CN221008669U - Wire twisting machine for wire processing with self-adaptive tension - Google Patents

Abstract

The utility model relates to the technical field of wire processing, in particular to a wire twisting machine for self-adaptive tension wire processing, which comprises an operation frame, wherein one side of the operation frame is connected with a motor B which drives a threaded sleeve outside a threaded screw rod to move through bolts; according to the wire stranding machine, the motor B, the bidirectional screw rod, the wire sleeve A, the wire sleeve B, the positioning block A, the positioning block B, the threaded screw rod, the threaded sleeve, the supporting rod, the fixed disc A, the motor A and the driving rod are arranged, so that the problem that when the conventional wire stranding machine is used, the tension of stranded wires cannot be adjusted according to requirements is solved.

Description

Wire twisting machine for wire processing with self-adaptive tension

Technical Field

The utility model relates to the technical field of wire processing, in particular to a wire twisting machine for wire processing with self-adaptive tension.

Background

The wire refers to a conducting wire for conducting current, a carrier used for conducting electric energy by the wire, a cable is used for transmitting (magnetic) energy, information and realizing wire products of electromagnetic energy conversion, a stranding machine is needed for wire processing, the stranding machine is stranded mechanical equipment which can be widely applied to various soft/hard conductor wires, a plurality of single conductors are twisted into one strand, the technological requirements of the wire are met, and the stranding machine can be generally divided into a single stranding machine, a pair stranding machine, a high-speed stranding machine, a untwisting machine, a cage stranding machine, a frame stranding machine, a tubular stranding machine, a disc stranding machine and the like according to a stranding mode.

Patent number 200820204956.3 discloses a wire stranding machine, and the device enables the exposed thin conductive cores to be tightly stranded together, so that the traditional manual operation condition is changed, and the production efficiency is effectively improved.

However, when the existing wire stranding machine is used, the wire needs to be tensioned, however, when the tension is loose, the wire can be twisted excessively to be twisted, when the tension is large, the wire core in the wire can be broken by pulling, and the processing quality and the processing efficiency of the wire are affected to a certain extent, so that the wire stranding machine for processing the wire with self-adaptive tension is arranged.

Disclosure of utility model

The utility model mainly aims to provide a wire twisting machine for self-adaptive tension machining, which solves the problem that the tension of wire twisting cannot be adjusted according to requirements when the traditional wire twisting machine is used by arranging a motor B, a bidirectional screw rod, a screw sleeve A, a screw sleeve B, a positioning block A, a positioning block B, a threaded screw rod, a threaded sleeve, a supporting rod, a fixed disk A, a motor A and a driving rod.

The technical scheme includes that the wire twisting machine for machining the wires with the self-adaptive tension comprises an operation frame, a motor B for driving a threaded sleeve outside a threaded screw rod to move is connected to one side of the operation frame through bolts, a supporting rod connected with a pay-off rack is welded to the outer side of the threaded sleeve, a mounting frame for enabling the bidirectional screw rod to rotate is welded to the outer side of the supporting rod, a bidirectional screw rod for driving the wire sleeve A and the wire sleeve B to move is fixed to one side of the transmission rod through screws, a positioning block A and a positioning block B for fixing the wires are welded to the outer side of the wire sleeve A and the outer side of the wire sleeve B respectively, a motor A for driving a driving rod to rotate is fixed to the outer side of the operation frame through screws, a fixing disc for placing the wires is welded to one side of the driving rod, and threaded rods A and B with limiting blocks A and B respectively move are symmetrically connected to the outer side of the fixing disc through screws.

Through the technical scheme, when wires are to be stranded, the wires pass through the pay-off rack and are put into the fixed disc, then the threaded rod A and the threaded rod B outside the fixed disc are respectively rotated, then the threaded rod A and the threaded rod B respectively drive the limiting block A and the limiting block B to move, then the limiting block A and the limiting block B respectively contact with the surfaces of the wires, then the bidirectional screw rod in the mounting rack drives the wire sleeve A and the wire sleeve B to move, then the wire sleeve A and the wire sleeve B respectively drive the positioning block A and the positioning block B to move, then the positioning block A and the positioning block B respectively contact with the surfaces of the wires, then the motor A outside the operation rack converts received electric energy into mechanical energy, the motor A drives the fixed disc outside the driving rod to rotate, then the fixed disc drives the wires fixed on the inner side to rotate, and then stranding treatment of the wires is facilitated;

When twisting the electric wire, the motor B on the operation frame converts the received electric energy into mechanical energy, the motor B drives the threaded screw rod to rotate, then the outer threaded sleeve of the threaded screw rod drives the supporting rod to move, and then the supporting rod drives the pay-off rack to move, so that the tension of twisting the electric wire is convenient to adjust.

Specifically, the pay-off rack surface is provided with a through hole for the electric wire to pass through, and a hairbrush for cleaning the surface of the electric wire is fixed on the inner side screw of the through hole.

Through adopting above-mentioned technical scheme, when the wire that will need the stranded conductor passes in the through-hole of seting up on pay off rack surface, brush in the through-hole brushes the electric wire surface to the foreign matter of wire surface adhesion that will need the stranded conductor is cleared up.

Specifically, the rubber sheets for improving the friction force on the surface of the electric wire are fixed on the inner sides of the limiting block A and the limiting block B through screws.

Through adopting above-mentioned technical scheme, when stopper A and stopper B carry out the centre gripping to the electric wire, the sheet rubber in stopper A and the stopper B respectively with electric wire surface contact to improve the frictional force to the electric wire surface.

Specifically, the outside of the mounting frame is inserted with a transmission rod for driving the bidirectional screw rod to rotate.

Through adopting above-mentioned technical scheme, when want to drive two-way lead screw and rotate, rotate the transfer line outside the mounting bracket, the transfer line drives two-way lead screw and rotates.

Specifically, the input ends of the motor A and the motor B are electrically connected with the output end of an external power supply.

Through adopting above-mentioned technical scheme, through connecting external power source, make the consumer normal operating.

The utility model has the beneficial effects that:

(1) According to the wire stranding machine for self-adaptive tension wire processing, when wires are to be stranded, the wires pass through a pay-off rack and are placed in a fixed disc, then a threaded rod A and a threaded rod B outside the fixed disc are respectively rotated, then the threaded rod A and the threaded rod B respectively drive a limiting block A and a limiting block B to move, then the limiting block A and the limiting block B respectively contact with the surfaces of the wires, then a bidirectional screw rod in a mounting rack drives a wire sleeve A and a wire sleeve B to move, then the wire sleeve A and the wire sleeve B respectively drive a positioning block A and a positioning block B to move, then the positioning block A and the positioning block B respectively contact with the surfaces of the wires, a motor A outside an operation rack converts received electric energy into mechanical energy, the motor A drives the fixed disc outside a driving rod to rotate, then the fixed disc drives the wires inside to rotate, and then stranding treatment of the wires is facilitated; when twisting the electric wire, the motor B on the operation frame converts the received electric energy into mechanical energy, the motor B drives the threaded screw rod to rotate, then the outer threaded sleeve of the threaded screw rod drives the supporting rod to move, and then the supporting rod drives the pay-off rack to move, so that the tension of twisting the electric wire is convenient to adjust.

(2) According to the wire twisting machine for self-adaptive tension wire processing, when wires needing to be twisted pass through the through holes formed in the surface of the pay-off rack, the brushes in the through holes brush the surfaces of the wires, so that foreign matters adhered to the surfaces of the wires needing to be twisted can be conveniently cleaned.

Drawings

The utility model will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the whole structure of a wire twisting machine for wire processing with self-adaptive tension;

fig. 2 is a schematic diagram of the internal structure of a pay-off rack of the wire stranding machine for processing wires with self-adaptive tension;

FIG. 3 is a schematic view showing the internal structure of a mounting frame of a wire twisting machine for wire processing with self-adaptive tension;

In the figure: 1. a motor A; 2. a driving rod; 3. a fixed plate; 4. a limiting block A; 5. a threaded rod A; 6. an operation rack; 7. a threaded screw rod; 8. a mounting frame; 9. a rubber sheet; 10. a limiting block B; 11. a threaded rod B; 12. positioning block A; 13. a pay-off rack; 14. a positioning block B; 15. a through hole; 16. a support rod; 17. a motor B; 18. a transmission rod; 19. a thread sleeve; 20. a brush; 21. a silk sleeve A; 22. a two-way screw rod; 23. and a silk sleeve B.

Detailed Description

The utility model is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the utility model easy to understand.

In order to twist the wires, as shown in fig. 1, 2 and 3, as an embodiment of the utility model, the wire twisting machine for self-adaptive tension processing of the utility model comprises an operation frame 6, a motor B17 for driving a threaded sleeve 19 outside a threaded screw rod 7 to move is connected with one side of the operation frame 6 through a bolt, a supporting rod 16 connected with a pay-off rack 13 is welded outside the threaded sleeve 19, a mounting frame 8 for enabling a bidirectional screw rod 22 to rotate is welded outside the supporting rod 16, a bidirectional screw rod 22 for driving a wire sleeve a21 and a wire sleeve B23 to move is screwed on one side of a transmission rod 18, a positioning block a12 and a positioning block B14 for fixing the wires are respectively welded on the outer sides of the wire sleeve a21 and the wire sleeve B23, a fixing disc 3 for placing the wires is welded on one side of the driving rod 2, and threaded rods A5 and B11 for respectively driving a limiting block A4 and a limiting block B10 to move are symmetrically screwed on the outer side of the fixing disc 3.

When the wire stranding machine is used, when the wire is to be stranding, the wire passes through the pay-off rack 13 and is put into the fixed disc 3, then the threaded rod A5 and the threaded rod B11 outside the fixed disc 3 are respectively rotated, then the threaded rod A5 and the threaded rod B11 drive the limiting block A4 and the limiting block B10 to move, then the limiting block A4 and the limiting block B10 are respectively contacted with the surface of the wire, then the bidirectional screw rod 22 in the mounting rack 8 drives the wire sleeve A21 and the wire sleeve B23 to move, then the wire sleeve A21 and the wire sleeve B23 drive the positioning block A12 and the positioning block B14 to move, then the positioning block A12 and the positioning block B14 are respectively contacted with the surface of the wire, then the motor A1 outside the operating frame 6 converts the received electric energy into mechanical energy, the motor A1 drives the fixed disc 3 outside the driving rod 2 to rotate, then the fixed disc 3 drives the inner fixed wire to rotate, and the wire is conveniently stranded;

When the electric wire is twisted, the motor B17 on the operation frame 6 converts the received electric energy into mechanical energy, the motor B17 drives the threaded screw rod 7 to rotate, then the threaded sleeve 19 outside the threaded screw rod 7 drives the supporting rod 16 to move, and then the supporting rod 16 drives the pay-off rack 13 to move, so that the tension of twisting the electric wire is convenient to adjust.

In order to clean the foreign matters adhered to the surface of the wire to be stranded, as shown in fig. 2, the utility model further comprises, for example, a through hole 15 for the wire to pass through is formed on the surface of the pay-off rack 13, and a brush 20 for cleaning the surface of the wire is screwed inside the through hole 15.

When the wire to be stranded is used, the brush 20 in the through hole 15 brushes the surface of the wire when the wire to be stranded passes through the through hole 15 formed in the surface of the pay-off rack 13, so that foreign matters adhered to the surface of the wire to be stranded can be cleaned conveniently.

In order to increase the friction force to the surface of the electric wire, as shown in fig. 1, the utility model further comprises a rubber sheet 9 for increasing the friction force to the surface of the electric wire, wherein the rubber sheet 9 is screwed on the inner sides of the limiting block A4 and the limiting block B10.

When the electric wire is clamped by the limiting block A4 and the limiting block B10 in use, the rubber sheets 9 in the limiting block A4 and the limiting block B10 are respectively contacted with the surface of the electric wire, so that the friction force on the surface of the electric wire is improved.

In order to drive the bidirectional screw 22 to rotate, as shown in fig. 1, the utility model further includes, for example, a transmission rod 18 for driving the bidirectional screw 22 to rotate is inserted at the outer side of the mounting frame 8.

When the bidirectional screw rod 22 is required to be driven to rotate in use, the transmission rod 18 outside the mounting frame 8 is rotated, and the transmission rod 18 drives the bidirectional screw rod 22 to rotate.

In order to make the electric equipment work normally, as shown in fig. 1, the utility model further includes, for example, that the input ends of the motor A1 and the motor B17 are electrically connected with the output end of the external power supply.

When in use, the electric equipment works normally by connecting an external power supply.

When the wire stranding machine is used, when the wire is to be stranding, the wire passes through the pay-off rack 13 and is put into the fixed disc 3, then the threaded rod A5 and the threaded rod B11 outside the fixed disc 3 are respectively rotated, then the threaded rod A5 and the threaded rod B11 respectively drive the limiting block A4 and the limiting block B10 to move, then the limiting block A4 and the limiting block B10 respectively contact with the surface of the wire, then the bidirectional screw rod 22 in the mounting rack 8 drives the wire sleeve A21 and the wire sleeve B23 to move, then the wire sleeve A21 and the wire sleeve B23 respectively drive the positioning block A12 and the positioning block B14 to move, then the positioning block A12 and the positioning block B14 respectively contact with the surface of the wire, then the motor A1 outside the operating frame 6 converts the received electric energy into mechanical energy, the motor A1 drives the fixed disc 3 outside the driving rod 2 to rotate, then the fixed disc 3 drives the wire fixed on the inner side to rotate, and then the wire is convenient to twist;

When the electric wire is twisted, the motor B17 on the operation frame 6 converts the received electric energy into mechanical energy, the motor B17 drives the threaded screw rod 7 to rotate, then the threaded sleeve 19 outside the threaded screw rod 7 drives the support rod 16 to move, and then the support rod 16 drives the pay-off rack 13 to move, so that the tension of twisting the electric wire is convenient to adjust;

When the electric wire to be stranded passes through the through hole 15 formed in the surface of the pay-off rack 13, the brush 20 in the through hole 15 brushes the surface of the electric wire, so that foreign matters adhered to the surface of the electric wire to be stranded can be cleaned conveniently;

When the limiting block A4 and the limiting block B10 clamp the electric wire, the rubber sheets 9 in the limiting block A4 and the limiting block B10 are respectively contacted with the surface of the electric wire, so that the friction force on the surface of the electric wire is improved;

When the bidirectional screw rod 22 is to be driven to rotate, the transmission rod 18 outside the mounting frame 8 is rotated, and the transmission rod 18 drives the bidirectional screw rod 22 to rotate.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be understood by those skilled in the art that the present utility model is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this utility model, and various changes and modifications may be made without departing from the spirit and scope of the utility model, which is defined in the appended claims. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. The utility model provides a wire stranding machine for self-adaptation tensile wire processing, its characterized in that, includes handling frame (6) and transfer line (18), handling frame (6) one side bolted connection has motor B (17) that drive screw lead screw (7) external thread bush (19) moved, screw lead screw (19) outside welding has branch (16) of connecting pay off rack (13), branch (16) outside welding has mounting bracket (8) that make two-way lead screw (22) pivoted, screw fixation on transfer line (18) one side has two-way lead screw (22) that drive silk cover A (21) and silk cover B (23) moved, the locating piece A (12) and locating piece B (14) that fix the electric wire are welded respectively in silk cover A (21) and silk cover B (23) outside, the screw fixation in handling frame (6) outside has motor A (1) that drive actuating lever (2) rotated, fixed disk (3) that place the electric wire is welded on one side of actuating lever (2), fixed disk (3) outside symmetry threaded connection has stopper A (10) and threaded rod B (11) that move respectively.

2. The wire twisting machine for self-adaptive tension wire processing according to claim 1, wherein a through hole (15) for enabling a wire to pass through is formed on the surface of the pay-off rack (13), and a hairbrush (20) for cleaning the surface of the wire is fixed on the inner side of the through hole (15) through a screw.

3. The wire twisting machine for wire processing with self-adaptive tension according to claim 1, wherein rubber sheets (9) for improving friction force on the surface of the wire are fixed on the inner sides of the limiting block A (4) and the limiting block B (10) respectively.

4. The wire twisting machine for self-adaptive tension wire processing according to claim 1, wherein a transmission rod (18) for driving the bidirectional screw rod (22) to rotate is inserted at the outer side of the mounting frame (8).

5. The wire twisting machine for self-adaptive tension wire processing according to claim 1, wherein the input ends of the motor a (1) and the motor B (17) are electrically connected with the output end of an external power supply.