CN220679214U - Titanium wire uncoiling device - Google Patents

Abstract

The utility model relates to the technical field of wire uncoiling devices, and discloses a titanium wire uncoiling device, which comprises an uncoiler; an energy source part arranged at the rear part of the uncoiler; the stable base is arranged at the bottom of the uncoiler; and set up the processing part in decoiler front portion, processing part includes clamping part, decoiler, portion of straightening, the clamping part sets up the both ends at decoiler, decoiler sets up the front portion upper end at the decoiler, portion of straightening sets up and passes through energy portion for processing part energy supply in decoiler's front portion bottom, and energy portion can drive column spinner and column spinner rotation, protect column spinner and column spinner through the buffer tube, avoid causing the damage because of the dish collision, can adapt to different wire of opening a book through the expansion module, keep the wire can not scatter and break up through the clamping part, guarantee through the limiting plate that the wire can not scatter from the grip block, can heat the wire through the heating block, improve the compliance of wire.

Description

Titanium wire uncoiling device

Technical Field

The utility model relates to the technical field of wire uncoiling devices, in particular to a titanium wire uncoiling device.

Background

The wire is one of the hot rolled steel sections having the smallest cross-sectional dimension. Hot rolled round steel, which is supplied in coils of eight specifications in general, with diameters of 5-9 mm in our country, is called wire. The wire rod is also called a wire rod because of coil delivery, the concept of the wire rod is slightly different from China abroad, other shapes are also available besides a round section, the diameters of the wire rod are inconsistent due to different requirements and production technical levels, the wire rod can be divided into a high-speed wire rod (high-speed wire rod) and a common wire rod (common wire rod) according to different rolling mills, and the wire rod is generally made of common carbon steel and high-quality carbon steel. According to different steel distribution catalogues and uses, the wire rod comprises a common low-carbon steel hot-rolled round wire rod, a high-quality carbon steel wire rod, a carbon welding rod wire rod, a quenched and tempered thread wire rod, a wire rod for manufacturing a steel wire rope, a wire rod for a piano wire, a stainless steel wire rod and the like

Such as Chinese patent: CN217889367U, the technical scheme disclosed in this patent is as follows: the uncoiling device for the titanium and titanium alloy wire rods is characterized by comprising a tube furnace for heating the titanium and titanium alloy wire rods, wherein an inlet of the tube furnace is provided with a pay-off rack for winding the titanium and titanium alloy wire rods, and a first pinch roller for shaping wire rods is arranged between the pay-off rack and the tube furnace; the outlet of the tubular furnace is provided with a wire collecting frame for receiving the titanium and titanium alloy straight wires; a water sprayer and a second pinch roller are sequentially arranged between the tube furnace and the wire collecting frame; the water sprayer is used for cooling the heated titanium and titanium alloy straight wire; the second pinch roller is used for shaping the straight strip of the titanium and titanium alloy straight strip wire again; the wire outlet of the wire collecting frame is also provided with a cold shearing machine for shearing the titanium and titanium alloy straight wires.

However, in actual use, the occupied area is too large, and the titanium wire is straightened due to repeated turning, so that the titanium wire is not straightened.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the utility model provides a titanium wire uncoiling device.

(II) technical scheme

In order to achieve the above purpose, the present utility model provides the following technical solutions: a titanium wire uncoiling device comprises an uncoiler;

an energy source part arranged at the rear part of the uncoiler;

the stable base is arranged at the bottom of the uncoiler;

and the processing component is arranged at the front part of the uncoiler and comprises a clamping part, an uncoiling part and a straightening part, wherein the clamping part is arranged at two ends of the uncoiling part, the uncoiling part is arranged at the upper end of the front part of the uncoiler, and the straightening part is arranged at the bottom end of the front part of the uncoiler.

Preferably, the clamping part comprises a first clamping plate, a second clamping plate, a limiting plate, a buffer tube and a clamping hole.

Preferably, the buffer tube is arranged at the rear end of the uncoiling part, the first clamping plate is arranged at the middle section of the uncoiling part, the second clamping plate is arranged at the front end of the uncoiling part, and the limiting plate is arranged around the first clamping plate and the second clamping plate.

Preferably, the uncoiling part comprises a bearing block, an amplification rotating rod, an amplification block, a heating block, a buffer block, a clamping block and a rotating column.

Preferably, the rotating column penetrates through the buffer tube to be connected to the energy source part, the bearing block is arranged on the outer side of the rotating column, the amplification rotating rod is arranged around the bearing block, the amplification block is arranged on the amplification rotating rod, the heating block is arranged in the amplification block, the buffer block is arranged at the front end of the bearing block, and the clamping block is arranged at the front end of the buffer block.

Preferably, the straightening part comprises a rotating column, a first connecting box, a first hydraulic cylinder, a second connecting box, a second hydraulic cylinder and a straightening module.

Preferably, the rotating column penetrates through the front portion of the uncoiler and is connected to the energy source portion, the first connecting box is arranged at the front end of the rotating column, the first hydraulic cylinder is arranged on the side face of the first connecting box, the second connecting box is arranged at the tail end of the first hydraulic cylinder, the second hydraulic cylinder is arranged on the upper portion of the second connecting box, and the straightening module is arranged at the tail end of the second hydraulic cylinder.

(III) beneficial effects

Compared with the prior art, the utility model provides the titanium wire uncoiling device, which has the following beneficial effects:

1. this titanium wire unwinding device, energy supply for processing part through energy portion, and energy portion can drive the column spinner and rotate the column, protect column spinner and column spinner through the buffer tube, avoid causing the damage because of the dish collision, can adapt to different wire of unwinding through the amplification module, keep the wire can not be scattered in disorder through the clamping part, guarantee through the limiting plate that the wire can not follow the grip block and scatter, can heat the wire through the heating block, improve the compliance of wire.

2. According to the titanium wire uncoiling device, the position of the straightening module can be adjusted through the first hydraulic cylinder and the second hydraulic cylinder in the straightening part until the wire which accords with the position is pulled out.

Drawings

The accompanying drawings are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate the utility model and together with the embodiments of the utility model, serve to explain the utility model. In the drawings:

FIG. 1 is a schematic perspective view of the front portion of the knot of the present utility model;

FIG. 2 is a rear perspective view of the present utility model;

FIG. 3 is a schematic side perspective view of the present utility model;

FIG. 4 is an enlarged view of the unwind section of the present utility model;

fig. 5 is a schematic perspective view of the straightening part of the present utility model.

In the figure: 1. an uncoiler; 2. an energy source section; 3. a stable base; 4. a processing section; 41. a clamping part; 42. an unwinding section; 43. a straightening part; 411. a first clamping plate; 412. a second clamping plate; 413. a limiting plate; 414. a buffer tube; 415. a clamping hole; 421. a bearing block; 422. amplifying the rotating rod; 423. amplifying the blocks; 424. a heating block; 425. a buffer block; 426. a clamping block; 427. a spin column; 431. rotating the column; 432. a first connection box; 433. a first hydraulic cylinder; 434. a second connection box; 435. a second hydraulic cylinder; 436. and (5) straightening the module.

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.

Example 1

As shown in fig. 1 to 5, the utility model provides a titanium wire uncoiling device, which comprises an uncoiler 1;

an energy source part 2 arranged at the rear part of the uncoiler 1;

a stable base 3 arranged at the bottom of the uncoiler 1;

and the processing component 4 is arranged at the front part of the uncoiler 1, the processing component 4 comprises a clamping part 41, an uncoiling part 42 and a straightening part 43, the clamping part 41 is sleeved at two ends of the uncoiling part 42, the uncoiling part 42 is rotatably arranged at the upper front end of the uncoiler 1, and the straightening part 43 is arranged at the bottom front end of the uncoiler 1.

The clamping portion 41 includes a first clamping plate 411, a second clamping plate 412, a limiting plate 413, a buffer tube 414, and a clamping hole 415.

Buffer tube 414 sets up the rear end at unwinding unit 42, and cup joints in the column 427 outside, first grip block 411 cup joints the middle section at unwinding unit 42, second grip block 412 sets up the front end at unwinding unit 42, two grip blocks are fixed unwinding unit 42 inside, limiting plate 413 fixed connection is around first grip block 411, second grip block 412, the center at the grip block is seted up to joint hole 415, and grip block 41 is the integrative casting and forms, two grip blocks only have the equidimension difference of joint hole 415 in center.

The unwinding section 42 includes a carrier block 421, an amplification rotation lever 422, an amplification block 423, a heating block 424, a buffer block 425, a locking block 426, and a rotation column 427.

The rotary column 427 penetrates the buffer tube 414 to be rotationally connected to the energy part 2, the integrally poured bearing block 421 is fixedly arranged on the outer side of the rotary column 427, concave blocks are fixedly connected to the periphery of the bearing block 421, the amplification rotary rod 422 is rotationally connected to the concave blocks on the bearing block 421, the amplification block 423 is hinged to the amplification rotary rod 422, the amplification rotary rod 422 can be clamped on the bearing block 421, the heating block 424 is fixedly arranged in the amplification block 423, the heating block 424 is electrically connected with the energy part 2, the buffer block 425 is fixedly arranged at the front end of the bearing block 421 and sleeved at the front end of the rotary column 427, and the clamping block 426 is fixedly arranged at the front end of the buffer block 425.

In this embodiment, energy is supplied to the processing component 4 through the energy source portion 2, and the energy source portion 2 can drive the rotary column 427 and the rotary column 431 to rotate, the rotary column 427 and the rotary column 431 are protected through the buffer tube 414, damage caused by disc collision is avoided, different uncoiling wires can be adapted through the amplification rotary rod 422 and the amplification block 423, the wires can not be scattered through the clamping portion 41, the wires can not be scattered from the two clamping plates through the limiting plate 413, and the wires can be heated through the heating block 424.

Example 2

As shown in fig. 3 and 5, on the basis of embodiment 1, the present utility model provides a technical solution: preferably, the straightening part 43 includes a rotation column 431, a first connection box 432, a first hydraulic cylinder 433, a second connection box 434, a second hydraulic cylinder 435, and a straightening module 436.

The rotary column 431 is connected to the energy source part 2 through the front part of the uncoiler 1, a first connection box 432 is provided at the front end of the rotary column 431, a first hydraulic cylinder 433 is mounted on the side surface of the first connection box 432, a second connection box 434 is provided at the end of the first hydraulic cylinder 433, a second hydraulic cylinder 435 is provided at the upper part of the second connection box 434, and a straightening module 436 is provided at the end of the second hydraulic cylinder 435.

In this embodiment, the position of the straightening module 436 may be adjusted by the first hydraulic cylinder 433 and the second hydraulic cylinder 435 in the straightening part 43 until the conforming wire is pulled out.

The working principle of the titanium wire uncoiling device is as follows: the energy source part 2 supplies energy to the processing part 4, the energy source part 2 can drive the rotary column 427 and the rotary column to rotate 431, the rotary column 427 and the rotary column 431 are protected through the buffer tube 414, different uncoiling wires can be adapted through the expansion rotary rod 422 and the expansion block 423, the wires can not be scattered through the clamping part 41, the wires can not be scattered from the two clamping plates through the limiting plate 413, the wires can be heated through the heating block 424, and the position of the straightening module 436 can be adjusted through the first hydraulic cylinder 433 and the second hydraulic cylinder 435 in the straightening part 43 until the conforming wires are pulled out.

Claims (7)

1. An uncoiling device for titanium wires comprises an uncoiler (1);

an energy source part (2) arranged at the rear part of the uncoiler (1);

a stable base (3) arranged at the bottom of the uncoiler (1);

and a processing unit (4) arranged in front of the uncoiler (1), characterized in that: the processing component (4) comprises a clamping part (41), an uncoiling part (42) and a straightening part (43), wherein the clamping part (41) is arranged at two ends of the uncoiling part (42), the uncoiling part (42) is arranged at the upper end of the front part of the uncoiling machine (1), and the straightening part (43) is arranged at the bottom end of the front part of the uncoiling machine (1).

2. A titanium wire unwinding device according to claim 1, wherein: the clamping part (41) comprises a first clamping plate (411), a second clamping plate (412), a limiting plate (413), a buffer tube (414) and a clamping hole (415).

3. A titanium wire unwinding device according to claim 2, wherein: buffer tube (414) set up the rear end at unwinding unit (42), first grip block (411) set up the middle section at unwinding unit (42), second grip block (412) set up the front end at unwinding unit (42), limiting plate (413) set up around first grip block (411), second grip block (412), joint hole (415) are seted up in the center department of first grip block (411), second grip block (412).

4. A titanium wire unwinding device according to claim 1, wherein: the uncoiling part (42) comprises a bearing block (421), an amplification rotating rod (422), an amplification block (423), a heating block (424), a buffer block (425), a clamping block (426) and a rotating column (427).

5. The titanium wire unwinding device of claim 4, wherein: the rotary column (427) penetrates through the buffer tube (414) to be connected to the energy source part (2), the bearing block (421) is arranged on the outer side of the rotary column (427), the amplification rotary rod (422) is arranged around the bearing block (421), the amplification block (423) is arranged on the amplification rotary rod (422), the heating block (424) is arranged in the amplification block (423), the buffer block (425) is arranged at the front end of the bearing block (421), and the clamping block (426) is arranged at the front end of the buffer block (425).

6. A titanium wire unwinding device according to claim 1, wherein: the straightening part (43) comprises a rotating column (431), a first connecting box (432), a first hydraulic cylinder (433), a second connecting box (434), a second hydraulic cylinder (435) and a straightening module (436).

7. The titanium wire unwinding device of claim 6, wherein: the utility model discloses a decoiler, including energy portion (2) and first pneumatic cylinder (436), rotating column (431) runs through the front portion of decoiler (1) and connects on energy portion (2), first connection box (432) set up the front end at rotating column (431), first pneumatic cylinder (433) are installed in the side of first connection box (432), second connection box (434) set up the end at first pneumatic cylinder (433), second pneumatic cylinder (435) set up the upper portion at second connection box (434), straightening module (436) set up the end at second pneumatic cylinder (435).