CN211726976U - Modularization wire drawing die box - Google Patents

Abstract

The utility model relates to a modularization wire drawing diaphragm capsule, including the wire drawing powder box, the side of wire drawing powder box is fixed with the well wheel, the wire drawing powder box is fixed with the horizontal first board of placing with the relative side in well wheel side, the first board of placing is fixed with the second and places the board, and the first board of placing is located the second and places the cooling module between board and the wire drawing powder box, the second is placed and is equipped with fixed subassembly on the board, and fixed subassembly makes the cooling module fix on the first board of placing, the below of wire drawing diaphragm capsule is equipped with the bottom plate, is equipped with on the bottom plate and can dismantle the subassembly, and the subassembly that can dismantle makes the bottom plate fix the below at the wire drawing diaphragm capsule, the lateral surface of cooling module is fixed with water injection pipeline and the outlet conduit who runs through the cooling module.

Description

Modularization wire drawing die box

Technical Field

The utility model relates to a welding wire field especially relates to a modularization wire drawing die box.

Background

The wire drawing die box is widely used in the welding wire industry due to the characteristics of simple structure, easy operation and the like, and is one of main equipment components for reducing the diameter of the welding wire in the drawing process.

The existing wire drawing die box is an integral die box consisting of a wire drawing powder box and a wire drawing die cooling box, as shown in figure 5, a welding wire enters the wire drawing powder box 2 filled with wire drawing powder from a well wheel 1, the wire drawing powder can be stained and hung on the welding wire, then the welding wire sequentially enters a die sleeve 4 and a wire drawing die 6 for reducing, and finally the reduced welding wire penetrates out of a die ejector block 5 and then enters the next wire drawing reducing die box. The cooling water is introduced into the die cooling box 3 to cool the die sleeve 4 and the wire drawing die 6, and the wire drawing die 6 is subjected to high temperature generation by the deformation of the welding wire and the friction between the welding wire and the wire drawing die in the diameter reducing process, so that the die is cooled by the cooling water. Thereby prolonging the service life of the wire drawing die 6 and ensuring the drawing quality and quality of the welding wire. This is also the principle of drawing reduction of the drawing die box.

However, the existing wire drawing die box has the following disadvantages: 1. the plate used for processing the wire drawing die box is too thick, so that the production cost is too high, the parts are too heavy, and the die is inconvenient to replace; 2. the wire drawing powder box and the die cooling box are integrated, so that defects are easily generated during production, processing and welding, and cooling water enters the powder box to cause failure of the wire drawing powder; 3. the die cooling boxes are all open, the cooling water quantity is not easy to control and is limited by the water supply pressure, under the condition that the water pressure is unstable, the cooling water can overflow the cooling boxes to cause water overflow on a working site, and the service life of the die is shortened because the cooling of the wire drawing die cannot be met due to the fact that the water inlet or the too small cooling water quantity of the wire drawing powder box is caused; 4. the sleeve for installing the wire drawing die wastes materials during processing, and the sleeve cannot achieve the expected cold shortage effect due to the processing technology; 5. the bottom of the wire drawing powder box is square, so that the wire drawing powder cannot be cleaned up when being replaced; therefore, the modularized drawing die box is designed by combining the feedback problem of the welding wire in the actual drawing and reducing production and the defects and shortcomings of the drawing die box design process and the like.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that the prior art is not enough to be overcome, and a modularization wire drawing die box is provided.

The utility model discloses a realize through following technical scheme: the utility model provides a modularization wire drawing die box, includes the wire drawing powder box, the side of wire drawing powder box is fixed with the well wheel, the wire drawing powder box is fixed with the horizontal first board of placing with the side that is fixed with well wheel side relatively, the first board of placing is fixed with the second and places the board, and the first board of placing is located the second and places and place the cooling module between board and the wire drawing powder box, the second is placed and is equipped with fixed subassembly on the board, and fixed subassembly makes the cooling module fix on the first board of placing, the below of wire drawing die box is equipped with the bottom plate, is equipped with on the bottom plate and can dismantles the subassembly, and the subassembly that can dismantle makes the bottom plate fix the below at the wire drawing die box, the lateral surface of cooling module is fixed with water injection pipeline and.

Furthermore, the cooling module comprises a cooling mold box, a transverse mold sleeve is fixed in the middle of the interior of the cooling mold box, a spacer sleeve is fixed on the surface of the mold sleeve, and fins are fixed on the spacer sleeve.

Furthermore, the detachable assembly comprises two first bearing blocks, two second bearing blocks, a first bearing block and a second bearing block, the two first bearing blocks are fixed on the same side of the surface of the bottom plate, the two second bearing blocks are fixed below the wire drawing powder box and far away from the first bearing blocks, the first bearing blocks are fixed on the lower surface of the first placing plate and located between the two first bearing blocks, the second bearing blocks are fixed on the surface of the bottom plate and located between the two second bearing blocks, and a compression bolt compressed on the first bearing blocks and the second bearing blocks is in threaded connection with each other on each first bearing block and each second bearing block respectively.

Furthermore, a positioning polished rod fixed through screws penetrates between the second bearing block and the second stress block.

Further, fixed subassembly includes the atress board, the atress board is fixed between board and the cooling mould case are placed to the second, threaded connection has the fixing bolt who presses on the cooling mould case on the atress board, fixing bolt is located the top threaded connection of atress board and is locked the hand (hold).

Furthermore, a vertical adjusting bolt is connected to the bottom plate in a threaded manner.

Furthermore, the bottom of the wire drawing die box is arc-shaped.

The utility model has the advantages that: the die box is formed by welding the wire drawing powder box with the thin plate, so that the whole weight of the die box is reduced, the die box is convenient to disassemble, maintain and operate. And the bottom adopts the design of circular arc bottom to avoid the problem of unclean clearance when changing the wire drawing powder, the cooling part has adopted the modular design, and be inclosed cooling cavity just so can exert pressure for the cooling water, make the cooling water flow fast and give the mould cooling, solved overflow and the not enough problem of water pressure simultaneously, the die sleeve has adopted the design of fin formula, thereby increased the effectual problem that has solved the cooling effect of cooling area, and solved and drawn in the welding wire in-process "die explosion", the welding wire surface finish that draws in addition is poor scheduling problem, the while has also reduced the processing cost and the processing degree of difficulty. And the modular cooling module is adopted, so that the die is more convenient to replace.

Drawings

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic perspective view of the present invention;

fig. 3 is a schematic structural view showing the inside of the present invention;

FIG. 4 is a cross-sectional view of a cooling die box;

FIG. 5 is a drawing of the background art of the present invention;

in the figure: 1. a wire drawing powder box; 2. a well wheel; 3. a first placing plate; 4. a second placing plate; 5. a water injection pipeline; 6. a water outlet pipeline; 7. cooling the mold box; 8. a mold sleeve; 9. a spacer sleeve; 10. a fin; 11. a first bearing block; 12. a second bearing block; 13. a first force-bearing block; 14. a second force-bearing block; 15. a hold-down bolt; 16. positioning the polished rod; 17. a stress plate; 18. fixing the bolt; 19. locking the handle; 20. adjusting the bolt; 21. a base plate.

Detailed Description

In order to make those skilled in the art better understand the technical solution of the present invention, the present invention will be further described in detail with reference to the accompanying drawings and preferred embodiments.

As shown in the drawing, the utility model discloses an including wire drawing powder box 1, the side of wire drawing powder box 1 is fixed with well wheel 2, wire drawing powder box 1 is fixed with the horizontal first board 3 of placing with the side that is fixed with well wheel 2 side relatively, first place be fixed with the second on the board 3 and place board 4, first place lie in the second on the board 3 and place the cooling module between board 4 and the wire drawing powder box 1, the second is placed and is equipped with fixed subassembly on the board 4, and fixed subassembly makes cooling module fix on first board 3 of placing, the below of wire drawing die box is equipped with bottom plate 21, is equipped with detachable components on the bottom plate 21, and detachable components makes bottom plate 21 fix the below at the wire drawing die box, cooling module's lateral surface is fixed with water injection pipeline 5 and outlet conduit 6 that run through cooling module. When the installation like this, at first make bottom plate 21 and wire drawing powder box 1 and the first board 3 of placing fix through removable assembly, place the cooling module again on the first board 3 of placing through fixed subassembly fixed, make water cool off at cooling module internal circulation through injecting water into water injection pipeline 5, make bottom plate 21 and cooling module and wire drawing powder box 1 separation that like this can be convenient through removable assembly and fixed subassembly, made things convenient for subsequent maintenance work.

Further, the cooling module comprises a cooling mold box 7, a transverse mold sleeve 8 is fixed in the middle of the inside of the cooling mold box 7, a spacer 9 is fixed on the surface of the mold sleeve 8, and fins 10 are fixed on the spacer 9.

The welding wire enters the wire drawing powder box 1 filled with the wire drawing powder from the well wheel 2, the wire drawing powder can be attached to the welding wire, then the welding wire enters the die sleeve 8 in the cooling module for reducing, and finally the reduced welding wire penetrates out of the die ejector block behind the die sleeve 8 and then enters the next drawing reducing die box. Pour into the cooling water through water injection pipeline 5 among the cooling module and cool off for mould cover 8, mould cover 8 can produce the high temperature by welding wire deformation and welding wire and wire drawing mould friction at the reducing in-process, so cool off the mould fast through the cooling water, and cooling die box 7 is inclosed cooling cavity, just so can exert pressure for the cooling water, make the cooling water flow fast and give the mould cooling, the not enough problem of overflow and water pressure has been solved simultaneously, mould cover 8 has then adopted the design of fin 10 formula, thereby increased the effectual problem that solves the cooling effect of cooling area, the while has also reduced the processing cost and the processing degree of difficulty.

Further, the detachable assembly comprises two first bearing blocks 11, two second bearing blocks 12, a first stress block 13 and a second stress block 14, the two first bearing blocks 11 are fixed on the same side of the surface of the bottom plate 21, the two second bearing blocks 12 are fixed below the wire drawing powder box 1 and far away from the first bearing blocks 11, the first stress block 13 is fixed on the lower surface of the first placing plate 3 and located between the two first bearing blocks 11, the second stress block 14 is fixed on the surface of the bottom plate 21 and located between the two second bearing blocks 12, and a compression bolt 15 compressed on the first stress block 13 and the second stress block 14 is respectively in threaded connection with each of the first bearing blocks 11 and the second bearing blocks 12. A positioning optical rod 16 fixed by screws penetrates between the second bearing block 12 and the second stress block 14.

Thus, during installation, the base plate 21 and the wire drawing die box are fixed by tightening the pressing bolts 15 on the first bearing block 11 and the second bearing block 12 to tightly press the first bearing block 13 and the second bearing block 14. And the wire drawing die box can be positioned by the positioning polished rod 16, and the wire drawing die box is prevented from moving up and down after being pressed by the pressing bolt 15.

Further, the fixing assembly comprises a stress plate 17, the stress plate 17 is fixed between the second placing plate 4 and the cooling mold box 7, a fixing bolt 18 pressed on the cooling mold box 7 is connected to the stress plate 17 through a thread, and a locking handle is connected to the fixing bolt 18 located above the stress plate 17 through a thread. The fixing bolt 18 is fixed by tightening the fixing bolt 18 to be tightly pressed against the cooling mold box 7 and then by tightening the locking handle.

Further, a vertical adjusting bolt 20 is connected to the bottom plate 21 in a threaded manner. The overall height can be adjusted by adjusting the bolts 20.

Furthermore, the bottom of the wire drawing die box is arc-shaped. The problem of unclean clearance when having avoided changing the wire drawing powder.

The utility model has the advantages that: this diaphragm capsule changes wire drawing powder box 1 into sheet metal welding and forms to alleviateed the whole weight of diaphragm capsule, it is convenient to dismantle, and it is convenient to maintain, the operation of being convenient for. And the design that the bottom adopted the circular arc bottom has avoided clearing up unclean problem when changing the wire drawing powder, the cooling part has adopted the modular design, and be inclosed cooling cavity just so can exert pressure for the cooling water, make the cooling water flow fast and give the mould cooling, solved overflow and the not enough problem of water pressure simultaneously, die sleeve 8 has then adopted the design of fin 10 formula, thereby increased the effectual problem that solves the cooling effect of cooling area, and solved and drawn in-process "die explosion" at the welding wire, the welding wire surface finish that draws in addition is poor scheduling problem, the while has also reduced the processing cost and the processing degree of difficulty. And the modular cooling module is adopted, so that the die is more convenient to replace.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, a plurality of modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. A modularization wire drawing diaphragm capsule which characterized in that: including the wire drawing powder box, the side of wire drawing powder box is fixed with the well wheel, the wire drawing powder box is fixed with the horizontal first board of placing with the side that is fixed with well wheel side relatively, the first board of placing is fixed with the second and places the board, and the first board of placing is located the second and places the cooling module between board and the wire drawing powder box, the second is placed and is equipped with fixed subassembly on the board, and fixed subassembly makes cooling module fix on the first board of placing, the below of wire drawing die box is equipped with the bottom plate, is equipped with on the bottom plate and can dismantles the subassembly, can dismantle the subassembly and make the bottom plate fix the below at the wire drawing die box, the lateral surface of cooling module is fixed with water injection pipeline and the outlet conduit who runs through cooling module.

2. A modular wiredrawing die box according to claim 1, characterized in that: the cooling module comprises a cooling mold box, a transverse mold sleeve is fixed in the middle of the interior of the cooling mold box, a spacer sleeve is fixed on the surface of the mold sleeve, and fins are fixed on the spacer sleeve.

3. A modular wiredrawing die box according to claim 1, characterized in that: the detachable assembly comprises two first bearing blocks, two second bearing blocks, a first bearing block and a second bearing block, the two first bearing blocks are fixed on the same side of the surface of the bottom plate, the two second bearing blocks are fixed below the wire drawing powder box and far away from the first bearing blocks, the first bearing blocks are fixed on the lower surface of the first placing plate and located between the two first bearing blocks, the second bearing blocks are fixed on the surface of the bottom plate and located between the two second bearing blocks, and a compression bolt compressed on the first bearing blocks and the second bearing blocks is in threaded connection with each other on each first bearing block and each second bearing block respectively.

4. A modular wiredrawing die box according to claim 3, characterized in that: and a positioning polished rod fixed by screws penetrates between the second bearing block and the second stress block.

5. A modular wiredrawing die box according to claim 2, characterized in that: the fixing assembly comprises a stress plate, the stress plate is fixed between the second placing plate and the cooling mold box, a fixing bolt pressed on the cooling mold box is connected to the stress plate through threads, and a locking handle is connected to the upper portion of the fixing bolt located on the stress plate through threads.

6. A modular wiredrawing die box according to claim 1, characterized in that: and the bottom plate is in threaded connection with a vertical adjusting bolt.

7. A modular wiredrawing die box according to claim 1, characterized in that: the bottom of the wire drawing die box is arc-shaped.

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