CONTINUOUS WIRE DRAWING APPARATUS AND METHOD

Abstract

A continuous wire drawing apparatus includes: a wire releasing scrollbar and a wire collecting scrollbar being respectively a wire releasing end and a wire collecting end of a metal wire material; a wire drawing force control unit and a back force control unit providing a drawing force and a back force to the wire collecting end and the wire releasing end respectively; a heating unit disposed between the wire releasing end and the wire collecting end, and adapted to heat the metal wire material continuously at a heating temperature in a heating area, whereby the metal wire material is deformed by a strength difference between the drawing force and the back force; and a cooling unit disposed between the heating unit and the wire collecting end, and adapted to cool the metal wire material continuously at a cooling temperature in a cooling area.

Claims

1. A continuous wire drawing apparatus, comprising: a wire releasing scrollbar and a wire collecting scrollbar, being respectively a wire releasing end and a wire collecting end of a metal wire material; a wire drawing force control unit and a back force control unit, providing a drawing force to the wire collecting end and providing a back force to the wire releasing end respectively, so that the metal wire material moves towards the wire collecting scrollbar; a heating unit, disposed between the wire releasing end and the wire collecting end, and adapted to heat the metal wire material continuously at a heating temperature in a heating area, wherein a range of the heating temperature is 50 C. to 300 C. above a recrystallization temperature of the metal wire material, whereby the metal wire material is deformed by and with a strength difference between the drawing force and the back force; and a cooling unit, disposed between the heating unit and the wire collecting end, and adapted to cool the metal wire material continuously at a cooling temperature in a cooling area.

2. The continuous wire drawing apparatus according to claim 1, further comprising: a protective gas unit, being in communication to the heating unit, so as to provide a protective gas, to protect the heated metal wire material in the heating area.

3. The continuous wire drawing apparatus according to claim 1, wherein a heating element of the heating unit is a closed heater or an inductive heating coil.

4. The continuous wire drawing apparatus according to claim 1, wherein when the metal wire material is a brass wire material, a range of the heating temperature is 500 C. to 800 C.

5. The continuous wire drawing apparatus according to claim 1, wherein a range of the cooling temperature is 25 C. to 30 C.

6. The continuous wire drawing apparatus according to claim 1, wherein an effective interval of the heating area is 10 cm to 50 cm.

7. The continuous wire drawing apparatus according to claim 1, wherein the back force is 10 N to 600 N, the wire drawing force is 100 N to 6000 N, and a wire collecting speed is 2 m/min to 30 m/min.

8. The continuous wire drawing apparatus according to claim 1, wherein an area reduction of shape deformation of the metal wire material is greater than 20%.

9. A continuous wire drawing method, comprising the following steps: providing a metal wire material, comprising a wire releasing end and a wire collecting end; providing a drawing force to the wire collecting end, and providing a back force to the wire releasing end, so that the metal wire moves; heating the metal wire material continuously at a heating temperature in a heating area, wherein a range of the heating temperature is 50 C. to 300 C. above a recrystallization temperature of the metal wire material, whereby the metal wire material is deformed by a strength difference between the drawing force and the back force; and cooling the metal wire material continuously at a cooling temperature in a cooling area.

10. The continuous wire drawing method according to claim 9, further comprising the following step: providing a protective gas, to protect the heated metal wire material in the heating area.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0009] FIG. 1 is a flowchart of a continuous wire drawing method according to an embodiment of the present disclosure;

[0010] FIG. 2 is a schematic structural diagram of a continuous wire drawing apparatus according to an embodiment of the present disclosure; and

[0011] FIG. 3 is a schematic plane diagram of a metal wire material having five wire diameters according to an embodiment of the present disclosure, showing that only four passes are needed to make a wire diameter of the metal wire material reach a target wire diameter.

DETAILED DESCRIPTION

[0012] To make the foregoing objective, features, and characteristics of the present disclosure more obvious and understandable, related embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

[0013] FIG. 1 is a flowchart of a continuous wire drawing method according to an embodiment of the present disclosure. The continuous wire drawing method includes the following steps: in step S100, providing a metal wire material, including a wire releasing end and a wire collecting end; in step S200, providing a drawing force to the wire collecting end, and providing a back force to the wire releasing end, so that the metal wire material moves; in step S300, heating the metal wire material continuously at a heating temperature in a heating area, wherein a range of the heating temperature is 50 C. to 300 C. above a recrystallization temperature of the metal wire material, whereby the metal wire material is deformed by a strength difference between the drawing force and the back force; in step S400, providing a protective gas, to protect the heated metal wire material in the heating area; and in step S500, cooling the metal wire material continuously at a cooling temperature in a cooling area.

[0014] FIG. 2 is a schematic structural diagram of a continuous wire drawing apparatus according to an embodiment of the present disclosure. Referring to FIG. 2, the continuous wire drawing apparatus 1 includes: a back force control unit 11, a wire releasing scrollbar 12, a heating unit 13, a cooling unit 15, a wire collecting scrollbar 16, and a wire drawing force control unit 17. The wire releasing scrollbar 12 and the wire collecting scrollbar 16 are respectively a wire releasing end 21 and a wire collecting end 22 of a metal wire material 2. The wire drawing force control unit 17 provides a drawing force to the wire collecting end 22, and the back force control unit 11 provides a back force to the wire releasing end 21, so that the metal wire material 2 moves towards the wire collecting scrollbar 16. The heating unit 13 is disposed between the wire releasing end 21 and the wire collecting end 22, and adapted to heat the metal wire material 2 continuously at a heating temperature in a heating area H, wherein a range of the heating temperature is 50 C. to 300 C. above a recrystallization temperature of the metal wire material 2, whereby the metal wire material 2 is deformed by a strength difference between the drawing force and the back force. For example, when the metal wire material 2 is a brass wire material, the heating temperature can be in a range of 500 C. to 800 C. The continuous wire drawing apparatus 1 further includes: a protective gas unit 14, being in communication to the heating unit 13, so as to provide a protective gas, to protect the heated metal wire material 2 in the heating area H. The cooling unit 15 is disposed between the heating unit 13 and the wire collecting end 22, and adapted to cool the metal wire material 2 continuously at a cooling temperature in a cooling area C.

[0015] In this embodiment, using a brass wire material as an example, a metal wire material of 08 mm to 04 mm is manufactured first by vacuum continuous casting. (1) The metal wire material 2 is wound on the entire continuous wire drawing apparatus 1, including the wire releasing scrollbar 12 (that is, the wire releasing end 21), the heating unit 13, the cooling unit 15, and the wire collecting scrollbar 16 (that is, the wire collecting end 22), and the back force control unit 11 and the wire drawing force control unit 17 set a back force to 10 N to 600 N, and a drawing force (that is, a wire drawing force) to 100 N to 6000 N. (2) The heating unit 13 includes a cavity 132 and a heating element 131, the heating element 131 can be a closed heater or an inductive heating coil, an effective interval of the heating area H is 10 cm to 50 cm, a heating temperature is adjusted to be in a range of 500 C. to 800 C. in accordance with the size of the metal wire material 2, a protective gas such as nitrogen is added during heating and forming process, to maintain a positive pressure in the cavity 132 (such as a glass shield) of the heating unit 13, and a wire collecting speed is set to 2 m/min to 30 m/min. (3) The formed metal wire material 2 penetrates the cooling unit 15, and a cooling temperature of a cooling fluid 151 is maintained at 25 C. to 30 C. by using the cooling unit 15 such as a chiller. In another embodiment, for the formed metal wire material 2, an air cooling manner can also be used to maintain the cooling temperature at 25 C. to 30 C. for continuous cooling. Based on a principle that plasticity of a metal material is reduced after high temperature, the metal wire material 2 is deformed by a strength difference between a front-back drawing force and a back force, and a protective gas in a heating process prevents the metal wire material 2 from being oxidized in a forming process, thereby achieving a continuous and rapid wire drawing process.

[0016] A conventional cold drawing process has an area reduction of 10%. If a wire diameter of a brass wire material is drawn from 1.2 mm to 0.5 mm, about 20 die times (the die times refer to a quantity of times of processes using wire drawing die) are needed, and 6 times or more of annealing and softening processes are further needed. However, referring to FIG. 3 and FIG. 2, the continuous wire drawing apparatus 1 of the present disclosure is used for implementation, whereby the brass wire material (that is, the metal wire material 2) has an area reduction of shape deformation of the metal wire material being greater than 20%, only five passes (the passes refers to times of thermal forming processes) are needed to make the wire diameter of the brass wire material reach a target wire diameter (for example, sequentially forming from wire diameters D1=1.2 mm, D2=1.0 mm, D3=0.84 mm, D4=0.7 mm, D5=0.59 mm, to D6=0.5 mm), and no annealing process is needed, no wire drawing die is needed, and no lubricant is needed. Therefore, in the continuous wire drawing apparatus and method of the present disclosure, only relatively low process costs and time are needed to make the wire diameter of the metal wire material reach a target wire diameter.

[0017] According to the continuous wire drawing apparatus and method of the present disclosure, first, no wire drawing die is needed in a forming process, and die cost can be reduced. Second, no annealing process needs to be performed on a metal wire material after a continuous drawing process, and unnecessary energy consumption can be reduced. Third, the metal wire material is protected by a gas in the thermal forming process, and cannot be oxidized in the thermal forming process. Fourth, a wire drawing process of the present disclosure that improves a design limitation of an area reduction of a conventional wire drawing die, and is applicable to a wire material difficult to form can significantly reduce production cost and promote industrial competitiveness.

[0018] The foregoing descriptions only record preferred implementations or embodiments of the present disclosure for presenting technical means used for resolving the problem, but are not intended to limit the scope implemented by the patent of the present disclosure. That is, any equivalent variation and modification made based on meanings of the patent application scope of the present disclosure or according to the patent scope of the present disclosure shall fall within the patent scope of the present disclosure.