CN116871993A - Deoxidizing device for copper wire surface - Google Patents

Abstract

The invention discloses an oxygen removal device for the surface of a copper wire, which has the technical scheme that: the novel polishing device comprises a bottom plate, wherein a first supporting plate and a second supporting plate are fixedly connected to the top of the bottom plate, three rotating cylinders which are linearly distributed front and back are embedded in the first supporting plate, two polishing blocks are fixedly connected to the inner parts of the three rotating cylinders, and three first through holes which are linearly distributed front and back are formed in the second supporting plate, so that the novel polishing device has the beneficial effects that: set up three rotary drum to the inner wall of three rotary drum all is equipped with the polishing piece, just so can deoxidize three copper lines when carrying out deoxidization work to the copper line once only, just so can increase certain efficiency when deoxidizing, and rotary drum can be continuous round copper line and make a round trip to rotate when deoxidizing, just so can make polishing piece continuous round copper line make a round trip to rotate, just so can avoid appearing deoxidization dead angle when deoxidizing, thereby can avoid the surface of copper line to remain the patina.

Description

Deoxidizing device for copper wire surface

Technical Field

The invention relates to the technical field of copper wire deoxidization, in particular to a deoxidization device for the surface of a copper wire.

Background

Copper and its alloy materials are basic metal materials in power equipment, at present, as for the commonly used metal conductor materials, copper and its alloy are generally selected as good conductors of electricity, however, in the process of production, transportation, storage and use, oxidation of copper and its alloy in air is unavoidable under the influence of humid environment and temperature, especially in summer in the south, so that humidity and temperature in air are greatly increased, oxidation phenomenon occurs in a large amount of copper wires, the surface of copper wires rust, and much inconvenience is brought to later use, therefore, in the process of processing copper wires later, an oxygen removal device is needed to remove oxygen from the surface of copper wires;

the existing deoxidizing device is found to be simplex when deoxidizing copper wires, so that only one copper wire can be treated at a time during deoxidization, the efficiency is low, deoxidization dead angles can also appear during deoxidization, and part of patina can remain on the surface of the copper wire, so that secondary deoxidization is needed, and improvement is needed;

for this reason, it is necessary to invent an oxygen removing device for the surface of copper wire.

Disclosure of Invention

Therefore, the invention provides an oxygen removal device for the surface of a copper wire, which is used for solving the problems in the background technology.

In order to achieve the above object, the present invention provides the following technical solutions: the utility model provides a deoxidization device for copper line surface, includes the bottom plate, bottom plate top fixedly connected with backup pad one and backup pad two, backup pad one inside inlay and be equipped with three and be the rotatory section of thick bamboo that the orthoscopic distributes around, three rotatory section of thick bamboo is inside all fixedly connected with two polishing pieces, backup pad two inside has seted up three through-hole one that is the orthoscopic distributes around, three through-hole one is located three rotatory section of thick bamboo one side respectively, backup pad two inside has seted up logical groove one and logical groove one is located one of them through-hole one bottom, three rotatory section of thick bamboo outside all fixed cover is equipped with the gear, three the gear is located backup pad one and backup pad two inboardly, backup pad one inside has inlayed and has the pivot one, pivot one top is equipped with arc pinion rack, fixedly connected with three connecting rod between arc pinion rack and the pivot one, arc pinion rack and three gear inboard are located two tops and are connected with it, arc pinion rack is located two and is connected with two in the bottom of the rotation of a bi-directional pinion rack, two side motor is equipped with logical groove one side and lead screw, two reciprocating screw seat one end is equipped with cavity, two reciprocating screw sets have a cavity, two reciprocating screw seat one end is equipped with one end, reciprocating screw seat one end is equipped with cavity is fixed with one end, reciprocating screw seat is equipped with one end, and reciprocating screw, the two spiral convex strips are respectively embedded in the two spiral grooves and are in sliding connection with the two spiral grooves, the driving assembly comprises two chain wheels and a chain, the two chain wheels are respectively fixedly sleeved outside the sliding seat and the second rotating shaft, the chain is sleeved outside the two chain wheels, and the two chain wheels are connected through chain driving.

Preferably, the bottom plate top fixedly connected with steady piece, steady piece is located backup pad one and backup pad two inboards, pivot one runs through steady piece, the inside groove of running through of seting up of bottom plate, it is located arc toothed plate under to run through the groove, reciprocal lead screw bottom fixedly connected with slider, the spout has been seted up to the inside spout that has set up of bottom, the slider runs through the spout and rather than sliding connection, the constant head tank has been seted up to inside the two-way toothed plate, backup pad one side fixedly connected with locating plate, the locating plate runs through the constant head tank and rather than sliding connection.

Preferably, the bottom plate top fixedly connected with backup pad three, backup pad three is located backup pad two opposite sides, three through-holes second that are sharp front and back distribution have been seted up to backup pad three inside, three through-holes second is located three through-hole one side respectively, bottom plate top fixedly connected with box one, box one is located backup pad two and backup pad three inboard, reciprocating screw one end extends to box one inside, the sliding seat inlays and establishes in box one side, box one inside slip is equipped with piston one, piston one fixed connection is at reciprocating screw one end, box one top is equipped with movable plate one and movable plate two, movable plate one is located movable plate two tops, movable plate one and movable plate two inboard all fixedly inlay and are equipped with three cleaning pad that are sharp front and back distribution.

Preferably, the three inside fixed embedding of backup pad is equipped with two box two that are sharp front and back and distribute, two the two inside all slides of box is equipped with piston two, two the equal fixedly connected with movable rod in piston two one side, two equal fixedly connected with in movable rod one end is in two sides of movable plate, the three side of backup pad is equipped with pipeline one, pipeline one both ends extend to two box two insidely respectively and rather than fixed connection, box one inside is equipped with pipeline two, pipeline two one end runs through backup pad three and extends to pipeline one inside, pipeline two and box one, backup pad two and pipeline one fixed connection, the movable rod runs through box two and rather than sliding connection.

Preferably, the support plate is internally provided with two through grooves II which are respectively positioned at the outer sides of the two box bodies II, the two through grooves II are fixedly connected with a rotating shaft III, the two rotating shafts III are respectively sleeved with a wheel disc, two ropes are fixedly connected to one side of the moving plate one by one, one ends of the two ropes are respectively wound around the two wheel discs and are fixedly connected to one side of the moving plate II, and two springs which are linearly distributed front and back are fixedly connected to one side of the moving plate II, and one ends of the springs are fixedly connected to the other side of the support plate II.

Preferably, two equal fixedly connected with dead lever in two bottoms of box, two the equal fixedly connected with of dead lever bottom and bottom plate, two of backup pad two and the three inboard fixedly connected with of backup pad are the gag lever post that the straight line distributes around, two the gag lever post all runs through the movable plate and rather than sliding connection, two the gag lever post runs through two springs respectively, two of backup pad two and the three inboard fixedly connected with of backup pad are the spacing post that the straight line distributes around, two the spacing post all runs through the movable plate two and rather than sliding connection.

Preferably, the four corners of the bottom plate are fixedly connected with supporting legs.

Preferably, the rotary cylinder is connected with the first supporting plate through a bearing, the first rotating shaft is connected with the first supporting plate and the stabilizing block through a bearing, and the second rotating shaft is connected with the second supporting plate through a bearing.

Preferably, the sliding seat is connected with the first box body through a bearing, and the wheel disc is connected with the rotating shaft through a bearing.

The beneficial effects of the invention are as follows:

1. according to the copper wire deoxidizing machine, the three rotary drums are arranged, the grinding blocks are arranged on the inner walls of the three rotary drums, so that three copper wires can be deoxidized at one time when deoxidizing copper wires, certain efficiency can be improved when deoxidizing, the rotary drums can continuously rotate around the copper wires in a back-and-forth mode when deoxidizing, the grinding blocks can continuously rotate around the copper wires in a back-and-forth mode, deoxidizing dead angles can be avoided when deoxidizing, residual patina on the surfaces of the copper wires can be avoided, secondary deoxidizing is not needed, deoxidizing quality can be guaranteed, and deoxidizing efficiency can be improved;

2. the copper rust which floats partially is adhered to the exterior of the copper wire after the deoxidation is finished, and the copper wire surface after the deoxidation can be cleaned back and forth through the design of the first moving plate, the second moving plate, the cleaning pad, the rope and other parts during the deoxidation, so that the device has the function of cleaning the copper rust, the copper rust can be prevented from adhering to the surface of the copper wire after the deoxidation is finished, manual cleaning is not needed, the labor intensity of manpower can be reduced, the cleanliness of the copper wire can be guaranteed, and the adhered copper rust can be prevented from affecting the next processing of the copper wire.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in this description are for the understanding and reading of the disclosure, and are not intended to limit the scope of the invention, which is defined by the claims, to any structural modifications, changes in proportions, or adjustments of sizes, which may be made by the claims, without departing from the spirit and scope of the invention, which is otherwise, indicated by the claims

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a front cross-sectional view I of the present invention;

FIG. 3 is an enlarged view of the portion A of FIG. 2 provided by the present invention;

FIG. 4 is an enlarged view of portion B of FIG. 2 provided by the present invention;

FIG. 5 is a second front cross-sectional view of the present invention;

FIG. 6 is an exploded view of a first support plate, a rotary drum, a gear, an arc toothed plate, a bidirectional toothed plate and the like provided by the invention;

FIG. 7 is an exploded view of the first and second moving plates, springs, cords, wheels, cleaning pads, etc. provided by the present invention;

FIG. 8 is an exploded view of the first, second, moving rod, motor, etc. parts of the present invention;

FIG. 9 is an exploded view of the first spindle, the reciprocating screw, the spiral ribs, the spiral grooves and other components provided by the invention;

FIG. 10 is a schematic view of the usage state provided by the present invention;

in the figure: 1 bottom plate, 2 backup pad one, 3 backup pad two, 4 rotary drum, 5 sanding block, 6 gear, 7 pivot one, 8 arc pinion rack, 9 connecting rod, 10 bi-directional pinion rack, 11 motor, 12 pivot two, 13 supporting leg, 14 reciprocating screw, 15 sliding seat, 16 spiral sand grip, 17 spiral recess, 18 sprocket, 19 chain, 20 steady block, 21 slider, 22 locating plate, 23 backup pad three, 24 box one, 25 piston one, 26 movable plate one, 27 movable plate two, 28 cleaning pad, 29 box two, 30 piston two, 31 movable rod, 32 pipeline one, 33 pipeline two, 34 pivot three, 35 rim plate, 36 rope, 37 spring, 38 dead lever, 39 gag lever post, 40 gag lever post.

Detailed Description

The preferred embodiments of the present invention will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present invention only, and are not intended to limit the present invention.

Referring to fig. 1-10, the deoxidizing device for copper wire surface provided by the invention comprises a bottom plate 1, a first supporting plate 2 and a second supporting plate 3 are fixedly connected to the top of the bottom plate 1, three linearly front-back distributed rotating cylinders 4 are embedded in the first supporting plate 2, two polishing blocks 5 are fixedly connected to the inside of the three rotating cylinders 4, three linearly front-back distributed through holes I are arranged in the second supporting plate 3, the three through holes I are respectively positioned at one side of the three rotating cylinders 4, a through groove I is arranged in the second supporting plate 3 and positioned at the bottom of one through hole I, gears 6 are fixedly sleeved outside the three rotating cylinders 4, the three gears 6 are positioned at the inner sides of the first supporting plate 2 and the second supporting plate 3, a first rotating shaft 7 is embedded in the first supporting plate 2, an arc toothed plate 8 is arranged at the top of the first rotating shaft 7, three connecting rods 9 are fixedly connected between the arc toothed plate 8 and the first rotating shaft 7, the inner sides of the arc toothed plate 8 and the three gears 6 are provided with a bidirectional toothed plate 10, the three gears 6 are positioned at the top of the bidirectional toothed plate 10 and are in meshed connection with the bidirectional toothed plate 10, the arc toothed plate 8 is positioned at the bottom of the bidirectional toothed plate 10 and is in meshed connection with the bidirectional toothed plate, one side of a support plate II 3 is fixedly connected with a motor 11, an output shaft of the motor 11 is fixedly connected with a rotating shaft II 12, one end of the rotating shaft II 12 penetrates through the support plate II 3, the inner sides of the support plate I2 and the support plate II 3 are provided with a reciprocating screw 14, one end of the reciprocating screw 14 penetrates through a groove I, the outer part of the reciprocating screw 14 is sleeved with a sliding seat 15, the sliding seat 15 is connected with the reciprocating screw 14 through a ball screw pair, a driving component is arranged between the sliding seat 15 and the rotating shaft II 12, a cavity I is formed in the reciprocating screw 14 II, one end of the rotating shaft I7 extends into the cavity I, two spiral raised strips 16 are fixedly sleeved outside the rotating shaft I7, the first cavity is provided with two spiral grooves 17, two spiral raised strips 16 are respectively embedded in the two spiral grooves 17 and are in sliding connection with the two spiral grooves, the driving assembly comprises two chain wheels 18 and a chain 19, the two chain wheels 18 are respectively fixedly sleeved outside the sliding seat 15 and the second rotating shaft 12, the chain 19 is sleeved outside the two chain wheels 18, and the two chain wheels 18 are in driving connection through the chain 19;

in this embodiment, the motor 11 works to drive the second rotating shaft 12 to rotate, the second rotating shaft 12 rotates to drive the chain 19 to rotate, the chain 19 rotates to drive the sliding seat 15 to rotate, and the sliding seat 15 is embedded on one side of the first box 24 and can not move, so that the sliding seat 15 can continuously move left and right when rotating, and the first rotating shaft 7 can continuously rotate back and forth when the reciprocating screw 14 continuously moves left and right due to the design of the spiral raised strips 16 and the bolt grooves, the first rotating shaft 7 continuously rotates back and forth to drive the arc toothed plate 8 to continuously rotate back and forth, so that the bidirectional toothed plate 10 continuously moves back and forth, the three gears 6 continuously rotate back and forth, and further the three rotary drums 4 continuously rotate back and forth, so that two polishing blocks 5 inside each rotary drum 4 continuously rotate around copper wires, and the dead angle can be removed;

in order to achieve the guiding purpose, the device is achieved by adopting the following technical scheme: the top of the bottom plate 1 is fixedly connected with a stabilizing block 20, the stabilizing block 20 is positioned on the inner sides of the first supporting plate 2 and the second supporting plate 3, the first rotating shaft 7 penetrates through the stabilizing block 20, a penetrating groove is formed in the bottom plate 1, the penetrating groove is positioned under the arc-shaped toothed plate 8, the bottom of the reciprocating screw 14 is fixedly connected with a sliding block 21, a sliding groove is formed in the bottom, the sliding block 21 penetrates through the sliding groove and is in sliding connection with the sliding groove, the inside of the bidirectional toothed plate 10 is provided with a positioning groove, one side of the first supporting plate 2 is fixedly connected with a positioning plate 22, the positioning plate 22 penetrates through the positioning groove and is in sliding connection with the positioning groove, the penetrating groove can prevent the arc-shaped toothed plate 8 from colliding with the bottom plate 1, the sliding block 21 can limit the reciprocating screw 14, so that the guiding effect is achieved, and the positioning plate 22 can guide the bidirectional toothed plate 10 to move stably;

wherein, in order to realize cleaning the purpose at copper line surface, this device adopts following technical scheme to realize: the top of the bottom plate 1 is fixedly connected with a third supporting plate 23, the third supporting plate 23 is positioned at the other side of the second supporting plate 3, three through holes II which are linearly distributed back and forth are formed in the third supporting plate 23, the three through holes II are respectively positioned at one side of the three through holes I, the top of the bottom plate 1 is fixedly connected with a first box 24, the first box 24 is positioned at the inner sides of the second supporting plate 3 and the third supporting plate 23, one end of a reciprocating screw 14 extends into the first box 24, a sliding seat 15 is embedded at one side of the first box 24, a first piston 25 is slidably arranged in the first box 24, the first piston 25 is fixedly connected with one end of the reciprocating screw 14, a first moving plate 26 and a second moving plate 27 are arranged at the top of the first box 24, the first moving plate 26 and the second moving plate 27 are fixedly embedded with three cleaning pads 28 which are linearly distributed back and forth, the inner sides of the third box 29 is fixedly embedded in the third box 23, the two box bodies II 29 are internally provided with a piston II 30 in a sliding manner, one side of the two piston II 30 is fixedly connected with a moving rod 31, one end of the two moving rod 31 is fixedly connected to one side of the moving plate II 27, one side of the supporting plate III 23 is provided with a pipeline I32, two ends of the pipeline I32 respectively extend into the two box bodies II 29 and are fixedly connected with the two box bodies II, the inside of the box body I24 is provided with a pipeline II 33, one end of the pipeline II 33 penetrates through the supporting plate III 23 and extends into the pipeline I32, the pipeline II 33 is fixedly connected with the box body I24, the supporting plate II 3 and the pipeline I32, the moving rod 31 penetrates through the box body II 29 and is in sliding connection with the box body II, two through grooves II are respectively arranged in the outer sides of the two box bodies II 29, the two through grooves II are fixedly connected with rotating shafts III 34, wheel discs 35 are respectively sleeved outside the two rotating shafts III 34, two ropes 36 are fixedly connected to one side of the first moving plate 26, one end of each rope 36 bypasses two wheel discs 35 and is fixedly connected to one side of the second moving plate 27, two springs 37 which are linearly distributed back and forth are fixedly connected to the other side of the first moving plate 26, one end of each spring 37 is fixedly connected to the other side of the second supporting plate 3, fixing rods 38 are fixedly connected to the bottoms of the second two boxes 29, the bottoms of the fixing rods 38 are fixedly connected to the bottom plate 1, two limit rods 39 which are linearly distributed back and forth are fixedly connected to the inner sides of the second supporting plate 3 and the third supporting plate 23, the two limit rods 39 penetrate through the first moving plate 26 and are in sliding connection with the first moving plate, the two limit rods 39 penetrate through the two springs 37 respectively, two limit columns 40 which are linearly distributed back and forth are fixedly connected to the inner sides of the second supporting plate 3 and the third supporting plate 23, the two limit columns 40 penetrate through the second moving plate 27 and are in sliding connection with the second moving plate, the reciprocating screw 14 can continuously move left and right in the first box 24, then the piston 25 can continuously inflate and inhale the two second boxes 29 by continuously moving left and right under the design of the second pipeline 33 and the first pipeline 32, so that the two pistons 30 can continuously move left and right in the two second boxes 29, further the two moving rods 31 can continuously move left and right, the moving rods 31 can push the moving plate two 27 to continuously move left and right, the moving plate two 27 can continuously move left and right and simultaneously pull the ropes 36, the moving plate one 26 can move right when the moving plate two 27 moves left, then the moving plate one 26 can move left when the moving plate two 27 moves right under the design of the springs 37, so that the moving plate one 26 and the moving plate two 27 can continuously and alternately move, the three cleaning pads 28 above and the three cleaning pads 28 below are continuously moved on the surface of the copper wire, so that the surface of the copper wire after the deoxidation is cleaned back and forth during the deoxidation;

in order to achieve the purpose of supporting, the device is achieved by adopting the following technical scheme: support legs 13 are fixedly connected to four corners of the bottom plate 1, and the support legs 13 can support the device;

in order to achieve the purpose of reducing abrasion, the device is realized by adopting the following technical scheme: the rotary cylinder 4 is connected with the first support plate 2 through a bearing, the first rotating shaft 7 is connected with the first support plate 2 and the stabilizing block 20 through a bearing, the second rotating shaft 12 is connected with the second support plate 3 through a bearing, the sliding seat 15 is connected with the first box 24 through a bearing, the wheel disc 35 is connected with the third rotating shaft 34 through a bearing, and abrasion can be reduced through bearing connection.

The application process of the invention is as follows: when the invention is used for deoxidizing, three copper wires are only passed through the three rotating cylinders 4, the three first through holes and the three second through holes from left to right, then the copper wires are contacted with the polishing block 5 and the cleaning pad 28, as shown in figure 10, then the copper wires are pulled rightwards manually, the motor 11 is controlled to work while the motor 11 works to drive the second rotating shaft 12 to rotate, the second rotating shaft 12 rotates to drive the chain 19 to rotate, the chain 19 rotates to drive the sliding seat 15 to rotate, the sliding seat 15 is embedded on one side of the first box body 24 and can not move, so that the sliding seat 15 can continuously move the reciprocating screw rod 14 leftwards and rightwards when rotating, the first rotating shaft 7 can continuously rotate back and forth when the reciprocating screw rod 14 continuously moves leftwards and rightwards due to the design of the spiral raised strips 16 and the bolt grooves, the arc toothed plate 8 is driven to continuously rotate back and forth by the rotation of the rotating shaft 7, so that the bidirectional toothed plate 10 can continuously move back and forth, the three gears 6 can continuously rotate back and forth by the continuous back and forth movement of the bidirectional toothed plate 10, and the three rotating cylinders 4 are driven to continuously rotate back and forth, so that two polishing blocks 5 inside each rotating cylinder 4 can continuously rotate around copper wires, no dead angle can be formed on the copper wires, rust on the surfaces of the copper wires can be avoided, secondary deoxidation is not needed, the deoxidization quality can be guaranteed, the deoxidization efficiency can be increased, the device can deoxidize three copper wires at one time during deoxidization work, and a certain efficiency can be increased during deoxidization;

the copper rust can float in the air when deoxidizing, the copper rust will be adhered to the copper wire outside that the deoxidization was accomplished in this partly, still can make piston one 25 constantly move about in the inside of box one 24 when reciprocating lead screw 14 constantly moves about, then move about piston one 25 constantly and can be constantly aerifyd and breathe in to two box two 29 insides under the design of pipeline two 33 and pipeline one 32, just so can make two piston two 30 in the inside continuous left and right movement of two box two 29, and then make two movable rod 31 constantly move about, the movable rod 31 just so can promote the continuous left and right movement of movable plate two 27, movable plate two 27 constantly moves about while still can pull rope 36, movable plate one 26 will move to the right when movable plate two 27 moves to the right under the design of spring 37, just so circulation just can movable plate one 26 and movable plate two 27 constantly alternately move about, and then can make copper wire three sides clean copper wire pad three sides and can be done the copper wire and clean the copper wire and can be done the surface and clean the copper wire and can be cleaned by the surface and the copper wire and the surface is cleaned by the manual work is guaranteed to the copper wire is clean the surface of the copper wire is removed and the copper wire is cleaned by the surface of the copper wire is clean down 28.

The above description is only of the preferred embodiments of the present invention, and any person skilled in the art may modify the present invention or make modifications to the present invention equivalent thereto using the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present invention falls within the scope of the protection claimed by the present invention.

Claims (9)

1. An oxygen removal device for copper wire surfaces, comprising a bottom plate (1), characterized in that: the utility model discloses a bidirectional tooth plate, including bottom plate (1), backup pad (3), backup pad (2) are first fixedly connected with backup pad (2) and backup pad (3), the backup pad is first (2) inside to be inlayed and to be equipped with three rotary drum (4) that are sharp front and back distribution, three is first fixedly connected with two polishing blocks (5) inside rotary drum (4), three through-hole (3) are inside to be offered respectively in three rotary drum (4) one side, through-slot (3) are first and through-slot (one) is located one of them through-hole bottom, three rotary drum (4) outside all fixed cover is equipped with gear (6), three gear (6) are located backup pad (2) and backup pad (3) inboard, backup pad (2) are inside to be inlayed and are equipped with pivot (7), pivot (7) top is equipped with arc pinion rack (8), fixedly connected with three connecting rod (9) between arc pinion rack (8) and pivot (7), pinion rack (6) and three pinion rack (6) are located one bi-directional tooth plate (10) and two-way joint with one of them, two-way tooth plate (10) are located two-way tooth plate (10) and are connected with one of them, the utility model discloses a chain drive device, including a supporting plate II (3), a motor (11) output shaft fixedly connected with pivot II (12), pivot II (12) one end runs through supporting plate II (3), supporting plate I (2) and supporting plate II (3) inboard are equipped with reciprocating screw (14), reciprocating screw (14) one end runs through groove I, reciprocating screw (14) outside cover is equipped with sliding seat (15), sliding seat (15) are connected through ball screw pair with reciprocating screw (14), be equipped with drive assembly between sliding seat (15) and pivot II (12), cavity I has been seted up to reciprocating screw (14) II, pivot I (7) one end extends to cavity I inside, pivot I (7) outside fixed cover is equipped with two spiral sand grip (16), cavity I outside has seted up two spiral groove (17), two spiral sand grip (16) are inlayed respectively and are established in two spiral groove (17) insides and are sliding connection with it, drive assembly includes two sprocket (18) and sprocket (19) are connected through ball screw pair, sprocket (18) are fixed in two sprocket (18) outside (12) respectively, the two chain wheels (18) are in driving connection through a chain (19).

2. The oxygen removal device for copper wire surfaces of claim 1, wherein: the utility model discloses a novel structure of a motor vehicle, including bottom plate (1), fixed block (20) of bottom plate (1) top fixedly connected with, fixed block (20) are located backup pad one (2) and backup pad two (3) inboardly, fixed block (20) are run through in pivot one (7), the inside perforation groove of having seted up of bottom plate (1), it is located arc pinion rack (8) under to run through the groove, reciprocal screw (14) bottom fixedly connected with slider (21), the spout has been seted up in the bottom inside, slider (21) run through the spout and rather than sliding connection, the constant head tank has been seted up to inside of two-way pinion rack (10), backup pad one (2) one side fixedly connected with locating plate (22), locating plate (22) run through the constant head tank and rather than sliding connection.

3. The oxygen removal device for copper wire surfaces of claim 1, wherein: the novel cleaning device is characterized in that the top of the bottom plate (1) is fixedly connected with a supporting plate III (23), the supporting plate III (23) is located at the other side of the supporting plate II (3), three through holes II which are linearly distributed front and back are formed in the supporting plate III (23), the three through holes II are respectively located at one side of the three through holes II, the top of the bottom plate (1) is fixedly connected with a box I (24), the box I (24) is located at the inner side of the supporting plate II (3) and the supporting plate III (23), one end of the reciprocating screw (14) extends to the inside of the box I (24), the sliding seat (15) is embedded on one side of the box I (24), a piston I (25) is slidably arranged in the box I (24), the piston I (25) is fixedly connected to one end of the reciprocating screw (14), the top of the box I (24) is provided with a moving plate I (26) and a moving plate II (27), the moving plate I (26) is located at the top of the moving plate II (27), and the inner sides of the moving plate I (26) and the moving plate II (27) are fixedly embedded with three linear cleaning pads (28) which are linearly distributed front.

4. A deoxidizing device for copper wire surfaces as claimed in claim 3, wherein: the utility model discloses a three (23) of backup pad is inside to be fixedly inlayed and is equipped with two box two (29) that are sharp front and back and distribute, two the inside all slip of box two (29) is equipped with piston two (30), two equal fixedly connected with movable rod (31) in piston two (30) one side, two equal fixedly connected with in movable plate two (27) one side of movable rod (31), backup pad three (23) one side is equipped with pipeline one (32), pipeline one (32) both ends extend respectively to two box two (29) insidely and rather than fixed connection, box one (24) inside is equipped with pipeline two (33), pipeline two (33) one end runs through backup pad three (23) and extends to pipeline one (32) inside, pipeline two (33) and box one (24), backup pad two (3) and pipeline one (32) fixed connection, movable rod (31) run through box two (29) and with its sliding connection.

5. The oxygen removal device for copper wire surfaces of claim 4, wherein: two through grooves are formed in the support plate III (23), the two through grooves are respectively located on the outer sides of the two box bodies II (29), the two through grooves II are fixedly connected with a rotating shaft III (34) respectively, wheel discs (35) are sleeved outside the rotating shaft III (34), two ropes (36) are fixedly connected to one side of a movable plate I (26), one end of each rope (36) is respectively wound around the two wheel discs (35) and is fixedly connected to one side of the movable plate II (27), two springs (37) which are linearly distributed front and back are fixedly connected to the other side of the movable plate I (26), and one end of each spring (37) is fixedly connected with the other side of the support plate II (3).

6. The oxygen removal device for copper wire surfaces of claim 5, wherein: two equal fixedly connected with dead lever (38) in box two (29) bottom, two dead lever (38) bottom and bottom plate (1) equal fixed connection, two limit levers (39) that are sharp front and back distribution of inboard fixedly connected with of backup pad two (3) and backup pad three (23), two limit levers (39) all run through movable plate one (26) and rather than sliding connection, two limit levers (39) run through two springs (37) respectively, two limit posts (40) that are sharp front and back distribution of inboard fixedly connected with of backup pad two (3) and backup pad three (23), two limit posts (40) all run through movable plate two (27) and rather than sliding connection.

7. The oxygen removal device for copper wire surfaces of claim 1, wherein: support legs (13) are fixedly connected to four corners of the bottom plate (1).

8. The oxygen removal device for copper wire surfaces of claim 1, wherein: the rotary cylinder (4) is connected with the first supporting plate (2) through a bearing, the first rotating shaft (7) is connected with the first supporting plate (2) and the stabilizing block (20) through a bearing, and the second rotating shaft (12) is connected with the second supporting plate (3) through a bearing.

9. The oxygen removal device for copper wire surfaces of claim 5, wherein: the sliding seat (15) is connected with the first box body (24) through a bearing, and the wheel disc (35) is connected with the third rotating shaft (34) through a bearing.