CN116511916B

CN116511916B - Full-automatic production processingequipment of copper bar

Info

Publication number: CN116511916B
Application number: CN202310477105.5A
Authority: CN
Inventors: 许斯达; 黄萍; 邓益凡
Original assignee: Guangzhou Sunnyway Metal Products Co ltd
Current assignee: Guangzhou Sunnyway Metal Products Co ltd
Priority date: 2023-04-28
Filing date: 2023-04-28
Publication date: 2024-01-30
Anticipated expiration: 2043-04-28
Also published as: CN116511916A

Abstract

The invention discloses a full-automatic copper bar production and processing device, relates to the technical field of copper bar production and processing, and solves the problems that logistics, turnover burden increase, production cycle extension, excessive labor cost and low working efficiency are caused by scattered processing procedures and different departments. The utility model provides a full-automatic production processingequipment of copper bar, includes disc feeder, vertical flattening module, the module of punching a hole, polishing module, cuts off the module of buckling, vertical flattening module and polishing module interval each other and be located the centre of disc feeder and the module of punching a hole, the module of punching a hole and the module of cutting off the module of buckling respectively. The invention integrates feeding, shaping, punching, polishing, cutting and bending forming on the same production line, can intensively optimize resources, reduce bad loss generated by the original production mode, save personnel, overcome turnover of logistics, greatly improve production efficiency and reduce the cost of products.

Description

Full-automatic production processingequipment of copper bar

Technical Field

The invention relates to the technical field of copper bar production and processing, in particular to a full-automatic copper bar production and processing device.

Background

The copper bar is a sheet-shaped workpiece manufactured by processing copper as a raw material, and the copper bar is often required to be subjected to multiple working procedures including the working procedures of feeding the automobile copper bar, leveling the raw material, blanking, cutting, polishing, cutting, forming, manual inspection, packaging and the like;

the copper bar is often applied to occasions such as power equipment, automobile power components and the like, and at present, the automobile copper bar is extremely strict in appearance requirement due to long and thick products, so that a plurality of steps such as shaping, punching, polishing, forming, packaging and the like are usually required to be disassembled for processing, and the steps belong to different processing departments.

The scattered and separate processing procedures can lead to the increase of logistics and turnover burden, the prolongation of production period, excessive labor cost and low working efficiency; therefore, the existing requirements are not met, and a full-automatic copper bar production and processing device is provided.

Disclosure of Invention

The invention aims to provide a full-automatic copper bar production and processing device, which solves the problems that the distributed and separated processing procedures in the background technology can cause logistics, increased turnover burden, prolonged production period, excessive labor cost, low working efficiency and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a full-automatic production processingequipment of copper bar, includes disc feeder, vertical flattening module, punching a hole module, polishing module, cuts off the bending module, vertical flattening module and polishing module interval each other and be located disc feeder and punching a hole module, punching a hole module and cut off the centre of bending module respectively, vertical flattening module includes equipment shell and the front and back terminal surface of equipment outside all is provided with the bar hole that runs through, the inside of equipment shell is provided with interval adjustable roller bearing, adjustable roller bearing is connected through the gear box;

the punching module comprises a supercharged cylinder, a fixed sliding block seat and a detachable punching die, the detachable punching die comprises a punching fixed die, a punching movable die and a movable die holder, the movable die holder is connected with the movable end part of the supercharged cylinder, the punching movable die is arranged on the movable die holder and positioned between the two fixed sliding block seats, the punching movable die and the punching fixed die clamp a steel coil belt in the middle, and a photoelectric sensor is arranged on the side of the punching movable die;

the polishing module comprises a supporting base, a positioning roller and detachable polishing wheels, wherein the positioning roller is positioned at two sides of the detachable polishing wheels, a steel tape passes through the middle of the positioning roller and the detachable polishing wheels, and the distance between the detachable polishing wheels is smaller than or equal to the thickness of the steel tape;

the cutting and bending module comprises a driving cylinder, a cutting and bending movable module, a first bearing seat, a second bearing seat and a bending fixed module, wherein the driving cylinder is positioned on the surface of the first bearing seat, the movable end part of the driving cylinder is connected with the cutting and bending movable module, the bending fixed module is fixed on the surface of the second bearing seat, the cutting and bending movable module is provided with a bending punch towards the end face of the cutting and bending movable module, one side of the bending punch on the end face of the cutting and bending movable module is provided with a cutting punch, and a material guiding inclined plate is arranged above the two bending fixed modules, and the bottom end of the material guiding inclined plate is fixed on the surface of the second bearing seat.

The middle of the two cutting-off bending moving modules is provided with a finished product upward moving module, the finished product upward moving module comprises a moving plate, a moving gear strip, a synchronous gear, a lifting gear strip, a finished product upward moving bearing plate and a supporting shaft rod, the moving gear strip is fixed in the middle of the bottom surface of the moving plate and is meshed with the synchronous gear positioned below the moving plate, one side of the lifting gear strip is meshed with another synchronous gear, and the axes of the two synchronous gears coincide.

Preferably, the finished product up-shifting bearing plate is located above the lifting gear strip, an inward groove is formed in the middle of the side surface of the finished product up-shifting bearing plate, facing the top end of the lifting gear strip, the width dimension of the groove is consistent with the thickness dimension of the lifting gear strip, a connecting shaft pin is arranged at the top end of the lifting gear strip in a penetrating mode, and two ends of the connecting shaft pin are inserted into the inner wall of the groove and a torsion spring is arranged between the connecting shaft pin and the inner wall of the finished product up-shifting bearing plate.

Preferably, the supporting shaft rod penetrates through the middle of the two synchronous gears, two ends of the supporting shaft rod are inserted into the inner wall of the second bearing seat, two ends of the supporting shaft rod are supported by ball bearings, and the two synchronous gears are connected with the supporting shaft rod through fixing pins.

The surface of disc feeder is provided with the coil of strip and tightens up the design module, the coil of strip tightens up the design module and includes central holding ring, extension board, coil of strip clamp plate, adjusting screw, outside cylinder compression roller and inboard activity spacing briquetting, the extension board has a plurality of and around the outside of central holding ring's the circular array distribution of axis, inboard activity spacing briquetting and outside cylinder compression roller all are located the below of extension board, adjusting screw's bottom runs through the coil of strip clamp plate and is connected with the extension board, adjusting screw passes through screw drive with the coil of strip clamp plate.

The device comprises an outer cylindrical press roll, a front end surface and a rear end surface of the outer cylindrical press roll, wherein a connecting shaft rod is arranged in the middle of the upper end and the lower end of the outer cylindrical press roll, an adjusting slide block is arranged at the top end of the connecting shaft rod, an adjusting screw rod is arranged in the middle of the front end surface and the rear end surface of the extending plate in a penetrating manner, the adjusting slide block and the adjusting screw rod are in threaded transmission, two ends of the adjusting screw rod are inserted into the extending plate, an adjusting motor is arranged at one end side of the adjusting screw rod, a driving gear is arranged on an output shaft of the adjusting motor, and an adjusting gear meshed with the driving gear is arranged at one side of the driving gear and fixed on the outer surface of the adjusting screw rod;

the top of inboard activity spacing briquetting is fixed to be provided with and removes the slider, the top slip joint of removing the slider is in the bottom surface of extension board, it runs through and is provided with the guide bar to remove the top of slider, the both ends of guide bar are all fixed on the inner wall of extension board and one end outside cover have spacing hold-down spring, spacing hold-down spring is located the centre of removing slider and extension board.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the feeding, shaping, punching, polishing, cutting and bending are integrated on the same production line, so that resources can be intensively optimized, bad loss generated in the original production mode is reduced, personnel are saved, turnover of logistics is overcome, production efficiency is greatly improved, and cost of products is reduced;

2. according to the invention, the steel coiled belt placed on the disc feeder can be tightened in the feeding process by using the steel coiled belt pressing plate, the adjusting screw, the outer cylindrical pressing roller, the inner movable limiting pressing block and the limiting pressing spring, so that the steel coiled belt is prevented from bouncing back to the periphery, and the life safety of surrounding staff is ensured;

2. according to the invention, the finished product upward moving module capable of being linked with the cutting and bending module is arranged, after the workpiece is subjected to bending forming, the flattened workpiece is moved upward to be removed from the cutting and bending module in the mold opening process, and the flattened workpiece slides onto the conveyor belt through the surface of the material guiding inclined plate, so that manual taking is not required, the operation time is saved, the working efficiency is improved, and the safety of staff is ensured.

Drawings

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

fig. 2 is a schematic structural view of the tightening and shaping module of the steel coil belt of the present invention;

fig. 3 is a partial structural sectional view of the steel coil belt tightening and shaping module of the present invention;

FIG. 4 is a schematic diagram of a final product up-shifting module according to the present invention;

FIG. 5 is an enlarged view of the structure of FIG. 4 in accordance with the present invention;

fig. 6 is a schematic structural view of the moving plate of the present invention.

In the figure: 1. a disc feeder; 2. a vertical leveling module; 3. a punching module; 4. a polishing module; 5. cutting off the bending module; 501. a driving cylinder; 502. cutting off the bending movable module; 503. a first bearing seat; 504. a second bearing seat; 505. a bending fixing module; 6. the steel tape tightening and shaping module; 601. a center positioning ring; 602. an extension plate; 603. a steel coil belt pressing plate; 604. an adjusting screw; 605. an outer cylindrical press roll; 606. a limit pressing block is movably arranged on the inner side; 607. an adjusting slide block; 608. adjusting a screw rod; 609. adjusting a motor; 610. a limit compression spring; 611. moving the slide block; 7. a material guiding sloping plate; 8. a finished product up-shifting module; 801. a moving plate; 802. moving the gear bar; 803. a synchronizing gear; 804. lifting gear bars; 805. the finished product moves up the bearing plate; 806. and a supporting shaft lever.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

The regulating motor (model 5IK60 RGN-CF) is available from market purchase or private customization.

Referring to fig. 1 to 6, an embodiment of the present invention provides: the utility model provides a full-automatic production processingequipment of copper bar, including disc feeder 1, vertical flattening module 2, punch a hole module 3, polishing module 4, cut off bending module 5, vertical flattening module 2 and polishing module 4 interval each other and lie in disc feeder 1 and punch a hole module 3 respectively, punch a hole module 3 and cut off bending module 5 in the centre, vertical flattening module 2 includes the equipment shell and the front and back terminal surface outside the equipment all is provided with the bar hole that runs through, the inside of equipment shell is provided with interval adjustable roller bearing, adjustable roller bearing is connected through the gear box;

the punching module 3 comprises a supercharged cylinder, a fixed sliding block seat and a detachable punching die, wherein the detachable punching die comprises a punching fixed die, a punching movable die and a movable die holder, the movable die holder is connected with the movable end part of the supercharged cylinder, the punching movable die is arranged on the movable die holder and positioned in the middle of the two fixed sliding block seats, the punching movable die and the punching fixed die clamp a steel coil strip in the middle, and a photoelectric sensor is arranged on the side of the punching movable die;

the polishing module 4 comprises a supporting base, a positioning roller and detachable polishing wheels, wherein the positioning roller is positioned at two sides of the detachable polishing wheels, the steel tape passes through the middle of the positioning roller and the detachable polishing wheels, and the distance between the detachable polishing wheels is smaller than or equal to the thickness of the steel tape;

the cutting and bending module 5 comprises a driving cylinder 501, a cutting and bending movable module 502, a first bearing seat 503, a second bearing seat 504 and a bending and fixing module 505, wherein the driving cylinder 501 is positioned on the surface of the first bearing seat 503, the movable end part of the driving cylinder is connected with the cutting and bending movable module 502, the bending and fixing module 505 is fixed on the surface of the second bearing seat 504, the end face of the cutting and bending movable module 502 facing the cutting and bending movable module 502 is provided with a bending punch, one side of the bending punch on the end face of one cutting and bending movable module 502 is provided with a cutting punch, and the upper parts of the two bending and fixing modules 505 are provided with a material guiding inclined plate 7, the material guiding inclined plate 7 is inclined, and the bottom end of the material guiding inclined plate 7 is fixed on the surface of the second bearing seat 504.

The middle of the two cutting bending moving modules 502 is provided with a finished product up-moving module 8, the finished product up-moving module 8 comprises a moving plate 801, a moving gear strip 802, a synchronous gear 803, a lifting gear strip 804, a finished product up-moving bearing plate 805 and a supporting shaft rod 806, the moving gear strip 802 is fixed in the middle of the bottom surface of the moving plate 801 and is meshed with the synchronous gear 803 positioned below the moving plate 801, the lifting gear strip 804 is positioned on one side of the moving gear strip 802 and is meshed with the other synchronous gear 803, and the axes of the two synchronous gears 803 are coincident.

Wherein, the finished product moves up the loading board 805 and is located the top of lifting gear strip 804, the finished product moves up the loading board 805 and is provided with inward recess towards the side centre on lifting gear strip 804 top, the width dimension of recess is unanimous with lifting gear strip 804 thickness dimension, lifting gear strip 804 top runs through and is provided with the connecting axle pin, the both ends of connecting axle pin all peg graft in the inner wall of recess and be provided with the torsional spring with the finished product in the middle of the inner wall of moving up loading board 805.

Through adopting above-mentioned technical scheme, when two cut-off bending move the module 502 and accomplish and cut off and reset after the bending shaping step, the movable plate 801 can be through the lift gear strip 804 at movable gear strip 802 top to move up for finished product shift up loading board 805 is along with lift gear strip 804 removal with the upward jack-up of finished product work piece, and finished product shift up loading board 805 receives the restriction on guide swash plate 7 top and downward sloping afterwards, can shift to guide swash plate 7 with finished product work piece from the finished product shift up loading board 805 surface after the slope and slide on the conveyer belt along guide swash plate 7.

The supporting shaft rod 806 penetrates through the middle of the two synchronizing gears 803, two ends of the supporting shaft rod 806 are inserted into the inner wall of the second bearing seat 504, two ends of the supporting shaft rod 806 are supported by ball bearings, and the two synchronizing gears 803 are connected with the supporting shaft rod 806 through fixing pins.

Through adopting above-mentioned technical scheme, guarantee through support axostylus axostyle 806 that two synchromesh 803 remain coaxial, and can carry out synchronous revolution for smooth top lift gear strip 804 carries out the reciprocating when moving of movable plate 801.

The surface of disc feeder 1 is provided with coil of strip tightening and shaping module 6, coil of strip tightening and shaping module 6 includes central holding ring 601, extension board 602, coil of strip clamp plate 603, adjusting screw 604, outside cylinder compression roller 605 and inboard activity spacing briquetting 606, extension board 602 has a plurality ofly and around the outside of central holding ring 601's the circular array distribution in central holding ring 601 of axis, inboard activity spacing briquetting 606 and outside cylinder compression roller 605 all are located the below of extension board 602, the bottom of adjusting screw 604 runs through coil of strip clamp plate 603 and is connected with extension board 602, adjusting screw 604 passes through screw thread drive with coil of strip clamp plate 603.

Wherein, the upper and lower end centre of outside cylinder compression roller 605 is used out and is provided with the connecting axle pole, the top of connecting the axostylus axostyle is provided with adjusting slide 607, the middle adjusting screw 608 that runs through of adjusting slide 607 joint in the bottom surface and front and back terminal surface of extension board 602 is provided with adjusting screw 608, through screw drive between adjusting slide 607 and the adjusting screw 608, the inside and one end side at extension board 602 are all pegged graft at adjusting screw 608's both ends and are provided with accommodate motor 609, be provided with drive gear on the output shaft of accommodate motor 609, one side of drive gear is provided with rather than the adjusting gear of meshing and adjusting gear fixes the surface at adjusting screw 608.

Through adopting above-mentioned technical scheme, can change the interval size between outside cylinder compression roller 605 and the inboard movable limit briquetting 606 according to the thickness size of steel winding, better carry out the centre gripping to the coil of strip and tighten up.

The top end of the inner movable limiting pressing block 606 is fixedly provided with a movable sliding block 611, the top end of the movable sliding block 611 is slidably clamped on the bottom surface of the extension plate 602, the top end of the movable sliding block 611 is provided with a guide rod in a penetrating manner, two ends of the guide rod are fixed on the inner wall of the extension plate 602, one end of the guide rod is sleeved with a limiting compression spring 610, and the limiting compression spring 610 is located between the movable sliding block 611 and the extension plate 602.

Through adopting above-mentioned technical scheme, when the thickness reduces gradually in the pay-off process is carried out to the coil of strip through spacing hold-down spring 610, inboard activity spacing briquetting 606 can be hugged closely the coil of strip inboard and remove, with the coil of strip centre gripping throughout tighten up in the centre of outside cylinder compression roller 605 and extension board 602, guarantee that the steel winding can not spring out to the outside.

Working principle: when the polishing device is used, firstly, a steel coil belt is placed on the surface of a disc feeder 1, the center of a steel coil belt is overlapped with the center of a center positioning ring 601, then an inner movable limiting pressing block 606 is tightly attached to the inner surface of the steel coil belt, an adjusting motor 609 is started after a device power supply is connected, the adjusting motor 609 drives an adjusting screw 608 to rotate through gear transmission so as to drive an adjusting slide block 607 to move along the axis of the adjusting screw 608, the adjusting slide block 607 drives an outer cylindrical pressing roller 605 to move outwards until the outer cylindrical pressing roller 605 is attached to the outer side of the steel coil belt, then the end part of the steel coil belt passes through the middle of an adjustable roller in a vertical leveling module 2 and is kept flat through the extrusion of the adjustable roller, the flattened steel coil belt enters a punching module 3, the steel coil belt performs punching operation in the punching module 3, the steel coil belt forms holes with uniform intervals on the steel coil belt, the punched steel coil belt passes through the middle of a detachable polishing wheel in a polishing module 4, the steel coil belt is polished by the detachable polishing wheels positioned on two sides of the steel coil belt when passing through the detachable polishing wheel, and the polished belt enters the polishing module 502 in the middle of the bending and the polishing module;

the driving cylinder 501 drives the cutting bending movable module 502 to move towards the bending fixed module 505 until the cutting bending movable module 502 is attached to the bending fixed module 505, in the process that the cutting bending movable module 502 moves towards the bending fixed module 505, the cutting punch on one cutting bending movable module 502 surface is firstly contacted with the steel coil and cuts off the steel coil, then the bending punches on the two cutting bending movable modules 502 surfaces bend two ends of the cut steel coil, after the bending forming is finished, the driving cylinder 501 drives the cutting bending movable module 502 to reset, then the cutting bending movable module 502 drives the moving plate 801 to move so as to move the moving gear bar 802, two synchronous gears 803 positioned on the outer side of the supporting shaft 806 rotate and make the lifting gear bar 804 move upwards, at this time, the lifting gear 804 drives the product up-moving bearing plate 805 to move upwards and move the copper bar of the product upwards through the product up-moving bearing plate 805, the product up-moving bearing plate 805 gradually approaches to the top end of the guide inclined plate 7 and contacts with the top end of the guide inclined plate 7 along with the up-moving of the product up-moving bearing plate 805, the product up-moving bearing plate 805 tilts downwards after the product up-moving bearing plate 805 contacts with the order of the guide inclined plate 7, and the product copper bar slides from the surface of the product up-moving bearing plate 805 to the surface of the guide inclined plate 7 and slides on the conveyor belt along the guide inclined plate 7 after the product up-moving bearing plate 805 tilts downwards, so that resources can be optimized intensively, bad loss generated in the original production mode is reduced, personnel are saved, turnover of logistics is overcome, production efficiency is greatly improved, and product cost is reduced.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a full-automatic production processingequipment of copper bar, includes disc feeder (1), vertical flattening module (2), module (3) punches a hole, polishing module (4), cuts off bending module (5), its characterized in that: the vertical leveling module (2) and the polishing module (4) are mutually spaced and respectively positioned between the disc feeder (1) and the punching module (3), between the punching module (3) and the cutting and bending module (5), the vertical leveling module (2) comprises an equipment shell, the front end face and the rear end face of the outer side of the equipment are respectively provided with a penetrating strip-shaped hole, the inside of the equipment shell is provided with a spacing adjustable roller, and the adjustable rollers are connected through a gear box;

the punching module (3) comprises a supercharged cylinder, a fixed sliding block seat and a detachable punching die, the detachable punching die comprises a punching fixed die, a punching movable die and a movable die holder, the movable die holder is connected with the movable end part of the supercharged cylinder, the punching movable die is arranged on the movable die holder and positioned between the two fixed sliding block seats, the punching movable die and the punching fixed die clamp a steel coil strip in the middle, and a photoelectric sensor is arranged on the side of the punching movable die;

the polishing module (4) comprises a supporting base, a positioning roller and detachable polishing wheels, wherein the positioning roller is positioned at two sides of the detachable polishing wheels, a steel tape passes through the middle of the positioning roller and the detachable polishing wheels, and the distance between the detachable polishing wheels is smaller than or equal to the thickness of the steel tape;

the cutting and bending module (5) comprises a driving cylinder (501), a cutting and bending movable module (502), a first bearing seat (503), a second bearing seat (504) and a bending fixed module (505), wherein the driving cylinder (501) is positioned on the surface of the first bearing seat (503) and the movable end part of the driving cylinder is connected with the cutting and bending movable module (502), the bending fixed module (505) is fixed on the surface of the second bearing seat (504), a bending punch is arranged on the end face of the cutting and bending movable module (502) towards the cutting and bending movable module (502), a cutting punch is arranged on one side of the bending punch on the end face of one cutting and bending movable module (502), and a material guiding inclined plate (7) is arranged above the two bending fixed modules (505) and is inclined and the bottom end of the material guiding inclined plate (7) is fixed on the surface of the second bearing seat (504);

a finished product upward moving module (8) is arranged in the middle of the two cutting and bending moving modules (502), the finished product upward moving module (8) comprises a moving plate (801), a moving gear strip (802), a synchronous gear (803), a lifting gear strip (804), a finished product upward moving bearing plate (805) and a supporting shaft rod (806), the moving gear strip (802) is fixed in the middle of the bottom surface of the moving plate (801) and is meshed with the synchronous gear (803) positioned below the moving plate, the lifting gear strip (804) is positioned on one side of the moving gear strip (802) and is meshed with the other synchronous gear (803), and the axes of the two synchronous gears (803) are coincident;

the surface of disc feeder (1) is provided with coil of strip and tightens up design module (6), coil of strip tightens up design module (6) including central holding ring (601), extension board (602), coil of strip clamp plate (603), adjusting screw (604), outside cylinder compression roller (605) and inboard activity spacing briquetting (606), extension board (602) have a plurality of and around the outside of central holding ring (601) axis circular array distribution in central holding ring (601), inboard activity spacing briquetting (606) and outside cylinder compression roller (605) all are located the below of extension board (602), the bottom of adjusting screw (604) runs through coil of strip clamp plate (603) and is connected with extension board (602), adjusting screw (604) pass through screw drive with coil of strip clamp plate (603).

2. The full-automatic copper bar production and processing device according to claim 1, wherein: the finished product up-shifting bearing plate (805) is located above the lifting gear strip (804), an inward groove is formed in the middle of the side face, facing the top end of the lifting gear strip (804), of the finished product up-shifting bearing plate (805), and the width size of the groove is consistent with the thickness size of the lifting gear strip (804).

3. The full-automatic copper bar production and processing device according to claim 2, wherein: the top end of the lifting gear strip (804) is provided with a connecting shaft pin in a penetrating way, two ends of the connecting shaft pin are inserted into the inner wall of the groove, and a torsion spring is arranged between the connecting shaft pin and the inner wall of the finished product up-moving bearing plate (805).

4. The full-automatic copper bar production and processing device according to claim 1, wherein: the supporting shaft rod (806) penetrates through the middle of the two synchronous gears (803), two ends of the supporting shaft rod (806) are inserted into the inner wall of the second bearing seat (504) and supported by ball bearings at two ends, and the two synchronous gears (803) are connected with the supporting shaft rod (806) through fixing pins.

5. The full-automatic copper bar production and processing device according to claim 1, wherein: the middle of the upper end and the lower end of the outer cylindrical press roller (605) is provided with a connecting shaft rod, the top end of the connecting shaft rod is provided with an adjusting slide block (607), and the adjusting slide block (607) is clamped on the bottom surface of the extension plate (602) and the middle of the front end surface and the rear end surface is provided with an adjusting screw rod (608) in a penetrating way.

6. The full-automatic copper bar production and processing device according to claim 5, wherein: the adjusting slide block (607) is in threaded transmission with the adjusting screw rod (608), two ends of the adjusting screw rod (608) are inserted into the extending plate (602), an adjusting motor (609) is arranged at one end side of the adjusting screw rod, a driving gear is arranged on an output shaft of the adjusting motor (609), and one side of the driving gear is provided with an adjusting gear meshed with the driving gear and the adjusting gear is fixed on the outer surface of the adjusting screw rod (608).

7. The full-automatic copper bar production and processing device according to claim 1, wherein: the top end of the inner movable limiting pressing block (606) is fixedly provided with a movable sliding block (611), and the top end of the movable sliding block (611) is in sliding clamping connection with the bottom surface of the extension plate (602).

8. The full-automatic copper bar production and processing device according to claim 7, wherein: the top of the movable sliding block (611) is provided with a guide rod in a penetrating manner, two ends of the guide rod are fixed on the inner wall of the extension plate (602), a limiting compression spring (610) is sleeved outside one end of the guide rod, and the limiting compression spring (610) is positioned between the movable sliding block (611) and the extension plate (602).