism according to embodiment 1 of the present application;

fig. 9 is a side wall view of the precision feeding mechanism of embodiment 2 of the present application;

fig. 10 is a side wall view of the precision feeding mechanism of embodiment 3 of the present application;

fig. 11 is a side wall view of the precision feeding mechanism according to embodiment 4 of the present application;

fig. 12 is a schematic view of the entire structure of a pressing member according to embodiment 5 of the present application.

Wherein, 1, a frame body; 2. a raw material conveying mechanism; 21. a carriage; 22. a clamping and conveying assembly; 23. a conveying sliding table; 24. conveying the clamping piece; 25. a clamping cylinder; 26. fixing the clamping rods; 27. sliding the clamping rod; 3. a precise feeding mechanism; 31. a precision positioning assembly; 32. a displacement assembly; 331. a feed hopper; 332. a straight pipe; 333. an inclined nozzle; 34. a displacement sliding table; 35. a pipe fixing member; 4. the wire material uniformly laying mechanism; 41. a clamping assembly; 42. a compression assembly; 421. a pressing cylinder; 422. a compression member; 44. a clamping cylinder; 45. an L-shaped push plate; 46. a gas clamping piece; 461. an air splint; 462. air clamping; 463. a clamping jaw; 464. carrying; 47. a hold down bar; 48. a compression band; 49. an abutting member; 491. a pushing block; 492. a jaw strut; 493. an L-shaped strut; 494. an inner linear rod; 5. a winding mechanism; 51. a winding turntable; 52. a wire winding plate; 53. an inner wire bin; 54. a stepping motor; 55. a through hole; 56. driving the rotating wheel; 57. synchronously driving a belt; 6. a cutting mechanism; 61. cutting the piece; 611. cutting the motor; 612. cutting a wafer; 613. cutting the sliding table; 62. an abutting piece; 63. tightly abutting against the air cylinder; 64. a propping block; 644. a clamping block; 645. a clamping groove; 65. an arc-shaped silica gel sheet; 7. a carrying mechanism; 71. rotating the working table; 72. a station lever; 721. a top rod; 722. a bottom bar; 73. a horizontal bracket assembly; 74. a horizontal support frame; 75. a horizontal shelf plate; 81. a funnel; 811. an inclined plate; 812. a swash plate drive member; 82. a restraint plate; 83. a constraint hole; 84. and (4) an inclined tube.

Detailed Description

For the purpose of enhancing the understanding of the present invention, the present invention will be described in further detail with reference to the accompanying drawings and examples, which are provided for the purpose of illustration only and are not intended to limit the scope of the present invention.

Example 1:

referring to fig. 1, for the mechanism that is used for tassel ear evenly to lay that this application discloses, including support body 1, from top to bottom has set gradually raw materials conveying mechanism 2, accurate feeding mechanism 3, wire rod on support body 1 and has all spread mechanism 4, winding mechanism 5 and cutting mechanism 6. Conveying the bunched wires by using the raw material conveying mechanism 2, conveying the bunched wires into the accurate feeding mechanism 3, constraining and accurately conveying the conveyed tassels by using the accurate feeding mechanism 3, conveying the wires to the bottom under the conveying of the accurate feeding mechanism 3, and fixing the wires by using the wire uniform laying mechanism 4 at the bottom of the frame body 1; and after the tassel wires are fixed, the top of the wire fixing position is wound by the winding mechanism 5, binding of the tassel wires is realized, and finally the tassel wires are cut by the cutting mechanism 6, so that tassel ears after binding are separated from the wire harness.

Referring to fig. 2 and 3, the material conveying mechanism 2 includes a conveying frame 21 and a clamping and conveying assembly 22, and the tassel wire is placed in the conveying frame 21, is clamped by the clamping and conveying assembly 22, and is then conveyed below the conveying frame 21. The clamping and conveying assembly 22 comprises a conveying sliding table 23 which is vertically arranged on the side wall of the frame body 1 in a sliding manner, and a conveying clamping piece 24 for clamping tassel wires. Carry holder 24 including setting up the centre gripping cylinder 25 that is used for centre gripping tassel wire rod on carrying slip table 23, carry holder 24 still including fixed supporting rod 26 and slip supporting rod 27, fixed supporting rod 26 sets up on carrying slip table 23 and sets up with slip supporting rod 27 relatively, and slip supporting rod 27 sets up on the piston rod of centre gripping cylinder 25 simultaneously. The tassel wire passes downward from the opposite surfaces of the fixed clamping rod 26 and the slide clamping rod 27.

The clamping cylinder 25 pushes the sliding clamping rod 27 to move towards the fixed clamping rod 26, after the opposite surfaces of the sliding clamping rod 27 and the fixed clamping rod 26 are mutually abutted, the tassel wire is clamped between the sliding clamping rod 27 and the fixed clamping rod 26, then the conveying sliding table 23 which is vertically arranged is utilized to convey the clamping piece 24 to the bottom for clamping and conveying, and the wire harness is clamped in the fixed clamping rod 26 and the sliding clamping rod 27, so that the wire harness is conveyed downwards along with the wire harness. After the wire harness is conveyed to the bottom by the conveying sliding table 23, the piston rod on the clamping cylinder 25 drives the sliding clamping rod 27 to return to the original position, so that the clamped fringe wire harness is loosened originally, and finally the conveying sliding table 23 slides upwards, so that the conveying clamping piece 24 returns to the original position, and the continuous conveying effect on the wire harness is realized.

Referring to fig. 1, 4 and 5, the precision feeding mechanism 3 is used for receiving the wires conveyed by the raw material conveying mechanism 2, and restraining and further carrying out precision conveying processing on the received tassel wires. The accurate feeding mechanism 3 comprises an accurate positioning component 31 and a displacement component 32 for conveying tassel wires, the accurate positioning component 31 comprises a feeding pipeline for the tassel wires to pass through, and the wires conveyed down from the raw material conveying mechanism 2 pass through the feeding pipeline. The feeding pipeline consists of three parts, namely a feeding hopper 331 at the top, a straight pipe 332 in the middle and an inclined nozzle 333 at the bottom, the wire is conveyed into the straight pipe 332 from the hopper at the top, the straight pipe 332 vertically arranged is used for restraining the wire, the wire is prevented from being entangled with other mechanisms when not in the straight pipe 332, the wire is flattened by the inclined nozzle 333, the width of the wire is further restrained, and the stability of the wire in the conveying process is improved.

Referring to fig. 1 and 4, displacement subassembly 32 sets up displacement slip table 34 on the support body 1 lateral wall including sliding, is equipped with the pipeline mounting 35 that is used for fixed feeding pipeline on the displacement slip table 34, utilizes pipeline mounting 35 to fix the processing to feeding pipeline, and displacement slip table 34 still reciprocates including the slip table driving piece that drives displacement slip table 34 simultaneously, utilizes the slip table driving piece to drive displacement slip table 34 and reciprocates. Drive displacement slip table 34 and reciprocate under the drive effect of slip table driving piece, the fixed pipeline mounting 35 that sets up on the displacement slip table 34 follows displacement slip table 34 and reciprocates, and the pipeline of feeding on the pipeline mounting 35 is followed and is reciprocated simultaneously, and then accomplishes the accurate effect of carrying to the wire rod.

Referring to fig. 1 and 6, the wire uniform-laying mechanism 4 is disposed at the bottom of the frame body 1, and the wire uniform-laying mechanism 4 is used for clamping the bunched wires, and the wire uniform-laying mechanism 4 is used for clamping and positioning the wires, so that the winding mechanism 5 can conveniently perform winding processing on the outer peripheral side of the bunched wires. The bottom of support body 1 is equipped with load-bearing mechanism 7, and load-bearing mechanism 7 is used for bearing the weight of conveying tassel wire rod, and load-bearing mechanism 7 is including setting up swivel work head 71 on the bottom surface, still including setting up station pole 72 on swivel work head 71, and station pole 72 is provided with a plurality ofly and evenly distributed on swivel work head 71's upper surface. The station rod 72 comprises a top rod 721 and a bottom rod 722, the top rod 721 and the bottom rod 722 are vertically arranged through the axis, the top rod 721 is used for mounting and bearing tassel ears, and the bottom rod 722 is fixedly arranged on the upper surface of the rotary workbench 71.

The wire harness at the top of the frame body 1 is conveyed to the side part of the station rod 72 to the bottom, and the wire harness is uniformly laid on the side wall of the station rod 72. The wire material evenly-paving mechanism 4 comprises a clamping assembly 41 for clamping the wire material and a pressing assembly 42 arranged corresponding to the clamping assembly 41.

Referring to fig. 6 and 7, the clamping assembly 41 includes a clamping bracket and a clamping cylinder 44 disposed at the bottom of the frame body, the clamping cylinder 44 is fixedly disposed on the clamping bracket, and the clamping cylinder 44 is horizontally disposed. A push rod is arranged on the clamping cylinder 44, and an L-shaped push plate 45 fixedly connected with the end part of the push rod is arranged on the end part of the push rod. The clamping assembly 41 further comprises an air clamp 46 fixedly arranged on the L-shaped push plate 45, the air clamp 46 comprises an air clamp plate 461 arranged on the L-shaped push plate 45, an air clamp 462 is arranged on the air clamp plate 461, two clamping jaws 463 symmetrically arranged are arranged on the air clamp 462, and clamping bands 464 for clamping tassel wires are arranged on the two clamping jaws 463.

Referring to fig. 7, the pressing assembly 42 and the clamping assembly 41 are disposed opposite to each other and are used for clamping the bundle-shaped tassels, and the two pressing assemblies 42 and the air clamp 46 disposed opposite to each other are used for improving the stability of clamping the tassels, so as to improve the processing quality of the tassels. Compress tightly subassembly 42 including fixed setting compressing tightly cylinder 421 on support body 1, still including setting up compressing tightly 422 on compressing tightly the cylinder 421 push rod, compressing tightly 422 including fixed setting compressing tightly 47 on compressing tightly the cylinder 421 push rod, compressing tightly 47 and setting up to the C type, and will compress tightly the upper notch direction of pole 47 and aim at tassels wire rod, still be equipped with simultaneously in the breach department that compresses tightly pole 47 and compress tightly the processing compressing band 48 to tassels wire rod.

After the station pole 72 at the accurate conveyer belt bottom of wire rod goes up, centre gripping cylinder 25 promotes L type push pedal 45, and L type push pedal 45 drives air clamp 462 and removes to the wire rod direction, and two clamping jaws 463 on the air clamp 462 are finally lived with the pencil centre gripping. The pressing cylinder 421 then pushes the pressing rod 47 to move toward the air clamp 462, so that the pressing belt 48 on the C-shaped pressing rod 47 partially presses the wire. Thereby improving the stability of the wire.

Referring to fig. 1, 6 and 8, cutting mechanism 6 and winding mechanism 5 set up on support body 1, and are located the wire rod and all spread the top of mechanism 4, are equipped with on support body 1 and supply cutting mechanism 6 and winding mechanism 5 to install and handle horizontal bracket assembly 73, and horizontal bracket assembly 73 includes that a plurality of levels set up horizontal support frame 74, still including setting up the horizontal frame plate 75 in horizontal support frame 74, is equipped with the locating hole that supplies the wire rod to pass on horizontal frame plate 75 simultaneously. The wire winding mechanism 5 works after the wire material is uniformly laid and pressed by the mechanism 4, the wire winding mechanism 5 comprises a wire winding turntable 51 arranged at the bottom of a horizontal support frame 74, a through hole 55 corresponding to a positioning hole is formed in the central shaft of the wire winding turntable 51, tassel wire materials pass through the through hole 55, the wire winding mechanism further comprises a wire winding plate 52 arranged on the side wall of the bottom of the wire winding turntable 51, and an inner wire bin 53 for providing the wire winding wire materials is arranged on the wire winding plate 52.

Meanwhile, the winding mechanism 5 further comprises a stepping motor 54 for driving the winding to rotate, a rotating shaft is arranged on the stepping motor 54, a driving rotating wheel 56 for driving the winding turntable 51 to rotate is arranged on the rotating shaft, a synchronous driving belt 57 is arranged on the driving rotating wheel 56 and the winding turntable 51, after the stepping motor 54 is started, the rotating shaft rotates and drives the driving rotating wheel 56 on the rotating shaft to rotate, and meanwhile, the synchronous driving belt 57 wound on the driving rotating wheel 56 drives the winding turntable 51 to rotate, so that the tassel wire is wound and fixed.

Referring to fig. 1 and 8, the cutting mechanism 6 includes a cutting part 61 for cutting the wire rod, and further includes a fastening part 62 for pressing the wire rod to cut the cutting part 61, the cutting part 61 includes a cutting motor 611 fixedly disposed, and a rotating shaft of the cutting motor 611 is provided with a horizontally disposed cutting disk 612. The abutting piece 62 comprises an abutting cylinder 63 fixedly arranged on the horizontal support frame 74, a push rod is arranged on the abutting cylinder 63, the abutting piece 62 further comprises an abutting block 64 arranged on the push rod of the abutting cylinder 63, and an arc-shaped silica gel sheet 65 for abutting processing is arranged on the side wall of the abutting block 64. The abutting piece 62 further comprises two clamping blocks 644 opposite to the abutting block 64, the two clamping blocks 644 are arranged oppositely up and down, and clamping grooves 645 for the cutting discs 612 to pass through are formed in opposite surfaces of the two clamping blocks 644. Meanwhile, the cutting element 61 further comprises a cutting sliding table 613 for driving the cutting motor 611 to move, after the tassel wire finishes the winding process, the push rod on the abutting cylinder 63 pushes the abutting block 64, so that the abutting block 64 moves towards the cutting motor 611, the tassel wire is clamped between the abutting block 64 and the clamping block 644, the cutting sliding table 613 is started to drive the cutting motor 611 to move, and then the cutting wafer 612 passes through the clamping groove 645 in the moving process, and the cutting process of the tassel wire is finished.

Example 2:

referring to fig. 1 and 9, a mechanism for uniformly laying tassel ears differs from embodiment 1 in that: accurate locating component 31 includes funnel 81, hang plate 811 and pipeline mounting 35, funnel 81 is fixed to be set up on pipeline mounting 35, tassel wire rod passes downwards from funnel 81, reach hang plate 811 behind through-hole 55, one side of hang plate 811 is equipped with the swash plate drive piece 812 that promotes hang plate 811 and remove, utilize swash plate drive piece 812 to promote hang plate 811, carry out the restraint to the tassel wire rod of conveying and handle, the tassel wire rod that conveys among funnel 81 through material equal paving mechanism 4 carries out equal paving restraint and handles finally.

Example 3:

referring to fig. 10, a mechanism for uniformly laying tassel ears is different from embodiment 1 in that: the accurate positioning assembly 31 comprises a plurality of constraint plates 82 and an inclined plate 811, the constraint plates 82 are provided with a plurality of horizontal arrangement, the constraint plates 82 are provided with constraint holes 83 for tassel wires to pass through, and the constraint holes 83 are coaxially arranged. The tassel wires pass through the plurality of constraint holes 83 downwards, the tassel wires passing through the constraint holes 83 are arranged on the side wall of the inclined plate 811, one side of the inclined plate 811 is provided with an inclined plate driving part 812 pushing the inclined plate 811 to move, the inclined plate driving part 812 is used for pushing the inclined plate 811 to constrain the conveyed tassel wires, and therefore the tassel wires are not entangled with other mechanisms.

Example 4:

referring to fig. 11, a mechanism for uniformly laying tassel ears is different from embodiment 1 in that: the accurate positioning assembly 31 comprises a feeding pipeline and a pipeline fixing member 35, the feeding pipeline is arranged to be an inclined pipe 84, and the inclined pipe 84 is fixedly arranged on the pipeline fixing member 35. Because the tassels are vertical downwards under the influence of gravity factors, the inclined tube 84 is obliquely arranged, so that the tassels are tightly attached to the inner wall of the inclined tube 84 in the inclined tube 84, better constraint performance of the tassels can be kept in the conveying process, and the quality of the tassels is improved.

Example 5:

referring to fig. 12, a mechanism for uniformly laying tassel ears is different from embodiment 1 in that: the pressing assembly 42 comprises a pressing cylinder 421 and an abutting piece 49 arranged on a piston rod of the pressing cylinder 421, and a pushing block 491 for connecting the abutting piece is arranged on the piston rod of the pressing cylinder 421. The abutment member 49 includes two oppositely disposed jaw struts 492, the jaw struts 492 being formed by an inner linear bar 494 and an L-shaped strut 493, one end of the inner bar being hinged to the push block 491 and the other end being hinged to the L-shaped strut 493. The abutment 49 also includes a compression band 48 connecting two opposing L-shaped struts 493.

The above embodiments should not limit the present invention in any way, and all technical solutions obtained by using equivalent alternatives or equivalent transformations fall within the protection scope of the present invention.