CN221158412U - Magnetic ring inductance pin shearing machine - Google Patents

Abstract

The utility model aims to provide a magnetic ring inductance pin shearing machine which saves cost and improves efficiency. The automatic feeding and lifting type magnetic ring cutting machine comprises a main frame (1), wherein a magnetic ring feeding and lifting type feeding and conveying mechanism, a cutting foot table (2), a discharging and conveying mechanism and a product placing table (3) are sequentially arranged on the main frame (1) in an adapting mode, the magnetic ring feeding and lifting type feeding and conveying mechanism is arranged in front of a feeding end of the rotary lifting type feeding and conveying mechanism, the rotary lifting type feeding and conveying mechanism is arranged above the cutting foot table (2), the product placing table (3) is arranged on one side of the cutting foot table (2), and the discharging and conveying mechanism is arranged above the cutting foot table (2) and the product placing table (3) respectively. The utility model is suitable for the field of magnetic ring inductance stitch trimming.

Description

Magnetic ring inductance pin shearing machine

Technical Field

The utility model relates to a magnetic ring inductance pin shearing machine.

Background

In the production and manufacturing process of the inductance magnetic ring, the magnetic ring inductance for winding is subjected to the procedure of trimming the wire feet. In the prior art, separate pin straightening equipment is required to be additionally designed for straightening and stretching all the wire pins of the magnetic ring inductor, and finally, the inductor magnetic ring with the pins is sent to a pin shearing table for pin shearing. Therefore, the traditional line-straightening and pin-cutting process is complicated, the overall efficiency of magnetic ring inductance production is affected, and meanwhile, the single pin-straightening equipment can also cost more.

Disclosure of utility model

The utility model aims to solve the technical problem of overcoming the defects of the prior art and providing a magnetic ring inductance pin shearing machine which saves cost and improves efficiency.

The technical scheme adopted by the utility model is as follows: the automatic feeding and lifting type magnetic ring feeding and lifting device comprises a main frame, wherein a magnetic ring feeding and straightening mechanism, a rotary lifting and lifting feeding and conveying mechanism, a pin shearing platform, a discharging and conveying mechanism and a product placement platform are sequentially arranged on the main frame in an adapting mode, the magnetic ring feeding and straightening mechanism is adapted to the front of a feeding end of the rotary lifting and lifting feeding and conveying mechanism, the rotary lifting and feeding and conveying mechanism is adapted to the upper portion of the pin shearing platform, the product placement platform is adapted to one side of the pin shearing platform, and the discharging and conveying mechanism is respectively adapted to the upper portions of the pin shearing platform and the product placement platform.

The magnetic ring feeding and foot stroking mechanism comprises an extension supporting plate, a pushing cylinder, a sliding connecting block, a connecting plate and a foot stroking passing plate, wherein the extension supporting plate is horizontally arranged on the main frame in an adaptation mode and extends to the outside of the edge of the main frame, the pushing cylinder is horizontally arranged in the middle section of the extension supporting plate in an adaptation mode, the sliding connecting block is movably connected to the upper end face of the rear section of the extension supporting plate through a pushing sliding rail in an adaptation mode and is connected with the output end of the pushing cylinder, the head end of the connecting plate is fixedly connected to the sliding connecting block, the foot stroking passing plate is vertically and fixedly arranged at the tail end of the connecting plate in an adaptation mode, and foot stroking passing holes are formed in the upper portion of the foot stroking passing plate.

The rotary lifting feeding carrying mechanism comprises a feeding track frame, a feeding transverse moving part, a feeding transverse moving motor, a feeding lifting cylinder, a feeding lifting connecting plate, a feeding rack lifting cylinder, a feeding rotary gear shaft, a feeding rotary driving forward moving cylinder and a pneumatic feeding clamping claw, wherein the feeding track frame is adaptively arranged on the main frame, the feeding transverse moving motor is adaptively arranged on the feeding track frame, the feeding transverse moving part is adaptively and slidingly connected on the feeding track frame and in transmission connection with the output end of the feeding transverse moving motor, the feeding lifting connecting plate is adaptively arranged on the output end of the bottom of the feeding lifting cylinder, the feeding rack lifting cylinder is adaptively and vertically fixedly arranged on the feeding lifting connecting plate, a vertical rack is connected on the output end of the feeding rack lifting cylinder, the vertical rack is automatically and longitudinally arranged on the main frame in a movable mode and passes through the feeding lifting connecting plate, gear shaft fixing plates are respectively arranged on two sides of the bottom of the feeding lifting connecting plate, the feeding rack shaft rotary connecting plate is in sliding connection with the output end of the feeding lifting connecting plate, the pneumatic clamping claw is correspondingly meshed with the pneumatic clamping claw arranged on the outer side of the pneumatic clamping claw, the pneumatic clamping claw is rotatably arranged on the front end of the pneumatic clamping plate, the pneumatic clamping claw is correspondingly meshed with the pneumatic clamping claw, the pneumatic clamping claw is rotatably arranged on the front end of the feeding lifting connecting plate, the pneumatic feeding clamping claw is movably arranged above the pin shearing table in an adapting mode.

The blanking conveying mechanism comprises a blanking track frame, a blanking conveying longitudinal moving part, a blanking conveying transverse moving motor, a blanking conveying first section lifting cylinder, a blanking conveying second section lifting cylinder and a blanking conveying pneumatic clamping jaw, wherein the two groups of blanking track frame adaptations are arranged on the main frame side by side, the blanking conveying longitudinal moving motor adaptations are arranged on the blanking track frame, two ends of the blanking conveying longitudinal moving part are respectively arranged on the two groups of blanking track frames in an adapting sliding mode and are in transmission connection with the output end of the blanking conveying longitudinal moving part, a blanking conveying transverse moving rail beam is fixedly arranged on the blanking conveying longitudinal moving part, the blanking conveying transverse moving part adaptations are arranged on the blanking conveying transverse moving rail beam in a sliding mode and are in transmission connection with the blanking conveying transverse moving motor, the blanking conveying first section lifting adaptation is fixedly arranged on the blanking conveying track frame, and the blanking conveying first section lifting cylinder is arranged on the blanking conveying first section lifting cylinder, and the blanking conveying first section lifting cylinder is connected with the pneumatic clamping jaw in a sliding mode, and the blanking conveying first section lifting cylinder is arranged on the blanking conveying first section lifting cylinder and is connected with the pneumatic clamping jaw in a sliding mode, and the blanking conveying first section lifting cylinder is arranged on the lifting platform.

The beneficial effects are that: according to the magnetic ring feeding and pin smoothing mechanism, the pin smoothing hole matched with the magnetic ring body in size is formed, but when the external feeding mechanism feeds and feeds materials, the pin smoothing plate can be contacted with the front face and enable the pin smoothing hole to penetrate through the magnetic ring body, the outer wall of the pin smoothing hole is used for smoothing out the split wire pins of the magnetic ring body backwards, so that the wire pins are smoothed out and straightened, further, the wire pin smoothing is synchronously realized during feeding of the magnetic ring body, the efficiency is greatly improved, and meanwhile, the cost of separate pin smoothing equipment is saved.

The rotary lifting feeding conveying mechanism adopts the feeding rack lifting cylinder to drive the vertical rack to link the rotation of the feeding rotary gear shaft, so that the pneumatic feeding clamping claw can rotate in the horizontal direction and the vertical direction, and compared with the traditional rotary motor, the rotary lifting feeding conveying mechanism has the advantages of lower cost and more convenient maintenance.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is an enlarged schematic view at A in FIG. 1;

Fig. 3 is a schematic diagram of the overall structure of the present utility model.

Detailed Description

As shown in fig. 1, 2 and 3, the utility model comprises a main frame 1, wherein a magnetic ring feeding and straightening mechanism, a rotary lifting feeding and conveying mechanism, a pin shearing table 2, a discharging and conveying mechanism and a product placing table 3 are sequentially arranged on the main frame 1 in an adapting mode, the magnetic ring feeding and straightening mechanism is suitably arranged in front of a feeding end of the rotary lifting feeding and conveying mechanism, the rotary lifting feeding and conveying mechanism is suitably arranged above the pin shearing table 2, the product placing table 3 is suitably arranged on one side of the pin shearing table 2, and the discharging and conveying mechanism is respectively arranged above the pin shearing table 2 and the product placing table 3.

The magnetic ring feeding and leg smoothing mechanism comprises an extension supporting plate 41, a pushing cylinder 42, a sliding connecting block 43, a connecting plate 44 and a leg smoothing and passing plate 45, wherein the extension supporting plate 41 is horizontally arranged on the main frame 1 in an adaptation mode and extends to the outside of the edge of the main frame 1, the pushing cylinder 42 is horizontally arranged in the middle section of the extension supporting plate 41 in an adaptation mode, the sliding connecting block 43 is movably connected to the upper end face of the rear section of the extension supporting plate 41 through a pushing sliding rail 431 in an adaptation mode and is connected with the output end of the pushing cylinder 42, the head end of the connecting plate 44 is fixedly connected to the sliding connecting block 43, the leg smoothing and passing plate 45 is vertically and fixedly arranged at the tail end of the connecting plate 44 in an adaptation mode, and a leg smoothing and passing hole 451 is formed in the upper portion of the leg smoothing and passing plate 45.

The rotary lifting feeding carrying mechanism comprises a feeding track frame 51, a feeding transverse moving member 52, a feeding transverse moving motor, a feeding lifting cylinder 53, a feeding lifting connecting plate 54, a feeding rack lifting cylinder 55, a feeding rotary gear shaft 56, a feeding driving forward moving cylinder 57 and a pneumatic feeding clamping jaw 58, wherein the feeding track frame 51 is adapted to be arranged on a main frame 1, the feeding transverse moving motor is adapted to be arranged on the feeding track frame 51, the feeding transverse moving member 52 is adapted to be connected with the feeding track frame 51 in a sliding manner and is in transmission connection with the output end of the feeding transverse moving motor, the feeding lifting connecting plate 54 is adapted to be arranged on the output end of the bottom of the feeding lifting cylinder 53, the feeding rack lifting cylinder 55 is adapted to be vertically fixed on the feeding lifting connecting plate 54, a vertical rack is connected to the output end of the feeding rack lifting cylinder 55, the vertical rack is movably penetrated through the feeding lifting connecting plate 54 from top to bottom, gear shafts 541 are respectively arranged on two sides of the bottom of the feeding lifting connecting plate 54, the feeding gear shaft 56 is adapted to be connected between the two gear shaft fixing plates in a rotating manner, the feeding rack shaft 56 is adapted to be connected to the two gear shaft fixing plates in a sliding manner, the vertical rack shaft fixing plate is adapted to be meshed with the pneumatic clamping jaw 58, the pneumatic clamping jaw 58 is arranged at the upper end of the pneumatic clamping jaw 57 which is in front of the movable clamping jaw 57, and is rotatably arranged at the movable jaw 58, and is adapted to be meshed with the movable jaw 57, and is movably arranged at the movable jaw fixing end of the pneumatic clamping jaw 58, and is arranged on the movable jaw 58.

The blanking conveying mechanism comprises a blanking track frame 61, a blanking conveying longitudinal motion motor 62, a blanking conveying longitudinal motion member 63, a blanking conveying transverse motion member 64, a blanking conveying transverse motion motor, a blanking conveying first-stage lifting cylinder 65, a blanking conveying second-stage lifting cylinder 66 and a blanking conveying pneumatic clamping jaw 67, wherein the two groups of blanking track frames 61 are adapted to be arranged on the main frame 1 side by side, the blanking conveying longitudinal motion motor 62 is adapted to be arranged on one blanking track frame 61, two ends of the blanking conveying longitudinal motion member 63 are respectively adapted to be slidingly arranged on the two groups of blanking track frames 61 and are in transmission connection with the output end of the blanking conveying longitudinal motion motor 62, the blanking conveying longitudinal motion member 63 is fixedly provided with a blanking conveying transverse track beam 631, the blanking conveying transverse motion motor is adapted to be slidingly arranged on the blanking conveying transverse track beam 631 and is in transmission connection with the blanking conveying transverse motion motor, the blanking conveying first-stage lifting cylinder 65 is adapted to be fixedly arranged on the blanking conveying track frame 61, the two groups of lifting cylinders 66 are arranged on the blanking conveying first-stage lifting cylinder 67, and the blanking conveying first-stage lifting cylinder 67 is connected with the output end of the blanking conveying first-stage 67 in a transmission manner, and the blanking conveying first-stage 67 is arranged on the blanking conveying first-stage 67 is connected with the pneumatic clamping jaw 2.

When the magnetic coil winding machine works, the magnetic coil winding machine transfers the magnetic coil after winding to the position of the coil-strip passing plate 45, at the moment, the coil-strip passing plate 45 moves forward under the drive of the pushing cylinder 42, the coil-strip passing hole 451 penetrates through the magnetic coil body, and the originally-split coil-strip of the magnetic coil body is straightened by pressing after being straightened by the outer wall of the coil-strip passing hole 451, so that coil-strip straightening action is completed. The pneumatic feeding clamping claw 58 moves forward under the drive of the feeding driving forwarding air cylinder 57 and clamps the magnetic ring body, finally, the pneumatic feeding clamping claw 58 is driven to be conveyed to the upper side of the pin shearing table 2 under the combined drive of all feeding moving air cylinder groups, then the feeding rack lifting air cylinder 55 drives the vertical rack to ascend, the feeding rotating gear shaft 56 is driven to rotate clockwise, the pneumatic feeding clamping claw 58 is further enabled to be rotated to be in a vertical state, the magnetic ring body is placed above the pin shearing table 2, and finally, the feeding rotation drives the forwarding air cylinder 57 to drive the pneumatic feeding clamping claw 58 to descend and place the magnetic ring body on the pin shearing table 2 for pin shearing. After which the pneumatic feed gripper jaw 58 is reset. The blanking conveying pneumatic clamping jaw 67 is moved to the upper portion of the pin shearing table 2 and clamps the magnetic ring body with the pins sheared, and finally the magnetic ring body is conveyed and placed on a product placement position on the product placement table 3.

The utility model is suitable for the field of magnetic ring inductance stitch trimming.

Claims (4)

1. A magnetic ring inductance pin shearing machine is characterized in that: including main frame (1), the adaptation has set gradually magnetic ring feeding and has smoothed out the fingers foot mechanism, has rotated lift material loading transport mechanism, has cut foot platform (2), unloading transport mechanism and product and has placed platform (3) on main frame (1), the magnetic ring feeding smooth out the fingers the foot mechanism adaptation in the place ahead of the material loading end of rotation lift material loading transport mechanism, rotate lift material loading transport mechanism adaptation in cut foot platform (2) top, product place platform (3) adaptation in cut foot platform (2) one side, unloading transport mechanism respectively the adaptation in cut foot platform (2) and the top of product place platform (3).

2. A magnetic loop inductance pin cutting machine as set forth in claim 1, wherein: the magnetic ring feeding and foot-straightening mechanism comprises an extension supporting plate (41), a pushing air cylinder (42), a sliding connecting block (43), a connecting plate (44) and a foot-straightening passing plate (45), wherein the extension supporting plate (41) is horizontally arranged on the main frame (1) in an adaptation mode and extends to the outside of the edge of the main frame (1), the pushing air cylinder (42) is horizontally arranged in the middle section of the extension supporting plate (41), the sliding connecting block (43) is movably connected to the upper end face of the rear section of the extension supporting plate (41) through a pushing sliding rail (431) in an adaptation mode and is connected with the output end of the pushing air cylinder (42), the head end of the connecting plate (44) is fixedly connected to the sliding connecting block (43), the foot-straightening passing plate (45) is vertically and fixedly arranged at the tail end of the connecting plate (44), and foot-straightening passing holes (451) are formed in the upper portion of the foot-straightening passing plate (45).

3. A magnetic loop inductance pin cutting machine as claimed in claim 2, wherein: the rotary lifting feeding carrying mechanism comprises a feeding track frame (51), a feeding transverse moving member (52), a feeding transverse moving motor, a feeding lifting cylinder (53), a feeding lifting connecting plate (54), a feeding rack lifting cylinder (55), a feeding rotary gear shaft (56), a feeding rotary driving forward moving cylinder (57) and a pneumatic feeding clamping claw (58), wherein the feeding track frame (51) is adaptively arranged on the main frame (1), the feeding transverse moving motor is adaptively arranged on the feeding track frame (51), the feeding transverse moving member (52) is adaptively and slidingly connected on the feeding track frame (51) and is in transmission connection with the output end of the feeding transverse moving motor, the feeding lifting connecting plate (54) is adaptively arranged on the output end of the bottom of the feeding lifting cylinder (53), the feeding rack lifting cylinder (55) is adaptively and vertically fixedly arranged on the feeding lifting connecting plate (54), the output end of the feeding rack lifting cylinder (55) is vertically connected with a vertical gear shaft, the feeding rack lifting connecting plate (55) is connected with a vertical gear shaft, the feeding lifting connecting plate (541) is rotatably connected between the two sides of the feeding lifting connecting plates (54), the vertical rack is meshed with the feeding rotating gear shaft (56) in a mutually adapting mode, the feeding rotating drive advancing cylinder (57) is in an adapting mode and is hinged to one end of the feeding rotating gear shaft (56) and is adapted to be movably arranged on the outer side of the gear shaft fixing plate (541), the pneumatic feeding clamping claw (58) is adapted to be fixedly arranged at the output end of the feeding rotating drive advancing cylinder (57), the pneumatic feeding clamping claw (58) is adapted to be movably arranged at the rear of the foot stroking passing plate (45), the clamping end of the pneumatic feeding clamping claw (58) corresponds to the foot stroking passing hole (451), and the pneumatic feeding clamping claw (58) is adapted to be movably arranged above the foot shearing table (2).

4. A magnetic loop inductance pin cutting machine according to claim 3, wherein: the blanking conveying mechanism comprises a blanking track frame (61), a blanking conveying longitudinal action motor (62), a blanking conveying longitudinal movement member (63), a blanking conveying transverse movement member (64), a blanking conveying transverse action motor, a blanking conveying first section lifting cylinder (65), a blanking conveying second section lifting cylinder (66) and a blanking conveying pneumatic clamping jaw (67), wherein the two groups of the blanking track frames (61) are adapted and arranged on the main frame (1) in parallel, the blanking conveying longitudinal action motor (62) is adapted and arranged on one blanking track frame (61), two ends of the blanking conveying longitudinal movement member (63) are respectively adapted and slidingly arranged on the two groups of the blanking track frames (61) and are in transmission connection with the output end of the blanking conveying longitudinal action motor (62), a blanking conveying transverse track beam (631) is fixedly arranged on the blanking conveying longitudinal movement member (63), the blanking conveying transverse action motor is adapted and arranged on the blanking conveying transverse track beam (631), the blanking conveying longitudinal movement member (64) is adapted and arranged on the blanking conveying transverse movement member (64) in a transmission manner, the blanking conveying transverse movement member (631) is connected with the blanking conveying transverse movement member (64), the blanking conveying two-section lifting cylinder (66) is arranged on the blanking conveying first-section lifting cylinder (65) in a sliding manner and is connected with the output end of the blanking conveying first-section lifting cylinder (65), the blanking conveying pneumatic clamping jaw (67) is fixedly arranged on the output end of the blanking conveying two-section lifting cylinder (66) in a matching manner, and the blanking conveying pneumatic clamping jaw (67) is movably arranged above the foot shearing table (2) and the product placing table (3) in a matching manner.