CN216287753U - Soft copper wire twisting machine capable of eliminating torsion - Google Patents

Abstract

The utility model discloses a soft copper wire twisting machine capable of eliminating torsion, which comprises: the base is provided with the wire frame, the wire frame is provided with the back twist device, one side of the wire frame is provided with the speed-adjustable winch, one end of the speed-adjustable winch, which is far away from the wire frame, is provided with the wire guide, one end of the wire guide, which is far away from the speed-adjustable winch, is provided with the take-up support, the take-up support is provided with the take-up reel, and the take-up reel is arranged corresponding to the wire guide; on the one hand, the unwinding speed of the material roll is calculated by detecting the unwinding length and the diameter of the residual material roll, the problem of cable torsion accumulation is solved, the unwinding speed of the cable is stabilized, the quality of stranded wires is improved, and on the other hand, the processing type of the wire twisting machine is enlarged by adjusting the rotating speed and the aperture size, and the application range of the wire twisting machine is widened.

Description

Soft copper wire twisting machine capable of eliminating torsion

Technical Field

The utility model belongs to the field of cable processing equipment, and particularly relates to a soft copper stranding machine capable of eliminating torsion.

Background

In recent years, the economy of China is continuously and rapidly increased, a huge market space is provided for the wire and cable industry, and the annual output value of various wire and cable industries exceeds 7000 million yuan. Although the output value is huge, from the development level of whole trade, still there is the problem that the trade concentration is low, the product science and technology content is not high, and in process of production, the cable can produce torsion because unreeling or rolling, appears the quality problem when leading to the stranded conductor. Therefore, a stranding machine capable of eliminating torsion is necessary.

Present stranding machine still has many weak points, for example, present stranding machine mostly has the problem that torsion is piled up, because the cable can be because unreel or the rolling produces torsion, goes wrong when leading to the stranded conductor, influences product quality and machining efficiency, simultaneously, present stranding machine mostly does not possess the controllability to stranded conductor speed and stranded conductor size, can only produce single product, and practical range is little. Therefore, the application provides innovation and improvement on the stranding machine in terms of the above problems.

The existing stranding machine mainly has the following problems:

1. the problem that torque force is accumulated mostly exists in present stranding machine is because the cable can be because unreel or the rolling produces torque force, goes wrong when leading to the stranded conductor, influences product quality and machining efficiency.

2. Most of the existing stranding machines do not have the capability of adjusting the stranding rate and the stranding size, can only produce single products, and have a small practical range.

Disclosure of Invention

The purpose of the utility model is as follows: in order to overcome the defects, the utility model aims to provide a soft copper wire twisting machine capable of eliminating torsion, on one hand, the unwinding speed of a material roll is calculated by detecting the unwinding length and the diameter of a residual material roll, the problem of cable torsion accumulation is solved, on the other hand, the unwinding speed of a cable is stabilized, the wire twisting quality is improved, on the other hand, the processing type of the wire twisting machine is enlarged by adjusting the rotating speed and the aperture size, and the application range of the wire twisting machine is improved.

The technical scheme is as follows: in order to achieve the above object, the present invention provides a soft copper wire twisting machine capable of eliminating torsion, comprising: the base, line frame, move back and twist ware, adjustable speed capstan winch, receive line support, wire guide and take-up reel, be provided with the line frame on the base, be provided with the ware that moves back and twist on the line frame, line frame one side is provided with adjustable speed capstan winch, the one end that the line frame was kept away from to adjustable speed capstan winch is provided with the wire guide, the one end that the adjustable speed capstan winch was kept away from to the wire guide is provided with and receives the line support, it is provided with the take-up reel on the line support to receive, the take-up reel corresponds with the wire guide and arranges.

The back-twist device comprises a guide wheel, a back-twist wheel, a wire disc seat, a linear velocity sensor, a radius sensor and a processing chip, wherein the wire frame is provided with the back-twist wheel, and the back-twist wheel is provided with the wire disc seat; the back-twist wheel is connected with a guide wheel, the guide wheel is arranged on the wire frame, and a linear velocity sensor is arranged on the guide wheel; a radius sensor is arranged on the wire frame; the wire frame is provided with a processing chip, the processing chip is connected with a linear velocity sensor, the processing chip is connected with a radius sensor, and the processing chip is connected with a back-twist wheel.

The back-twisting speed of the material roll is calculated by detecting the unwinding length and the diameter of the residual material roll, so that the unwinding speed of the cable is stabilized and the quality of stranded wires is improved while the problem of torsion accumulation of the cable is solved.

A floating wheel is arranged on one side of the guide wheel, the floating wheel is arranged on the wire frame, and the floating wheel is in sliding contact with the wire frame.

The arrangement of the floating wheels further stabilizes the square rolling speed.

The speed-adjustable winch comprises a wire disc, a winch disc, a stepless speed change motor, a wire pressing device and a wire stopping brake, wherein the wire disc is arranged on a base; the wire pressing device is arranged in the wire twisting disc, and the wire stopping brake is arranged at the output end of the wire twisting disc.

The wire pressing device comprises a plurality of adjusting electric cylinders, a plurality of roller seats and wire pressing rollers, wherein the adjusting electric cylinders are arranged in the stranded wire disc, the roller seats are arranged at the output ends of the adjusting electric cylinders, the wire pressing rollers are arranged on the roller seats, and arc-shaped grooves are formed in the edges of the wire pressing rollers.

The speed-adjustable winch enlarges the processing type of the wire stranding machine and improves the application range of the wire stranding machine by adjusting the rotating speed and the aperture size.

The wire-stopping brake comprises an electric brake cylinder, a push rod, a first brake pad, a transmission connecting rod, a rotary transmission pad, a brake pad base and a second brake pad, wherein the electric brake cylinder is arranged on a cable winding disc, the push rod is arranged at the output end of the electric brake cylinder, and the first brake pad is arranged on the push rod; the electric brake cylinder output end is provided with a transmission connecting rod, the transmission connecting rod is arranged on two sides of the electric brake cylinder, one end of the transmission connecting rod is hinged to the electric brake cylinder, the other end of the transmission connecting rod is hinged to a rotary transmission piece, the rotary transmission piece is hinged to a cable reel, one end, far away from the transmission connecting rod, of the rotary transmission piece is hinged to a brake block base, a second brake block is arranged on the brake block base, and the second brake block is arranged corresponding to the first brake block.

According to the utility model, the arrangement of the wire-stopping brake improves the braking precision by using the linkage structure, and the incomplete braking caused by inconsistent pressures on two sides is avoided.

The wire take-up bracket comprises a lifting support column, a rotating platform, a power shaft and a material returning push rod, wherein the rotating platform is arranged at the top of the lifting support column, the power shaft is arranged on the rotating platform, and a wire take-up reel is arranged on the power shaft; the rotary platform is provided with a material returning push rod, the material returning push rod is matched with the take-up reel, and the material returning push rod is a stroke cylinder.

The take-up bracket is arranged, so that the take-up reel can be moved out of the equipment, material returning is assisted, and the operation of workers is facilitated.

The technical scheme shows that the utility model has the following beneficial effects:

1. according to the soft copper wire twisting machine capable of eliminating the torsion, the unwinding speed of the material roll is calculated by detecting the unwinding length and the diameter of the residual material roll, the problem of cable torsion accumulation is solved, the unwinding speed of the cable is stabilized, and the quality of the twisted wire is improved.

2. According to the soft copper wire twisting machine capable of eliminating the torsion, the machining type of the wire twisting machine is enlarged and the application range of the wire twisting machine is widened by adjusting the rotating speed and the aperture size.

3. According to the soft copper stranding machine capable of eliminating the torsion, the movable take-up bracket is arranged, the take-up reel can be moved out of the equipment, the material returning is assisted, and the operation of workers is facilitated.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural diagram of the torque release device of the present invention;

FIG. 3 is a schematic view of an adjustable speed winch according to the present invention;

FIG. 4 is a schematic structural view of the wire crimper of the present invention;

FIG. 5 is a schematic structural diagram of the parking brake according to the present invention;

FIG. 6 is a schematic structural view of a wire take-up stand according to the present invention;

in the figure: a base-1, a wire frame-2, a torque withdrawing device-3, a guide wheel-31, a torque withdrawing wheel-32, a wire coil seat-33, a linear velocity sensor-34, a radius sensor-35, a processing chip-36, a floating wheel-37, an adjustable speed capstan-4, a wire coil-41, a wire coil-42, a stepless speed change motor-43, a wire pressing device-44, an adjustable electric cylinder-441, a roller seat-442, a wire pressing roller-443, a wire stopping brake-45, a brake electric cylinder-451, a push rod-452, a first brake pad-453, a transmission connecting rod-454, a rotary transmission piece-455, a brake pad base-456, a second brake pad-457, a wire collecting bracket-5, a lifting support post-51, a rotary platform-52, a speed change mechanism, a change speed, A power shaft-53, a material returning push rod-54, a wire guide-6 and a take-up reel-7.

Detailed Description

The utility model is further elucidated with reference to the drawings and the embodiments.

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the utility model and are not to be construed as limiting the utility model.

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "length", "width", "thickness", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "clockwise", "counterclockwise", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used only for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be considered as limiting the present invention.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, unless otherwise specified, "a plurality" means two or more unless explicitly defined otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

In the present invention, unless otherwise expressly stated or limited, "above" or "below" a first feature means that the first and second features are in direct contact, or that the first and second features are not in direct contact but are in contact with each other via another feature therebetween. Also, the first feature being "on," "above" and "over" the second feature includes the first feature being directly on and obliquely above the second feature, or merely indicating that the first feature is at a higher level than the second feature. A first feature being "under," "below," and "beneath" a second feature includes the first feature being directly under and obliquely below the second feature, or simply meaning that the first feature is at a lesser elevation than the second feature.

Example 1

A soft copper wire twisting machine capable of eliminating torsion as shown in fig. 1 to 6, comprising: base 1, line frame 2, back twist ware 3, adjustable speed capstan winch 4, receive line support 5, wire guide 6 and take-up reel 7, be provided with line frame 2 on the base 1, be provided with back twist ware 3 on the line frame 2, 2 one side of line frame is provided with adjustable speed capstan winch 4, the one end that line frame 2 was kept away from to adjustable speed capstan winch 4 is provided with wire guide 6, the one end that adjustable speed capstan winch 4 was kept away from to wire guide 6 is provided with and receives line support 5, it is provided with take-up reel 7 on the line support 5 to receive, take-up reel 7 corresponds with wire guide 6 and arranges.

The untwisting device 3 in this embodiment comprises a guide wheel 31, an untwisting wheel 32, a wire coil holder 33, a linear velocity sensor 34, a radius sensor 35 and a processing chip 36, wherein the untwisting wheel 32 is arranged on the wire frame 2, and the wire coil holder 33 is arranged on the untwisting wheel 32; the untwisting wheel 32 is connected with a guide wheel 31, the guide wheel 31 is arranged on the wire frame 2, and a linear velocity sensor 34 is arranged on the guide wheel 31; a radius sensor 35 is arranged on the wire frame 2; the wire frame 2 is provided with a processing chip 36, the processing chip 36 is connected with the linear velocity sensor 34, the processing chip 36 is connected with the radius sensor 35, and the processing chip 36 is connected with the untwisting wheel 32.

In this embodiment, a floating wheel 37 is disposed on one side of the guide wheel 31, the floating wheel 37 is disposed on the wire frame 2, and the floating wheel 37 is in sliding contact with the wire frame 2.

The speed-adjustable winch 4 in the embodiment comprises a wire coil 41, a wire twisting disk 42, a stepless speed-changing motor 43, a wire pressing device 44 and a wire stopping brake 45, wherein the wire coil 41 is arranged on the base 1, the wire twisting disk 42 is arranged at the output end of the wire coil 41, the wire twisting disk 42 is connected with the stepless speed-changing motor 43, and the stepless speed-changing motor 43 is arranged on the base 1; wire pressing devices 44 are arranged inside the wire twisting disc 42, and wire stopping brakes 45 are arranged at the output end of the wire twisting disc 42.

The wire pressing device 44 in this embodiment includes an adjusting electric cylinder 441, a plurality of roller seats 442, and a wire pressing roller 443, the adjusting electric cylinder 441 is disposed in the cable winding disc 42, the roller seats 442 are disposed at an output end of the adjusting electric cylinder 441, the roller seats 442 are disposed on the roller seats 442, and an arc-shaped groove is disposed at an edge of the wire pressing roller 443.

The wire-stopping brake 45 in this embodiment includes an electric brake cylinder 451, a push rod 452, a first brake pad 453, a transmission link 454, a rotary transmission pad 455, a brake pad base 456 and a second brake pad 457, the electric brake cylinder 451 is disposed on the wire twisting disc 42, the push rod 452 is disposed at an output end of the electric brake cylinder 451, and the first brake pad 453 is disposed on the push rod 452; the output end of the electric brake cylinder 451 is provided with a transmission connecting rod 454, the transmission connecting rod 454 is arranged on two sides of the electric brake cylinder 451, one end of the transmission connecting rod 454 is hinged to the electric brake cylinder 451, the other end of the transmission connecting rod 454 is hinged to a rotary transmission piece 455, the rotary transmission piece 455 is hinged to the cable winding disc 42, one end, far away from the transmission connecting rod 454, of the rotary transmission piece 455 is hinged to a brake pad base 456, the brake pad base 456 is provided with a second brake pad 457, and the second brake pad 457 and the first brake pad 453 are arranged correspondingly.

The take-up bracket 5 in the embodiment comprises a lifting support column 51, a rotating platform 52, a power shaft 53 and a material returning push rod 54, wherein the rotating platform 52 is arranged at the top of the lifting support column 51, the power shaft 53 is arranged on the rotating platform 52, and a take-up reel 7 is arranged on the power shaft 53; the rotating platform 52 is provided with a material returning push rod 54, the material returning push rod 54 is matched with the take-up reel 7, and the material returning push rod 54 is a stroke cylinder.

Example 2

A soft copper wire twisting machine capable of eliminating torsion as shown in fig. 1 and 2, comprising: base 1, line frame 2, back twist ware 3, adjustable speed capstan winch 4, receive line support 5, wire guide 6 and take-up reel 7, be provided with line frame 2 on the base 1, be provided with back twist ware 3 on the line frame 2, 2 one side of line frame is provided with adjustable speed capstan winch 4, the one end that line frame 2 was kept away from to adjustable speed capstan winch 4 is provided with wire guide 6, the one end that adjustable speed capstan winch 4 was kept away from to wire guide 6 is provided with and receives line support 5, it is provided with take-up reel 7 on the line support 5 to receive, take-up reel 7 corresponds with wire guide 6 and arranges.

The untwisting device 3 in this embodiment comprises a guide wheel 31, an untwisting wheel 32, a wire coil holder 33, a linear velocity sensor 34, a radius sensor 35 and a processing chip 36, wherein the untwisting wheel 32 is arranged on the wire frame 2, and the wire coil holder 33 is arranged on the untwisting wheel 32; the untwisting wheel 32 is connected with a guide wheel 31, the guide wheel 31 is arranged on the wire frame 2, and a linear velocity sensor 34 is arranged on the guide wheel 31; a radius sensor 35 is arranged on the wire frame 2; the wire frame 2 is provided with a processing chip 36, the processing chip 36 is connected with the linear velocity sensor 34, the processing chip 36 is connected with the radius sensor 35, and the processing chip 36 is connected with the untwisting wheel 32.

In this embodiment, a floating wheel 37 is disposed on one side of the guide wheel 31, the floating wheel 37 is disposed on the wire frame 2, and the floating wheel 37 is in sliding contact with the wire frame 2.

Example 3

A soft copper wire twisting machine capable of eliminating torsion as shown in fig. 1, 3, 4 and 5, comprising: base 1, line frame 2, back twist ware 3, adjustable speed capstan winch 4, receive line support 5, wire guide 6 and take-up reel 7, be provided with line frame 2 on the base 1, be provided with back twist ware 3 on the line frame 2, 2 one side of line frame is provided with adjustable speed capstan winch 4, the one end that line frame 2 was kept away from to adjustable speed capstan winch 4 is provided with wire guide 6, the one end that adjustable speed capstan winch 4 was kept away from to wire guide 6 is provided with and receives line support 5, it is provided with take-up reel 7 on the line support 5 to receive, take-up reel 7 corresponds with wire guide 6 and arranges.

The speed-adjustable winch 4 in the embodiment comprises a wire coil 41, a wire twisting disk 42, a stepless speed-changing motor 43, a wire pressing device 44 and a wire stopping brake 45, wherein the wire coil 41 is arranged on the base 1, the wire twisting disk 42 is arranged at the output end of the wire coil 41, the wire twisting disk 42 is connected with the stepless speed-changing motor 43, and the stepless speed-changing motor 43 is arranged on the base 1; wire pressing devices 44 are arranged inside the wire twisting disc 42, and wire stopping brakes 45 are arranged at the output end of the wire twisting disc 42.

The wire pressing device 44 in this embodiment includes an adjusting electric cylinder 441, a plurality of roller seats 442, and a wire pressing roller 443, the adjusting electric cylinder 441 is disposed in the cable winding disc 42, the roller seats 442 are disposed at an output end of the adjusting electric cylinder 441, the roller seats 442 are disposed on the roller seats 442, and an arc-shaped groove is disposed at an edge of the wire pressing roller 443.

The wire-stopping brake 45 in this embodiment includes an electric brake cylinder 451, a push rod 452, a first brake pad 453, a transmission link 454, a rotary transmission pad 455, a brake pad base 456 and a second brake pad 457, the electric brake cylinder 451 is disposed on the wire twisting disc 42, the push rod 452 is disposed at an output end of the electric brake cylinder 451, and the first brake pad 453 is disposed on the push rod 452; the output end of the electric brake cylinder 451 is provided with a transmission connecting rod 454, the transmission connecting rod 454 is arranged on two sides of the electric brake cylinder 451, one end of the transmission connecting rod 454 is hinged to the electric brake cylinder 451, the other end of the transmission connecting rod 454 is hinged to a rotary transmission piece 455, the rotary transmission piece 455 is hinged to the cable winding disc 42, one end, far away from the transmission connecting rod 454, of the rotary transmission piece 455 is hinged to a brake pad base 456, the brake pad base 456 is provided with a second brake pad 457, and the second brake pad 457 and the first brake pad 453 are arranged correspondingly.

Example 4

A soft copper wire twisting machine capable of eliminating torsion as shown in fig. 1 and 6, comprising: base 1, line frame 2, back twist ware 3, adjustable speed capstan winch 4, receive line support 5, wire guide 6 and take-up reel 7, be provided with line frame 2 on the base 1, be provided with back twist ware 3 on the line frame 2, 2 one side of line frame is provided with adjustable speed capstan winch 4, the one end that line frame 2 was kept away from to adjustable speed capstan winch 4 is provided with wire guide 6, the one end that adjustable speed capstan winch 4 was kept away from to wire guide 6 is provided with and receives line support 5, it is provided with take-up reel 7 on the line support 5 to receive, take-up reel 7 corresponds with wire guide 6 and arranges.

The take-up bracket 5 in the embodiment comprises a lifting support column 51, a rotating platform 52, a power shaft 53 and a material returning push rod 54, wherein the rotating platform 52 is arranged at the top of the lifting support column 51, the power shaft 53 is arranged on the rotating platform 52, and a take-up reel 7 is arranged on the power shaft 53; the rotating platform 52 is provided with a material returning push rod 54, the material returning push rod 54 is matched with the take-up reel 7, and the material returning push rod 54 is a stroke cylinder.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that modifications can be made by those skilled in the art without departing from the principle of the present invention, and these modifications should also be construed as the protection scope of the present invention.

Claims (7)

1. The utility model provides a can eliminate soft copper stranding machine of torsion which characterized in that: the method comprises the following steps: base (1), line frame (2), back twist ware (3), adjustable speed capstan winch (4), receive line support (5), wire guide (6) and take-up reel (7), be provided with line frame (2) on base (1), be provided with back twist ware (3) on line frame (2), line frame (2) one side is provided with adjustable speed capstan winch (4), the one end that line frame (2) were kept away from in adjustable speed capstan winch (4) is provided with wire guide (6), the one end that adjustable speed capstan winch (4) were kept away from in wire guide (6) is provided with and receives line support (5), it is provided with take-up reel (7) on line support (5) to receive, take-up reel (7) correspond with wire guide (6) and arrange.

2. The soft copper wire twisting machine capable of eliminating torsion according to claim 1, wherein: the untwisting device (3) comprises a guide wheel (31), an untwisting wheel (32), a wire coil seat (33), a linear velocity sensor (34), a radius sensor (35) and a processing chip (36), the untwisting wheel (32) is arranged on the wire frame (2), and the wire coil seat (33) is arranged on the untwisting wheel (32); the untwisting wheel (32) is connected with a guide wheel (31), the guide wheel (31) is arranged on the wire frame (2), and a linear velocity sensor (34) is arranged on the guide wheel (31); a radius sensor (35) is arranged on the wire frame (2); the wire frame (2) is provided with a processing chip (36), the processing chip (36) is connected with a linear velocity sensor (34), the processing chip (36) is connected with a radius sensor (35), and the processing chip (36) is connected with a back-twist wheel (32).

3. The soft copper wire twisting machine capable of eliminating torsion according to claim 2, wherein: one side of the guide wheel (31) is provided with a floating wheel (37), the floating wheel (37) is arranged on the wire frame (2), and the floating wheel (37) is in sliding contact with the wire frame (2).

4. The soft copper wire twisting machine capable of eliminating torsion according to claim 1, wherein: the speed-adjustable winch (4) comprises a wire coil (41), a wire twisting disk (42), a stepless speed-change motor (43), a wire pressing device (44) and a wire stopping brake (45), wherein the wire coil (41) is arranged on the base (1), the output end of the wire coil (41) is provided with the wire twisting disk (42), the wire twisting disk (42) is connected with the stepless speed-change motor (43), and the stepless speed-change motor (43) is arranged on the base (1); wire pressing devices (44) are arranged in the wire twisting discs (42), and wire stopping brakes (45) are arranged at the output ends of the wire twisting discs (42).

5. The soft copper wire twisting machine capable of eliminating torsion according to claim 4, wherein: the wire pressing device (44) comprises an adjusting electric cylinder (441), a plurality of roller seats (442) and a wire pressing roller (443), the adjusting electric cylinder (441) is arranged in the wire winding disc (42), the roller seats (442) are arranged at the output end of the adjusting electric cylinder (441), the wire pressing roller (443) is arranged on the roller seats (442), and an arc-shaped groove is formed in the edge of the wire pressing roller (443).

6. The soft copper wire twisting machine capable of eliminating torsion according to claim 4, wherein: the wire-stopping brake (45) comprises an electric brake cylinder (451), a push rod (452), a first brake pad (453), a transmission connecting rod (454), a rotary transmission pad (455), a brake pad base (456) and a second brake pad (457), wherein the electric brake cylinder (451) is arranged on the wire twisting disc (42), the push rod (452) is arranged at the output end of the electric brake cylinder (451), and the first brake pad (453) is arranged on the push rod (452); the utility model discloses a brake cable, including brake electric cylinder (451), transmission connecting rod (454) set up in brake electric cylinder (451) both sides, transmission connecting rod (454) one end is articulated with brake electric cylinder (451), the articulated rotatory transmission piece (455) that is provided with in transmission connecting rod (454) other end, rotatory transmission piece (455) are articulated to be set up on stranding dish (42), the articulated brake block base (456) that is provided with of one end that transmission connecting rod (454) was kept away from in rotatory transmission piece (455), be provided with second brake block (457) on brake block base (456), second brake block (457) and first brake block (453) correspond and arrange.

7. The soft copper wire twisting machine capable of eliminating torsion according to claim 1, wherein: the wire take-up support (5) comprises a lifting support column (51), a rotating platform (52), a power shaft (53) and a material returning push rod (54), wherein the rotating platform (52) is arranged at the top of the lifting support column (51), the power shaft (53) is arranged on the rotating platform (52), and a wire take-up reel (7) is arranged on the power shaft (53); the material returning device is characterized in that a material returning push rod (54) is arranged on the rotating platform (52), the material returning push rod (54) is matched with the take-up reel (7), and the material returning push rod (54) is a stroke cylinder.

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