CN218891011U - Alloy wire preparation facilities - Google Patents

Abstract

The utility model discloses an alloy wire preparation device which comprises a straightening component, a heating and cooling device and a traction component, wherein the straightening component is connected with the heating and cooling device; the straightening component and the traction component are provided with a metal coil wire; the metal coil wire sequentially passes through the straightening component, the heating and cooling device and the traction component; the heating and cooling device comprises a cylinder body, a separation ring, a heating plate, a water cooling pipe and a circulating pump; the separation ring is arranged in the middle of the inner cavity of the cylinder body, so that the cylinder body is separated into a heating chamber and a cooling chamber; the heating plate is arranged in the heating cavity; the water cooling pipe is arranged in the cooling cavity, and two ends of the water cooling pipe respectively penetrate through the cylinder body and extend to the outside; the circulating pump is connected with two ends of the water cooling pipe. The device is matched with the device, so that the solution in the water-cooled tube is always in a flowing state, and the water solution in the water-cooled tube can uniformly absorb the heat of the metal coil, thereby avoiding the situation that the temperature of the water solution wrapped outside the metal coil is too high to achieve a better heat dissipation effect due to long-time use.

Description

Alloy wire preparation facilities

Technical Field

The utility model relates to the field of alloy wires, in particular to an alloy wire preparation device.

Background

The alloy material has the advantages of low density, high specific strength, excellent corrosion resistance, good performance at low temperature and high temperature, and the like. The titanium alloy wire is used as an excellent material, is widely applied to the industries of military industry, medical treatment, sports, glasses, jewelry, electroplating hanger, welding wires and the like, and has great market potential.

The prior art patent publication No. CN215279233U proposes a high-straightness titanium alloy wire preparation device, which heats a metal coil wire by arranging a heating furnace, so that the metal coil wire is in a certain tension state, the stress of the metal coil wire is eliminated, and then a cooling device is arranged, so that the metal coil wire is rapidly cooled after being heated, the cooling waiting time is reduced, and the continuity of the metal coil wire in the preparation process is improved.

However, the above device still has certain drawbacks: the cooling device is water-cooled, the cooling function of the metal coil wire is completed in a wrapping manner, however, the internal aqueous solution is in a non-flowing state, and after the cooling device is used for a long time, the temperature of the aqueous solution for wrapping the metal coil wire is correspondingly increased, so that the cooling effect in the subsequent process is poor, the metal coil wire is still in a high-temperature state when the traction assembly is used for traction the metal coil wire for winding, and a certain influence is caused on the subsequent traction winding process.

Therefore, there is a need for an alloy wire manufacturing apparatus to solve the above-described problems.

Disclosure of Invention

The utility model aims to provide an alloy wire preparation device so as to improve the heat dissipation effect on a metal coil wire.

In order to solve the technical problems, the utility model provides an alloy wire preparation device which comprises a straightening component, a heating and cooling device and a traction component;

the straightening component and the traction component are provided with a metal coil wire;

the metal coil sequentially passes through the straightening component, the heating and cooling device and the traction component;

the heating and cooling device comprises a cylinder body, a separation ring, a heating plate, a water cooling pipe and a circulating pump;

the separation ring is arranged in the middle of the inner cavity of the cylinder body, so that the cylinder body is separated into a heating chamber and a cooling chamber;

the heating plate is arranged in the heating cavity;

the water cooling pipe is spirally arranged in the cooling cavity, and two ends of the water cooling pipe respectively penetrate through the cylinder body and extend to the outside;

the circulating pump is connected with two ends of the water cooling pipe.

Further, a plurality of heating plates are arranged.

Further, a plurality of heating plates are annularly arranged in the heating cavity.

Further, a plurality of balls which are abutted with the metal coil wires are arranged on the inner wall of the separation ring in a rolling manner.

Further, the straightening component comprises a flat straightening roller set and a vertical straightening roller set which are sequentially connected with the metal coil.

Further, a sealing partition plate is arranged on one side, away from the cooling chamber, of the heating chamber.

Further, the sealing partition plate is of a funnel-shaped structure, and the inner diameter and the outer diameter of the sealing partition plate are sequentially reduced from outside to inside along the winding direction of the metal coiled wire.

Further, an air inlet valve is arranged on the top wall of the heating chamber;

the bottom wall of the heating chamber is provided with an air outlet valve.

Further, the air inlet valve is connected with a gas storage device.

Further, the gas storage device is internally provided with inert gas.

Compared with the prior art, the utility model has at least the following beneficial effects:

through setting up the water-cooled tube to be the heliciform setting with the water-cooled tube, make there is the multistage clearance in the water-cooled tube for the volatilization of metal wire winding steam, and because the both ends of water-cooled tube are connected through the circulating pump, so make the inside solution of water-cooled tube be in flowing state all the time, and then can make the inside aqueous solution of water-cooled tube evenly absorb the heat of metal wire winding, with this avoid because of long-time use, the outside wrapped aqueous solution temperature of metal wire winding is too high, and can't play the problem emergence of preferred radiating effect, reach the purpose that promotes the radiating effect to the metal wire winding, make things convenient for the quick traction of follow-up metal wire winding.

Drawings

FIG. 1 is a schematic structural view of an apparatus for producing alloy wires according to the present utility model.

Detailed Description

The alloy wire manufacturing apparatus of the present utility model will be described in more detail below with reference to the drawings, in which preferred embodiments of the present utility model are shown, it being understood that the utility model described herein may be modified by those skilled in the art, while still achieving the advantageous effects of the utility model. Accordingly, the following description is to be construed as broadly known to those skilled in the art and not as limiting the utility model.

The utility model is more particularly described by way of example in the following paragraphs with reference to the drawings. Advantages and features of the utility model will become more apparent from the following description and from the claims. It should be noted that the drawings are in a very simplified form and are all to a non-precise scale, merely for convenience and clarity in aiding in the description of embodiments of the utility model.

As shown in fig. 1, an embodiment of the present utility model provides an alloy wire preparation apparatus, which includes a straightening assembly 1, a heating and cooling device 2, and a traction assembly 3.

The straightening component 1 and the traction component 3 are provided with a metal coil wire 4;

the metal coil wire 4 sequentially passes through the straightening component 1, the heating and cooling device 2 and the traction component 3, and the metal coil wire 4 is sequentially straightened, heated, cooled and towed.

In the present embodiment, a specific heating and cooling device 2 is provided to enhance the heating and cooling effects on the wire coil 4.

The heating and cooling device 2 comprises a cylinder 21, a separation ring 22, a heating plate 23, a water cooling pipe 24 and a circulating pump 25.

The separation ring 22 is disposed in the middle of the inner cavity of the cylinder 21, so that the cylinder 21 is separated into a heating chamber and a cooling chamber.

The heating plate 23 is arranged in the heating cavity and is used for heating the metal coil 4 and eliminating the stress of the metal coil 4.

The water cooling pipe 24 is spirally arranged in the cooling cavity, and two ends of the water cooling pipe penetrate through the cylinder 21 and extend to the outside; the circulating pump 25 is connected with the two ends of the water cooling pipe 24, so that the water solution is in a flowing state, and then the surface of the metal coiled wire 4 can be uniformly subjected to heat dissipation operation, and a certain gap can be formed due to the fact that the water cooling pipe 24 is spiral, so that the heat of the metal coiled wire 4 and the contact area of the water cooling pipe 24 are larger, the heat dissipation effect of the metal coiled wire 4 is further improved, and compared with the heat dissipation effect in the prior art by directly carrying out heat dissipation through a water cooling contact mode, the water solution is in a flowing state.

Wherein, a plurality of heating plates 23 are arranged, and a plurality of heating plates 23 are annularly arranged in the heating cavity so as to uniformly heat the metal coil 4.

In order to prevent the heating chamber and the cooling chamber from interfering with each other, the inner wall of the separation ring 22 is provided with a plurality of balls 221 in rolling contact with the metal coil wire 4, so that the metal coil wire 4 is stably pulled, and the heating chamber and the cooling chamber are further separated, so that the cooling chamber is not affected by the temperature in the heating chamber.

In this embodiment, a specific straightening component 1 is also provided, so as to improve the traction effect on the metal coil 4. The straightening assembly 1 comprises a flat straightening roller set 11 and a vertical straightening roller set 12 which are sequentially connected with the metal coil wire 4, and the straightening operation of the metal coil wire 4 in the vertical direction and the straightening operation of the metal coil wire in the horizontal direction are respectively completed.

In addition, to avoid rapid evaporation of hot gases within the heating chamber. The heating chamber is kept away from one side of cooling chamber is provided with sealed baffle 211, sealed baffle 211 sets up to funnel type structure, and follows the direction of rolling of metal coil wire 4 reduces in proper order from outside to inside and outside footpath, promotes the leakproofness of heating chamber to promote the heating effect to metal coil wire 4.

In other embodiments, to facilitate the exchange of gases and to prevent oxidation gases in the air from reacting with the wire coil 4.

An air inlet valve is arranged on the top wall of the heating chamber; the bottom wall of the heating chamber is provided with an air outlet valve.

The air inlet valve is connected with a gas storage device 5, and inert gas is arranged in the gas storage device 5, namely, the function of heating the metal coil wire 4 is completed by heating the inert gas, so that the situation that the forming effect of the metal coil wire 4 is poor due to the fact that oxides in air react with the metal coil wire 4 can be effectively avoided.

It will be apparent to those skilled in the art that various modifications and variations can be made to the present utility model without departing from the spirit or scope of the utility model. Thus, it is intended that the present utility model also include such modifications and alterations insofar as they come within the scope of the appended claims or the equivalents thereof.

Claims (10)

1. The alloy wire preparation device is characterized by comprising a straightening component, a heating and cooling device and a traction component;

the straightening component and the traction component are provided with a metal coil wire;

the metal coil sequentially passes through the straightening component, the heating and cooling device and the traction component;

the heating and cooling device comprises a cylinder body, a separation ring, a heating plate, a water cooling pipe and a circulating pump;

the separation ring is arranged in the middle of the inner cavity of the cylinder body, so that the cylinder body is separated into a heating chamber and a cooling chamber;

the heating plate is arranged in the heating cavity;

the water cooling pipe is spirally arranged in the cooling cavity, and two ends of the water cooling pipe respectively penetrate through the cylinder body and extend to the outside;

the circulating pump is connected with two ends of the water cooling pipe.

2. The alloy wire manufacturing apparatus according to claim 1, wherein the heating plate is provided in plurality.

3. The alloy wire manufacturing apparatus as set forth in claim 2, wherein a plurality of said heating plates are annularly disposed within said heating chamber.

4. The alloy wire manufacturing apparatus according to claim 1, wherein a plurality of balls abutted against the metal coil are rollably mounted on an inner wall of the spacer ring.

5. The alloy wire manufacturing apparatus of claim 1, wherein the straightening assembly comprises a flat straightening roller set and a vertical straightening roller set sequentially connected to the metal coil.

6. The alloy wire manufacturing apparatus of claim 1, wherein a sealing barrier is provided on a side of the heating chamber remote from the cooling chamber.

7. The alloy wire manufacturing apparatus according to claim 6, wherein the sealing separator is provided in a funnel-shaped structure, and the inner and outer diameters are sequentially reduced from outside to inside in the winding direction of the metal coil.

8. The alloy wire rod manufacturing apparatus as set forth in claim 1, wherein a top wall of said heating chamber is provided with an intake valve;

the bottom wall of the heating chamber is provided with an air outlet valve.

9. The alloy wire rod manufacturing apparatus of claim 8, wherein the air intake valve is connected to a gas storage device.

10. The alloy wire manufacturing apparatus of claim 9, wherein the gas storage device has an inert gas built therein.

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