CN219597698U - Copper-clad aluminum wire drawing device and processing system using same - Google Patents

Abstract

The utility model relates to the technical field of wire drawing, in particular to a copper-clad aluminum wire drawing device and a processing system applying the device, comprising a drawing component for drawing copper-clad aluminum wires and a traction component for drawing the copper-clad aluminum wires to finish drawing operation through the drawing component; the system comprises a source for supplying copper-clad aluminum wires and more than two wire drawing parts which are sequentially arranged along the wire drawing direction of the copper-clad aluminum wires, wherein the copper-clad aluminum wires sequentially pass through wire drawing processing of all levels of wire drawing parts, and the copper-clad aluminum wires after the wire drawing processing are collected by a wire collecting part; the utility model can ensure that the copper-clad aluminum wire is stably wound on the winch circle by circle, reduce the vibration of the copper-clad aluminum wire, and simultaneously avoid the phenomenon of overlapped winding, so that the wire drawing processing of the copper-clad aluminum wire is smoothly completed. The utility model can gradually reduce the diameter of the copper-clad aluminum wire in a grading wire drawing mode, and wire drawing is carried out on the copper-clad aluminum wire at different speeds, so that the wire drawing work is smoothly completed.

Description

Copper-clad aluminum wire drawing device and processing system using same

Technical Field

The utility model relates to the technical field of wire drawing, in particular to a copper-clad aluminum wire drawing device and a processing system using the same.

Background

The metal wire drawing machine belongs to the pre-processing equipment for producing metal products such as standard parts, and aims to lead wires or bars produced by steel manufacturers and transported to metal product production enterprises such as standard parts to be subjected to drawing treatment by the wire drawing machine so that the diameters, roundness, internal metallographic structures, surface smoothness and straightening degree of the wires or bars all meet the raw material processing requirements required by the metal product production such as standard parts,

chinese patent No. CN211839588U discloses a wire drawing machine, and specifically discloses the following technical features: the automatic wire drawing machine comprises a workbench, supporting legs are arranged at four corners of the lower surface of the workbench, the supporting tables are arranged at the lower sides of the workbench 1, the outer ends of the supporting tables are fixedly connected with the supporting legs, paying-off wheels are arranged at the middle parts of the upper sides of the workbench, the paying-off wheels and the workbench rotate relatively, wire drawing ends are arranged at the upper sides and the lower sides of metal wires on the paying-off wheels respectively, buffer wheels are arranged at the left sides and the right sides of the paying-off wheels respectively, first rotating shafts are arranged at the middle parts of the buffer wheels respectively, first driving motors are correspondingly arranged at the upper parts of the supporting tables and the first rotating shafts, the lower ends of the first rotating shafts penetrate through the workbench and extend to the driving ends of the corresponding first driving motors, wire drawing wheels are respectively arranged at the outer sides of the buffer wheels, the diameters of the wire drawing wheels are larger than those of the buffer wheels, brackets are arranged between the wire drawing wheels and the adjacent buffer wheels, wire drawing holes are respectively formed in a penetrating mode on the left support and the right support, and the two wire drawing holes are respectively arranged at different heights. ". However, the wire drawing method in the prior art also has a certain problem. The wire rod is directly wound on the buffer wheel along the axial direction of the buffer wheel in a circle-by-circle manner under the condition that the wire rod is positioned by using a corresponding auxiliary structure, but the wire rod is unstable in movement and can deviate from the original winding position due to vibration, the edge of the wire rod and the wire drawing hole can be rubbed by an excessive deviation angle, scratches are formed on the surface of the wire rod, and the conductivity of the wire rod is reduced if the wire rod is light; the heavy weight will cause the wire to be pulled apart, resulting in an interruption of the wire drawing operation. Meanwhile, the wires can also be overlapped and wound due to vibration, so that the wires at the bottom layer cannot be smoothly separated from the buffer wheel at the current stage and are broken. When one wire rod is subjected to continuous wire drawing for a plurality of times, the wire rod gradually becomes thinner, and the corresponding tensile strength is gradually reduced; and as the tensile strength changes, the speed of its traction also needs to be correspondingly changed. However, in the above prior art, only one power source is used to pull one wire rod at a constant speed to continuously pass through multiple wire drawing processes, and such an operation manner is very easy to break the thinner and thinner wire rod, so that the wire rod is damaged, resulting in an increase in production cost, which needs to be solved.

Disclosure of Invention

In order to avoid and overcome the technical problems in the prior art, the utility model provides a copper-clad aluminum wire drawing device. The utility model can ensure that the copper-clad aluminum wire is stably wound on the winch circle by circle, reduce the vibration of the copper-clad aluminum wire, and simultaneously avoid the phenomenon of overlapped winding, so that the wire drawing processing of the copper-clad aluminum wire is smoothly completed. The utility model can gradually reduce the diameter of the copper-clad aluminum wire in a grading wire drawing mode, and wire drawing is carried out on the copper-clad aluminum wire at different speeds, so that the wire drawing work is smoothly completed.

In order to achieve the above purpose, the present utility model provides the following technical solutions:

a copper-clad aluminum wire drawing device comprises a drawing assembly for drawing copper-clad aluminum wires and a traction assembly for pulling the copper-clad aluminum wires to finish drawing operation through the drawing assembly;

the traction assembly comprises a winch used for winding and pulling the copper-clad aluminum wire, and the winch is arranged on the base in a rotary manner; the wire pressing disc is arranged on the base in a rotary mode, the wire pressing end face of the wire pressing disc and the disc face of the winch are matched with each other to form a wire pressing cavity, the wire pressing cavity is coaxial with the copper-clad aluminum wire, the inner diameter of the cavity is the same as the diameter of the copper-clad aluminum wire after wire drawing, and the copper-clad aluminum wire after wire drawing penetrates through the wire pressing cavity and is wound on the winch along the axial direction of the winch according to a preset spiral line movement track.

As still further aspects of the utility model: the axes of revolution of the wire pressing disc and the winch are arranged vertically, the disc edge of the wire pressing disc and the disc body of the winch are contacted with each other, a passing gap for the copper-clad aluminum wire to pass through is reserved between the lower disc surface of the wire pressing disc and the lower end plate of the winch, and the passing gap forms the wire pressing cavity.

As still further aspects of the utility model: the wire pressing disc is a cone, the bottom edge of the cone is tangent to the disc body of the winch, and a gap is reserved between the side surface of the cone and the winch, so that the influence on the winding of the copper-clad aluminum wire is avoided.

As still further aspects of the utility model: the wire drawing assembly comprises a material containing pool arranged on the base and a fixing seat arranged in the material containing pool; the fixing seat is clamped with a concave cavity for clamping the wire-drawing die, and the wire-drawing die is arranged in the concave cavity; the wire inlet side of the wire drawing die is provided with a guide sleeve which is arranged on the fixed seat and coaxial with the wire drawing die, and the guide sleeve is coaxially provided with a guide hole with the same inner diameter as the copper-clad aluminum wire and used for the copper-clad aluminum wire to pass through.

As still further aspects of the utility model: the axis of the wire drawing die is horizontally arranged, and the wire drawing die, the wire pressing cavity and the copper-clad aluminum wire positioned between the wire drawing die and the wire pressing cavity are coaxial with each other.

As still further aspects of the utility model: the wire drawing assembly further comprises an emulsion box which is arranged beside the base and used for containing wire drawing lubricating emulsion, the spray head absorbs the emulsion and sprays the emulsion onto the copper-clad aluminum wire at the wire inlet of the wire drawing die, and the emulsion flows into the material containing tank and flows into the emulsion box through the return pipe.

The processing system is applied to the copper-clad aluminum wire drawing device and comprises a source for supplying copper-clad aluminum wires and more than two drawing parts which are sequentially arranged along the drawing direction of the copper-clad aluminum wires, wherein the drawing parts are formed by matching a traction assembly and a drawing assembly; the copper-clad aluminum wire sequentially passes through the wire drawing processing of each level of wire drawing part, the wire drawing speed of each level of wire drawing part is matched with the thickness of the copper-clad aluminum wire, and the copper-clad aluminum wire after the wire drawing processing is collected by the wire collecting part.

As still further aspects of the utility model: the system also comprises a correction part arranged on the wire inlet side of the guide sleeve, wherein the correction part comprises a supporting plate fixedly connected with the base, and two groups of vertical rollers with rotation axes being arranged vertically are symmetrically and rotatably arranged on the supporting plate; two groups of transverse rollers with horizontally arranged rotation axes are symmetrically and rotatably arranged on the supporting plate; the copper-clad aluminum wire sequentially passes through the gap between the two groups of vertical rollers and the gap between the two groups of transverse rollers, and forms a moving path coaxial with the guide hole.

As still further aspects of the utility model: the copper-clad aluminum wire extends to the tensioning part and enters the next-stage wire drawing part after being wound by the winch for a preset number of turns;

the tensioning part comprises a connecting rod which can be arranged on the base in a rotating mode around a plumb axis, a wire collecting part with a rotation axis arranged in a plumb mode is arranged at the swing arm end of the connecting rod in a rotating mode, and the wire collecting part abuts against a copper-clad aluminum wire between two adjacent wire drawing parts.

As still further aspects of the utility model: the material source comprises a bottom frame and a pay-off disc which is arranged on the bottom frame in a rotary mode, and the rotation axis of the pay-off disc is arranged vertically; the wire collecting part comprises a fixing frame and a wire collecting disc which is arranged on the underframe in a rotary mode, the rotary axis of the wire collecting disc is arranged vertically, and a wire collecting motor which drives the wire collecting disc to rotate is arranged at the bottom of the fixing frame.

Compared with the prior art, the utility model has the beneficial effects that:

1. the wire drawing subassembly can provide the power of wire drawing processing for the wire rod in the corresponding wire drawing portion to make the wire rod can stably accomplish the wire drawing operation. The winch with proper size is adopted, and the wire rod wound on the winch cannot be deformed greatly to break, so that smooth processing is ensured. Each wire drawing part is provided with an independent winch, the rotating speed of the winch is matched with the thickness of the corresponding wire, and further, the situation that the wire which is too thin is broken or the thicker wire cannot be pulled due to the same rotating speed is avoided; the proper rotating speed ensures that the whole wire drawing process is orderly carried out, so as to improve the working efficiency.

2. The wire rod is clamped between the wire pressing disc and the lower end plate, so that the wire rod which is just processed by the wire drawing die can keep a motion path coaxial with the wire drawing hole, and the phenomenon that the wire rod is not uniform enough in stretching because of premature bending of the wire rod, and further the wire rod is uneven in circumferential thickness is avoided. The clamping force is also proper, so that the wire rod is ensured not to deform in the clamping process, and the quality of the product is ensured. The setting in line ball chamber also can be for reducing the vibration of wire rod, avoids the wire rod vibration and appears overlapping winding's condition, and then improves the stability of work.

3. The conical wire pressing disc is designed, so that a certain gap is reserved between the side face of the wire pressing disc and the winch, and further extrusion interference on the wound wire is avoided.

4. The cavity reserved on the fixing seat can fix the wire-drawing die, and meanwhile, the wire-drawing die can be replaced conveniently and rapidly. The wire drawing lubrication emulsion that the shower nozzle provided can help reducing the resistance of wire drawing in-process to reduce the wearing and tearing of wire rod, avoid appearing the mar on the surface of wire rod.

5. The vertical roller and the transverse roller in the correcting part can form a moving path coaxial with the wire drawing die, so that the wire rod is ensured to enter the wire drawing die along a wire drawing path preset by the wire drawing die. And roller type guide structure can guide the wire rod of equidirectional wire rod to carry out the wire drawing route, and then can reduce the putting degree of difficulty of drawing drum, will the drawing drum place on the chassis can, does not have special position requirement.

6. The tensioning wheel in the tensioning portion can enable wires between the two wire drawing portions to be in a proper tensioning state, the wires are prevented from falling on the ground too loosely, cleanliness of the wires can be effectively improved, and the wires are prevented from being too messy.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic structural view of the traction assembly of the present utility model.

Fig. 3 is a schematic view of the structure of the press roll of the present utility model.

Fig. 4 is a schematic structural view of the drawing assembly of the present utility model.

Fig. 5 is a schematic view of the structure of the source of the present utility model.

Fig. 6 is a schematic structural view of the wire winding portion of the present utility model.

In the figure:

10. a source; 11. A pay-off reel; 12. A chassis;

20. a wire drawing part; 21. A base; 22. A traction assembly;

221. a winch; 2211. A lower end plate; 223. A wire pressing disc;

23. a wire drawing assembly; 231. a material containing pool; 232. a fixing seat; 233. a wire drawing die;

234. a guide sleeve; 235. an emulsion tank; 236. a spray head; 237. a return pipe;

30. a correction unit; 31. a supporting plate; 32. a vertical roller; 33. a support plate; 34. a transverse roller;

40. a tensioning part; 41. a connecting rod; 42. a tensioning wheel;

50. a wire winding part; 51. a take-up reel; 52. a fixing frame; 53. a wire winding motor;

a. copper-clad aluminum wire.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 to 6, a copper-clad aluminum wire drawing device and a processing system using the same mainly comprise a source 10, a drawing part 20, a correcting part 30, a tensioning part 40, a wire collecting part 50, a dirt removing part 60 and a guiding part 70.

The source 10 mainly includes a chassis 12 and a payout reel 11 rotatably arranged on the chassis 12, and a rotation axis of the payout reel 11 is vertically arranged.

The straightening part 30 comprises a supporting plate 31 fixedly connected with the base 21, and two groups of vertical rollers 32 with rotation axes arranged vertically are symmetrically and rotatably arranged on the supporting plate 31; the supporting plate 31 is also symmetrically provided with a supporting plate 33, two groups of transverse rollers 34 with rotation axes horizontally arranged are rotatably arranged between the two supporting plates, and the copper-clad aluminum wire a sequentially passes through the two groups of vertical rollers 32 and the two groups of transverse rollers 34 and forms a moving path coaxial with the guide holes.

The vertical roller 32 and the horizontal roller 34 in the straightening portion 30 can form a moving path coaxial with the wire drawing die 233, thereby ensuring that the wire enters the wire drawing die 233 along a wire drawing path predetermined by the wire drawing die 233. And roller type guide structure can guide the wire rod of equidirectional wire rod to carry out the wire drawing route, and then can reduce the degree of difficulty of putting of drawing drum 11, will drawing drum 11 place on chassis 12 can, does not have special position requirement.

The wire drawing section 20 includes a wire drawing unit 23 for drawing the copper clad aluminum wire a and a drawing unit 22 for drawing the copper clad aluminum wire a. The traction assembly 22 includes a capstan 221 rotatably disposed on a base 21, the base 21 being of a hollow structure in the interior, and a driving motor driving the capstan 221 to rotate being installed in the interior.

The copper-clad aluminum wire a after wire drawing is wound on a capstan 221 and drawn by the capstan 221 through a wire drawing die 233 for wire drawing; the copper-clad aluminum wire a wound around the capstan 221 at the first turn is sandwiched between the wire pressing plate 223 and the lower end plate 2211 of the capstan 221. The axis of the wire drawing die 233 is horizontally arranged, the copper-clad aluminum wire a in the wire outlet direction is coaxial with the wire drawing die 233, and the copper-clad aluminum wire a is wound on a capstan 221 with a plumb rotation axis from bottom to top after being tangent to the capstan 221. The wire rod which is just processed by the wire drawing die 233 can keep a motion path which is coaxial with the wire drawing hole, so that the phenomenon that the wire rod is not uniformly stretched because of premature bending of the wire rod and the circumferential thickness of the wire rod is not uniform is avoided. The clamping force is also proper, so that the wire rod is ensured not to deform in the clamping process, and the quality of the product is ensured. The wire coil 223 is arranged at the tangent and presses the copper-clad aluminum wire a against the lower end plate 2211 from top to bottom.

The drawing assembly 23 includes a receiving tank 231 disposed on the base 21 and a fixing base 232 installed in the receiving tank 231. The fixing base 232 is clamped with a concave cavity for clamping the wire-drawing die 233, and the wire-drawing die 233 is arranged in the concave cavity. The wire-feeding side of the wire-drawing die 233 is provided with a guide sleeve 234 which is arranged on the fixed seat 232 and coaxial with the wire-drawing die 233, and the guide sleeve 234 is coaxially provided with a guide hole with the same inner diameter as the copper-clad aluminum wire a and for the copper-clad aluminum wire a to pass through. An emulsion tank 235 for containing wiredrawing lubrication emulsion is arranged beside the base 21, the spray head 236 sucks the emulsion and sprays the emulsion onto the copper-clad aluminum wire a at the wire inlet of the wiredrawing die 233, and the emulsion flows into the material containing tank 231 and flows into the emulsion tank 235 through a return pipe 237.

The wire pressing disc 223 is a cone which is rotatably installed on the base 21 and is vertically arranged on the rotation axis, the bottom edge of the forward cone is tangent to the winch 221, a gap is reserved between the side surface of the cone and the winch 221, and a certain gap is reserved between the side surface of the wire pressing disc 223 and the winch 221 due to the design of the conical wire pressing disc 223, so that extrusion interference to a wound wire is reduced.

The tensioning portion 40 is disposed between two sets of wire drawing portions 20 adjacent to each other, the tensioning portion 40 includes a link 41 rotatably disposed on the base 21 about a vertical axis, and a wire takeup portion 50 whose swing axis is vertically disposed is rotatably disposed at a swing arm end of the link 41. The tensioning wheel 42 in the tensioning part 40 can enable wires between the two wire drawing parts 20 to be in a proper tensioning state, so that the wires are prevented from falling on the ground too loosely, the cleanliness of the wires can be effectively improved, and the wires are prevented from being too messy.

The wire winding portion 50 includes a fixed frame 52 and a wire winding drum 51 rotatably disposed on the chassis 12, the rotation axis of the wire winding drum 51 is vertically disposed, and a wire winding motor 53 for driving the wire winding drum 51 to rotate is disposed at the bottom of the fixed frame 52.

In actual use, the correction portion 30, the wire drawing portion 20, and the tension portion 40 constitute one wire drawing processing unit. The copper-clad aluminum wire a from the pay-off reel 11 sequentially passes through a plurality of wire drawing treatment units and is wound by the take-up reel 51.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (10)

1. The copper-clad aluminum wire drawing device is characterized by comprising a drawing assembly (23) for drawing copper-clad aluminum wires (a) and a traction assembly (22) for pulling the copper-clad aluminum wires (a) to finish drawing operation through the drawing assembly (23);

the traction assembly (22) comprises a winch (221) for winding and pulling the copper clad aluminum wire (a), and the winch (221) is rotatably arranged on the base (21); the wire pressing disc (223) is arranged on the base (21) in a rotating mode, the wire pressing end face of the wire pressing disc (223) and the disc face of the winch (221) are matched with each other to form a wire pressing cavity, the wire pressing cavity is coaxial with the copper-clad aluminum wire (a), the inner diameter of the cavity is the same as the diameter of the copper-clad aluminum wire (a) after wire drawing, and the copper-clad aluminum wire (a) after wire drawing penetrates through the wire pressing cavity and is wound on the winch (221) along the axial direction of the winch (221) in a circle-by-circle mode according to a preset spiral line movement track.

2. The copper-clad aluminum wire drawing device according to claim 1, wherein the axes of revolution of the wire pressing disc (223) and the capstan (221) are both vertically arranged, the disc edge of the wire pressing disc (223) and the disc body of the capstan (221) are in contact with each other, and a passing gap for passing the copper-clad aluminum wire (a) is reserved between the lower disc surface of the wire pressing disc (223) and the lower end plate (2211) of the capstan (221), and the passing gap constitutes the wire pressing cavity.

3. A copper clad aluminum wire drawing device according to claim 2, wherein the wire pressing disc (223) is a cone, the bottom edge of the cone and the disc body of the winch (221) are tangent to each other, and a gap is left between the side surface of the cone and the winch (221) so as to avoid influencing the winding of the copper clad aluminum wire (a).

4. A copper clad aluminium wire drawing apparatus according to claim 1 or 2 or 3, wherein the drawing assembly (23) comprises a holding tank (231) arranged on the base (21) and a fixing seat (232) mounted in the holding tank (231); a concave cavity for clamping a wire drawing die (233) is clamped on the fixing seat (232), and the wire drawing die (233) is arranged in the concave cavity; the wire inlet side of the wire drawing die (233) is provided with a guide sleeve (234) which is arranged on the fixed seat (232) and is coaxial with the wire drawing die (233), and the guide sleeve (234) is coaxially provided with a guide hole with the same inner diameter as the copper-clad aluminum wire (a) and used for the copper-clad aluminum wire (a) to pass through.

5. A copper clad aluminum wire drawing apparatus according to claim 4, wherein the axis of the wire drawing die (233) is arranged horizontally, and the wire drawing die (233), the wire pressing chamber, and the copper clad aluminum wire (a) located between the wire drawing die (233) and the wire pressing chamber are coaxial with each other.

6. The copper clad aluminum wire drawing device according to claim 5, wherein the drawing assembly (23) further comprises an emulsion tank (235) arranged beside the base (21) and used for containing drawing lubricating emulsion, the spray head (236) is used for sucking the emulsion and spraying the emulsion onto the copper clad aluminum wire (a) at a wire inlet of the drawing die (233), and the emulsion flows into the material containing tank (231) and flows into the emulsion tank (235) through the return pipe (237).

7. A processing system employing the copper-clad aluminum wire drawing apparatus as recited in claim 6, characterized by comprising a source (10) for supplying copper-clad aluminum wire (a) and two or more drawing sections (20) arranged in succession in a drawing direction of the copper-clad aluminum wire (a), the drawing sections (20) being formed by cooperation of a drawing assembly (22) and a drawing assembly (23); the copper-clad aluminum wire (a) sequentially passes through the wire drawing processing of each level of wire drawing part (20), the wire drawing speed of each level of wire drawing part (20) is matched with the thickness of the copper-clad aluminum wire (a), and the copper-clad aluminum wire (a) after the wire drawing processing is completed is collected by the wire collecting part (50).

8. A processing system according to claim 7, characterized in that it further comprises a correction portion (30) arranged on the wire-feeding side of the guide sleeve (234), said correction portion (30) comprising a pallet (31) fixedly connected to the base (21), said pallet (31) being provided with two sets of vertical rollers (32) with rotation axes arranged vertically, symmetrically and rotatably; two groups of transverse rollers (34) with horizontally arranged rotation axes are symmetrically and rotatably arranged on the supporting plate (31); the copper-clad aluminum wire (a) sequentially passes through the gap between the two sets of vertical rollers (32) and the gap between the two sets of transverse rollers (34) and forms a moving path coaxial with the guide hole.

9. A processing system according to claim 8, characterized in that the copper-clad aluminium wire (a) extends to the tensioning section (40) and into the next stage wire drawing section (20) after winding the winch (221) a predetermined number of turns;

the tensioning part (40) comprises a connecting rod (41) which can be rotatably arranged on the base (21) around a vertical axis, a wire collecting part (50) with a rotation axis vertically arranged is rotatably arranged at the swing arm end of the connecting rod (41), and the wire collecting part (50) is abutted against a copper-clad aluminum wire (a) between two adjacent wire drawing parts (20).

10. A processing system according to claim 7, characterized in that the source (10) comprises a chassis (12) and a pay-off reel (11) arranged in rotation on the chassis (12), the axis of rotation of the pay-off reel (11) being arranged vertically; the wire collecting part (50) comprises a fixing frame (52) and a wire collecting disc (51) which is arranged on the underframe (12) in a rotating mode, the rotation axis of the wire collecting disc (51) is arranged vertically, and a wire collecting motor (53) which drives the wire collecting disc (51) to rotate is arranged at the bottom of the fixing frame (52).