CN117568991A

CN117568991A - Automatic assembly equipment for heald

Info

Publication number: CN117568991A
Application number: CN202410052228.9A
Authority: CN
Inventors: 李婷; 李�杰
Original assignee: Jiangsu Yonggu Nanotechnology Co ltd
Current assignee: Jiangsu Yonggu Nanotechnology Co ltd
Priority date: 2024-01-15
Filing date: 2024-01-15
Publication date: 2024-02-20
Anticipated expiration: 2044-01-15

Abstract

The invention belongs to the technical field of lathe machining, and particularly relates to automatic assembly equipment for heddles, which comprises a connecting main board, wherein a paying-off part is arranged on the front surface of the connecting main board, a heddle group is arranged in the middle of the paying-off part, guide clamping plates are symmetrically arranged on two sides of the outer surface of the connecting main board, a guide shaft rod is fixedly connected to the bottom of the outer surface of the connecting main board, fuse equipment is slidingly connected to the outer surface of the guide shaft rod, and threading equipment is arranged in the middle of the inner wall of the connecting main board. After perforation cutting work is carried out on perforation lines each time, the device can replace manual work to carry out position correction work on each perforation line rapidly through three groups of lead parts alternately, and in the three groups of lead parts, two groups of lead parts below circularly carry out traction work, the lead parts at the top can ensure that the perforation lines are always kept in a vertical state, and the lead parts cannot be mutually wound together.

Description

Automatic assembly equipment for heald

Technical Field

The invention belongs to the technical field of lathe machining, and particularly relates to automatic assembly equipment for heddles.

Background

With the rapid development of modern spinning, the requirements for the production efficiency pursuit of semi-finished products and the diversity of fabrics are becoming more and more obvious, so corresponding spinning equipment is generated, and the existing automatic drafting machine is one of the more widely used machines. The automatic drafting machine can divide the yarns on the warp loom and enable the warp yarns to pass through the warp stop blades, the healds and the reed, so that the labor intensity of workers is reduced, and the production efficiency and the production quality are improved.

Since the heald wire must be loosened after passing through the heald wire in each concentrated way, or else the heald wire cannot pass through the heald wire, but this results in that after each heald wire threading, each heald wire needs to be straightened and fixed at the opposite position of each heald wire threading by manual operation.

Disclosure of Invention

Aiming at the defects of the prior art, the invention solves the technical problems by adopting the following technical scheme: the automatic assembly equipment for the healds comprises a connecting main board, wherein a paying-off part is arranged on the front surface of the connecting main board, a heald group is arranged in the middle of the paying-off part, guide clamping plates are symmetrically arranged on two sides of the outer surface of the connecting main board, a guide shaft rod is fixedly connected to the bottom of the outer surface of the connecting main board, a fuse device is slidingly connected to the outer surface of the guide shaft rod, threading equipment is arranged in the middle of the inner wall of the connecting main board, and a guide sloping plate is fixedly connected to the back of the connecting main board;

further, the paying-off component comprises a winding rotating rod, perforated lines are connected to the outer surface of the winding rotating rod in a rolling mode, seven groups of perforated line drums are arranged on the outer surface of the winding rotating rod, the distance between every two perforated line drums is the same, the top of the outer surface of each perforated line is connected with a steering roller in a sliding mode, clamping wheel components are uniformly arranged on the outer surface of each steering roller, lead components are arranged on the upper side and the lower side of the outer surface of each perforated line, three lead components are arranged from top to bottom, the first lead component is used for guaranteeing the perpendicularity of each perforated line, the second lead component can slide to the position of a third lead component from top to bottom along a guide clamping plate and used for preparing a wire, and the third lead component can be matched with the lead component above to straighten each perforated line;

the heald group comprises a clamping main board, wherein heald rods are uniformly arranged on the inner wall of the clamping main board, guide sliding grooves are symmetrically formed in two sides of the back of the outer surface of the clamping main board, the back of the clamping main board is slidably connected with a rear sealing plate through the guide sliding grooves, each assembled heald group is shown in fig. 4, after the heald group is integrally inserted into the front of the connecting main board, threading equipment withdraws each perforation line from a hole in the axis of each heald rod, then the rear sealing plate and the clamping main board are pulled apart, at the moment, the clamping main board keeps a relatively static state, but after the rear sealing plate is withdrawn from the connecting main board, each heald rod can slide out from the inside of the clamping main board along with the tensile force of the perforation line, then the empty clamping main board is taken out from the inside of the connecting main board, and the heald rod is reused for feeding;

further, the lead part includes the concatenation splint, the both ends symmetry of concatenation splint inner chamber is provided with the connection fastener, the smooth wire casing has evenly been seted up to the surface of concatenation splint, and the middle part of smooth wire casing is cut one section, but the perforation line can not receive the influence through the process of smooth wire casing, the back sliding connection of concatenation splint inner wall has the pressure sensitive push pedal, the bilateral symmetry of pressure sensitive push pedal surface is provided with spacing spring area, the front of pressure sensitive push pedal evenly is provided with pressure sensing element, and pressure sensing element's vertical height is the same with the distance that smooth wire casing was cut, so pressure sensing element can fill the smooth wire casing.

Further, the number of the lead parts is three, the number of the splicing clamping plates is six, the number of the connecting clamping pieces is six, the outer surfaces of the splicing clamping plates are in sliding connection with the outer surfaces of the perforation lines through the sliding grooves, the two ends of the connecting clamping pieces are connected with the inner cavities of the splicing clamping plates in an inserting mode, one end of the limiting spring belt is fixedly connected with the outer surface of the pressure-sensitive pushing plate, and the other end of the limiting spring belt is fixedly connected with the inner walls of the splicing clamping plates. The outer surface of joint mainboard and the inner wall sliding connection who connects the mainboard, the outer surface of joint mainboard and the inner wall sliding connection of guide cardboard, the outside that the outside was all extended to the connection mainboard to the both ends of harness wire group, the both ends of harness wire pole all with the inner wall sliding connection of joint mainboard. The both ends of wire winding bull stick all peg graft with the top of connecting the mainboard, the both ends of steering roll axle all with the inner chamber fixed connection of connecting the mainboard, the inner wall of fuse equipment extrudees each other with the bottom of perforation line, the inner wall of clamp wheel part is connected with the surface roll of perforation line.

Further, the clamp wheel part comprises an arc wheel shell, one side, away from the perforation line, of the inner wall of the arc wheel shell is fixedly connected with a blower, one side, close to the perforation line, of the inner wall of the arc wheel shell is uniformly provided with a guide slide cylinder, the inner wall of the guide slide cylinder is slidably connected with an arc-shaped through pipe, one side, close to the blower, of the arc-shaped through pipe is sleeved with a spring washer, one side, close to the perforation line, of the outer surface of the arc wheel shell is fixedly connected with a wire clamping wheel, the arc-shaped through wheel shells on two sides are connected together through the wire clamping wheel combination, when the perforation line is pulled downwards, the perforation line can control the wire clamping wheel through friction force, at the moment, the arc-shaped through pipes on two sides are pressed to one side, close to the blower, and then slide into grooves of the wire clamping wheel, then the spring washer pushes the corresponding arc-shaped through pipe, and the bottom of the arc-shaped through pipe extrudes the outer surface of the perforation line.

The number of the clamping wheel parts is seven, the number of the cambered wheel shells is fourteen, the axis of the inner wall of the cambered wheel shells is fixedly connected with the outer surface of the steering roll shaft, the axis of the outer surface of the wire clamping wheel is in sliding connection with the outer surface of the perforation line, and the bottom end of the cambered through pipe and the outer surface of the perforation line are mutually extruded.

Further, threading equipment includes the guide slide, the bilateral symmetry of guide slide inner wall bottom is provided with the slip bull stick, the axle center department sliding connection of guide slide inner wall has symmetrical splint, one side fixedly connected with stamping element of symmetrical splint surface, the inner chamber of symmetrical splint evenly is provided with the sliding connection pole, and every sliding connection pole can all carry out synchronous sliding motion in the bottom of guide slide to the sliding connection pole moves through the symmetrical splint of the frictional force control both sides of surface, vertical spout has been seted up to one side that the symmetrical splint inner wall is close to the perforation line, the one end that the symmetrical splint is close to the perforation line evenly is provided with magnetism and inhales the buckle.

The threading equipment's quantity is seven, the lower surface of guide slide and the inner wall fixed connection who connects the mainboard, the bottom sliding connection of slip bull stick through parallel spout and guide slide inner wall, the surface sliding connection of symmetry splint has folding link plate, the one end that the symmetry splint was kept away from to folding link plate and the surface fixed connection of guide slide, the symmetry splint of both sides link together through the sliding connection pole under the general circumstances, but the end department of symmetry splint is separated each other to in the vertical perforation line can get into vertical spout.

The guide slide is close to the axle center department of perforation line one end penetration heald rod, the surface of perforation line passes through vertical spout and symmetrical splint's inner wall sliding connection, symmetrical splint's lower surface and guide slide's inner wall sliding connection.

The beneficial effects of the invention are as follows:

1. after perforation cutting work is carried out on perforation lines each time, the device can replace manual work to carry out position correction work on each perforation line rapidly through three groups of lead parts alternately, and in the three groups of lead parts, two groups of lead parts below circularly carry out traction work, the lead parts at the top can ensure that the perforation lines are always kept in a vertical state, and the lead parts cannot be mutually wound together.

2. The device guarantees through the position that presets for the harness wire group and vertically perforation line under the condition that does not need the manual work to proofread, can make the shaft hole and the perforation line one-to-one of harness wire pole, then makes threading equipment take out the perforation line through the harness wire pole fast, accomplishes the threading work, avoids appearing harness wire group and taking place the deviation with threading equipment after the installation, leads to fixed harness wire pole to be broken by the top problem.

3. The splice splint of device both sides can guarantee the vertical state of perforation line through the slide wire groove after merging, and inside pressure sensing push pedal can play the effect of pressing from both sides tight or not hard up to the perforation line through pressure sensing element, and inside pressure sensing element can feedback the extrusion force size to the perforation line to avoid appearing pressure sensing element to press from both sides the perforation line excessively, lead to the perforation line to pull under the tight state of clamp and punch the problem of being broken.

4. The clamp wheel component can play a role in guiding and pre-elongating the perforation line, and the perforation line positioned in the wire clamping wheel can be swept by the arc-shaped through pipe in the paying-off process, so that floating ash or knitting wool on the outer surface of the perforation line can be cleaned, the electrostatic adsorption effect of the perforation line in the friction stretching process is reduced, and the perforation line after threading is prevented from being wound together due to static electricity.

Drawings

FIG. 1 is a front view of the present invention;

FIG. 2 is a rear view of the present invention;

FIG. 3 is a schematic view of the structure of the pay-off unit of the present invention;

fig. 4 is a schematic structural view of the heddle module according to the invention;

fig. 5 is a cross-sectional view of the rear closure plate of the harness cord set of the present invention with the rear closure plate removed;

FIG. 6 is a cross-sectional view of a lead member of the present invention;

FIG. 7 is a cross-sectional view of a pinch wheel assembly of the present invention;

fig. 8 is a cross-sectional view of the threading device of the present invention.

In the figure: 1. connecting a main board; 2. a pay-off component; 3. a heddle group; 4. threading equipment; 11. a guide clamping plate; 12. a guide shaft; 13. a fuse device; 14. a guide sloping plate; 21. a winding rotating rod; 22. a perforation line; 23. steering roll shafts; 31. clamping a main board; 32. a guide chute; 33. a heald rod; 34. a rear sealing plate; 5. a lead member; 51. splicing clamping plates; 52. a sliding slot; 53. a connecting clip; 54. a pressure-sensitive push plate; 55. a spacing spring band; 56. a pressure sensing element; 6. a pinch wheel component; 61. cambered surface wheel shell; 62. a wire clamping wheel; 63. a guide slide cylinder; 64. an arc-shaped through pipe; 65. a spring washer; 66. a blower; 41. a guide slide plate; 42. folding the connecting plate; 43. parallel sliding grooves; 44. a sliding rotating rod; 45. symmetrical clamping plates; 46. stamping the element; 47. a sliding connecting rod; 48. a vertical chute; 49. the magnetic attraction buckle.

Detailed Description

The invention will be described in further detail with reference to the drawings and the detailed description. The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

In embodiment 1, referring to fig. 1 to 6, the present invention provides a technical solution: the automatic assembly equipment for the healds comprises a connecting main board 1, wherein a paying-off part 2 is arranged on the front surface of the connecting main board 1, a heald group 3 is arranged in the middle of the paying-off part 2, guide clamping boards 11 are symmetrically arranged on two sides of the outer surface of the connecting main board 1, a guide shaft rod 12 is fixedly connected to the bottom of the outer surface of the connecting main board 1, a fuse device 13 is slidingly connected to the outer surface of the guide shaft rod 12, a threading device 4 is arranged in the middle of the inner wall of the connecting main board 1, and a guide sloping plate 14 is fixedly connected to the back of the connecting main board 1;

the paying-off component 2 comprises a winding rotating rod 21, wherein perforated lines 22 are connected to the outer surface of the winding rotating rod 21 in a rolling way, seven groups of perforated line 22 reels are arranged on the outer surface of the winding rotating rod 21, the distance between each perforated line 22 reel is the same, the top of the outer surface of each perforated line 22 is slidingly connected with a steering roll shaft 23, the outer surface of each steering roll shaft 23 is uniformly provided with a clamping wheel component 6, the upper side and the lower side of the outer surface of each perforated line 22 are provided with three lead components 5, the number of the lead components 5 is three from top to bottom, the first lead component 5 is used for guaranteeing the perpendicularity of each perforated line 22, the second lead component 5 can slide to the position of a third lead component 5 from top to bottom along a guide clamping plate 11 and is used for preparing a wire, and the third lead component 5 can be matched with the lead component 5 above to straighten each perforated line 22;

the heald group 3 comprises a clamping main plate 31, heald rods 33 are uniformly arranged on the inner wall of the clamping main plate 31, guide sliding grooves 32 are symmetrically formed on two sides of the back of the outer surface of the clamping main plate 31, the back of the clamping main plate 31 is slidably connected with a rear sealing plate 34 through the guide sliding grooves 32, each assembled heald group 3 is shown in fig. 4, after the heald group 3 is integrally inserted into the front of the connecting main plate 1, threading equipment 4 draws each perforation line 22 out of a hole in the axis of each heald rod 33, then the rear sealing plate 34 and the clamping main plate 31 are pulled away, at the moment, the clamping main plate 31 is kept in a relatively static state, but after the rear sealing plate 34 is drawn out from the connecting main plate 1, each heald rod 33 can slide out from the inside of the clamping main plate 31 along with the tensile force of the perforation line 22, then the empty clamping main plate 31 is taken out from the inside of the connecting main plate 1, and the heald rods 33 are reused for feeding;

the lead part 5 includes splice splint 51, splice splint 51 inner chamber's both ends symmetry is provided with the connection fastener 53, splice splint 51's surface has evenly been offered smooth wire casing 52, the middle part of smooth wire casing 52 is cut one section, but perforation line 22 can not receive the influence through the process of smooth wire casing 52, splice splint 51 inner wall's back sliding connection has pressure sensitive push pedal 54, pressure sensitive push pedal 54 surface's bilateral symmetry is provided with spacing spring band 55, pressure sensitive push pedal 54's front evenly is provided with pressure sensitive element 56, pressure sensitive element 56's vertical height is the same with the distance that smooth wire casing 52 was cut, so pressure sensitive element 56 can fill smooth wire casing 52.

The number of the lead parts 5 is three, the number of the splicing clamping plates 51 is six, the number of the connecting clamping pieces 53 is six, the outer surface of the splicing clamping plates 51 is in sliding connection with the outer surface of the perforation line 22 through the sliding slot 52, the two ends of the connecting clamping pieces 53 are spliced with the inner cavity of the splicing clamping plates 51, one end of the limiting spring belt 55 is fixedly connected with the outer surface of the pressure sensing push plate 54, and the other end of the limiting spring belt 55 is fixedly connected with the inner wall of the splicing clamping plates 51. The outer surface of joint mainboard 31 and the inner wall sliding connection who connects mainboard 1, the outer surface of joint mainboard 31 and the inner wall sliding connection of guide cardboard 11, the outside that all extends to connecting mainboard 1 in harness wire group 3's both ends, the both ends of harness wire rod 33 all with the inner wall sliding connection of joint mainboard 31. Both ends of the winding rotating rod 21 are spliced with the top of the connecting main board 1, both ends of the steering roll shaft 23 are fixedly connected with the inner cavity of the connecting main board 1, the inner wall of the fuse wire equipment 13 and the bottom end of the perforation wire 22 are mutually extruded, and the inner wall of the clamping wheel part 6 is in rolling connection with the outer surface of the perforation wire 22.

Before the device is used for winding the perforated lines 22, preparation work is needed, each perforated line 22 passes through the upper clamping wheel part 6, so that the perforated lines 22 are kept in a state of being parallel to each other and vertical to the ground, then three groups of lead parts 5 are sequentially arranged above the perforated lines 22, each perforated line 22 passes through the corresponding sliding wire groove 52, the splicing clamping plates 51 on the two sides are connected together through the connecting clamping piece 53, the assembled lead parts 5 are slid down into the guide clamping plates 11 on the two sides, and at the moment, the three groups of lead parts 5 clamp the perforated lines 22 to keep a fastening state.

When threading is performed, the lowermost lead member 5 is slid down along the perforation lines 22, the perforation lines 22 are elongated after moving to the position shown in fig. 1, the bottom ends of the lead members are moved to the position opposite to the fuse wire device 13, then the fuse wire device 13 performs hot-melting processing on the bottom ends of the perforation lines 22, the bottom ends of the perforation lines 22 are thickened due to melting, then the cross section of each perforation line 22 is opposite to the through hole of each heald rod 33 at this time, the threading device 4 passes through the through hole of the heald rod 33, the outer surface of the perforation line 22 is clamped, the perforation lines 22 are pulled to pass through the axle center of the heald rod 33, and threading is performed, at this time, the lead members 5 at the bottom ends are slid out from the bottoms of the guide clamping plates 11, and the splicing clamping plates 51 at the two sides are detached and spliced above the perforation lines 22.

When the thickened part at the bottom end of the perforation line 22 contacts with the outer surface of the heald rod 33, the rear sealing plate 34 is pulled out from the inner wall of the clamping main plate 31, at this time, under the traction action of the perforation line 22, the heald rod 33 is pulled out from the inside of the clamping main plate 31, and then slides out along the guiding inclined plate 14 along with the perforation line 22, at this time, the perforation line 22 at the bottom of the lowermost lead part 5 is cut off, and single threading work is completed.

After the replacement of the new heald set 3, the perforation line 22 is clamped by the lowermost lead member 5, and pulled down along the guide clamping plate 11, and the next threading operation is ready.

When the lead part 5 clamps the perforation line 22, the pressure sensitive pushing plates 54 at the two sides are pushed to one side far away from the inner wall of the splicing clamping plate 51, so that the cut-off position of the middle part of the sliding groove 52 is filled by the pressure sensitive elements 56, at the moment, the perforation line 22 is clamped by the pressure sensitive elements 56 at the two sides, and the splicing clamping plate 51 with unchanged external state can pull the perforation line 22.

In embodiment 2, referring to fig. 1 to 8, the present invention provides a technical solution: on the basis of the first embodiment, the clamping wheel component 6 comprises an arc wheel shell 61, one side, far away from the perforation line 22, of the inner wall of the arc wheel shell 61 is fixedly connected with a blower 66, one side, close to the perforation line 22, of the inner wall of the arc wheel shell 61 is uniformly provided with a guide slide cylinder 63, the inner wall of the guide slide cylinder 63 is slidably connected with an arc-shaped through pipe 64, one side, close to the blower 66, of the arc-shaped through pipe 64 is sleeved with a spring washer 65, one side, close to the perforation line 22, of the outer surface of the arc wheel shell 61 is fixedly connected with a wire clamping wheel 62, the arc-shaped through pipes 61 on two sides are combined and connected together through the wire clamping wheel 62, when the perforation line 22 is drawn downwards, the perforation line 22 can rotate through friction force control the wire clamping wheel 62, at the moment, the arc-shaped through pipes 64 on two sides are pressed to one side, close to the blower 66, then slide into grooves of the wire clamping wheel 62, then the spring washer 65 pushes the corresponding arc-shaped through pipe 64, and the bottom end of the arc-shaped through pipe 64 extrudes the outer surface of the perforation line 22.

The number of the clamping wheel parts 6 is seven, the number of the cambered wheel shells 61 is fourteen, the axle center of the inner wall of the cambered wheel shells 61 is fixedly connected with the outer surface of the steering roll shaft 23, the axle center of the outer surface of the wire clamping wheel 62 is in sliding connection with the outer surface of the perforation wire 22, and the bottom end of the cambered through pipe 64 and the outer surface of the perforation wire 22 are mutually extruded.

The threading equipment 4 comprises a guide sliding plate 41, sliding rotating rods 44 are symmetrically arranged on two sides of the bottom of the inner wall of the guide sliding plate 41, a symmetrical clamping plate 45 is slidably connected to the axis of the inner wall of the guide sliding plate 41, a stamping element 46 is fixedly connected to one side of the outer surface of the symmetrical clamping plate 45, sliding connecting rods 47 are uniformly arranged in the inner cavity of the symmetrical clamping plate 45, each sliding connecting rod 47 can synchronously slide at the bottom of the guide sliding plate 41, the sliding connecting rods 47 control the symmetrical clamping plates 45 on two sides to move through the friction force of the outer surface, a vertical sliding groove 48 is formed in one side, close to a perforation line 22, of the inner wall of the symmetrical clamping plate 45, and magnetic attraction buckles 49 are uniformly arranged at one end, close to the perforation line 22, of the symmetrical clamping plate 45.

The number of threading devices 4 is seven, the lower surface of the guide slide plate 41 is fixedly connected with the inner wall of the connecting main plate 1, the bottom end of the sliding rotary rod 44 is in sliding connection with the bottom of the inner wall of the guide slide plate 41 through the parallel sliding groove 43, the outer surface of the symmetrical clamping plate 45 is in sliding connection with the folding connecting plate 42, one end of the folding connecting plate 42 far away from the symmetrical clamping plate 45 is fixedly connected with the outer surface of the guide slide plate 41, the symmetrical clamping plates 45 on two sides are connected together through the sliding connecting rod 47 under normal conditions, but the end positions of the symmetrical clamping plates 45 are mutually separated, so that the vertical perforation lines 22 can enter the vertical sliding grooves 48.

One end of the guide sliding plate 41, which is close to the perforation line 22, penetrates through the axis of the heald rod 33, the outer surface of the perforation line 22 is in sliding connection with the inner wall of the symmetrical clamping plate 45 through the vertical sliding groove 48, and the lower surface of the symmetrical clamping plate 45 is in sliding connection with the inner wall of the guide sliding plate 41.

When the perforation line 22 is guided by the wire clamping wheel 62 to be in a vertical state, the outer surfaces of the perforation line 22 push away the arc-shaped through pipes 64 at two sides firstly and then slide into the grooves of the wire clamping wheel 62, and then the arc-shaped through pipes 64 at two sides simply fix the perforation line 22 in the inner wall of the wire clamping wheel 62 under the action of the elastic force of the guiding sliding cylinder 63, and the bottom ends of the arc-shaped through pipes 64 are round surfaces. The outer surface is cambered, so that the perforation line 22 is not completely clamped in the wire clamping wheel 62, but only a certain resistance limit is provided for the perforation line 22, and the blower 66 can perform blowing cleaning operation on the outer surface of the perforation line 22 through the cambered through pipe 64.

The symmetrical clamping plates 45 on the two sides are transported to one side of the heald rod 33 by rolling friction force of the sliding rotating rod 44 under the pulled state, then the symmetrical clamping plates 45 on the two sides penetrate through the shaft hole of the heald rod 33 until the heald rod 33 moves to a preset position, the vertical sliding grooves 48 are aligned with the outer surface of the perforation line 22, then the punching element 46 pumps the sliding connecting rod 47, the symmetrical clamping plates 45 on the two sides are clamped and attached, at the moment, the butt-jointed vertical sliding grooves 48 clamp the perforation line 22, the magnetic clamping buckles 49 firmly connect the ends of the symmetrical clamping plates 45, the folding connecting plate 42 is lengthened along with the movement of the symmetrical clamping plates 45, and the sliding rotating rod 44 slides along the parallel sliding grooves 43 to one side close to the symmetrical clamping plates 45 in order to keep the attached state with the bottoms of the symmetrical clamping plates 45, then the symmetrical clamping plates 45 are reversely pulled by rotating friction force, and the perforation line 22 is pulled out of the shaft hole of the heald rod 33, so that perforation work is completed.

It will be apparent that the described embodiments are only some, but not all, embodiments of the invention. All other embodiments, which can be made by those skilled in the art and which are included in the embodiments of the present invention without the inventive step, are intended to be within the scope of the present invention. Structures, devices and methods of operation not specifically described and illustrated herein, unless otherwise indicated and limited, are implemented according to conventional means in the art.

Claims

1. Automatic assembly equipment for healds, including connecting mainboard (1), the front of connecting mainboard (1) is provided with unwrapping wire part (2), the middle part of unwrapping wire part (2) is provided with heald group (3), the bilateral symmetry of connecting mainboard (1) surface is provided with guide cardboard (11), the bottom fixedly connected with guide axostylus axostyle (12) of connecting mainboard (1) surface, the surface sliding connection of guide axostylus axostyle (12) has fuse equipment (13), the middle part of connecting mainboard (1) inner wall is provided with threading equipment (4), the back fixedly connected with guide swash plate (14) of connecting mainboard (1), its characterized in that:

the paying-off component (2) comprises a winding rotating rod (21), wherein a perforation line (22) is connected to the outer surface of the winding rotating rod (21) in a rolling manner, a steering roll shaft (23) is connected to the top of the outer surface of the perforation line (22) in a sliding manner, a clamping wheel component (6) is uniformly arranged on the outer surface of the steering roll shaft (23), and lead components (5) are arranged on the upper side and the lower side of the outer surface of the perforation line (22);

the heald wire group (3) comprises a clamping main board (31), heald wires (33) are uniformly arranged on the inner wall of the clamping main board (31), guide sliding grooves (32) are symmetrically formed in the two sides of the back of the outer surface of the clamping main board (31), and the back of the clamping main board (31) is slidably connected with a rear sealing plate (34) through the guide sliding grooves (32);

the lead part (5) comprises a splicing clamping plate (51), connecting clamping pieces (53) are symmetrically arranged at two ends of an inner cavity of the splicing clamping plate (51), sliding grooves (52) are uniformly formed in the outer surface of the splicing clamping plate (51), a pressure-sensitive pushing plate (54) is connected to the back of the inner wall of the splicing clamping plate (51) in a sliding mode, limiting spring bands (55) are symmetrically arranged on two sides of the outer surface of the pressure-sensitive pushing plate (54), and pressure-sensitive elements (56) are uniformly arranged on the front surface of the pressure-sensitive pushing plate (54).

2. An automatic assembly device for heddles according to claim 1, characterized in that: the number of the lead parts (5) is three, the number of the splicing clamping plates (51) is six, the number of the connecting clamping pieces (53) is six, the outer surface of the splicing clamping plates (51) is in sliding connection with the outer surface of the perforation line (22) through the sliding groove (52), the two ends of the connecting clamping pieces (53) are both spliced with the inner cavity of the splicing clamping plates (51), one end of the limiting spring belt (55) is fixedly connected with the outer surface of the pressure-sensitive push plate (54), and the other end of the limiting spring belt (55) is fixedly connected with the inner wall of the splicing clamping plates (51).

3. An automatic assembly device for heddles according to claim 2, characterized in that: the outer surface of joint mainboard (31) and the inner wall sliding connection who connects mainboard (1), the outer surface of joint mainboard (31) and the inner wall sliding connection of guide cardboard (11), the outside that all extends to connect mainboard (1) in harness wire group (3) both ends, the both ends of harness wire pole (33) all with the inner wall sliding connection of joint mainboard (31).

4. An automatic assembly device for heddles according to claim 3, characterized in that: both ends of wire winding bull stick (21) all peg graft with the top of connecting mainboard (1), the both ends of steering roll axle (23) all with the inner chamber fixed connection of connecting mainboard (1), the inner wall of fuse equipment (13) extrudees each other with the bottom of perforation line (22), the inner wall of clamp wheel part (6) is connected with the surface roll of perforation line (22).

5. An automatic assembly device for heddles according to claim 1, characterized in that: the wheel clamping component (6) comprises an arc-shaped wheel shell (61), one side, away from the perforation line (22), of the inner wall of the arc-shaped wheel shell (61) is fixedly connected with a blower (66), one side, close to the perforation line (22), of the inner wall of the arc-shaped wheel shell (61) is uniformly provided with a guide slide cylinder (63), the inner wall of the guide slide cylinder (63) is slidably connected with an arc-shaped through pipe (64), one side, close to the blower (66), of the arc-shaped through pipe (64) is sleeved with a spring washer (65), and one side, close to the perforation line (22), of the outer surface of the arc-shaped wheel shell (61) is fixedly connected with a wire clamping wheel (62).

6. An automatic assembly device for heddles as claimed in claim 5, characterized in that: the number of the clamping wheel parts (6) is seven, the number of the cambered wheel shells (61) is fourteen, the axle center of the inner wall of the cambered wheel shells (61) is fixedly connected with the outer surface of the steering roll shaft (23), the axle center of the outer surface of the wire clamping wheel (62) is in sliding connection with the outer surface of the perforation line (22), and the bottom end of the cambered through pipe (64) is mutually extruded with the outer surface of the perforation line (22).

7. An automatic assembly device for heddles according to claim 1, characterized in that: threading equipment (4) are including guide slide (41), the bilateral symmetry of guide slide (41) inner wall bottom is provided with slip bull stick (44), the axle center department sliding connection of guide slide (41) inner wall has symmetrical splint (45), one side fixedly connected with punching press component (46) of symmetrical splint (45) surface, the inner chamber of symmetrical splint (45) evenly is provided with sliding connection rod (47), vertical spout (48) have been seted up to one side that symmetrical splint (45) inner wall is close to perforation line (22), the one end that symmetrical splint (45) is close to perforation line (22) evenly is provided with magnetism and inhales buckle (49).

8. An automatic assembly device for heddles as claimed in claim 7, characterized in that: the threading equipment (4) is seven in number, the lower surface of the guide sliding plate (41) is fixedly connected with the inner wall of the connecting main plate (1), the bottom of the sliding rotating rod (44) is in sliding connection with the bottom of the inner wall of the guide sliding plate (41) through a parallel sliding groove (43), the outer surface of the symmetrical clamping plate (45) is in sliding connection with a folding connecting plate (42), and one end, far away from the symmetrical clamping plate (45), of the folding connecting plate (42) is fixedly connected with the outer surface of the guide sliding plate (41).

9. An automatic assembly device for heddles as claimed in claim 8, characterized in that: one end of the guide sliding plate (41) close to the perforation line (22) penetrates through the axis of the heald rod (33), the outer surface of the perforation line (22) is in sliding connection with the inner wall of the symmetrical clamping plate (45) through the vertical sliding groove (48), and the lower surface of the symmetrical clamping plate (45) is in sliding connection with the inner wall of the guide sliding plate (41).