CN219483986U - Stamping structure for supporting automatic discharging - Google Patents

Abstract

The utility model discloses a stamping structure for supporting automatic discharging, which relates to the technical field of shell frame processing for medical equipment and comprises a base and a demoulding assembly, wherein a material conveying module is arranged on the left side of the base, a workbench is arranged on the top of the base, a discharging group is arranged on the left side of the workbench, the demoulding assembly is fixedly arranged on the top of the workbench, and a lower die holder is arranged at the power output end of the workbench. This support automatic discharge's stamping structure through set up the demoulding subassembly in one side of die holder, both can play the spacing effect to the work piece, can push away the work piece from the die holder again after the punching press finishes, plays the effect of drawing of patterns, cooperates the synchronous operation of the group of unloading of opposite side simultaneously, can take the work piece after processing off whole workstation, and the defeated material module of group one side below of unloading then further transmits the work piece to next group processing equipment in, and shelter from the subassembly then effectively avoids the problem that the material dropped from the conveyer belt.

Description

Stamping structure for supporting automatic discharging

Technical Field

The utility model relates to the technical field of processing of shell frames for medical equipment, in particular to a stamping structure for supporting automatic unloading.

Background

The stamping is a forming processing method for obtaining a workpiece (stamping part) with a required shape and size by applying external force to plates, wafers, pipes, sectional materials and the like by using a press machine and a die to make the plates, the wafers, the pipes, the sectional materials and the like generate plastic deformation or separation. Coining and forging are plastic working (or pressure working), and are collectively called forging. In the production of medical devices, the housing frame is generally manufactured by using a stamping device, and the manufactured materials include, but are not limited to, metal materials, composite materials, and the like.

The utility model of application number 202121923326.3 discloses a stamping die fixing structure of a stamping machine, wherein two opposite air cylinders are arranged at the left side and the right side of a stamping die, so that stamping die clamps are fastened and fixed on the bottom surface of a stamping area, and the stamping die is clamped and fixed through the left air cylinder and the right air cylinder, thereby avoiding the influence on the product quality caused by shaking of the stamping die when the stamping machine stamps. Meanwhile, when the stamping die is replaced, the fixing of the stamping die can be released by retracting the push plate of the air cylinder, so that the stamping die is convenient to replace, but similar to the stamping structure in the document, the workpiece is required to be manually taken out when the stamping structure performs stamping operation on the workpiece, and the stamping structure is dangerous to an operator to a certain extent, for example, the surface of the stamping part can remain at a higher temperature caused by high-pressure friction, and in consideration of the problem, a structure capable of supporting and automatically discharging is required to be arranged so as to improve the operation safety protection.

Accordingly, in view of the above, research and improvement have been made on the conventional structure and the conventional defects, and a press structure supporting automatic discharging has been proposed.

Disclosure of Invention

The present utility model is directed to a stamping structure for supporting automatic discharging, so as to solve the above-mentioned problems in the prior art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a support automatic discharge's stamping structure, includes base and demoulding subassembly, the left side of base sets up installs defeated material module, and the top of base sets up installs the workstation, and the left side of workstation sets up installs the group of unloading moreover, demoulding subassembly fixed mounting is in the top of workstation, and the power take off end of workstation is provided with the die holder, has erect stamping subassembly directly over the top of die holder moreover, demoulding subassembly includes spud pile, pneumatic push rod, push pedal and slider, one side fixed mounting of spud pile has pneumatic push rod, and one side fixed mounting that pneumatic push rod kept away from the spud pile has the push pedal, and the slider is installed in the laminating of the bottom of push pedal moreover.

Further, shielding components are vertically arranged at the top of the left side of the material conveying module, a processing rack is arranged above the periphery of the lower die holder, and the punching components are fixedly arranged at the bottom of the processing rack.

Further, the material conveying module comprises a conveying belt, a driving wheel and a servo motor, wherein the driving wheel is arranged on the left side and the right side of the conveying belt in a connecting mode, and the servo motor is arranged on one side, away from the conveying belt, of the driving wheel in a connecting mode.

Further, the shielding assembly comprises a connecting pile, a damping shaft and a baffle plate, wherein the damping shaft is fixedly arranged at the top of the connecting pile, and the baffle plate is fixedly arranged at the top of the damping shaft.

Further, the unloading group comprises a transmission motor, a transmission frame and a transmission belt, wherein the transmission frame is installed at the power output end of the transmission motor in a connecting mode, and the transmission belt is arranged on the surface of the transmission frame in a connecting mode.

Further, the punching assembly comprises a punching oil cylinder, a lower pressing pile and a punching pile, wherein the lower pressing pile is fixedly arranged at the bottom of the punching oil cylinder, and the punching pile is fixedly arranged at the bottom of the lower pressing pile.

Further, the punching press subassembly is still including connecting balladeur train, limiting plate and spout, the left side fixed mounting of pushing down the stake has the connection balladeur train, and the intermediate junction who connects the balladeur train has the limiting plate, and the side surface of limiting plate is provided with the spout.

Further, the connecting sliding frame is in sliding connection with the limiting plate through the sliding groove, and the limiting plate is vertically connected to one side of the connecting sliding frame.

The utility model provides a stamping structure for supporting automatic discharging, which has the following beneficial effects:

through set up the demoulding subassembly in one side of die holder, both can play the limiting displacement to the work piece, can push away the work piece from the die holder again after the punching press finishes, play the effect of drawing of patterns, the synchronous operation of the group of unloading of cooperation opposite side simultaneously can take the work piece after the processing off whole workstation, and the defeated material module of group one side below of unloading then further transmits the work piece to next group processing equipment, and shelter from the subassembly and then effectively avoid the problem that the material dropped from the conveyer belt, improve the operational stability of whole device.

1. According to the utility model, when a material is placed in the lower die holder, in order to prevent a workpiece from shifting in a stamping process, on one hand, a push plate in a demoulding assembly at one side plays a limiting role in one direction, meanwhile, when a pressing pile at the bottom is pushed down by matching with a stamping cylinder in the operation, a limiting plate at one side of the pressing pile synchronously moves down in the pressing process, the limiting plate can be abutted against an opening at the other side of the workpiece blocked by the push plate in advance, the workpiece is completely limited from surrounding by matching with the lower die holder, at the moment, the pressing pile moves down along a chute at the side surface of the limiting plate through a connecting sliding frame, so that the stamping operation is performed on the workpiece at the center, a pneumatic push rod pushes the push plate in the horizontal direction to push the workpiece to the surface of the unloading assembly after the stamping is finished, and a slide block is made of a softer composite material, so that abrasion to the surface of the lower die holder is avoided, and the precision of the stamping part is influenced.

2. According to the utility model, when the workpiece after stamping is pushed away from the surface of the lower die holder by the demoulding assembly, the rotating transmission motor drives the transmission frame to rotate after reaching the transmission belt, and then drives the transmission belt coated on the surface of the transmission frame to rotate at a constant speed, and when the workpiece is pushed onto the transmission belt from one side, the rotating transmission belt can bring the workpiece away from the workbench and move towards the material conveying module at the other side, so that the part of manual operation is omitted in the process, the possibility that an operator is injured is avoided, and the operation efficiency can be improved.

3. According to the utility model, the vertical height fall between the unloading group and the material conveying module is considered to a certain extent, so that the workpiece can pop up or roll out of the conveying belt after falling onto the conveying belt from the conveying belt, and the shielding assembly is vertically arranged on one side of the conveying belt opposite to the conveying belt, so that the inclination angle of the tray can be adjusted according to the size of the workpiece by utilizing the damping shaft, the workpiece can be prevented from falling from the material conveying module, and the problem of clamping when the workpiece moves from the unloading group to the material conveying module can be prevented.

Drawings

FIG. 1 is a schematic side view of a frame body supporting a self-discharging stamping structure according to the present utility model;

FIG. 2 is a schematic view of the internal top view portion of FIG. 1 supporting a self-discharging press structure in accordance with the present utility model;

FIG. 3 is a schematic side view of a stripper assembly supporting a self-discharging stamping structure in accordance with the present utility model;

FIG. 4 is a schematic view of a press assembly supporting a press structure for automatic discharge according to the present utility model;

fig. 5 is a schematic perspective view of a connecting carriage and a limiting plate of a stamping structure for supporting automatic discharging according to the present utility model.

In the figure: 1. a base; 2. a material conveying module; 201. a conveyor belt; 202. a driving wheel; 203. a servo motor; 3. a shielding assembly; 301. connecting piles; 302. a damping shaft; 303. a baffle; 4. a work table; 5. a discharge group; 501. a drive motor; 502. a transmission frame; 503. a transmission belt; 6. a stripping assembly; 601. fixing piles; 602. a pneumatic push rod; 603. a push plate; 604. a slide block; 7. a lower die holder; 8. a processing rack; 9. a punching assembly; 901. punching an oil cylinder; 902. pressing down the pile; 903. punching piles; 904. connecting the sliding frame; 905. a limiting plate; 906. and a sliding groove.

Description of the embodiments

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

As shown in fig. 1 to 5, a stamping structure for supporting automatic discharging comprises a base 1 and a demoulding component 6, wherein a material conveying module 2 is arranged on the left side of the base 1, a workbench 4 is arranged on the top of the base 1, a discharging group 5 is arranged on the left side of the workbench 4, the demoulding component 6 is fixedly arranged on the top of the workbench 4, a lower die holder 7 is arranged at the power output end of the workbench 4, a stamping component 9 is erected right above the top of the lower die holder 7, a shielding component 3 is vertically arranged at the top of the left side of the material conveying module 2, a processing bench 8 is erected above the periphery of the lower die holder 7, the stamping component 9 is fixedly arranged at the bottom of the processing bench 8, the material conveying module 2 comprises a conveying belt 201, a driving wheel 202 and a servo motor 203, wherein the driving wheel 202 is connected and arranged on the left side and the right side of the conveying belt 201, the servo motor 203 is connected and arranged on one side, far away from the conveying belt 201, of the driving wheel 202, the shielding assembly 3 comprises a connecting pile 301, a damping shaft 302 and a baffle 303, the damping shaft 302 is fixedly arranged on the top of the connecting pile 301, the baffle 303 is fixedly arranged on the top of the damping shaft 302, after the servo motor 203 is started, the driving wheel 202 is driven to start to axially rotate, meanwhile, the conveying belt 201 connected with the surface of the driving wheel 202 is driven to operate, and through the damping shaft 302 fixedly arranged on the top of the connecting pile 301, the baffle 303 can rotate by about 180 degrees by taking the damping shaft 302 as a circle center.

The unloading group 5 comprises a transmission motor 501, a transmission frame 502 and a transmission belt 503, wherein the transmission frame 502 is installed at the power output end of the transmission motor 501, the transmission belt 503 is arranged at the surface of the transmission frame 502 in a connecting mode, the demoulding assembly 6 comprises a fixing pile 601, a pneumatic push rod 602, a push plate 603 and a sliding block 604, the pneumatic push rod 602 is fixedly installed on one side of the fixing pile 601, the push plate 603 is fixedly installed on one side of the pneumatic push rod 602 away from the fixing pile 601, the sliding block 604 is installed on the bottom of the push plate 603 in a fitting mode, the transmission frame 502 is driven to move after the transmission motor 501 is started, the transmission belt 503 is driven to synchronously operate by the transmission frame 502 which is rotated later, the push plate 603 is pushed in the horizontal direction after the pneumatic push rod 602 is started, the stamping part inside the lower die holder 7 is pushed away from the transmission frame through the push plate 603, and the sliding block 604 at the bottom of the push plate 603 is prevented from wearing on the surface of the lower die holder 7.

The punching assembly 9 comprises a punching oil cylinder 901, a pressing pile 902 and a punching pile 903, the bottom of the punching oil cylinder 901 is fixedly provided with the pressing pile 902, the bottom of the pressing pile 902 is fixedly provided with the pressing pile 903, the punching assembly 9 further comprises a connecting sliding frame 904, a limiting plate 905 and a sliding groove 906, the connecting sliding frame 904 is fixedly arranged on the left side of the pressing pile 902, the middle of the connecting sliding frame 904 is connected with the limiting plate 905, the side surface of the limiting plate 905 is provided with the sliding groove 906, the connecting sliding frame 904 is in sliding connection with the limiting plate 905 through the sliding groove 906, the limiting plate 905 is vertically connected to one side of the connecting sliding frame 904, when the pressing oil cylinder 901 pushes down the pressing pile 902 and the pressing pile 903 at the bottom in a synchronous manner in the pressing process, the limiting plate 905 on one side of the pressing pile 902 can abut against the opening position of the other side of a pushing plate 603 in advance, the workpiece is completely limited by the cooperation with a lower die holder 7 from the periphery, and at the moment, the pressing pile 902 moves downwards along the sliding groove 906 on the side surface of the limiting plate 905 through the connecting sliding frame 904, and simultaneously the blocking effect of the limiting plate 905 on the workpiece is not influenced.

To sum up, as shown in fig. 1 to 5, when in use, a workpiece to be processed is firstly placed in a lower die holder 7, after confirming that there is no error, a punching assembly 9 lifted at the bottom of a processing bench 8 is started, a punching cylinder 901 can press down a lower pressing pile 902 and a punching pile 903 which are connected at the bottom, a limiting plate 905 at one side of the lower pressing pile 902 synchronously moves down in the pressing process, and is abutted against one side of an opening of the lower die holder 7 in advance to support the workpiece therein and matched with a push plate 603 at the other side of the workpiece, so that the periphery of the workpiece is sealed, and offset in punching is avoided;

then under the force of the punching cylinder 901, the punching pile 903 and the lower die holder 7 process the workpiece into a required shape, at the moment, the pneumatic push rod 602 is started to push the push plate 603 in the horizontal direction, then the punching part inside the lower die holder 7 is pushed away by the push plate 603, the sliding block 604 at the bottom of the push plate 603 prevents the push plate 603 from wearing on the surface of the lower die holder 7, and the processed workpiece moves towards the unloading group 5 under the action of the demoulding assembly 6;

at this time, the driving motor 501 is started to drive the driving frame 502 to move, and then the driving frame 502 rotates to drive the driving belt 503 to synchronously operate, so that the workpiece on the surface of the driving belt 503 is conveyed and moved in the horizontal direction, and then reaches the left material conveying module 2, then the servo motor 203 is started to drive the driving wheel 202 to start to axially rotate, and simultaneously drives the conveying belt 201 connected with the surface of the driving wheel 202 to operate, so that the workpiece is conveyed into the next group of processing equipment, and in the process that the material falls from the unloading group 5 to the material conveying module 2, the baffle 303 can rotate by about 180 degrees by taking the damping shaft 302 as the center of a circle through the damping shaft 302 fixedly installed at the top of the connecting pile 301, so that the workpiece can be prevented from falling from the material conveying module 2 by using the shielding assembly 3, and the problem of clamping when the workpiece moves from the unloading group 5 to the material conveying module 2 is prevented.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (8)

1. The utility model provides a support automatic discharge's stamping structure, includes base (1) and take off membrane module (6), its characterized in that: the left side of base (1) sets up installs defeated material module (2), and the top of base (1) sets up installs workstation (4), and the left side of workstation (4) sets up in addition and installs group of unloading (5), take off membrane subassembly (6) fixed mounting in the top of workstation (4), and the power take off end of workstation (4) is provided with die holder (7), has erect punching press subassembly (9) directly over the top of die holder (7) moreover, take off membrane subassembly (6) including spud pile (601), pneumatic push rod (602), push pedal (603) and slider (604), one side fixed mounting of spud pile (601) has pneumatic push rod (602), and one side fixed mounting that spud pile (601) was kept away from to pneumatic push rod (602) has push pedal (603), and slider (604) are installed in the laminating of the bottom of push pedal (603) moreover.

2. The stamping structure supporting automatic discharging according to claim 1, wherein the shielding component (3) is vertically installed at the top of the left side of the material conveying module (2), the processing rack (8) is erected above the periphery of the lower die holder (7), and the stamping component (9) is fixedly installed at the bottom of the processing rack (8).

3. The stamping structure for supporting automatic discharging according to claim 1, wherein the material conveying module (2) comprises a conveying belt (201), a driving wheel (202) and a servo motor (203), the driving wheel (202) is arranged on the left side and the right side of the conveying belt (201) in a connecting mode, and the servo motor (203) is arranged on one side, far away from the conveying belt (201), of the driving wheel (202) in a connecting mode.

4. A stamping structure supporting automatic discharge according to claim 2, characterized in that the shielding assembly (3) comprises a connecting pile (301), a damping shaft (302) and a baffle (303), the damping shaft (302) is fixedly mounted on the top of the connecting pile (301), and the baffle (303) is fixedly mounted on the top of the damping shaft (302).

5. The stamping structure for supporting automatic discharging according to claim 1, wherein the discharging group (5) comprises a transmission motor (501), a transmission frame (502) and a transmission belt (503), the power output end of the transmission motor (501) is connected with the transmission frame (502), and the surface of the transmission frame (502) is connected with the transmission belt (503).

6. The stamping structure supporting automatic discharging according to claim 1, wherein the stamping assembly (9) comprises a stamping cylinder (901), a pressing pile (902) and a stamping pile (903), the pressing pile (902) is fixedly installed at the bottom of the stamping cylinder (901), and the stamping pile (903) is fixedly installed at the bottom of the pressing pile (902).

7. The stamping structure supporting automatic discharging according to claim 6, wherein the stamping assembly (9) further comprises a connecting carriage (904), a limiting plate (905) and a sliding groove (906), the connecting carriage (904) is fixedly mounted on the left side of the lower pressing pile (902), the limiting plate (905) is connected to the middle of the connecting carriage (904), and the sliding groove (906) is arranged on the side surface of the limiting plate (905).

8. The stamping structure for supporting automatic discharging according to claim 7, wherein the connecting carriage (904) is slidably connected to the limiting plate (905) through the sliding groove (906), and the limiting plate (905) is vertically connected to one side of the connecting carriage (904).