CN-121988805-A - Multi-station linkage forming structure for copper processing

CN121988805ACN 121988805 ACN121988805 ACN 121988805ACN-121988805-A

Abstract

The invention relates to the technical field of copper processing, and discloses a multi-station linkage forming structure for copper processing, which comprises a carrier plate, wherein a straightening mechanism for straightening copper bars is arranged on the upper surface of the carrier plate, the straightening mechanism comprises a processing frame arranged on the upper surface of the carrier plate, three mounting grooves are formed in the processing frame, and a motor is arranged in each mounting groove. According to the invention, the telescopic rod drives the cutter to cut, and meanwhile, the mounting frame is driven to automatically incline through the linkage of the pressing strip, the connecting rod, the pull rod and the pull rope, so that the cut copper rod section slides to the conveying belt along the inclined plane, no additional transferring step is needed, seamless connection of cutting and blanking is realized, the processing efficiency is remarkably improved, each station is matched through mechanical structure linkage, a complete automatic flow is formed from feeding, straightening and cutting to blanking, the manual intervention is reduced, the labor intensity is reduced, meanwhile, the error caused by manual operation is avoided, and the processing efficiency and the quality of finished products are both considered.

Inventors

HU CHAOJIE
Su Sande
CUI KEWEI
Yun Kefeng
WANG DONGQI

Assignees

河南富航铜业有限公司

Dates

Publication Date: 20260508
Application Date: 20260309

Claims (10)

1. The utility model provides a multistation linkage shaping structure for copper processing, includes carrier plate (1), its characterized in that, the upper surface of carrier plate (1) is provided with straightening mechanism (2) that are used for the bar copper to straighten, straightening mechanism (2) are including installing processing frame (21) at carrier plate (1) upper surface, three mounting groove (213) have been seted up to the inside of processing frame (21), internally mounted of mounting groove (213) has motor (212), and is three straightening wheel (211) are all installed to the drive end of motor (212), and is three straightening wheel (211) are the staggered placement for extrude the bar copper, the upper surface of carrier plate (1) is provided with cutting mechanism (3) that are used for the bar copper to cut, cutting mechanism (3) are including first extension board (31), the upper surface fixed connection of first extension board (31) and carrier plate (1), the both sides of first extension board (31) all sliding connection have sliding sleeve (35), two one side bearer (35) are kept away from each other fixed connection has side bearer (36) to cut cutter (37) and are used for keeping away from fixed cutter (37).
2. The multi-station linkage forming structure for copper material processing is characterized in that a feed inlet (22) is fixedly connected to one side, far away from a cutter (37), of the processing frame (21), a discharge outlet (210) is arranged on one side, far away from the feed inlet (22), of the processing frame (21), and the feed inlet (22) and the axis of the discharge outlet (210) are in the same straight line.
3. The multi-station linkage forming structure for copper processing according to claim 2, wherein the inner wall of one end of the feed inlet (22) far away from the processing frame (21) is a conical opening.
4. The multi-station linkage forming structure for copper material processing is characterized in that one side of the processing frame (21) is rotatably connected with an access door (23) through a hinge, an observation window (25) is arranged in the access door (23), a bolt (26) is connected with the inner wall of the access door (23) in a threaded mode, a clamping plate (27) is fixedly connected with the inner wall of the processing frame (21), one end of the bolt (26) is inserted into the clamping plate (27) in a threaded mode, a baffle (28) is fixedly connected with the inner wall of the processing frame (21), a magnet (29) is fixedly connected with the inner wall of the baffle (28) and used for adsorbing the access door (23), and a supporting frame (24) is fixedly connected with the surface of the access door (23).
5. The multi-station linkage forming structure for copper material processing is characterized in that two symmetrically arranged supporting blocks (325) are fixedly connected to the upper surface of the carrier plate (1), a mounting frame (38) is rotatably connected between the two supporting blocks (325), a guide roller (311) is rotatably connected to the inner wall of the mounting frame (38), a positioning seat (312) is fixedly connected to the lower surface of the mounting frame (38), a first connecting seat (313) is rotatably connected to the inner wall of the positioning seat (312), a push rod (314) is fixedly connected to one end of the first connecting seat (313), a sleeve (315) is slidably connected to the push rod (314), a second connecting seat (316) is fixedly connected to the lower end of the sleeve (315), a base (317) is fixedly connected to the upper surface of the carrier plate (1), a stabilizing spring (318) is fixedly connected to the lower surface of the first connecting seat (313), and the stabilizing spring (318) is sleeved on the upper surface of the slide rod (35) and the lower surface of the second connecting seat (316).
6. The multi-station linkage forming structure for copper material processing is characterized in that a carrying rod (319) is fixedly connected to the upper surface of the processing frame (21), two mounting frames (320) are fixedly connected to one side of the carrying rod (319), a telescopic rod (321) is fixedly connected to the inside of each mounting frame (320), a control frame (322) is fixedly connected to the driving end of each telescopic rod (321), and one side of each control frame (322) is fixedly connected with a cutter (37).
7. The multi-station linkage forming structure for copper processing is characterized in that a second support plate (326) is fixedly connected to the upper surface of the carrier plate (1), sliding holes (33) are formed in the surfaces of the second support and the first support, pull rods (39) are slidably connected to the inner walls of the sliding holes (33), protruding blocks (32) are fixedly connected to the two ends of the pull rods (39), a pull rope (310) is fixedly connected to one side of the pull rods (39), and one end, far away from the pull rods (39), of the pull rope (310) is fixedly connected with the lower surface of the mounting frame (38).
8. The multi-station linkage forming structure for copper processing is characterized in that a positioning spring (34) is fixedly connected to the lower surface of the protruding block (32), the lower end of the positioning spring (34) is fixedly connected with the upper surface of the carrier plate (1), a connecting rod (324) is fixedly connected to the upper surface of the pull rod (39), a pressing strip (323) is fixedly connected to the upper end of the connecting rod (324), and the cutter (37) is located right above the pressing strip (323).
9. The multi-station linkage forming structure for copper material processing is characterized in that a blanking mechanism (4) is arranged on the upper surface of the carrier plate (1), the blanking mechanism (4) comprises mounting legs (41), the mounting legs (41) are fixedly connected with the upper surface of the carrier plate (1), a stabilizing plate (42) is fixedly connected with the upper ends of the mounting legs (41), a conveying belt (45) is arranged in the stabilizing plate (42), the conveying belt (45) is located on one side of a mounting frame (38), and a protection plate (43) is arranged on one side of the carrier plate (1).
10. The multi-station linkage forming structure for copper processing according to claim 9, wherein a buffer block (44) is arranged on one side of the protection plate (43), and a rubber strip (46) is fixedly connected to the surface of the conveying belt (45).

Description

Multi-station linkage forming structure for copper processing Technical Field The invention relates to the technical field of copper processing, in particular to a multi-station linkage forming structure for copper processing. Background Copper processing refers to the process of subjecting copper and copper alloy raw materials to a series of physical or chemical treatments to form specific shape, size and performance products. At present, most copper materials are processed and operated usually through a plurality of independent stations, copper rods are straightened and then are manually transported to slitting stations, so that the labor intensity is increased, secondary deformation is easily caused by collision and offset in the transportation process, the processing precision is influenced, and therefore, the multi-station linkage forming structure for copper material processing is provided. Disclosure of Invention Aiming at the defects of the prior art, the invention provides a multi-station linkage forming structure for copper processing, which solves the problems that most copper is processed through a plurality of independent stations, copper bars are required to be manually transferred to a slitting station after being straightened, the labor intensity is increased, secondary deformation is easily caused by collision and offset in the transfer process, and the processing precision is influenced. The copper bar processing multi-station linkage forming structure comprises a carrier plate, wherein a straightening mechanism for straightening copper bars is arranged on the upper surface of the carrier plate, the straightening mechanism comprises a processing frame arranged on the upper surface of the carrier plate, three mounting grooves are formed in the processing frame, a motor is arranged in each mounting groove, straightening wheels are arranged at the driving ends of the motor, the straightening wheels are arranged in a staggered mode and used for extrusion straightening of the copper bars, a slitting mechanism for the copper bars is arranged on the upper surface of the carrier plate, the slitting mechanism comprises a first support plate fixedly connected with the upper surface of the carrier plate, sliding sleeves are connected to the two sides of the first support plate in a sliding mode, side frames are fixedly connected to one sides of the sliding sleeves, which are far away from the sliding sleeves, of the side frames, cutters are fixedly connected to one another, and the telescopic rods are used for slitting the straightened copper bars. Preferably, one side fixedly connected with feed inlet of cutter is kept away from to the processing frame, the discharge gate is installed to one side that the feed inlet was kept away from to the processing frame, the feed inlet is in on same straight line with the axle center of discharge gate, and three staggered straightening wheels rotate under motor drive in step, corrects copper bar surface and internal stress comprehensively through extrusion effort, effectively eliminates bending deformation, ensures that the copper bar reaches the required straightness requirement of processing, and the observation window design of access door makes things convenient for real-time supervision straightening state, is convenient for in time adjust the parameter, further promotes the straightening precision. Preferably, the one end inner wall that the processing frame was kept away from to the feed inlet is the toper opening, and the feed inlet adopts the toper opening design, collocation feed inlet and the axle center collineation overall arrangement of discharge gate, and dual guarantee bar copper accurately gets into straightening mechanism, avoids the machining error that the feeding skew leads to, provides stable route for whole smooth and easy the carrying of bar copper simultaneously, reduces and carries the card and ton problem. Preferably, one side of processing frame is connected with the access door through the hinge rotation, the internally mounted of access door has the observation window, the inner wall threaded connection of access door has the bolt, the inner wall fixedly connected with cardboard of processing frame, in the cardboard was inserted to the one end screw thread of bolt, the inner wall fixedly connected with baffle of processing frame, the inner wall fixedly connected with magnet of baffle for adsorb the access door, the fixed surface of access door is connected with the strut, and the copper bar after the straightening passes through the deflector roll and carries, and the deflector roll rotates along with the copper bar is synchronous, reduces frictional force between them by a wide margin, reduces copper bar surface abrasion, and the elastic support structure that positioning seat, ejector pin and stable spring constitute makes the deflector roll closely laminate the copper bar throughout, avoids the copper bar aversion in the transpo