CN219335589U - Multi-station multi-mode deep drawing punch press - Google Patents

Abstract

The utility model relates to a multi-station multimode deep drawing punch which comprises a frame, a guide rail mounting plate, a V-shaped guide rail, an upper male die, a lower female die, a sliding block driving mechanism and a cup feeding mechanism, wherein the guide rail mounting plate is arranged at the rear part of the frame, the V-shaped guide rail is arranged along the vertical direction of the guide rail mounting plate, the sliding block driving mechanism is arranged at the front part of the frame, and the sliding block is slidably arranged on the V-shaped guide rail and is driven by the sliding block driving mechanism; a workbench is arranged on the frame at the lower part of the sliding block. The utility model has the advantages that: the occupied space of the equipment is reduced, the working efficiency is improved, the purpose of one die with more production can be realized, the defect of cup punching of the transfer type punching machine is effectively overcome, the slide block guide of the punching machine adopts the slide rail type guide, and the matching precision of the slide block and the V-shaped guide rail is improved.

Description

Multi-station multi-mode deep drawing punch press

Technical Field

The utility model relates to a multi-station multimode deep drawing punch, and relates to the field of metal shell deep drawing processing equipment.

Background

With the rapid development of science and technology, the productivity is greatly improved, and a plurality of devices realize automatic production. At present, a punching and punching cup and a transfer type deep drawing and deep drawing machine which is integrated with the punching and punching cup are generally adopted in a metal shell processing punch on the market. Because the feeding device occupies a large space, the cutting number and the pattern layout mode of blanking raw materials are greatly limited, and particularly when round workpieces are blanked, the utilization rate of the raw materials is difficult to improve on the premise of not reducing the trimming value. The notch burrs of the punching cup are large in size and poor in quality, the production efficiency and the product quality are low, and the punching/punching cup/drawing is integrally formed, so that the utilization rate of the steel belt is low, and the drawing speed cannot be improved.

Disclosure of Invention

In order to overcome the defects of the prior art, the utility model provides a multi-station multi-mode deep drawing punch press, which can effectively solve the problems of low material utilization rate, low production efficiency and poor quality in the existing deep drawing processing by adopting transmission. The technical scheme of the utility model is as follows:

the multi-station multi-mode deep drawing punch is characterized by comprising a frame, a guide rail mounting plate, a V-shaped guide rail, an upper male die, a lower female die, a sliding block driving mechanism and a cup feeding mechanism, wherein the guide rail mounting plate is mounted at the rear part of the frame, the V-shaped guide rail is mounted along the vertical direction of the guide rail mounting plate, the sliding block driving mechanism is mounted at the front part of the frame, and the sliding block is slidably mounted on the V-shaped guide rail and is driven by the sliding block driving mechanism; a workbench is arranged on a frame at the lower part of the sliding block, a lower female die is arranged on the workbench, a guide column is arranged along the periphery of the lower female die, and the upper male die is arranged on the guide column in a sliding manner; under the drive of the sliding block, the upper male die is close to or far away from the lower female die, and a reset spring is arranged between the upper male die and the lower female die; the cup feeding mechanism is arranged at the feeding position of the frame; the sliding block driving mechanism and the cup feeding mechanism are connected into the control box.

The sliding block driving mechanism comprises a main shaft and cams, the main shaft driven by the power mechanism is rotatably arranged on the frame, a plurality of cams are fixedly arranged in the middle of the main shaft, and the sliding block is arranged at the lower part of the cams, is in movable fit with the cams and moves downwards under the driving of the cams.

And a shell outlet pipeline is arranged at the lower part of the workbench.

The cup feeding mechanism comprises a plurality of cup feeding units which are adjacently arranged with the conveying mechanism, each cup feeding unit comprises a guide groove, the guide grooves are used for receiving materials on the conveying mechanism, the feeding ends of the receiving grooves are communicated with the guide grooves, the discharging ends of the receiving grooves are communicated with the feeding ends of the steering grooves, the discharging ends of the steering grooves are communicated with the feeding ends of the roller chute, and the steering grooves and the roller chute are obliquely arranged; the discharge end of the roller chute is communicated with the feed end of a vertical groove through a turning groove, and the vertical groove is arranged along the vertical direction; a feeding turning groove is arranged between the discharging end of the vertical groove and the die holder; a material taking opening is arranged at the bottom of the vertical groove, and the material taking opening is close to the upper male die and the lower female die; the feeding end of the vertical groove is provided with a material shortage sensor, the discharging end of the vertical groove is provided with a material returning sensor, and the conveying mechanism, the material shortage sensor and the material returning sensor are connected into the control box.

The power mechanism is a belt transmission mechanism or a chain transmission mechanism.

The cup feeding units are two sets, and the two sets of cup feeding units form a space.

Two stamping stations are formed between the upper male die and the lower female die.

The utility model has the advantages that: the occupied space of the equipment is reduced, the working efficiency is improved, the purpose of one die with more production can be realized, the defect of cup punching of the transfer type punching machine is effectively overcome, the slide block guide of the punching machine adopts the slide rail type guide, and the matching precision of the slide block and the V-shaped guide rail is improved.

Drawings

Fig. 1 is a schematic diagram of the main structure of the present utility model.

Fig. 2 is a schematic structural view of the cup feeding mechanism in fig. 1.

Detailed Description

The utility model will be further described with reference to specific embodiments, and advantages and features of the utility model will become apparent from the description. These examples are merely exemplary and do not limit the scope of the utility model in any way. It will be understood by those skilled in the art that various changes and substitutions of details and forms of the technical solution of the present utility model may be made without departing from the spirit and scope of the present utility model, but these changes and substitutions fall within the scope of the present utility model.

Referring to fig. 1 and 2, the present utility model relates to a multi-station multimode deep drawing press, comprising a frame 1, a rail mounting plate 2, V-shaped rails 3, an upper punch 8, a lower die 9, a slider 7, a slider driving mechanism and a cup feeding mechanism, wherein the rail mounting plate 2 is mounted at the rear part of the frame 1, the V-shaped rails 3 (in the present embodiment, two V-shaped rails 3 are provided) are mounted along the vertical direction of the rail mounting plate 2, the slider driving mechanism is mounted at the front part of the frame 1, and the slider 7 is slidably mounted on the V-shaped rails 3 and is driven by the slider driving mechanism; a workbench 11 is arranged on a frame at the lower part of the sliding block 7, a lower female die 9 is arranged on the workbench 11, a guide column 10 is arranged along the periphery of the lower female die 9, and the upper male die 8 is arranged on the guide column 10 in a sliding manner; under the drive of the slide block 7, the upper punch 8 approaches to or departs from the lower die 9, and the workpiece (metal cup) is punched; a reset spring is arranged between the upper male die 8 and the lower female die 9; the cup feeding mechanism is arranged at the feeding position of the frame 1; the sliding block driving mechanism and the cup feeding mechanism are connected into the control box.

The sliding block driving mechanism comprises a main shaft 5 and a cam 6, wherein the main shaft 5 driven by a power mechanism is rotatably arranged on the frame 1, a plurality of cams 6 are fixedly arranged in the middle of the main shaft 5, and the sliding block 7 is arranged at the lower part of the cams 6, is in movable fit with the cams 6 and moves downwards through the driving of the cams 6. When the cam rotates along with the main shaft, the cam drives the sliding block to move downwards, and after stamping is completed, the sliding block is reset under the action of the reset spring.

A shell outlet pipe 12 is installed at the lower part of the table 11. Under the action of the air flow of the air blowing mechanism, the shell is blown out of the shell outlet pipeline through air blowing.

As shown in fig. 2, the cup feeding mechanism comprises a plurality of cup feeding units 15 adjacent to the conveying mechanism 41, each cup feeding unit 15 comprises a guide groove 42, the guide grooves 42 are used for receiving materials on the conveying mechanism 41, the feeding ends of the receiving grooves 43 are communicated with the guide grooves 42, the discharging ends of the receiving grooves 43 are communicated with the feeding ends of the turning grooves 44, the discharging ends of the turning grooves 44 are communicated with the feeding ends of the roller chute 45, and the turning grooves 44 and the roller chute 45 are obliquely arranged; the discharge end of the roller chute 45 is communicated with the feed end of a vertical groove 47 through a turning groove 46, and the vertical groove 47 is arranged along the vertical direction; a feeding turning groove 13 is arranged between the discharging end of the vertical groove 47 and the die holder 14; a material taking opening 50 is arranged at the bottom of the vertical groove 47, and the material taking opening 50 is close to the upper male die 8 and the lower female die 9; the feeding end of the vertical groove 47 is provided with a material shortage sensor 48, the discharging end of the vertical groove is provided with a material returning sensor 49, and the conveying mechanism 41, the material shortage sensor 48 and the material returning sensor 49 are connected into the control box.

The power mechanism is a belt transmission mechanism or a chain transmission mechanism.

The number of the cup feeding units 15 is two, and the two cup feeding units form a space. Of course, a plurality of sets can be provided.

Two stamping stations are formed between the upper punch 8 and the lower die 9, and more stamping stations can be arranged.

The working principle of the utility model is as follows: the metal cup conveyed by the cup feeding mechanism sequentially enters the guide groove, the receiving groove, the steering groove, the roller chute and the vertical groove, the metal cup is stamped by the upper male die and the lower female die at the material taking opening of the vertical groove, and the stamping process is as follows: the main shaft rotates under the driving of the driving mechanism, drives the cam to rotate together, when the cam rotates, pushes the sliding block at the lower part, enables the sliding block to drive the upper male die to move downwards and butt-joint with the lower female die, achieves stamping of the metal cup, and after stamping is completed, the stamped workpiece is taken out through the manipulator at the material taking opening to be drawn at the next station, meanwhile, the remaining shell after stamping of the workpiece enters the die holder through the turning groove under the action of air flow, and then enters the shell discharging pipeline to be discharged.

The foregoing is only a preferred embodiment of the present utility model, but the scope of the present utility model is not limited thereto, and any person skilled in the art, who is within the scope of the present utility model, should make equivalent substitutions or modifications according to the technical scheme of the present utility model and the inventive concept thereof, and should be covered by the scope of the present utility model.

Claims (7)

1. The multi-station multi-mode deep drawing punch is characterized by comprising a frame, a guide rail mounting plate, a V-shaped guide rail, an upper male die, a lower female die, a sliding block driving mechanism and a cup feeding mechanism, wherein the guide rail mounting plate is mounted at the rear part of the frame, the V-shaped guide rail is mounted along the vertical direction of the guide rail mounting plate, the sliding block driving mechanism is mounted at the front part of the frame, and the sliding block is slidably mounted on the V-shaped guide rail and is driven by the sliding block driving mechanism; a workbench is arranged on a frame at the lower part of the sliding block, a lower female die is arranged on the workbench, a guide column is arranged along the periphery of the lower female die, and the upper male die is arranged on the guide column in a sliding manner; under the drive of the sliding block, the upper male die is close to or far away from the lower female die, and a reset spring is arranged between the upper male die and the lower female die; the cup feeding mechanism is arranged at the feeding position of the frame; the sliding block driving mechanism and the cup feeding mechanism are connected into the control box.

2. The multi-station multimode deep drawing machine according to claim 1, wherein the slider driving mechanism comprises a main shaft and cams, the main shaft driven by the power mechanism is rotatably installed on the frame, a plurality of cams are fixedly installed in the middle of the main shaft, and the slider is arranged at the lower part of the cams, is in movable fit with the cams and moves downwards through the driving of the cams.

3. A multi-station multimode deep drawing machine according to claim 1 or 2, characterized in that a shell-out pipe is installed at the lower part of the table.

4. A multi-station multi-die deep drawing machine according to claim 3, wherein the cup feeding mechanism comprises a plurality of cup feeding units arranged adjacent to the conveying mechanism, each cup feeding unit comprises a guide groove for receiving the material on the conveying mechanism, the feed end of the receiving groove is communicated with the guide grooves, the discharge end of the receiving groove is communicated with the feed end of the turning groove, the discharge end of the turning groove is communicated with the feed end of the roller chute, and the turning groove and the roller chute are obliquely arranged; the discharge end of the roller chute is communicated with the feed end of a vertical groove through a turning groove, and the vertical groove is arranged along the vertical direction; a feeding turning groove is arranged between the discharging end of the vertical groove and the die holder; a material taking opening is arranged at the bottom of the vertical groove, and the material taking opening is close to the upper male die and the lower female die; the feeding end of the vertical groove is provided with a material shortage sensor, the discharging end of the vertical groove is provided with a material returning sensor, and the conveying mechanism, the material shortage sensor and the material returning sensor are connected into the control box.

5. The multi-station and multi-die drawing machine of claim 2 wherein the power mechanism is a belt drive mechanism or a chain drive mechanism.

6. The multi-station and multi-die deep drawing machine of claim 4, wherein the number of said cup feeding units is two, and the two cup feeding units form a space.

7. The multi-station, multi-die deep drawing machine of claim 6, wherein two stamping stations are formed between the upper punch and the lower die.

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