CN218059131U - Oxygen-free nitrogen-filled copper wire annealing device - Google Patents

Abstract

The utility model discloses an anaerobic nitrogen gas filling copper wire annealing device, relate to annealing device technical field, the camera includes a supporting plate, the leading flank fixed mounting of backup pad has work box mechanism, the backup pad leading flank just is located the top of work box mechanism and rotates and be connected with anodal gyro wheel and guide pulley, the copper line is walked around jointly to the outside of anodal gyro wheel and guide pulley, and the bottom of copper line is located the inside of work box mechanism, the outside fixedly connected with adjusting part of work box mechanism, pass the lateral wall of box through the nitrogen gas pipeline, and fix the position of nitrogen gas pipeline through the nut, let the copper line produce the short circuit through anodal gyro wheel and negative pole gyro wheel and generate heat fast and let the copper line curing, with nitrogen gas inside the leading-in box of nitrogen gas pipeline, and then realize cooling's effect to the copper line, this structure adopts nitrogen gas can cool down the copper line that generates heat fast, and nitrogen gas pipeline subassembly structure is comparatively simple, through threaded connection, be convenient for installation or dismantlement.

Description

Oxygen-free nitrogen-filled copper wire annealing device

Technical Field

The utility model relates to an annealing device technical field specifically is an anaerobic nitrogen-filled copper wire annealing device.

Background

In the copper wire production process, annealing treatment needs to be carried out on the copper wire, the product is cooled by water cooling or air cooling in the traditional annealing device, water cooling is used for a long time to cause waste of water resources, and the cooling effect of the water cooling or the air cooling on the product is poor, so that the oxygen-free nitrogen-filled copper wire annealing device is provided.

SUMMERY OF THE UTILITY MODEL

The utility model provides a not enough to prior art, the utility model provides an anaerobic nitrogen gas copper line annealing device has solved inside water-cooling or the forced air cooling of adopting usually of traditional annealing device and has cooled off the product, uses the water-cooling to lead to the waste of water resource for a long time, and water-cooling or forced air cooling to the relatively poor problem of cooling effect of product.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: an oxygen-free nitrogen-filled copper wire annealing device comprises a supporting plate, wherein a working box mechanism is fixedly installed on the front side surface of the supporting plate, a positive roller and a guide wheel are rotatably connected to the front side surface of the supporting plate and positioned above the working box mechanism, the external parts of the positive roller and the guide wheel commonly bypass a copper wire, the bottom of the copper wire is positioned in the working box mechanism, an adjusting assembly is fixedly connected to the external part of the working box mechanism, and a flange connecting pipe is fixedly connected to the free end of the adjusting assembly;

the work box mechanism comprises a box body and a box cover, wherein the front side face of the bottom of the box body is rotatably connected with a negative roller, and the side wall of the bottom of the box body penetrates through a nitrogen pipeline assembly fixedly connected with the box body.

As a further technical scheme of the utility model, two sets of through-holes have been seted up on the top of box, the outside of negative pole gyro wheel is walked around to the bottom of copper line, and the copper line passes the inside of two sets of through-holes, the junction of box and case lid is common three hinges of fixedly connected with and three group's buckles respectively.

As a further technical scheme of the utility model, the nitrogen gas pipeline subassembly includes the nitrogen gas pipeline, the solid fixed ring of the outside fixedly connected with of nitrogen gas pipeline, the first ring flange of the outside fixedly connected with of one end of nitrogen gas pipeline, the other end surface of nitrogen gas pipeline is seted up threadedly, and rotates and be connected with the nut.

As a further technical scheme of the utility model, the lateral wall of box is passed to the screw thread end of nitrogen gas pipeline, and forms to rotate through the nut and connect.

As a further technical scheme of the utility model, the adjusting part includes first connecting piece, second connecting piece and rotates the piece, the outside equal fixedly connected with second ring flange of one end of first connecting piece and second connecting piece, the spout has all been seted up to the other end internal surface edge of first connecting piece and second connecting piece, the both ends outside of rotating the piece all is equipped with the bulge loop, the inside edge of rotating the piece and the inside equal fixedly connected with adjustment disk of second connecting piece.

As a further technical scheme of the utility model, it is two sets of the bulge loop is located the inside of two sets of spouts respectively, the structure of first connecting piece and second connecting piece is the same, it is rotating structure, two sets of with first connecting piece and second connecting piece respectively to rotate the side of adjustment disk is laminated mutually, and a plurality of groups gas pocket has all been seted up on the surface of every group adjustment disk.

Advantageous effects

The utility model provides an anaerobic nitrogen-filled copper wire annealing device. Compared with the prior art, the method has the following beneficial effects:

1. the utility model provides an anaerobic nitrogen gas filling copper wire annealing device, pass the lateral wall of box through the nitrogen gas pipeline, and fix the position of nitrogen gas pipeline through the nut, let the copper line produce the short circuit through positive pole gyro wheel and negative pole gyro wheel and generate heat fast and let copper line curing, with inside nitrogen gas process nitrogen gas pipeline leading-in box, and then realize cooling's effect to the copper line, this structure adopts nitrogen gas can be fast to the copper line that generates heat and cool down to nitrogen gas pipeline subassembly structure is comparatively simple, through threaded connection, be convenient for install or dismantle.

2. The utility model provides an anaerobic nitrogen gas filling copper wire annealing device, through fastening bolt with two sets of second ring flanges respectively with first ring flange and flange joint pipe fixed connection, when a plurality of groups gas pockets on two sets of adjustment disk surfaces are corresponding one by one respectively, nitrogen gas is inside through the adjusting part, can directly get into the nitrogen gas pipeline, when needs are controlled the inside nitrogen gas of box, the wrench movement rotates the piece, then can drive a set of adjustment disk and rotate, and then make a plurality of groups gas pockets on two sets of adjustment disk surfaces be in the state of partly staggering, thereby control nitrogen gas flow, when a plurality of groups gas pockets on two sets of adjustment disk surfaces are in the state of staggering completely, then block nitrogen gas flow, this structure is convenient for control the flow of nitrogen gas, and this structure adopts fastening bolt to carry out fixed connection, be convenient for change.

Drawings

FIG. 1 is a schematic structural view of an oxygen-free nitrogen-filled copper wire annealing device;

FIG. 2 is a schematic view of an open structure of a work box mechanism in an oxygen-free nitrogen-filled copper wire annealing apparatus;

FIG. 3 is a schematic view of the structure of a nitrogen piping component in an oxygen-free nitrogen-filled copper wire annealing apparatus;

FIG. 4 is an exploded view of the conditioning components of an oxygen-free nitrogen-filled copper wire annealer.

In the figure: 1. a support plate; 2. a work box mechanism; 21. a box body; 22. a box cover; 23. a negative electrode roller; 24. a nitrogen gas piping component; 241. a nitrogen gas pipeline; 242. a fixing ring; 243. a first flange plate; 244. a nut; 25. a through hole; 26. a hinge; 27. buckling; 3. a positive roller; 4. a guide wheel; 5. a copper wire; 6. an adjustment assembly; 61. a first connecting member; 62. a second connecting member; 63. a rotating member; 64. a second flange plate; 65. a chute; 66. a convex ring; 67. an adjusting disk; 68. air holes; 7. and (4) connecting the flanges with pipes.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, the utility model provides a technical solution of an oxygen-free nitrogen-filled copper wire annealing device: the utility model provides an anaerobic nitrogen-filled copper wire annealing device, including backup pad 1, the leading flank fixed mounting of backup pad 1 has work box mechanism 2, 1 leading flank of backup pad just is located the top of work box mechanism 2 and rotates and be connected with anodal gyro wheel 3 and guide pulley 4, copper line 5 is walked around jointly to anodal gyro wheel 3 and guide pulley 4's outside, and the bottom of copper line 5 is located the inside of work box mechanism 2, the outside fixedly connected with adjusting part 6 of work box mechanism 2, adjusting part 6's free end fixedly connected with flange joint pipe 7.

Referring to fig. 2, the work box mechanism 2 includes a box body 21 and a box cover 22, a negative roller 23 is rotatably connected to a front side surface of the bottom of the box body 21, a nitrogen pipeline assembly 24 is fixedly connected to a side wall of the bottom of the box body 21 in a penetrating manner, two sets of through holes 25 are formed in the top end of the box body 21, the bottom of the copper wire 5 is wound around the outside of the negative roller 23, the copper wire 5 passes through the inside of the two sets of through holes 25, and three sets of hinges 26 and three sets of buckles 27 are fixedly connected to joints of the box body 21 and the box cover 22 respectively.

Referring to fig. 3, the nitrogen pipe assembly 24 includes a nitrogen pipe 241, a fixing ring 242 is fixedly connected to an outer portion of the nitrogen pipe 241, a first flange 243 is fixedly connected to an outer portion of one end of the nitrogen pipe 241, the outer surface of the other end of the nitrogen pipe 241 is threaded and rotatably connected to a nut 244, and the threaded end of the nitrogen pipe 241 penetrates through the sidewall of the box 21 and is rotatably connected to the sidewall through the nut 244.

In actual use, the nitrogen pipe assembly 24 fixes the position of the nitrogen pipe 241 by passing the threaded end of the nitrogen pipe 241 through the sidewall of the case 21 and by the mounting nut 244.

Referring to fig. 4, the adjusting assembly 6 includes a first connecting member 61, a second connecting member 62 and a rotating member 63, a second flange 64 is fixedly connected to the outer portions of one ends of the first connecting member 61 and the second connecting member 62, sliding grooves 65 are formed in the inner surface edges of the other ends of the first connecting member 61 and the second connecting member 62, protruding rings 66 are arranged on the outer portions of two ends of the rotating member 63, adjusting discs 67 are fixedly connected to the inner edges of the rotating member 63 and the inner portions of the second connecting member 62, the two groups of protruding rings 66 are respectively located inside the two groups of sliding grooves 65, the first connecting member 61 and the second connecting member 62 have the same structure, the rotating member 63 is respectively of a rotating structure with the first connecting member 61 and the second connecting member 62, the side surfaces of the two groups of adjusting discs 67 are attached to each other, and a plurality of air holes 68 are formed in the surface of each group of adjusting discs 67.

Adjusting part 6 is in-service use, a plurality of groups of gas holes 68 through two sets of adjusting disk 67 surfaces are one corresponding respectively, nitrogen gas is inside through adjusting part 6, can directly get into nitrogen gas pipeline 241, when needs are controlled the inside nitrogen gas of box 21, the piece 63 is rotated in the wrench movement, then can drive a set of adjusting disk 67 and rotate, and then make a plurality of groups of gas holes 68 on two sets of adjusting disk 67 surfaces be in the state of staggering, thereby control nitrogen gas flow, when a plurality of groups of gas holes 68 on two sets of adjusting disk 67 surfaces are in the state of staggering completely, then block nitrogen gas flow.

The utility model discloses a theory of operation: when the nitrogen pipe 241 is used, firstly, the threaded end of the nitrogen pipe 241 penetrates through the side wall of the box body 21, the position of the nitrogen pipe 241 is fixed through the mounting nut 244, and the two groups of second flange plates 64 are fixedly connected with the first flange plate 243 and the flange connecting pipe 7 respectively through fastening bolts;

let copper line 5 produce the short circuit through anodal gyro wheel 3 and negative pole gyro wheel 23 and generate heat fast and let the copper line curing, with the inside of nitrogen gas introduction flange joint pipe 7, when a plurality of groups gas hole 68 on two sets of adjustment disk 67 surfaces are one-to-one corresponding respectively, nitrogen gas is inside through adjusting part 6, can directly get into nitrogen gas pipeline 241, thereby get into the inside of box 21, when needs are controlled the inside nitrogen gas of box 21, the piece 63 is rotated in the wrench movement, then can drive a set of adjustment disk 67 and rotate, and then make a plurality of groups gas hole 68 on two sets of adjustment disk 67 surfaces be in half staggered state, thereby control nitrogen gas flow, when a plurality of groups gas hole 68 on two sets of adjustment disk 67 surfaces are in staggered state completely, then block nitrogen gas flow.

Claims (6)

1. The oxygen-free nitrogen-filled copper wire annealing device comprises a supporting plate (1), and is characterized in that a working box mechanism (2) is fixedly mounted on the front side surface of the supporting plate (1), the front side surface of the supporting plate (1) is positioned above the working box mechanism (2) and is rotatably connected with an anode roller (3) and a guide wheel (4), the outer parts of the anode roller (3) and the guide wheel (4) commonly bypass a copper wire (5), the bottom of the copper wire (5) is positioned inside the working box mechanism (2), an adjusting component (6) is fixedly connected to the outer part of the working box mechanism (2), and a flange connecting pipe (7) is fixedly connected to the free end of the adjusting component (6);

work box mechanism (2) include box (21) and case lid (22), the bottom leading flank of box (21) rotates and is connected with negative pole gyro wheel (23), fixedly connected with nitrogen gas pipeline subassembly (24) is run through to the bottom lateral wall of box (21).

2. The oxygen-free nitrogen-filled copper wire annealing device according to claim 1, wherein two groups of through holes (25) are formed in the top end of the box body (21), the bottom of the copper wire (5) bypasses the outside of the negative roller (23), the copper wire (5) penetrates through the inside of the two groups of through holes (25), and three groups of hinges (26) and three groups of buckles (27) are fixedly connected to the joints of the box body (21) and the box cover (22) respectively.

3. The oxygen-free nitrogen-filled copper wire annealing device according to claim 1, wherein the nitrogen pipe assembly (24) comprises a nitrogen pipe (241), a fixing ring (242) is fixedly connected to the outside of the nitrogen pipe (241), a first flange (243) is fixedly connected to the outside of one end of the nitrogen pipe (241), the outer surface of the other end of the nitrogen pipe (241) is threaded, and a nut (244) is rotatably connected to the outer surface of the other end of the nitrogen pipe (241).

4. The oxygen-free nitrogen-filled copper wire annealing device according to claim 3, wherein the threaded end of the nitrogen pipe (241) passes through the side wall of the box body (21) and is connected in rotation by a nut (244).

5. The oxygen-free nitrogen-filled copper wire annealing device according to claim 1, wherein the adjusting assembly (6) comprises a first connecting piece (61), a second connecting piece (62) and a rotating piece (63), a second flange (64) is fixedly connected to the outer portion of one end of each of the first connecting piece (61) and the second connecting piece (62), sliding grooves (65) are formed in the edge portions of the inner surface of the other end of each of the first connecting piece (61) and the second connecting piece (62), convex rings (66) are arranged on the outer portions of two ends of the rotating piece (63), and adjusting discs (67) are fixedly connected to the inner edge of the rotating piece (63) and the inner portion of the second connecting piece (62).

6. The annealing device for the oxygen-free nitrogen-filled copper wire according to claim 5, wherein two groups of the convex rings (66) are respectively positioned inside two groups of the sliding grooves (65), the first connecting piece (61) and the second connecting piece (62) have the same structure, the rotating piece (63) is respectively in a rotating structure with the first connecting piece (61) and the second connecting piece (62), the side surfaces of the two groups of the adjusting discs (67) are attached to each other, and the surface of each group of the adjusting discs (67) is provided with a plurality of groups of air holes (68).

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