CN111578655B - Production and processing technology of electroplated copper covered wire - Google Patents

Abstract

The invention relates to a production and processing technology of an electroplated copper-clad wire, which is mainly completed by matching an electroplated copper-clad wire production drying device, wherein the electroplated copper-clad wire production drying device comprises a mounting rack, a drying external member and a cooling external member, and the drying external member and the cooling external member are sequentially arranged in the mounting rack from left to right. When the existing electroplating copper-clad wire is subjected to electroplating treatment, electroplating chemical water and electroplating protection water are often used for pretreating a copper wire, and then electroplating is carried out, so that the condition that dripping-shaped water stains are easily caused on the surface is easily generated, and in the subsequent drying operation, water stains are easily left after being dried, so that the electroplating quality is influenced, and the production is influenced.

Description

Production and processing technology of electroplated copper covered wire

Technical Field

The invention relates to the technical field of copper-clad wires, in particular to a production and processing technology of an electroplated copper-clad wire.

Background

The electroplating copper-clad wire is an electric wire which takes a copper wire as a main body and is subjected to electroplating treatment outside, and can be used as a conductor for a coaxial cable and a conductor for an electric wire and a cable in electric equipment.

The existing electroplated copper-clad wire has the following problems in the production process: a: when the existing electroplating copper-clad wire is subjected to electroplating treatment, electroplating chemical water and electroplating protective water are often used for pretreating a copper wire, and then electroplating is carried out, so that the surface of the copper wire is very easy to be stained with drop-shaped water stains; b: after the existing electroplating copper-clad wire is subjected to electroplating treatment, when a product is often placed into an oven for drying operation, the electroplating product is often excessively heated due to uneven heating, so that the phenomenon of scorching of the electroplating product is caused, the condition of scrapping the electroplating product is caused, and the cost is greatly wasted.

In order to make up the defects of the prior art, the invention provides a production and processing technology of an electroplated copper covered wire.

Disclosure of Invention

The technical problem to be solved by the invention is realized by adopting the following technical scheme: the utility model provides an electroplated copper-clad wire production and processing technology, mainly accomplishes by the cooperation of an electroplated copper-clad wire production drying equipment, electroplated copper-clad wire production drying equipment includes mounting bracket, stoving external member and cooling external member, and the inside stoving external member and the cooling external member of turning right from a left side of mounting bracket has set gradually, wherein:

the drying kit comprises a guide bottom plate, a guide plate, connecting columns, a guide cover plate, a drying plate, a driving block, a pushing slider and a hydraulic cylinder, wherein the guide bottom plate is installed on the installation frame in a welding mode, the guide bottom plate is uniformly provided with through grooves A, the guide bottom plate is uniformly provided with the connecting columns in a welding mode along the circumferential direction of the guide bottom plate, the connecting columns are provided with annular fixing grooves B, the number of the connecting columns is four, the upper end of the guide bottom plate is provided with the guide plate, the guide plate is uniformly provided with through holes C with the same structure as the through grooves A, the bottom surface of the guide plate is uniformly provided with connecting holes C matched with the connecting columns in the circumferential direction, the guide plate is provided with the guide cover plate in a bolt connection mode, the right end of the guide cover plate is provided with the drying plate, and the drying plate is installed on the installation frame in a welding mode, evenly be provided with drive hole D on the stoving board, the stoving board right-hand member is provided with the drive plate, evenly install the drive block that uses of mutually supporting with drive hole D through the welded mode on the drive plate, the drive plate is installed on the mounting bracket through sliding connection's mode, evenly be provided with the punishment in advance hole E that uses of mutually supporting with the electroplated copper envelope curve on drive plate and the stoving board, install the promotion slider through the welded mode on the drive plate, promote the slider and install on the output shaft of a pneumatic cylinder, a pneumatic cylinder is installed on the mounting bracket outer wall, in operation, the artifical electroplating copper clad wire that will need clear up passes the guide and crosses the board, the stoving version, drive plate and cooling external member, the back is covered with the guide apron through the bolt, back stoving board carries out work and carries out the stoving operation to electroplating copper clad wire, thereby accomplish material loading and stoving operation.

The cooling external member includes the heat dissipation case, rotate fan and driving motor, the heat dissipation case is installed on the mounting bracket through the welded mode, evenly set up on the heat dissipation case with the corresponding louvre F of punishment in advance hole E, the inside mode of connecting through the bearing of heat dissipation incasement portion installs the rotation fan, it installs on driving motor's output shaft to rotate the fan, driving motor passes through the motor cabinet and installs on the mounting bracket outer wall, in operation, the copper electroplating envelope curve after the stoving external member stoving processing passes the heat dissipation case, back driving motor begins work, it rotates to drive the rotation fan, and then make the copper electroplating envelope curve cool off through the air flow, take out the copper electroplating envelope curve after the back will cooling, thereby accomplish the purpose that the cooling was received the material.

The production and processing technology of the electroplated copper covered wire specifically comprises the following steps:

s1, loading operation: manually enabling the electroplated copper covered wire needing to be dried to pass through the guide plate, the drying plate, the driving plate and the cooling suite, and then manually installing the guide cover plate on the guide plate by using bolts, so that the electroplated copper covered wire feeding operation is completed;

s2, drying operation: after the feeding operation of the step S1 is completed, the first hydraulic cylinder works to push the pushing slide block on the drying sleeve to move so as to drive the driving plate to move, and then the driving block is driven to move so as to drive the drying plate to complete the drying operation;

s3, cooling and rolling: the electro-coppering covered wire after being dried by the drying kit penetrates through the heat dissipation box, the driving motor starts to work to drive the rotating fan to rotate, the electro-coppering covered wire is cooled through air flow, and then the cooled electro-coppering covered wire is taken out, so that the purpose of cooling and material receiving is achieved;

s4, repeating the operation: and repeating the steps S1 to S3, and continuously carrying out water stain drying and repeating operation on the electroplated copper-clad wire.

As a preferable technical scheme of the invention, the apertures of the through groove A and the through hole C are gradually reduced from left to right, and the aperture at the minimum position and the electroplated copper covered wire are matched with each other for use.

As a preferred technical scheme of the invention, a first clamping column plate and a second clamping column plate are symmetrically arranged at the left end and the right end inside a connecting hole C on a guide plate, the first clamping column plate is arranged on the inner wall of the guide plate in a sliding connection mode, the second clamping column plate is arranged on a sliding rod in a welding mode, the sliding rod is arranged on the inner wall of the guide plate in a sliding connection mode, an aligning plate is arranged on the sliding rod in a welding mode, a threaded rod is arranged on the outer side of the aligning plate in a welding mode, threaded rotating sleeves which are mutually matched are arranged on the outer side of the threaded rod, the threaded rotating sleeves are arranged inside the guide plate in a rotating connection mode, a jacking cam is arranged on each threaded rotating sleeve, a jacking rod is abutted against the jacking cam and is arranged on the inner wall of the guide plate in a sliding connection mode, a hand-pulling frame is arranged on the outer side of the threaded rod in a welding mode, the hand-pulling frame is located and leads the board outer wall, in operation, the manual work will lead the board and insert the back on the guide bottom plate, spliced pole on the guide bottom plate gets into and leads in the board connecting hole C, back through a calorie of post board and the work of No. two calorie of post boards, thereby block the spliced pole and reach the fixed purpose of leading the board, the manual work of back pull hand-pulling frame drives the screw thread swivel cover and rotates, and then drive the top cam and rotate, thereby support the liftout pole through rotating the cam and pop out and will lead the board and jack up, thereby conveniently dismantle the maintenance.

As a preferred technical scheme of the present invention, the first column clamping plate and the second column clamping plate are arc structures, and the first column clamping plate and the second column clamping plate are uniformly provided with spherical balls capable of rolling in a bearing connection manner.

In a preferred embodiment of the present invention, the drying plate is provided with a heating coil inside, and the heating coil has a ring-shaped structure.

As a preferred technical scheme of the invention, the drying plate is provided with the driving column in a sliding connection mode, the middle area of the driving column is provided with threads, the driving column is connected with the driving block in a welding mode, the left end and the right end of the driving column are symmetrically provided with the thread sleeves, the thread sleeves are installed between the material passing holes E in a rotating connection mode, the outer sides of the thread sleeves are symmetrically provided with the rotating shifting blocks in a welding mode, the outer sides of the rotating shifting blocks are abutted against cleaning rings, the cleaning rings are installed on the inner wall of the drying plate in a rotating connection mode, the cleaning rings are located inside the material passing holes E, and when the drying plate works, the driving column moves due to the driving block, so that the thread sleeves are driven to move, the cleaning rings are driven to be wound and unfolded, and the cleaning requirements of the electroplating copper-clad wires are met.

As a preferred technical scheme of the invention, the cleaning ring is provided with a ring-shaped chute F, the sliding chute F is internally and uniformly provided with cleaning columns, the cleaning columns are arranged on the drying plate in a welding mode, the cleaning columns are provided with cleaning cloth, the cleaning columns are provided with a cloth collecting frame in a rotary connection mode, the cloth collecting frame is of a U-shaped structure and surrounds the cleaning cloth, the cloth collecting frame is provided with a connecting rod in a welding mode, the connecting rod is arranged on the traction column in a rotary connection mode, the traction column is arranged on the cleaning ring in a welding mode, when the cleaning cloth drying device works, the cleaning ring rotates to drive the traction column to rotate, the traction column moves to drive the cloth collecting frame to rotate, so that the cleaning cloth is driven to be wound, and the cleaning cloth is dried through the temperature of a heating coil, so that the drying operation of the cleaning cloth is completed.

As a preferred technical scheme of the invention, the interior of the heat dissipation holes F on the heat dissipation box is uniformly provided with the re-smearing rollers in a bearing connection mode, and the re-smearing rollers are wrapped with water absorbing materials.

As a preferable technical scheme of the invention, an annular ventilation flow channel is arranged in the heat dissipation box, and a plurality of air blowing holes are uniformly arranged at two sides of the heat dissipation hole F.

Compared with the prior art, the invention has the following advantages:

1. the invention can solve the following problems in the production process of the existing electroplating copper-clad wire: a: when the existing electroplating copper-clad wire is subjected to electroplating treatment, electroplating chemical water and electroplating protective water are often used for pretreating a copper wire, and then electroplating is carried out, so that the surface of the copper wire is very easy to be stained with drop-shaped water stains; b: after the existing electroplating copper-clad wire is subjected to electroplating treatment, when a product is often placed into an oven for drying operation, the electroplating product is often excessively heated due to uneven heating, so that the phenomenon of scorching of the electroplating product is caused, the condition of scrapping the electroplating product is caused, and the cost is greatly wasted.

2. The invention designs a drying plate, when an electroplated copper covered wire passes through the drying plate, a cleaning ring in the drying plate works, water stains on the surface of the electroplated copper covered wire are wiped to be dry through a cleaning cloth on the cleaning ring, so that the cleaning operation is finished, meanwhile, two layers of cleaning cloth are distributed in the cleaning ring and do not simultaneously act, when one of the cleaning ring and the cleaning ring is wet due to excessive wiping water stains, a hydraulic cylinder works to push a pushing sliding block to move and further drive a driving plate to move, so that a driving block is driven to move, a driving column is driven to move, so that a thread on the driving column drives one of thread sleeves to rotate, a rotating shifting block is driven to rotate through the rotation of the thread sleeves, so that the cleaning ring is driven to rotate, further a traction column is driven to rotate, and further a connecting rod is driven to move, thereby drive and receive the cloth frame and rotate to drive the cleaning cloth rolling, thereby the cleaning cloth after the rolling is dried through heating coil's waste heat, thereby accomplish cleaning cloth stoving operation, very big having avoided the cleaning cloth to lead to the emergence of the humid condition because of repetitious usage, the influence is wiped dry the effect, thereby leaves the water mark, and then influences the quality of follow-up production product, influences production.

3. The heating coil is designed in the drying plate, is arranged in a ring shape and is not directly contacted with the copper-clad wire, and residual water stain of the copper-clad wire is dried only through heat radiation of heating, so that the phenomenon that a product is heated unevenly is greatly avoided, and the phenomenon that an electroplated product is burnt and scrapped due to uneven heating is greatly avoided.

Drawings

The invention is further illustrated with reference to the following figures and examples.

FIG. 1 is a process flow diagram of the present invention;

FIG. 2 is a schematic structural view of the present invention;

FIG. 3 is a side view of a schematic of the structure of the present invention;

FIG. 4 is a schematic cross-sectional view A-A of FIG. 3 of the present invention;

FIG. 5 is a schematic cross-sectional view B-B of FIG. 3 of the present invention;

FIG. 6 is a schematic cross-sectional view of C-C of FIG. 3 of the present invention;

FIG. 7 is a schematic cross-sectional view of area A of FIG. 3 of the present invention;

FIG. 8 is an enlarged schematic view of area B of FIG. 4 in accordance with the present invention;

FIG. 9 is a schematic cross-sectional view of the invention at area C of FIG. 7;

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained with reference to fig. 1 to 9.

The utility model provides an electroplated copper-clad wire production and processing technology, mainly by an electroplated copper-clad wire production drying equipment cooperation completion, electroplated copper-clad wire production drying equipment includes mounting bracket 1, stoving external member 2 and cooling external member 3, and 1 inside from a left side of turning right of mounting bracket has set gradually stoving external member 2 and cooling external member 3, wherein:

the drying kit 2 comprises a guide bottom plate 21, a guide plate 22, a connecting column 23, a guide cover plate 24, a drying plate 25, a driving plate 26, a driving block 27, a pushing slide block 28 and a hydraulic cylinder, wherein the guide bottom plate 21 is installed on the installation frame 1 in a welding mode, the guide bottom plate 21 is uniformly provided with through grooves A, the guide bottom plate 21 is uniformly provided with the connecting column 23 in a welding mode along the circumferential direction, the connecting column 23 is provided with an annular fixing groove B, the number of the connecting columns 23 is four, the upper end of the guide bottom plate 21 is provided with the guide plate 22, the guide plate 22 is uniformly provided with through holes C with the same structure as the through grooves A, the bottom surface of the guide plate 22 is uniformly provided with connecting holes C matched with the connecting columns 23 in the circumferential direction, the guide cover plate 22 is provided with the guide cover plate 24 in a bolt connection mode, and the right end of the guide cover plate 24 is provided with the drying plate 25, the drying plate 25 is installed on the installation frame 1 in a welding mode, driving holes D are evenly formed in the drying plate 25, a driving plate 26 is arranged at the right end of the drying plate 25, driving blocks 27 matched with the driving holes D for use are evenly installed on the driving plate 26 in a welding mode, the driving plate 26 is installed on the installation frame 1 in a sliding connection mode, material passing holes E matched with the electroplated copper clad wires for use are evenly formed in the driving plate 26 and the drying plate 25, pushing sliders 28 are installed on the driving plate 26 in a welding mode, the pushing sliders 28 are installed on output shafts of a hydraulic cylinder, the hydraulic cylinder I is installed on the outer wall of the installation frame 1, when the electroplating copper clad wires needing to be dried are manually passed through the guiding plate 22, the drying plate 25 and the driving plate 26, and then the guiding cover plate 24 is installed on the guiding plate 22 manually by using bolts, and the rear drying plate 25 works to dry the electroplating copper-clad wire, so that the drying operation of the electroplating copper-clad wire is completed.

A first clamping column plate 221 and a second clamping column plate 222 are symmetrically arranged at the left end and the right end of the inner side of a connecting hole C on the guide plate 22, the first clamping column plate 221 is arranged on the inner wall of the guide plate 22 in a sliding connection mode, the second clamping column plate 222 is arranged on a sliding rod 223 in a welding mode, the sliding rod 223 is arranged on the inner wall of the guide plate 22 in a sliding connection mode, an aligning plate 224 is arranged on the sliding rod 223 in a welding mode, a threaded rod 225 is arranged on the outer side of the aligning plate 224 in a welding mode, a threaded rotating sleeve 226 which is mutually matched is arranged on the outer side of the threaded rod 225, the threaded rotating sleeve 226 is arranged inside the guide plate 22 in a rotating connection mode, a jacking cam 227 is arranged on the threaded rotating sleeve 226, a jacking rod 228 abuts against the jacking cam 227, the jacking rod 228 is arranged on the inner wall of the guide plate 22 in a sliding connection mode, a hand-pulling frame 229 is arranged on the outer side of the threaded rod 225 in a welding mode, hand-pulling frame 229 is located and leads on board 22 outer wall, in concrete during operation, the manual work will lead board 22 and insert back on leading bottom plate 21, spliced pole 23 on leading bottom plate 21 gets into and leads in board 22 connecting hole C, back through a calorie of post board 221 and the work of No. two calorie of post boards 222, thereby block spliced pole 23 and reach the fixed purpose of leading board 22, back manual pull hand-pulling frame 229, it gives threaded rod 225 outwards motion to drive, and then drive screw thread rotating sleeve 226 and rotate, and then drive top cam 227 and rotate, thereby support lift rod 228 through rotating cam 227 and pop out and to guide board 22 and jack up, thereby conveniently dismantle the maintenance.

The drying plate 25 is provided with driving columns 251 in a sliding connection mode, the middle area of each driving column 251 is provided with threads, the driving columns 251 are connected with a driving block 27 in a welding mode, the left end and the right end of each driving column 251 are symmetrically provided with thread sleeves 252, the thread sleeves 252 are installed between material passing holes E in a rotating connection mode, the outer sides of the thread sleeves 252 are symmetrically provided with rotating shifting blocks 253 in a welding mode, the outer sides of the rotating shifting blocks 253 abut against cleaning rings 254, the cleaning rings 254 are installed on the inner wall of the drying plate 25 in a rotating connection mode, the cleaning rings 254 are located inside the material passing holes E, when the drying plate works specifically, a first hydraulic cylinder works to push a sliding block 28 to move and further drive a driving block 26 to move so as to drive the driving plates 27 to move and further to drive the driving columns 251 to move, so as to drive one of the thread sleeves 252 to rotate through the threads on the driving columns 251, the rotating shifting block 253 is driven to rotate through the rotation of the threaded sleeve 252, and then the cleaning ring 254 is driven to be wound, so that the purpose of winding and drying the cleaning ring is achieved.

The cleaning ring 254 is provided with a ring-shaped chute F, cleaning columns 2541 are uniformly arranged inside the sliding chute F, the cleaning columns 2541 are arranged on the drying plate 25 in a welding mode, cleaning cloth 2542 is arranged on the cleaning columns 2541, a cloth collecting frame 2543 is arranged on the cleaning columns 2541 in a rotary connection mode, the cloth collecting frame 2543 is of a U-shaped structure and surrounds the cleaning cloth 2542, a connecting rod 2544 is arranged on the cloth collecting frame 2543 in a welding mode, the connecting rod 2544 is arranged on the traction column 2545 in a rotary connection mode, the traction column 2545 is arranged on the cleaning ring 254 in a welding mode, during specific work, the cleaning ring 254 rotates to drive the traction column 2545 to rotate, and further the connecting rod 2544 moves to drive the cloth collecting frame 2543 to rotate, so as to drive the cleaning cloth 2542 to be wound, so that the wound cleaning cloth 2524 is dried by the residual heat of the heating coil, thereby completing the cleaning cloth drying operation.

The aperture of the through groove A and the aperture of the through hole C are gradually reduced from left to right, and the aperture of the minimum position and the electroplated copper covered wire are matched with each other for use.

The first snap post plate 221 and the second snap post plate 222 are arc-shaped structures, and spherical balls capable of rolling are uniformly mounted on the first snap post plate 221 and the second snap post plate 222 in a bearing connection mode.

The drying plate 25 is internally provided with a heating coil which is of a ring-shaped structure.

Cooling external member 3 includes heat dissipation case 31, rotate fan 32 and driving motor, heat dissipation case 31 is installed on mounting bracket 1 through the welded mode, evenly set up on heat dissipation case 31 with the corresponding louvre F of punishment in advance hole E, heat dissipation case 31 is inside installs rotation fan 32 through the mode that the bearing is connected, it installs on driving motor's output shaft to rotate fan 32, driving motor passes through the motor cabinet and installs on mounting bracket 1 outer wall, concrete during operation, the copper-clad laminate wiring after 2 drying process of stoving external member passes heat dissipation case 31, back driving motor begins work, drive rotation fan 32 rotates, and then make the copper-clad laminate wiring cool off through the air flow, the copper-clad laminate wiring after the back will cool off takes out, thereby accomplish the purpose that the cooling was received the material.

The interior of the heat dissipation holes F on the heat dissipation box 31 is uniformly provided with re-applying rollers 311 in a bearing connection mode, and the re-applying rollers 311 are wrapped with water absorbing materials.

An annular ventilation flow channel is arranged inside the heat dissipation box 31, and a plurality of air blowing holes are uniformly formed in two sides of the heat dissipation hole F.

The production and processing technology of the electroplated copper covered wire specifically comprises the following steps:

s1, feeding operation: manually enabling the electroplated copper covered wire needing to be dried to pass through the guide plate 22, the drying plate 25, the driving plate 26 and the cooling kit 3, and then manually installing the guide cover plate 24 on the guide plate 22 by using bolts, so that the electroplated copper covered wire feeding operation is completed;

s2, drying operation: after the loading operation of step S1 is completed, the hydraulic cylinder works, the pushing slide block 28 on the drying sleeve 2 is pushed to move, and then the driving plate 26 is driven to move, so as to drive the driving block 27 to move, and further the drying plate 25 is driven to complete the drying operation, wherein the hydraulic cylinder works specifically: the first hydraulic cylinder works to push the pushing slider 28 to move so as to drive the driving plate 26 to move, thereby driving the driving block 27 to move, thereby driving the driving column 251 to move, thereby driving one of the thread sleeves 252 to rotate through the threads on the driving column 251, driving the rotating shifting block 253 to rotate through the rotation of the thread sleeve 252, further driving the cleaning ring 254 to rotate, further driving the traction column 2545 to rotate, further driving the cloth collecting frame 2543 to rotate through the connecting rod 2544, thereby driving the cleaning cloth 2542 to be wound, further drying the cleaning cloth 2524 after being wound through the residual heat of the heating coil, thereby completing the drying operation of the cleaning cloth, meanwhile, the other cleaning ring 254 is not acted by the driving column 251, so that the cleaning cloth 2542 is not contracted to clean the water stains on the surface of the electroplated copper covered wire, and the water stain which is not wiped clean of the electroplated copper-clad wire is dried by the temperature of the heating coil, so that the drying operation is completed;

s3, cooling and rolling: the electro-coppering covered wire dried by the drying kit 2 passes through the heat dissipation box 31, the driving motor starts to work to drive the rotating fan 32 to rotate, the electro-coppering covered wire is cooled through air flow, and then the cooled electro-coppering covered wire is taken out, so that the purpose of cooling and receiving materials is achieved;

s4, repeating the operation: and repeating the steps S1 to S3, and continuously carrying out water stain drying repeated operation on the electroplating copper-clad wire. The foregoing illustrates and describes the principles, general features, and advantages of the present invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are given by way of illustration of the principles of the present invention, and that various changes and modifications may be made without departing from the spirit and scope of the invention as defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (9)

1. The utility model provides an electroplating copper covered wire production processing technology, mainly accomplishes by the cooperation of electroplating copper covered wire production drying equipment, electroplating copper covered wire production drying equipment includes mounting bracket (1), stoving external member (2) and cooling external member (3), its characterized in that: the inside stoving external member (2) and the cooling external member (3) of turning right from a left side of mounting bracket (1) have set gradually, wherein:

the drying kit (2) comprises a guide bottom plate (21), a guide plate (22), connecting columns (23), a guide cover plate (24), a drying plate (25), a driving plate (26), a driving block (27), a pushing slide block (28) and a hydraulic cylinder I, wherein the guide bottom plate (21) is arranged on the mounting frame (1) in a welding mode, through grooves A are uniformly formed in the guide bottom plate (21), the connecting columns (23) are uniformly arranged on the guide bottom plate (21) in a welding mode along the circumferential direction of the guide bottom plate, annular fixing grooves B are formed in the connecting columns (23), the number of the connecting columns (23) is four, the guide plate (22) is arranged at the upper end of the guide bottom plate (21), through holes C which are consistent with the structure of the through grooves A are uniformly formed in the guide plate (22), and connecting holes C which are matched with the connecting columns (23) for use are uniformly formed in the bottom surface of the guide plate (22) along the circumferential direction of the guide plate (22), the guide cover plate (24) is installed on the guide plate (22) in a bolt connection mode, a drying plate (25) is arranged at the right end of the guide cover plate (24), the drying plate (25) is installed on the installation frame (1) in a welding mode, a driving hole D is uniformly formed in the drying plate (25), a driving plate (26) is arranged at the right end of the drying plate (25), a driving block (27) which is matched with the driving hole D for use is uniformly installed on the driving plate (26) in a welding mode, the driving plate (26) is installed on the installation frame (1) in a sliding connection mode, material passing holes E which are matched with an electroplated copper wrapping wire for use are uniformly formed in the driving plate (26) and the drying plate (25), a pushing sliding block (28) is installed on the driving plate (26) in a welding mode, the pushing sliding block (28) is installed on an output shaft of a hydraulic cylinder, and the hydraulic cylinder is installed on the outer wall of the installation frame (1);

the cooling kit (3) comprises a heat dissipation box (31), a rotating fan (32) and a driving motor, the heat dissipation box (31) is installed on the installation frame (1) in a welding mode, heat dissipation holes F corresponding to the material passing holes E are uniformly formed in the heat dissipation box (31), the rotating fan (32) is installed inside the heat dissipation box (31) in a bearing connection mode, the rotating fan (32) is installed on an output shaft of the driving motor, and the driving motor is installed on the outer wall of the installation frame (1) through a motor base;

the production and processing technology of the electroplated copper covered wire specifically comprises the following steps:

s1, feeding operation: manually enabling the electroplated copper clad wire needing to be dried to pass through the guide plate (22), the drying plate (25), the driving plate (26) and the cooling kit (3), and then manually installing the guide cover plate (24) on the guide plate (22) by using bolts, so that the electroplated copper clad wire feeding operation is completed;

s2, drying operation: after the feeding operation of the step S1 is completed, the first hydraulic cylinder works to push the pushing slide block (28) on the drying suite (2) to move, and then the driving plate (26) is driven to move, so that the driving block (27) is driven to move, and the drying plate (25) is driven to complete the drying operation;

s3, cooling and rolling: the electroplated copper covered wire dried by the drying kit (2) passes through the heat dissipation box (31), the driving motor starts to work to drive the rotating fan (32) to rotate, the electroplated copper covered wire is cooled through air flow, and then the cooled electroplated copper covered wire is taken out, so that the purpose of cooling and receiving materials is achieved;

s4, repeating the operation: and repeating the steps S1 to S3, and continuously carrying out water stain drying and repeating operation on the electroplated copper-clad wire.

2. The production and processing process of the electroplated copper covered wire according to claim 1, characterized in that: the aperture of the through groove A and the aperture of the through hole C are gradually reduced from left to right, and the aperture of the minimum position and the electroplated copper covered wire are matched with each other for use.

3. The production and processing process of the electrolytic copper plating covered wire according to claim 1, characterized in that: the left end and the right end of the inner side of a through hole C on the guide plate (22) are symmetrically provided with a first clamping column plate (221) and a second clamping column plate (222), the first clamping column plate (221) is installed on the inner wall of the guide plate (22) in a sliding connection mode, the second clamping column plate (222) is installed on a sliding rod (223) in a welding mode, the sliding rod (223) is installed on the inner wall of the guide plate (22) in a sliding connection mode, a leveling plate (224) is installed on the sliding rod (223) in a welding mode, a threaded rod (225) is installed on the outer side of the leveling plate (224) in a welding mode, threaded rotating sleeves (226) which are matched with each other are arranged on the outer side of the threaded rod (225), the threaded rotating sleeves (226) are installed inside the guide plate (22) in a rotating connection mode, jacking cams (227) are installed on the threaded rotating sleeves (226), and jacking rods (228) are abutted against the jacking cams (227), the jacking rod (228) is arranged on the inner wall of the guide plate (22) in a sliding connection mode, the outer side of the threaded rod (225) is provided with a hand-pulling rack (229) in a welding mode, and the hand-pulling rack (229) is positioned on the outer wall of the guide plate (22).

4. The production and processing process of the electrolytic copper plating covered wire according to claim 3, characterized in that: the first clamping column plate (221) and the second clamping column plate (222) are of arc structures, and spherical balls capable of rolling are uniformly arranged on the first clamping column plate (221) and the second clamping column plate (222) in a bearing connection mode.

5. The production and processing process of the electrolytic copper plating covered wire according to claim 1, characterized in that: and a heating coil is arranged in the drying plate (25), and the heating coil is of a ring-shaped structure.

6. The production and processing process of the electrolytic copper plating covered wire according to claim 1, characterized in that: install drive post (251) through sliding connection's mode on stoving board (25), drive post (251) middle zone is provided with the screw thread, drive post (251) link together through welded mode and drive block (27), both ends symmetry is provided with thread bush (252) about on drive post (251), thread bush (252) are installed between punishment in advance hole E through the mode of rotating the connection, rotation shifting block (253) are installed through welded mode symmetry in thread bush (252) outside, it has clearance ring (254) to rotate shifting block (253) outside to support to lean on, clearance ring (254) are installed on stoving board (25) inner wall through the mode of rotating the connection, clearance ring (254) are located inside punishment in advance hole E.

7. The production and processing process of the electrolytic copper plating covered wire according to claim 6, characterized in that: be provided with annular spout F on clearance ring (254), slide inside evenly being provided with of spout F and clear up post (2541), install on drying plate (25) through the welded mode in clearance post (2541), install cleaning cloth (2542) on clearance post (2541), install on clearance post (2541) through the mode of rotating the connection and receive cloth frame (2543), it is U type structure to receive cloth frame (2543), and cleaning cloth (2542) are surrounded, receive and install connecting rod (2544) through the welded mode on cloth frame (2543), connecting rod (2544) are installed on traction column (2545) through the mode of rotating the connection, traction column (2545) are installed on clearance ring (254) through the welded mode.

8. The production and processing process of the electrolytic copper plating covered wire according to claim 1, characterized in that: the interior of a heat dissipation hole F on the heat dissipation box (31) is uniformly provided with a re-smearing roller (311) in a bearing connection mode, and the re-smearing roller (311) is wrapped with a water absorbing material.

9. The production and processing process of the electrolytic copper plating covered wire according to claim 1, characterized in that: an annular ventilation flow channel is arranged inside the heat dissipation box (31), and a plurality of air blowing holes are uniformly formed in two sides of the heat dissipation hole F.

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