CN108166136B

CN108166136B - Textile fiber wiring device

Info

Publication number: CN108166136B
Application number: CN201711466106.0A
Authority: CN
Inventors: 孙文清
Original assignee: Ningbo Wenze Textile Co ltd
Current assignee: Hubei Hesheng Textile Co.,Ltd.
Priority date: 2017-12-28
Filing date: 2017-12-28
Publication date: 2020-06-02
Anticipated expiration: 2037-12-28
Also published as: CN108166136A

Abstract

The utility model relates to a weaving equipment technical field, concretely relates to textile fiber termination, including base, kinking mechanism and putting the line box, the both ends of base are equipped with a slide respectively, slide and base sliding connection, kinking mechanism includes the kinking unit of two relative base axis symmetries, and two kinking unit difference fixed connection are on two slides, the kinking unit is including two centre gripping posts, and the centre gripping post is including the cylinder section, and the axis of cylinder section is parallel with the base, be equipped with the screw thread in the cylinder section of centre gripping post, threaded connection has the sleeve on the cylinder section of centre gripping post, telescopic one end of keeping away from the slide is equipped with the line hole, still is equipped with on the sleeve and puts gluey box, puts the waterborne gluing agent in the cavity of gluey box. The invention aims to provide a textile fiber wiring device which can be used for quickly jointing broken yarns.

Description

Textile fiber wiring device

Technical Field

The patent relates to the technical field of textile equipment, in particular to a textile fiber wiring device.

Background

The textile fiber is a material with certain fineness, length, strength and elasticity and can be used for manufacturing textiles, and during the process of spinning the fiber yarn into fabric by using textile equipment, the yarn is broken sometimes, so that the production is seriously disturbed, and therefore, the broken yarn needs to be quickly jointed.

The utility model discloses a chinese utility model patent that publication number is CN206706287U discloses an automatic wiring doubling machine, utilizes intelligent control case control broken string inductor, realizes that the broken string automatic shutdown, control servo motor and pull the electro-magnet and pull the broken string end and pull to the doubling spindle above, control thrust electro-magnet will doubling spindle and cylinder motor separately so that carry the broken string end and continue the wire winding, realize the automatic wiring of broken string. Above-mentioned scheme structure is complicated, and the transport is difficult, consequently can not handle the station that the broken string appears fast.

Disclosure of Invention

The invention aims to provide a textile fiber wiring device which can be used for quickly jointing broken yarns.

In order to achieve the purpose, the basic scheme of the invention is as follows: the textile fiber wiring device comprises a base, a winding mechanism and a wiring box, wherein two sliding seats are respectively arranged at two ends of the base and are in sliding connection with the base, the winding mechanism comprises two winding units which are symmetrical relative to the axis of the base, the two winding units are respectively and fixedly connected to the two sliding seats, each winding unit comprises two clamping columns, each clamping column comprises a cylindrical section, the central axis of the cylindrical section is parallel to the base, threads are arranged on the cylindrical sections of the clamping columns, sleeves are in threaded connection with the cylindrical sections of the clamping columns, one ends of the sleeves, far away from the sliding seats, are provided with wire holes, glue placing boxes are further arranged on the sleeves, and water-based adhesives are filled in cavities of the glue placing boxes; the two contact pieces are respectively fixed on the two sliding seats, and the two contact pieces are respectively connected with the anode and the cathode of the power supply; the wire arrangement box is a cylinder formed by combining two semicylinders, the two semicylinders are made of ice, and the contact piece and the sleeve are made of conductive materials.

The technical principle of the basic scheme is as follows:

the wire placing box is a solid cylinder formed by combining two semicylinders, the two semicylinders are separated from each other firstly, two wire ends formed after the wire is broken are drawn and overlapped together, then the two semicylinders are combined, the two wire ends are clamped between the two semicylinders, and the two wire ends are fixed in the wire placing box. The distance between the two clamping columns is adjusted through the sliding seat, so that the wire placing box is clamped between the two clamping columns.

In the scheme, a metal bonding wire penetrates through the wire winding mechanism in advance, the bonding wire penetrates through the wire holes in the two sleeves, a section of length is arranged after the two ends of the bonding wire penetrate through the wire holes, and the two ends of the bonding wire penetrate through the two glue placing boxes respectively. Because the cylindrical section of centre gripping post is equipped with the screw thread, sleeve threaded connection is on the cylindrical section of centre gripping post, so when two sleeves all moved and rotated towards the direction of keeping away from each other, the bonding wire started from the middle part, and both ends twine gradually on putting the line box along with telescopic rotation along with opposite direction respectively. In the process that the bonding wire is wound on the wire placing box, two ends of the bonding wire penetrate through the wire hole and the glue placing box, and the surface of the bonding wire penetrates through the glue placing box and is adhered with the water-based adhesive in the glue placing box.

Because the bonding wire made of metal can conduct electricity, the contact piece and the sleeve are made of conducting materials, the two contact pieces are respectively fixed on the two sliding seats, and the two contact pieces are respectively connected with the positive pole and the negative pole of the power supply, when the sleeve moves to be in contact with the contact pieces, the positive pole and the negative pole of the power supply are communicated, the bonding wire is electrified and generates heat, and the junction box is heated. The line placing box is made of ice, so the line placing box starts to melt from the outer surface, the volume of the line placing box is gradually reduced, and two ends of the bonding wire are kept tensioned in the melting process of the line placing box, so that the bonding wire is always tightly wound on the line placing box. As the box melts completely, the bond wire wraps around the overlapping two ends. Meanwhile, the water-based adhesive adhered to the bonding wire meets water formed after ice melts to form a viscous solution, and the solution has an adhesion effect on the two wire ends and the bonding wire.

The circuit is continuously communicated, and the bonding wire continuously heats, so that the solidification of the aqueous adhesive is accelerated. Until the two broken wire ends and the bonding wire wound on the wire ends are completely bonded together by the aqueous adhesive, the broken wire bonding is realized.

After the wire placing box is completely melted, the bonding wire made of the metal material plays a role of supporting the bonded broken wire, and finally, the redundant bonding wire is cut off after the aqueous adhesive is completely solidified.

The beneficial effect of this basic scheme does:

1. after the circuit is communicated, the bonding wire heats to melt ice, the water-based adhesive generates viscosity when meeting the water after the ice melts, and the bonding wire is matched with the two wire ends to wind, so that the rapid and firm bonding of the broken wire can be realized.

2. The circuit is continuously communicated, and the bonding wire continuously heats, so that the solidification of the aqueous adhesive is accelerated.

3. The water-based adhesive is prepared by using the water formed after the ice melts, and compared with the preparation by using the external water, the water can be accurately and uniformly sucked into the thread ends to be jointed after the ice melts in the scheme, so that the bonding effect of the water-based adhesive is uniform and firm.

4. The device has simple and light structure, is suitable for rapidly processing the station with broken wires and can rapidly realize the joint of the broken wires.

Furthermore, one end of the clamping column, which is far away from the sliding seat, extends out of a truncated cone end.

Is convenient for observation and operation.

Further, the aqueous adhesive is polyvinyl alcohol aqueous adhesive.

The polyvinyl alcohol aqueous adhesive is prepared from polyvinyl alcohol macromolecules, can be quickly dissolved in water to form a transparent viscous solution, and can be quickly and directly dissolved by cold water.

Further, the line hole is provided with a chamfer.

Avoiding the sharp wire hole cutting off the bonding wire.

Further, the glue placing box is detachably connected with the sleeve.

The rubber box is convenient to replace.

Drawings

FIG. 1 is a schematic diagram of an embodiment of the present invention.

Detailed Description

The following is further detailed by way of specific embodiments:

reference numerals in the drawings of the specification include: the device comprises a base 1, a sliding seat 2, a clamping column 3, a thread 4, a sleeve 5, a thread hole 51, a gluing box 52, a bonding wire 6, a thread placing box 7, a contact piece 8 and a power supply 9.

The embodiment is basically as shown in the attached figure 1:

the textile fiber wiring device comprises a base 1, a winding mechanism and a wire placing box 7, wherein two sliding seats 2 are respectively arranged at two ends of the base 1, the sliding seats 2 are connected with the base 1 in a sliding manner, the winding mechanism comprises two winding units which are symmetrical relative to the axis of the base 1, the two winding units are respectively and fixedly connected to the two sliding seats 2, each winding unit comprises two clamping columns 3, each clamping column 3 comprises a cylindrical section, the central axis of each cylindrical section is parallel to the base 1, a truncated cone-shaped end extends out of one end, far away from the sliding seat 2, of each clamping column 3, threads 4 are arranged on the cylindrical section of each clamping column 3, each thread 4 is connected with a sleeve 5, one end, far away from the sliding seat 2, of each sleeve 5 is provided with a thread hole 51, the sleeve 5 is also provided with a glue placing box 52, and a polyvinyl alcohol aqueous adhesive is filled in a cavity of; the device also comprises a power supply 9 and two contact pieces 8, wherein the two contact pieces 8 are respectively fixed on the two sliding seats 2, and the two contact pieces 8 are respectively connected with the positive pole and the negative pole of the power supply 9; the wire arrangement box 7 is a cylinder formed by combining two semi-cylinders, the two semi-cylinders are made of ice, and the contact piece 8 and the sleeve 5 are made of conductive materials.

In this embodiment, a metal bonding wire 6 is pre-threaded on the winding mechanism, the bonding wire 6 passes through the wire holes 51 of the two sleeves 5, two ends of the bonding wire 6 have a length after passing through the wire holes 51, and two ends of the bonding wire 6 also pass through the two glue placing boxes 52 respectively. Since the cylindrical section of the clamping column 3 is provided with the thread 4, and the sleeve 5 is connected with the thread 4 on the cylindrical section of the clamping column 3, when the two sleeves 5 move and rotate towards the direction away from each other, the junction line 6 starts from the middle part, and the two ends are respectively wound on the wire arranging box 7 gradually along the opposite directions along with the rotation of the sleeve 5. In the process that the bonding wire 6 is wound on the wire placing box 7, two ends of the bonding wire 6 penetrate through the wire hole 51 and the glue placing box 52, and the polyvinyl alcohol water-based adhesive in the glue placing box 52 is adhered to the surface of the bonding wire 6 in the process that the bonding wire 6 penetrates through the glue placing box 52.

Since the bonding wire 6 made of metal can conduct electricity, the contact piece 8 and the sleeve 5 are both made of conducting materials, the two contact pieces 8 are respectively fixed on the two sliding seats 2, and the two contact pieces 8 are respectively connected with the positive pole and the negative pole of the power supply 9, when the sleeve 5 moves to be in contact with the contact pieces 8, the positive pole and the negative pole of the power supply 9 are communicated, the bonding wire 6 is electrified to generate heat, and the opposite wire box 7 is heated. The terminal box 7 is made of ice, so the terminal box 7 is melted from the outer surface, the volume of the terminal box 7 is gradually reduced, and the two ends of the bonding wire 6 are kept tensioned in the process of melting the terminal box 7, so that the bonding wire 6 is tightly wound on the terminal box 7 all the time. With the box 7 completely melted, the join line 6 is wound around the overlapped two terminals. Meanwhile, the polyvinyl alcohol aqueous adhesive adhered to the bonding wire 6 meets water formed after ice melts to form a viscous solution, and has an adhesion effect on the two wire ends and the bonding wire 6.

The circuit is continuously connected, the bonding wire 6 continuously heats, and the solidification of the polyvinyl alcohol aqueous adhesive is accelerated. Until the polyvinyl alcohol aqueous adhesive completely bonds the two broken wire ends and the bonding wire 6 wound on the wire ends together, and the broken wire bonding is realized.

After the wire placing box 7 is completely melted, the metal bonding wire 6 plays a role of supporting the bonded broken wire, and finally the redundant bonding wire 6 is cut off after the polyvinyl alcohol aqueous adhesive is completely solidified.

The beneficial effect of this embodiment does:

1. after the circuit is communicated, the bonding wire 6 heats to melt ice, the polyvinyl alcohol aqueous adhesive generates viscosity when meeting the water after the ice melts, and the bonding wire 6 which is used for winding the two wire ends is matched to realize quick and firm bonding of broken wires.

2. The circuit is continuously connected, the bonding wire 6 continuously heats, and the solidification of the polyvinyl alcohol aqueous adhesive is accelerated.

3. The polyvinyl alcohol aqueous adhesive is blended by using water formed after ice melts, and compared with blending by using external water, the polyvinyl alcohol aqueous adhesive can be accurately and uniformly sucked into a thread end to be jointed after the ice melts in the scheme, so that the polyvinyl alcohol aqueous adhesive is uniform and firm in bonding effect.

The foregoing is merely an example of the present invention and common general knowledge of known specific structures and features of the embodiments is not described herein in any greater detail. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. Textile fiber termination, its characterized in that: the winding mechanism comprises two winding units which are symmetrical relative to the axis of the base, the two winding units are fixedly connected to the two sliding seats respectively, each winding unit comprises two clamping columns, each clamping column comprises a cylindrical section, the central axis of each cylindrical section is parallel to the base, threads are arranged on the cylindrical sections of the clamping columns, sleeves are connected to the cylindrical sections of the clamping columns in a threaded manner, thread holes are formed in one ends of the sleeves, which are far away from the sliding seats, glue placing boxes are further arranged on the sleeves, and water-based adhesives are filled in cavities of the glue placing boxes; the two contact pieces are respectively fixed on the two sliding seats, and the two contact pieces are respectively connected with the anode and the cathode of the power supply; the wire arrangement box is a cylinder formed by combining two semicylinders, the two semicylinders are both made of ice, and the contact piece and the sleeve are both made of conductive materials; the winding mechanism is pre-penetrated with a metal bonding wire, the bonding wire penetrates through wire holes in the two sleeves, two ends of the bonding wire also penetrate through the two glue placing boxes respectively, when the two sleeves move towards the direction away from each other and rotate, the bonding wire starts from the middle, and two ends of the bonding wire are wound on the glue placing boxes gradually along the opposite directions along with the rotation of the sleeves respectively; when the sleeve moves to be in contact with the contact piece, the positive pole and the negative pole of the power supply are communicated, the bonding wire is electrified and generates heat, and the junction box is heated.

2. The textile fiber splicing device of claim 1, wherein: one end of the clamping column, which is far away from the sliding seat, extends out of a truncated cone-shaped end.

3. The textile fiber splicing device of claim 2, wherein: the aqueous adhesive is polyvinyl alcohol aqueous adhesive.

4. The textile fiber splicing device of claim 3, wherein: the line hole is provided with a chamfer.

5. The textile fiber splicing device of claim 4, wherein: the glue placing box is detachably connected with the sleeve.