CN209859697U - Fine thread pipe strander - Google Patents

Abstract

The utility model relates to a wire and cable former's technical field especially relates to a fine rule pipe strander. The wire twisting device, the power device, the material conveying device and the winding device; stranded conductor device includes: the cable separating device comprises a twisting structure and a cable separating structure, wherein the twisting structure is provided with a plurality of twisting grooves, the twisting grooves surround the cable separating structure, and the cable separating structure is in a circular truncated cone shape; the wire twisting device is in transmission connection with the power device so as to enable the wire twisting device to rotate; the material conveying device is used for conveying materials to the stranding device; the material conveying device and the winding device are respectively arranged on two sides of the wire twisting device. In the prior art, the problem of material fracture caused by insufficient twisting degree or overlarge tension is often existed in the twisting of thin wires. Compared with the prior art, the utility model discloses a separated time structure has thereby increased the hinge point interval and has reduced tension with the wire separation, thereby on the one hand, and on the other hand exerts the holding power to the wire through separated time structure, and the effectual degree of twisting that has prevented is not enough. Thereby making the device more suitable for strand stranding.

Description

Fine thread pipe strander

Technical Field

The utility model relates to a wire and cable former's technical field especially relates to a fine rule pipe strander.

Background

A tubular stranding machine, which is a stranding device widely applicable to various conductor wires and electronic wires, and generally stranding a plurality of individual wires into one electronic wire in a stranding mode of a stranding disc. With the continuous development of the technology, the diameter of the formed electronic wire is smaller and smaller, the smaller the diameter of the wire is, the smaller the tension force which can be born by a single wire is, and the greater the twisting difficulty is. The tension of a single wire is related to the distance between the stranding point and the material conveying opening on the winch, and if the distance between the stranding point and the material conveying opening is too large, although the tension is reduced, the wire is easy to be subjected to the following conditions: external interference such as gravity, device vibrations, equipment ageing for remove in advance between the wire, thereby make the skew of stranded point, cause the transposition degree low, the electron line of output is easy loose, if the interval undersize between transposition point and the material conveying mouth, though improved the transposition degree, but the tension on the wire is too big, the wire is easy disconnected, the easy defective products of output. Therefore, it is necessary to design a tube twisting machine more suitable for twisting thin wires.

SUMMERY OF THE UTILITY MODEL

To prior art's technical problem, the utility model provides a fine rule pipe strander.

In order to solve the technical problem, the utility model provides a following technical scheme:

a fine wire pipe strander comprising: the wire twisting device, the power device, the material conveying device and the winding device; the wire stranding device comprises: the cable separating device comprises a twisting structure and a cable separating structure, wherein a plurality of twisting grooves are formed in the twisting structure, the twisting grooves surround the cable separating structure, and the cable separating structure is of a round table shape; the wire twisting device is in transmission connection with the power device so as to enable the wire twisting device to rotate; the material conveying device is used for conveying materials to the wire stranding device; the feeding device and the winding device are respectively arranged on two sides of the wire twisting device.

Leading out single wires from a material conveying device, embedding the wires into a stranding groove of a stranding structure one by one, and fixing one end of the gathered wires with a winding device. Under the action of the power device, the wire twisting device rotates at a constant speed, the twisting grooves of the twisting structure rotate at a constant speed, and the twisting grooves drive the wires to rotate at a constant speed together, so that the wires are twisted gradually. The stranded conductor is wound by the winding device, and meanwhile, the winding device pulls the conductor to move at a constant speed, so that the conductor is conveyed to the stranding device by the conveying device at a constant speed, the conductor can pass through the stranding device at a constant speed, and the stranding device can continuously strand the conductor. In the process of transposition, the wire laminates with the outer wall of round platform type separated time structure mutually, under the effect of separated time structure, on the one hand with the wire separation, make the wire hinge point be located the less one end of separated time structure, thereby increased the interval of hinge point, and then reduced the tension of wire, on the other hand, the separated time structure can exert the holding power to the wire, effectually prevented to contact in advance between the wire, strengthened and leaned on interference ability, thereby the skew of effectual prevention hinge point, and then the effectual degree of twisting that has prevented is not enough. In conclusion, the device is more suitable for fine wire stranding.

Further, the wire distributing structure is detachably connected with the twisting structure; the branching structure is in transmission connection with the power device through a connecting rod, and the connecting rod is arranged along the axial lead of the branching structure.

Furthermore, a plug rod is arranged on the twisted structure, and the twisted structure is plugged with the branching structure through the plug rod.

Furthermore, the twisted structure is provided with an accommodating groove corresponding to the wire distributing structure, and the insertion rod is arranged in the accommodating groove.

Furthermore, a plurality of clamping tenons are uniformly arranged on the insertion rod.

Furthermore, a conical protrusion is further arranged on the twisting structure.

Furthermore, one side of the twisted slot, which is close to the axis of the twisted structure, is in a V shape.

Further, the method comprises the following steps: the material conveying device comprises a material conveying wheel and a material conveying disc, the material conveying disc is arranged between the material conveying wheel and the twisting structure, and material conveying ports are formed in the material conveying disc and correspond to the twisting grooves one to one.

Furthermore, the material conveying disc comprises two sub-discs, wherein one sub-disc is provided with an inserting tenon, and the two sub-discs are detachably connected through the inserting tenon.

Further, the tenon is trapezoidal.

Compared with the prior art, the utility model has the advantages of it is following:

through the separated time structure with the wire separation, prolonged the interval of hinge point on the one hand, reduced the tension of wire, effectually prevented the wire fracture, on the other hand, separated time structure looks wire is applyed and is supported, has strengthened the interference killing feature to the effectual hinge point skew of preventing to cause because of the wire contacts in advance, and then prevented the transposition degree not enough.

The branching structure is detachably connected with the twisting structure through the insertion rod, so that the worker can conveniently replace the excessively worn twisting structure, and the worker can conveniently maintain the device.

The material conveying disc can be divided into two sub-discs through the tenon, the twisting structure can be divided from the branching structure through the inserting rod, and therefore production specifications can be adjusted by installing twisting structures with different specifications and the material conveying disc.

One end of the stranding groove close to the axial lead of the stranding structure is V-shaped, so that the stranding groove can further limit the conductor, and the displacement of a stranding point caused by the displacement of the position of the conductor in the stranding process is effectively prevented.

Be provided with the trip on the inserted bar, the separated time structure passes through the trip and drives the transposition structure and rotate jointly, and the effectual transposition in-process that has prevented produces relative displacement between transposition structure and the separated time structure, causes the transposition degree not enough.

Drawings

FIG. 1: the whole structure of the pipe strander.

FIG. 2: stranded conductor device structure diagram.

FIG. 3: and (4) an explosion diagram of a stranded wire device.

FIG. 4: holding tank structure chart.

FIG. 5: the structure diagram of the strand slot is enlarged.

FIG. 6: the material conveying disc is structured into a picture.

In the figure: 1-twisting device, 2-power device, 3-material conveying device, 4-rolling device, 11-twisting structure, 12-branching structure, 31-material conveying wheel, 32-material conveying disc, 111-twisting groove, 112-accommodating groove, 113-inserting rod, 114-protrusion, 121-connecting rod, 321-material conveying port, 322-subpanel and 323-inserting tenon.

Detailed Description

The following are specific embodiments of the present invention and the accompanying drawings are used to further describe the technical solution of the present invention, but the present invention is not limited to these embodiments.

A fine wire pipe strander comprising: the wire stranding device comprises a wire stranding device 1, a power device 2, a material conveying device 3 and a winding device 4.

The wire stranding device 1 includes: a twisting structure 11 and a cone-shaped branching structure 12. The twisted structure 11 is provided with an accommodating groove 112 corresponding to the branching structure 12, an inserting rod 113 is arranged in the accommodating groove 112, a tenon is arranged on the inserting rod 113, and the twisted structure 11 is inserted into the branching structure 12 through the inserting rod 113. The twisted structure 11 is further provided with a plurality of twisted slots 111, and preferably, the number of the twisted slots 111 is seven, and the twisted slots 111 surround the branch structure 12. A connecting rod 121 is arranged along the axial lead of the branching structure 12, and the branching structure 12 is in transmission connection with the power device 3 through the connecting rod 121.

Feeding device 3 is used for to stranded conductor device 1 transported substance material, feeding device 3 sets up the one side at stranded conductor device 1, feeding device 3 includes defeated material wheel 31, defeated material dish 32 is located between defeated material wheel 31 and the transposition structure 12, defeated material dish 32 sets up the one side at separated time structure 12 broad, connecting rod 121 passes defeated material dish 32, be provided with defeated material mouth 321 on the defeated material dish 32, as preferred, the quantity of defeated material mouth 321 is 7, defeated material mouth 321 and transposition groove 111 one-to-one.

The winding device 4 is arranged at the other side of the stranding device 1.

When the device is in actual operation, a thin line (a conducting wire with the diameter of 0.016mm or below) on the conveying wheel is drawn to enable the thin line to penetrate through a conveying port on the conveying disc, the thin line is embedded into the stranding groove, the outer surface of the thin line and the outer surface of the branching structure are attached to each other, one side, close to the axial lead of the stranding structure, of the stranding groove is V-shaped, the stranding groove can further limit the thin line, and the thin line is effectively prevented from displacing in the stranding process. And continuously drawing the thin wire to enable the thin wire to extend along the stranded groove, finally gathering the thin wire together, and connecting the gathered thin wire with the winding device. The power device and the winding device are started simultaneously, the power device drives the connecting rod to rotate through the belt, on one hand, the connecting rod drives the material conveying disc to rotate together, on the other hand, the connecting rod drives the branching structure to rotate together, so that the branching structure drives the twisting structure to rotate together through the clamping tenon on the inserting rod, the twisting structure drives the fine wires in the twisting grooves to rotate together, and finally the fine wires are twisted together. At this moment, the coiling mechanism draws fine rule uniform motion after the transposition, and the fine rule rolling after will twisting on the one hand, on the other hand makes the conveying wheel to the at uniform velocity transport fine rule of stranded conductor device for fine rule on the conveying wheel constantly passes through the stranded conductor device, so that the stranded conductor device can be constantly with the fine rule transposition.

In the twisting process, the thin wire is attached to the outer surface of the wire separating structure, on one hand, the thin wire is separated through the wire separating structure, so that a twisting point (a point where the thin wires are in mutual contact and start to enter a twisting state, the thin wire on one side of the twisting point is in a twisting state, the thin wire on the other side of the twisting point is in a separating state, the twisting point is a reference point in space and does not move along with the movement of a lead) of the thin wire is located at one end with a smaller section radius of the wire separating structure, the distance between the twisting point and the material conveying disc is increased, the tension on the thin wire is further reduced, and the breakage of the thin wire due to overlarge tension is effectively prevented. On the other hand, the supporting force is applied to the thin wire through the branching structure, so that the following problems are reduced: gravity, the interference of external factors such as device vibrations to the fine rule to the interference ability that leans on of fine rule has been strengthened, thereby has effectually prevented that the fine rule from contacting in advance and causing the transposition point skew, and then the effectual not enough that prevents the transposition degree.

If the twisted structure is excessively worn and cannot be used, the twisted structure is pulled, so that the plug rod is separated from the branching structure, and the excessively worn combined structure is detached from the branching structure to install a new twisted structure.

The twisted structure 1 is further provided with a conical protrusion 114. During twisting, the thin wire is attached to the outer surface of the conical protrusion 114, thereby further enhancing the tamper resistance of the thin wire by the conical protrusion 114.

The material conveying disc 32 comprises two sub-discs 322, one of the sub-discs is provided with a trapezoidal tenon 323, and the two sub-discs 322 are detachably connected through the tenon 323. The trapezoidal tenon 323 increases the contact area between the two nuts 322, so that the connection between the two nuts is more stable, and on the other hand, the two nuts are stressed more uniformly, so that the two sub-discs 322 are effectively prevented from being separated in the twisting process.

If the conveying disc is excessively worn, one of the sub-discs is pushed, the tenon is separated from the other sub-disc, the two sub-discs are separated from each other, and the conveying disc is detached from the connecting rod, so that a worker can maintain the device conveniently.

If it is necessary to adjust the production specifications, for example: and increasing or reducing the number of thin wires, removing the material conveying disc and the stranding structure at the same time, and installing the stranding structure with the new specification and the corresponding material conveying disc to adjust the production specification.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein may be made by those skilled in the art without departing from the spirit of the invention or exceeding the scope of the invention as defined in the accompanying claims.

Claims (10)

1. The utility model provides a fine rule pipe strander which characterized in that: the method comprises the following steps: the wire stranding device comprises a wire stranding device (1), a power device (2), a material conveying device (3) and a winding device (4);

the wire stranding device (1) includes: the cable dividing device comprises a twisting structure (11) and a branching structure (12), wherein a plurality of twisting grooves (111) are formed in the twisting structure (11), the twisting grooves (111) surround the periphery of the branching structure (12), and the branching structure (12) is in a circular truncated cone shape;

the wire twisting device (1) is in transmission connection with the power device (2) so that the wire twisting device (1) can rotate;

the material conveying device (3) is used for conveying materials to the stranding device (1);

the material conveying device (3) and the winding device (4) are respectively arranged on two sides of the wire twisting device (1).

2. A fine wire pipe strander as claimed in claim 1, wherein: the branching structure (12) is detachably connected with the twisting structure (11);

the wire dividing structure (12) is in transmission connection with the power device (2) through a connecting rod (121), and the connecting rod (121) is arranged along the axial lead of the wire dividing structure (12).

3. A fine wire pipe strander as claimed in claim 2, wherein: the twisted structure (11) is provided with an inserting rod (113), and the twisted structure (11) is inserted into the branching structure (12) through the inserting rod (113).

4. A fine wire pipe strander as claimed in claim 3, wherein: the twisted structure (11) is provided with an accommodating groove (112) corresponding to the branching structure (12), and the insertion rod (113) is arranged in the accommodating groove (112).

5. A fine wire pipe strander as claimed in claim 3, wherein: a plurality of clamping tenons are uniformly arranged on the insertion rod (113).

6. A fine wire pipe strander as claimed in claim 1, wherein: the twisting structure (11) is also provided with a conical bulge (114).

7. A fine wire pipe strander as claimed in claim 1, wherein: one side of the twisting groove (111) close to the axial lead of the twisting structure (11) is V-shaped.

8. A fine wire pipe strander as claimed in claim 1, wherein: the material conveying device (3) comprises a material conveying wheel (31) and a material conveying disc (32), wherein the material conveying disc (32) is arranged between the material conveying wheel (31) and the stranded structure (11), a material conveying opening (321) is formed in the material conveying disc (32), and the material conveying opening (321) corresponds to the stranded grooves (111) one to one.

9. A fine line pipe strander as claimed in claim 8, wherein: the material conveying disc (32) comprises two sub-discs (322), wherein one sub-disc is provided with an inserting tenon (323), and the two sub-discs (322) are detachably connected through the inserting tenon (323).

10. A fine wire pipe strander as claimed in claim 9, wherein: the tenon (323) is trapezoidal.