CN111151591A

CN111151591A - Husking machine in metal wire production equipment

Info

Publication number: CN111151591A
Application number: CN201911423051.4A
Authority: CN
Inventors: 陈志宏
Original assignee: Gwo Lian Machinery Industry Co ltd
Current assignee: Gwo Lian Machinery Industry Co ltd
Priority date: 2017-01-13
Filing date: 2017-01-13
Publication date: 2020-05-15
Anticipated expiration: 2037-01-13
Also published as: CN111151591B; CN111112375A; CN108296306B; CN108296306A

Abstract

A decorticator in the wire rod production facility, the machine used for carrying on the decortication to the wire rod with hard material surface of oxide layer, include a decorticator, the decorticator includes a decorticator base, at least one supplies the wire rod to wear and stretch and set up the first decorticator in the decorticator base, and at least one supplies the wire rod to wear and stretch and adjacent the first decorticator and set up the second decorticator in the decorticator base; the first husking device comprises a first husking fixing plate, a first husking front-section fixing wheel arranged on the first husking fixing plate, a first husking rear-section fixing wheel arranged on the first husking fixing plate, and a first husking moving roller positioned between the first husking front-section fixing wheel and the first husking rear-section fixing wheel. In the invention, the decorticator can ensure that the oxide layer on the surface of the metal wire rod is more uniformly extruded and damaged.

Description

Husking machine in metal wire production equipment

The invention is a divisional application, and the application date of the parent application is as follows: 13/1/2017; the application numbers are: 201710025707.1, respectively; the invention has the name: method and apparatus for producing metal wire and machine in the apparatus

Technical Field

The invention relates to a husking machine in metal wire production equipment, in particular to a husking machine in metal wire production equipment, which can increase and eliminate an oxide layer of a metal wire to improve the derusting efficiency.

Background

In the prior art, after the metal wire is produced by an upstream factory, a series of processing procedures must be performed to reduce the diameter of the metal wire, and then the metal wire with the reduced diameter is received by a client factory and then can be manufactured into a bolt or a nut or other metal finished products.

The processing process includes a first pickling process, an annealing process, a second pickling process, and a rough drawing process. The procedure of the operator before the rough drawing process is to treat the hard oxide layer on the surface of the metal wire to remove the hard oxide layer on the surface through the first acid washing process, the annealing process and the second acid washing process, and then to perform the diameter reduction process on the metal wire through the rough drawing process.

In the first pickling process, the second pickling process, and the like, a large amount of acidic chemical solution is required, and the cost thereof will cause a large burden on the owner. In addition, if the used acidic chemical solution is not subjected to perfect subsequent treatment, the acidic chemical solution is discharged without authorization, and the ecological environment is seriously polluted. In addition, in the acid washing process, the acid liquid can generate toxic gas after contacting the metal wire, and if the acid liquid is sucked into the body by the operation industry, the health of the human body is directly influenced.

The inventor of the present invention previously obtained taiwan patent No. I477609, which solves the above-mentioned disadvantages by a processing method not using an acidic solution, wherein the processing method mainly uses a friction-type rust removing step to remove impurities such as an oxide layer, dirt, rust, etc. on the surface of a metal wire.

Although the processing method does not use acid solution, the conditions of environmental pollution, cost, health and the like can be overcome. However, since the oxide layer on the surface of the metal wire is a very hard material, the rust removing step is time-consuming in terms of the friction treatment of the metal wire and requires a large amount of consumables, such as steel brushes or sandpaper, to clean the oxide layer of the metal wire.

The large amount of consumables not only greatly increases the investment cost of the owner, but also has the disadvantages of inconvenient operation and the like because the operator must frequently replace the consumables, so the processing and treating process in the prior art needs to be improved.

Disclosure of Invention

The invention aims to provide a husking machine in metal wire production equipment, which can firstly break the surface of a metal wire such as a hard shell surface of an oxide layer and fall off by bending and extruding the metal wire so as to improve the rust removal efficiency.

In accordance with the foregoing objectives, the present invention provides a husking machine for use in a metal wire manufacturing apparatus, particularly a husking machine for husking a metal wire having a hard oxide layer surface, the husking machine comprising a husking machine base, at least one first husking device for the metal wire to penetrate through and to be accommodated in the husking machine base, and at least one second husking device for the metal wire to penetrate through and to be adjacent to the first husking device and to be accommodated in the husking machine base; the first peeling device and the second peeling device are bent and extruded to break the hard shell surface of the metal wire, and the setting direction of the first peeling device is vertical to the setting direction of the second peeling device, wherein the first peeling device comprises a first peeling fixing plate, a first peeling front section fixing wheel arranged on the first peeling fixing plate, a first peeling rear section fixing wheel arranged on the first peeling fixing plate, and a first peeling moving roller positioned between the first peeling front section fixing wheel and the first peeling rear section fixing wheel; the center of the first shelling fixing plate is provided with a first sliding groove for the first shelling moving roller to slide so as to bend and extrude the metal wire.

Furthermore, the decorticator base comprises a decorticating space which is arranged inside and is used for accommodating the first decorticating device and the second decorticating device, an opening which is arranged at one end and is communicated with the decorticating space, and a decorticating protective cover which is arranged at the opening.

Furthermore, the first husking device further comprises a first husking front-section limiting wheel arranged on the first husking fixing plate and a first husking rear-section limiting wheel arranged on the first husking fixing plate, the first husking front-section fixing wheel is arranged on one side of the first husking front-section limiting wheel, the first husking rear-section fixing wheel is arranged on one side of the first husking rear-section limiting wheel, the first husking front-section limiting wheel, the first husking rear-section limiting wheel, the first husking front-section fixing wheel and the first husking rear-section fixing wheel are arranged on the same side of the first husking fixing plate, the first husking front-section limiting wheel and the first husking front-section fixing wheel are respectively arranged on one side of the first sliding groove, the first husking rear-section limiting wheel and the first husking rear-section fixing wheel are respectively arranged on the other side of the first sliding groove, and the first husking front-section limiting wheel and the first husking front-section fixing wheel are arranged on two sides of the metal wire rod, the first husking rear-section limiting wheel and the first husking rear-section fixing wheel are positioned on two sides of the metal wire; the first husking front-section limiting wheel, the first husking rear-section limiting wheel, the first husking front-section fixed wheel, the first husking moving roller and the first husking rear-section fixed wheel are axially arranged in the same linear direction; the second husking device comprises a second husking fixed plate, a second husking front-section limiting wheel arranged on the second husking fixed plate, a second husking rear-section limiting wheel arranged on the second husking fixed plate, a second husking front-section fixed wheel arranged on the second husking fixed plate and positioned on one side of the second husking front-section limiting wheel, a second husking rear-section fixed wheel arranged on the second husking fixed plate and positioned on one side of the second husking rear-section limiting wheel, and a second husking moving roller positioned between the second husking front-section fixed wheel and the second husking rear-section fixed wheel; the center of the second peeling fixing plate is provided with a second sliding groove for the second peeling moving roller to slide so as to bend and extrude the metal wire, the second peeling front section limiting wheel, the second peeling rear section limiting wheel, the second peeling front section fixing wheel and the second peeling rear section fixing wheel are positioned at the same side of the second peeling fixing plate, the second peeling front section limiting wheel and the second peeling front section fixing wheel are respectively positioned at one side of the second sliding groove, the second peeling rear section limiting wheel and the second peeling rear section fixing wheel are respectively positioned at the other side of the second sliding groove, the second peeling front section limiting wheel and the second peeling front section fixing wheel are positioned at two sides of the metal wire, and the second peeling rear section limiting wheel and the second peeling rear section fixing wheel are positioned at two sides of the metal wire; wherein, the axial of the spacing wheel of this second husking anterior segment, the spacing wheel of this second husking back end, this second husking anterior segment fixed pulley, this second husking movable roller, this second husking back end fixed pulley is in same straight line direction, and the direction that sets up of this first husking anterior segment fixed pulley is perpendicular in the direction that sets up of this second husking anterior segment fixed pulley.

Furthermore, the first husking devices are arranged in a plurality of numbers, and the arrangement direction of the first husking moving roller of each first husking device is arranged to surround the outer periphery of the metal wire in an equiangular distribution.

Furthermore, the second peeling device is provided in plurality, and the direction of the second peeling roller of each second peeling device and the direction of the first peeling roller of each first peeling device are arranged in a staggered equiangular distribution around the outer circumference of the metal wire.

The invention is characterized in that:

1. the invention also processes the metal wire by a processing procedure without containing acid solution, and the process does not cause the problems of increasing investment cost of owners, influencing ecological environment, operator health and the like.

2. The husking machine of the invention adopts bending extrusion to destroy the hard shell oxide layer on the surface of the metal wire rod, so that the hard shell surface of the oxide layer on the surface of the metal wire rod falls off before the rust removing treatment, thereby facilitating the subsequent rust removing treatment to be more efficient.

The invention is described in detail below with reference to the drawings and specific examples, but the invention is not limited thereto.

Drawings

FIG. 1: is a front view schematic diagram of the metal wire rod, the wire feeding straightening machine, the husking machine and the middle section straightening machine;

FIG. 2: is a front view schematic diagram of the metal wire rod, the derusting machine and the wire stretching machine;

FIG. 3: the wire end of the metal wire is firstly processed to make a part of the wire have a reduced diameter;

FIG. 4: is a three-dimensional schematic diagram of the metal wire and the husking machine;

FIG. 5: is the operation diagram of FIG. 4;

FIG. 6: is a flow chart of the method of the present invention.

Wherein the reference numerals

Production facility 1 Metal wire 10

Spool seat 100 at thread end 11

Wire-feeding straightener 2 front straightening roller set 21

Decorticator.3 first decorticating device.30

First shelling fixing plate 300

3000 first shucking front-end limiting wheel 301

First shelling front fixed wheel 302 first shelling rear fixed wheel 303

First movable roller for husking 304 first telescopic cylinder group for husking 305

First husking telescopic cylinder 306 first husking fixed seat 307

First husking shaft body 308 first husking linkage rod 309

Second husking device 31 second husking fixing plate 310

A second sliding groove 3100 second shucking front-segment spacing wheel 311

Second rear-end spacing wheel 312 second front-end fixed wheel 313

Second shelling rear fixed wheel 314 second shelling moving roller 315

Husking machine base 32 husking protective cover 320

Deruster.4 wire stretcher.5

Production method of middle-section straightener.6.7

Detailed Description

The invention will be described in detail with reference to the following drawings, which are provided for illustration purposes and the like:

referring to fig. 1 and 2, a peeling machine of a metal wire production apparatus 1 according to the present invention is particularly for processing a metal wire 10 having a hard shell surface with an oxide layer, the production apparatus 1 includes a rotatable reel seat 11 for placing the metal wire 10, a wire feeding straightener 2, a peeling machine 3, a rust remover 4, and a wire drawing machine 5.

The metal wire 10 passes through the wire feeding straightener 2 to be straightened and output through an output end. The decorticator 3 is located at the output end side of the wire feeding straightener 2, and the metal wire 10 penetrates through the decorticator 3 to be decorticated and is output through the output end. The deruster 4 is positioned at the output end side of the husking machine 3, and the metal wire 10 penetrates through the deruster 4 to remove rust and is output through an output end. The wire drawing machine 5 is located at the output end side of the deruster 4, and the metal wire 10 penetrates through the wire drawing machine 5 to complete the required wire diameter of the metal wire 10, in other words, the diameter of the metal wire 10 is reduced to meet the required wire diameter of a client.

Referring to fig. 6, the metal wire production method 7 according to the present invention processes the metal wire 10 having an oxide layer by the production equipment 1, wherein the production method 7 includes the following steps:

the method comprises the following steps: feeding and straightening the metal wire 10; straightening the metal wire 10 by the wire feeding straightening machine 2 to straighten the bent part of the metal wire 10 so as to facilitate subsequent treatment;

step two: performing surface peeling treatment on the metal wire 10; the oxide layer on the hard shell surface of the metal wire 10 is broken and cracked by the husking machine 3 in a bending and extruding way;

step three: performing surface rust removal treatment on the metal wire 10; the rust remover 4 removes the impurities such as rust or dirt on the surface of the metal wire 10; and

step four: roughly drawing the metal wire 10 to reduce the diameter of the metal wire 10; the wire stretcher 5 is used for rolling diameter reduction or eye film diameter reduction, so that the wire diameter of the metal wire 10 after treatment can meet the requirements of clients, and the clients can conveniently manufacture screws or bolts or other metal products.

Referring to fig. 3, since the diameter of the metal wire 10 is relatively large before the production, it is very difficult to pass through the metal wire, so in practice, a part of the metal wire 10 at the front end is usually straightened and straightened, and then is processed at the wire end 100 to reduce its diameter. The pre-working process is performed in many ways, especially during the process of the metal wire 10 from the winding drum seat 11 to the wire feeding straightener 2, and only in the embodiment, the processed metal wire 10 is placed on the winding drum seat 11 and the wire at the wire end 100 of the metal wire 10 is threaded to the wire feeding straightener 2, and then the metal wire 10 can be processed by the production equipment 1 and the production method 7. The emphasis of the present application is that the production process of the metal wire 10 is not a pre-operation, so the pre-operation is not a limitation of the present application.

Referring to fig. 1, 4 and 5, the husking machine 3 includes a husking machine base 32, at least one first husking device 30 through which the metal wire 10 passes and located at an output end side of one front straightening roller set 21 of the wire feeding straightening machine 2 and accommodated in the husking machine base 32, and at least one second husking device 31 through which the metal wire 10 passes and located at an output end side of the first husking device 30 and accommodated in the husking machine base 32. Wherein, the first husking device 30 is arranged in a direction perpendicular to the second husking device 31. The peeling machine 3 is particularly a machine for peeling the metal wire 10 having a hard surface with an oxide layer, and the first peeling device 30 and the second peeling device 31 bend and squeeze the metal wire 10 to break the oxide layer on the hard surface of the metal wire 10.

The husking machine base 32 comprises a husking space (not shown) provided inside and accommodating the first husking device 30 and the second husking device 31, an opening (not shown) provided at one end and communicated with the husking space, and a husking protection cover 320 provided at the opening. The peeling protective cover 320 can not only prevent the damaged and fallen oxide layer from bouncing to the outside and causing the risk of injuring the operator, but also the operator can lift the peeling protective cover 320 to remove the oxide layer fallen in the peeling space.

The first husking device 30 includes a first husking fixing plate 300, a first husking front-end limiting wheel 301 pivotally connected to the first husking fixing plate 300, a first husking rear-end limiting wheel (not shown) pivotally connected to the first husking fixing plate 300, a first husking front-end fixing wheel 302 pivotally connected to the first husking fixing plate 300 and located at one side of the first husking front-end limiting wheel 301, a first husking rear-end fixing wheel 303 pivotally connected to the first husking fixing plate 300 and located at one side of the first husking rear-end limiting wheel, a first husking moving roller 304 located between the first husking front-end fixing wheel 302 and the first husking rear-end fixing wheel 303, and a first husking telescopic cylinder group 305 connected to the first husking fixing plate 300 and connected to the first husking moving roller 304.

The first peeling fixing plate 300 is provided at the center thereof with a first sliding groove 3000 for the first peeling roller 304 to slide so as to bend and extrude the metal wire 10. The first front-end spacing wheel 301, the first rear-end spacing wheel, the first front-end fixed wheel 302, and the first rear-end fixed wheel 303 are located on the same side of the first peeling fixture 300, and the first telescopic cylinder group 305 is located on the other side of the first peeling fixture 300 opposite to the first front-end spacing wheel 301.

The first front-segment spacing wheel 301 and the first front-segment fixing wheel 302 are respectively located on one side of the first sliding groove 3000, the first rear-segment spacing wheel and the first rear-segment fixing wheel 303 are respectively located on the other side of the first sliding groove 3000, the first front-segment spacing wheel 301 and the first front-segment fixing wheel 302 are located on two sides of the metal wire 10, and the first rear-segment spacing wheel and the first rear-segment fixing wheel 303 are located on two sides of the metal wire 10. The first front-end spacing wheel 301, the first rear-end spacing wheel, the first front-end fixed wheel 302, the first movable peeling roller 304, and the first rear-end fixed peeling wheel 303 are axially aligned in the same X-axis direction.

The first peeling telescopic cylinder group 305 includes a first peeling telescopic cylinder 306, a first peeling fixing seat 307 for fixing the first peeling telescopic cylinder 306 and connecting to the first peeling fixing plate 300, a first peeling shaft 308 pivotally connected to one end of the first peeling telescopic cylinder 306, and a first peeling linkage 309 connecting the first peeling shaft 308 and the first peeling movable roller 304. The first husking moving roller 304 is driven by the first husking telescopic cylinder 306 to slide in the first sliding groove 3000, so that the metal wire 10 can be bent and extruded.

The second husking device 31 includes a second husking fixing plate 310, a second husking front-end limiting wheel 311 pivotally connected to the second husking fixing plate 310, a second husking rear-end limiting wheel 312 pivotally connected to the second husking fixing plate 310, a second husking front-end fixing wheel 313 pivotally connected to the second husking fixing plate 310 and located at one side of the second husking front-end limiting wheel 311, a second husking rear-end fixing wheel 314 pivotally connected to the second husking fixing plate 310 and located at one side of the second husking rear-end limiting wheel 312, a second husking moving roller 315 located between the second husking front-end fixing wheel 313 and the second husking rear-end fixing wheel 314, and a second husking telescopic cylinder group (not shown) connected to the second husking fixing plate 310 and connected to the second husking moving roller 315. The overall structure of the second telescopic cylinder group is similar to that of the first telescopic cylinder group 305, and reference may be made to the first telescopic cylinder group 305 for details.

The second peeling stationary plate 310 has a second sliding groove 3100 for the second peeling roller 315 to slide to bend and press the metal wire 10. The second front-end limiting wheel 311, the second rear-end limiting wheel 312, the second front-end fixed wheel 313 and the second rear-end fixed wheel 314 are located on the same side of the second peeling fixing plate 310, and the second peeling telescopic cylinder group is located on the other side of the second peeling fixing plate 310 opposite to the second front-end limiting wheel 311.

The second front-stage spacing wheel 311 and the second front-stage fixed wheel 313 are respectively located on one side of the second sliding groove 3100, and the second rear-stage spacing wheel 312 and the second rear-stage fixed wheel 314 are respectively located on the other side of the second sliding groove 3100. The second front-segment spacing wheel 311 and the second front-segment fixing wheel 313 are located on two sides of the metal wire 10, and the second rear-segment spacing wheel 312 and the second rear-segment fixing wheel 314 are located on two sides of the metal wire 10. The axial directions of the second front-stage spacing wheel 311, the second rear-stage spacing wheel 312, the second front-stage fixed wheel 313, the second movable peeling roller 315, and the second rear-stage fixed peeling wheel 314 are in the same Y-axis linear direction.

In summary, in the present invention, the production method 7 bends and extrudes the metal wire 10 in the second step to form the metal wire 10, and the metal wire is extruded between the fixed wheels through the moving rollers when being conveyed, in other words, in the second step, the surface peeling process is to bend and extrude the metal wire 10, so as to break the hard shell surface of the metal wire 10.

In the embodiment, the first front peeling fixing wheel 302 is perpendicular to the second front peeling fixing wheel 313, so that the metal wire 10 is crushed by uniform force, and if the metal wire is crushed in a non-average stress direction, the force at the stress overlapping part will be accumulated, which may cause the mass of the oxide layer damaged in two directions to fall different, i.e. the respective radii of the metal wire 10 from the center point to the outside are different, which will affect the effect of the subsequent processing.

Further, in one embodiment, the first peeling means 30 is provided in plurality, and the first peeling moving roller 304 of each first peeling means 30 is disposed in an equiangular distribution around the outer circumference of the metal wire 10. In even another embodiment, the first peeling device 30 and the second peeling device 31 are provided in plural, and the second peeling roller 315 of each second peeling device 31 and the first peeling roller 304 of each first peeling device 30 are arranged in staggered equiangular distribution around the outer circumference of the metal wire 10, so that the oxide layer on the surface of the metal wire 10 is more uniformly crushed.

Referring to fig. 1, 2 and 6, after the metal wire 10 is bent and extruded by the husking machine 3 to break the oxide layer, the wire body of some segments of the metal wire 10 will be bent and bent, and if the metal wire is directly conveyed to the derusting machine 4 to remove rust, the derusting efficiency will be affected. Therefore, the production equipment 1 of the invention is provided with a middle-section straightening machine 6 between the decorticator 3 and the derusting machine 4, and the middle-section straightening treatment is carried out on the metal wire 10 by the middle-section straightening machine 6 between the second step and the third step in the production method 7, so that the metal wire 10 can be guided to be straight before entering the derusting machine 4, thereby facilitating the subsequent treatment.

As described above, the peeling machine 3 breaks the hard shell oxide layer on the surface of the metal wire 10 by bending and pressing, so that the hard shell surface of the oxide layer on the surface of the metal wire 10 falls off before the rust removing treatment, thereby making the subsequent rust removing treatment more efficient. Once the oxide layer on the hard shell surface of the metal wire 10 is damaged, the consumption of the rust remover 4 for rubbing the metal wire 10 can be greatly reduced, thereby greatly reducing the investment cost of owners, and enabling operators to have the effect of convenient operation without frequent replacement. In addition, the processing procedure of the invention is to process the metal wire 10 by a processing procedure without containing an acid solution, and the processing procedure does not have the defects of the prior art that the acid solution causes the increase of investment cost of owners, influences on ecological environment and operation industry health and the like. In addition, the first husking telescopic cylinder group 305 can be applied to a hydraulic cylinder or a pneumatic cylinder in practical applications, but is not limited thereto.

The present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof, and it should be understood that various changes and modifications can be effected therein by one skilled in the art without departing from the spirit and scope of the invention as defined in the appended claims.

Claims

1. A decorticator in metal wire production facility, especially the machine that is used for peeling off to the metal wire that is equipped with oxide layer hard material surface, its characterized in that, it includes:

the wire rod is inserted into the first husking device and is accommodated in the husking machine base; the first peeling device and the second peeling device are bent and extruded to break the hard shell surface of the metal wire, and the setting direction of the first peeling device is vertical to the setting direction of the second peeling device, wherein the first peeling device comprises a first peeling fixing plate, a first peeling front section fixing wheel arranged on the first peeling fixing plate, a first peeling rear section fixing wheel arranged on the first peeling fixing plate, and a first peeling moving roller positioned between the first peeling front section fixing wheel and the first peeling rear section fixing wheel; the center of the first shelling fixing plate is provided with a first sliding groove for the first shelling moving roller to slide so as to bend and extrude the metal wire.

2. The wire rod production apparatus of claim 1, wherein the decorticator mount comprises a decorticating space provided inside and accommodating the first and second decorticating devices, an opening provided at one end and communicating with the decorticating space, and a decorticating cover provided at the opening.

3. The decorticator in a metal wire manufacturing apparatus as claimed in claim 1, wherein the first decorticating device further comprises a first decorticating front-end limiting wheel disposed on the first decorticating fixing plate, and a first decorticating rear-end limiting wheel disposed on the first decorticating fixing plate, the first decorticating front-end fixing wheel being disposed at one side of the first decorticating front-end limiting wheel, the first decorticating rear-end fixing wheel being disposed at one side of the first decorticating rear-end limiting wheel, the first decorticating front-end limiting wheel, the first decorticating rear-end limiting wheel, the first decorticating front-end fixing wheel and the first decorticating rear-end fixing wheel being disposed at one side of the first decorticating fixing plate, the first decorticating front-end limiting wheel and the first decorticating front-end fixing wheel being disposed at one side of the first sliding groove, the first decorticating rear-end limiting wheel and the first decorticating rear-end fixing wheel being disposed at the other side of the first sliding groove, the first husking front-section limiting wheel and the first husking front-section fixing wheel are positioned on two sides of the metal wire, and the first husking rear-section limiting wheel and the first husking rear-section fixing wheel are positioned on two sides of the metal wire; the first husking front-section limiting wheel, the first husking rear-section limiting wheel, the first husking front-section fixed wheel, the first husking moving roller and the first husking rear-section fixed wheel are axially arranged in the same linear direction; the second husking device comprises a second husking fixed plate, a second husking front-section limiting wheel arranged on the second husking fixed plate, a second husking rear-section limiting wheel arranged on the second husking fixed plate, a second husking front-section fixed wheel arranged on the second husking fixed plate and positioned on one side of the second husking front-section limiting wheel, a second husking rear-section fixed wheel arranged on the second husking fixed plate and positioned on one side of the second husking rear-section limiting wheel, and a second husking moving roller positioned between the second husking front-section fixed wheel and the second husking rear-section fixed wheel; the center of the second peeling fixing plate is provided with a second sliding groove for the second peeling moving roller to slide so as to bend and extrude the metal wire, the second peeling front section limiting wheel, the second peeling rear section limiting wheel, the second peeling front section fixing wheel and the second peeling rear section fixing wheel are positioned at the same side of the second peeling fixing plate, the second peeling front section limiting wheel and the second peeling front section fixing wheel are respectively positioned at one side of the second sliding groove, the second peeling rear section limiting wheel and the second peeling rear section fixing wheel are respectively positioned at the other side of the second sliding groove, the second peeling front section limiting wheel and the second peeling front section fixing wheel are positioned at two sides of the metal wire, and the second peeling rear section limiting wheel and the second peeling rear section fixing wheel are positioned at two sides of the metal wire; wherein, the axial of the spacing wheel of this second husking anterior segment, the spacing wheel of this second husking back end, this second husking anterior segment fixed pulley, this second husking movable roller, this second husking back end fixed pulley is in same straight line direction, and the direction that sets up of this first husking anterior segment fixed pulley is perpendicular in the direction that sets up of this second husking anterior segment fixed pulley.

4. The wire rod production apparatus according to claim 3, wherein the first peeling means is provided in plurality, and the first peeling moving roller of each first peeling means is provided in an equiangular distribution around the outer periphery of the wire rod.

5. The wire rod production apparatus according to claim 4, wherein the second peeling means is provided in plurality, and the direction of arrangement of the second peeling moving roller of each of the second peeling means and the direction of arrangement of the first peeling moving roller of each of the first peeling means are arranged in a staggered equiangular distribution around the outer periphery of the wire rod.