CN219616468U - Stamping forming device for automobile plate - Google Patents

Abstract

The utility model discloses a stamping forming device for an automobile plate, which comprises a feeding mechanism and a stamping mechanism, wherein the feeding mechanism comprises a conveying table, a first material channel which is conveyed along the x-axis direction is formed in the middle of the upper end of the conveying table, and a detection mechanism and a correction mechanism are further arranged on the conveying table. The stamping forming device is used for producing automobile plates, the detection mechanism and the correction mechanism are added on the conveying table, the position of the discharging belt in the y-axis direction is detected by the detection mechanism, and the position of the discharging belt in the y-axis direction is adjusted by the correction mechanism, so that the center of the discharging belt can be consistent with the conveying center of the first material channel, the subsequent stamping precision is ensured, manual adjustment is not needed, and the processing efficiency is improved.

Description

Stamping forming device for automobile plate

Technical Field

The utility model relates to the technical field of automobile part processing equipment, in particular to a stamping forming device for an automobile plate.

Background

The sheet material of the automobile is an indispensable part of automobile parts. Tractor, forklift mudguards and the like are also widely used for the sheet materials. In the structure of an automobile, the components constituting the body of the automobile are roughly classified into a panel component, a structural component, a running component, and a reinforcing component. These components have different properties according to different application requirements.

In the production and processing of automobile plates, a stamping device is generally adopted, and 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, strips, pipes, sectional materials and the like by using a press machine and a die to enable the plates, the strips, the pipes, the sectional materials and the like to generate plastic deformation or separation. It is also often desirable to design the structure with punches and cuts to match different hole sites and different profiles as desired.

In the prior art, the stamping device can refer to an automobile door plate stamping device as disclosed in application number CN201620649233.9, and comprises a workbench, wherein a side plate is arranged on the rear side of the top of the workbench, a mounting plate is arranged in the middle of the front side of the side plate, a top plate is arranged on the front side of the top of the mounting plate, a stamping cylinder is arranged on the top of the top plate, a piston rod is arranged at the bottom of the stamping cylinder, the piston rod penetrates through the top plate and is arranged below the top plate, and a stamping column is connected to the bottom end of the piston rod; a bottom plate is arranged at the bottom of the front side of the mounting plate, and a punching die cavity is arranged at the top of the bottom plate and right below the punching column; the bottom of the bottom plate is provided with a support column on the workbench. Firstly, placing the door plate on a punching die cavity and a supporting block, then driving the movable plate to move downwards by a pressing mechanism, pressing the outer side of a punching position of the door plate by a pressing block, then driving a punching column to move downwards by a punching cylinder, and punching the punching position of the door plate by the bottom end of the punching column through the pressing block, wherein waste materials removed by punching fall into a material collecting box through a material discharging channel.

Adopt above-mentioned stamping device, can realize the rapid prototyping of car door plant, but, in actual course of working, often can use different width dimension's material area 71 to carry out punching press processing, to the less material area 71 of partial width, need strictly control its punching press position, if punching press position is inaccurate, as shown in fig. 8, the car panel appearance that obtains is incomplete, lead to the yield lower, in order to solve above-mentioned problem, the usual practice is through the feeding position of artifical means adjustment material area 71, but the manual regulation's precision is not high, and efficiency is lower. Therefore, there is a need for a press molding apparatus that can effectively solve the above-mentioned problems.

Disclosure of Invention

In view of the above-mentioned shortcomings of the prior art, the present utility model aims to provide a press forming device for an automobile sheet material, so as to solve the problems of low accuracy and low efficiency caused by manual adjustment in the prior art.

The utility model relates to a stamping forming device for an automobile plate, which comprises a feeding mechanism and a stamping mechanism, wherein the feeding mechanism comprises a conveying table, a first material channel which is conveyed along the x-axis direction is formed in the middle of the upper end of the conveying table, and a detection mechanism and a correction mechanism are further arranged on the conveying table;

the detection mechanism comprises a first distance detection device and a second distance detection device, and the first distance detection device and the second distance detection device are respectively positioned at two sides of the first material channel along the y-axis direction and are oppositely arranged;

the correcting mechanism comprises a first pushing device and a second pushing device, and the first pushing device and the second pushing device are respectively positioned at two sides of the first material channel along the y-axis direction and are oppositely arranged;

the stamping mechanism comprises an upper die capable of moving up and down along the z-axis direction and a lower die located below the upper die, wherein a second material channel is formed in the middle of the upper end of the lower die, and the feeding end of the second material channel is connected with the discharging end of the first material channel.

Specifically, the first distance detection device and the second distance detection device are photoelectric sensors.

Specifically, the first pushing device and the second pushing device are both cylinders arranged along the y-axis direction, and are connected with a push plate on an output shaft of each cylinder, and the end face of each push plate, facing the first material channel, is a plane.

Specifically, the lower end of the upper die is provided with a punching part and a cutting part, the lower die is provided with a through hole for the punching part to pass through, and the lower die is provided with a material hole for the cutting part to pass through.

Specifically, the bottom of the lower die is provided with a hollow area, the lower ends of the through holes and the material holes are communicated with the hollow area, a waste box is further arranged in the hollow area, and the waste box is placed below the through holes.

Specifically, the stamping mechanism further comprises an air cylinder for driving the upper die to move up and down along the z-axis direction.

Specifically, a stamping forming device for automobile plates still includes discharge mechanism, discharge mechanism is including being located the guide holder of material hole below, be equipped with inclined chute, smooth groove on the guide holder, the groove width from the top down of inclined chute reduces gradually, smooth groove connects the bottom of inclined chute, the groove width of flat spout with the groove width of inclined chute bottom equals.

Specifically, a baffle is arranged on one side of the discharge end of the inclined chute, an induction device is arranged on the baffle, and the induction end of the induction device faces the smooth chute.

Specifically, a stamping forming device for automobile plate still includes pile up neatly mechanism, pile up neatly mechanism includes the frame, sets up in the frame and along the translation drive arrangement of y axle direction drive, connect translation drive arrangement output's mounting panel, fix on the mounting panel and along the driven lift drive arrangement of z axle direction, connect the support plate of lift drive arrangement output, set up a plurality of vacuum chuck on the support plate, the frame below still is provided with the finished product workbin, the vacuum chuck activity in smooth groove with the top of finished product workbin.

The utility model has the beneficial effects that:

the stamping forming device is used for producing automobile plates, the detection mechanism and the correction mechanism are added on the conveying table, the position of the discharging belt in the y-axis direction is detected by the detection mechanism, and then the position of the discharging belt in the y-axis direction is adjusted by the correction mechanism, so that the center of the y-axis direction of the discharging belt can be consistent with the center of the y-axis direction of the first material channel, the subsequent stamping precision is ensured, manual adjustment is not needed, and the processing efficiency is improved.

Drawings

The foregoing and/or additional aspects and advantages of the utility model will become apparent and may be better understood from the following description of embodiments taken in conjunction with the accompanying drawings in which:

fig. 1 is a first perspective view of a press forming apparatus according to an embodiment of the present utility model;

fig. 2 is a second perspective view of a press forming device according to an embodiment of the present utility model;

FIG. 3 is a top view of a press forming apparatus according to an embodiment of the present utility model;

FIG. 4 is a cross-sectional view taken along the A-A plane in FIG. 3;

FIG. 5 is a schematic view of a first stage of a material strip entering a first lane;

FIG. 6 is a schematic view of the structure of the material belt entering the second stage of the first material path;

fig. 7 is a schematic structural diagram of a material strip after being punched by the punch forming device according to the embodiment of the utility model;

fig. 8 is a schematic structural diagram of a punched material strip in the prior art.

The reference numerals are: the feeding mechanism 10, the punching mechanism 20, the conveying table 11, the first material path 12, the detecting mechanism 30, the correcting mechanism 40, the first distance detecting device 31, the second distance detecting device 32, the first pushing device 41, the second pushing device 42, the upper die 21, the lower die 22, the second material path 221, the punching portion 211, the cutting portion 212, the through hole 222, the material hole 223, the hollowed-out area 224, the waste bin 225, the cylinder 23, the discharging mechanism 50, the guide seat 51, the inclined chute 511, the smooth chute 512, the baffle plate 52, the sensing device 53, the stacking mechanism 60, the frame 61, the translational driving device 62, the mounting plate 63, the lifting driving device 64, the carrier plate 65, the vacuum chuck 66, the product bin 67, the material belt 71 and the automobile sheet 72.

Detailed Description

The utility model provides a stamping forming device for an automobile plate, which is used for making the purpose, technical scheme and effect of the utility model clearer and clearer, and is further described in detail below by referring to the attached drawings and examples. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the scope of the utility model.

Please refer to fig. 1 to 7:

the embodiment discloses a stamping forming device for automobile plate, including feed mechanism 10, stamping mechanism 20, feed mechanism 10 includes carries platform 11, carries the first material way 12 that the upper end middle part formation of platform 11 was carried along the x-axis direction, still is equipped with detection mechanism 30, correction mechanism 40 on carrying the platform 11.

The detecting mechanism 30 includes a first distance detecting device 31 and a second distance detecting device 32, where the first distance detecting device 31 and the second distance detecting device 32 are respectively located at two sides of the first material channel 12 along the y-axis direction and are disposed opposite to each other.

The correction mechanism 40 includes a first pushing device 41 and a second pushing device 42, where the first pushing device 41 and the second pushing device 42 are located on two sides of the first material channel 12 along the y-axis direction and are set oppositely, the first pushing device 41 and the second pushing device 42 can use an air cylinder, an electric cylinder or a screw rod as driving ends, the first pushing device 41 and the second pushing device 42 in this embodiment are both air cylinders, and an output shaft of each air cylinder is connected with a push plate, an end surface of the push plate facing the first material channel 12 is a plane, and the push plate is used to push the material belt 71, so as to realize position adjustment of the material belt 71 in the y-axis direction.

The punching mechanism 20 includes an upper die 21 capable of moving up and down in the z-axis direction, and a lower die 22 located below the upper die 21, wherein a second material channel 221 is formed in the middle of the upper end of the lower die 22, and the feeding end of the second material channel 221 is connected with the discharging end of the first material channel 12.

The stamping forming device of the embodiment is used for producing automobile plates 72, on the basis of the stamping forming device of the prior art, the detection mechanism 30 and the correction mechanism 40 are added, the detection mechanism 30 is used for detecting the position of the discharging belt 71 in the y-axis direction, and the correction mechanism 72 is used for adjusting the position of the discharging belt in the y-axis direction, so that the center of the y-axis direction of the material belt 71 can be kept consistent with the center of the y-axis direction of the first material channel 12, the subsequent stamping precision is ensured, manual adjustment is not needed, and the processing efficiency is improved.

As a preferred embodiment, the first distance detecting device 31 and the second distance detecting device 32 are photoelectric sensors, and specifically, an infrared distance measuring sensor may be used, where the infrared distance measuring sensor is a sensing device, is a measuring system using infrared rays as a medium, and has a wide measuring range and short response time. The infrared ranging sensor has a pair of infrared signal emitting and receiving diodes, emits a beam of infrared light using the infrared ranging sensor, forms a reflection process after irradiating the side of the material tape 71, receives a signal after reflecting to the sensor, and then receives data of a time difference between the emission and the reception using the CCD image processing. The distance between the infrared distance measuring sensor and the side of the material tape 71 is calculated after processing by the signal processor.

For a clearer explanation of the present embodiment, referring to fig. 5 and 6, the first distance detecting device 31 and the second distance detecting device 32 are disposed in mirror image with respect to the center of the first material path 12 in the y-axis direction, that is, the distance between the detecting end of the first distance detecting device 31 and the center of the first material path 12 in the y-axis direction is equal to the distance between the detecting end of the first distance detecting device 31 and the center of the first material path 12 in the y-axis direction, when the material strip 71 passes through the space between the first distance detecting device 31 and the second distance detecting device 32, the distance between the first distance detecting device 31 and the side of the material strip 71 is L1, and the distance between the second distance detecting device 32 and the side of the material strip 71 is L2, because L2 > L1, it can be determined that: the offset d of the tape 71 in the y-axis direction is: since d= (L2-L1)/(2), when the material tape 71 passes between the first pushing device 41 and the second pushing device 42, the first pushing device 41 can be used to push the material tape 71 by d distance along the y-axis direction, so that the position of the material tape 71 can be adjusted, and when the material tape 71 enters the second material channel 221, the center of the y-axis direction can be kept consistent with the center of the conveying direction of the second material channel 221, and the position of the material tape can be automatically corrected by the correction mechanism 40, thereby improving the correction accuracy and the correction efficiency.

In a preferred embodiment, the lower end of the upper die 21 is provided with a punching portion 211 and a cutting portion 212, the lower die 22 is provided with a through hole 222 through which the punching portion 211 passes, the lower die 22 is provided with a material hole 223 through which the cutting portion 212 passes, the punching portion 211 is used for punching the material belt 71 in the process of clamping the upper die 21 and the lower die 22, the shape of the punching portion 211 is actually adjusted according to the product, the shape is not limited to the circular structure of the embodiment, after the punching operation is completed, the portion is continuously conveyed to the position below the cutting portion 212 under the driving of a conveying device such as a belt, the material belt 71 is punched and molded by the cutting portion 212, the shape of the cutting portion 212 is actually adjusted according to the product, and the structure is not limited to the embodiment.

As the preferred embodiment, the bottom of the lower die 22 is provided with a hollowed-out area 224, through holes 222 and the lower ends of material holes 223 are communicated with the hollowed-out area 224, a waste box 225 is further arranged in the hollowed-out area 224, the waste box 225 is placed below the through holes 222, waste generated by punching the material belt 71 through the punching part 211 can fall into the waste box 225 along the through holes 222, and the waste box 225 is utilized for collection, so that the waste is convenient for staff to clean.

In a preferred embodiment, the pressing mechanism 20 further includes an air cylinder 23 for driving the upper die 21 to move up and down in the z-axis direction, and the air cylinder 23 is used as a power device for driving the upper die 21 to perform a die clamping operation of the upper die 21 and the lower die 22.

As a preferred embodiment, the automobile plate stacking device further comprises a discharging mechanism 50, the discharging mechanism 50 comprises a guide seat 51 positioned below the material hole 223, an inclined chute 511 and a smooth chute 512 are arranged on the guide seat 51, the inclined chute 511 is a chute which forms a certain inclined angle with the horizontal plane, the smooth chute 51 is a chute which is parallel to the horizontal plane, the chute width of the inclined chute 511 gradually decreases from top to bottom, through the design, the discharging posture of the automobile plate 72 can be corrected, the width of the smooth chute 512 is designed to be slightly larger than the width of the automobile plate 72, the smooth chute 512 is connected to the bottom of the inclined chute 511, the chute width of the smooth chute 512 is equal to the chute width of the bottom of the inclined chute 511, when the automobile plate 72 slides to the inner side of the flat chute 512, the automobile plate 72 is limited by the structure of the flat chute 512, the automobile plate 72 obtained after being punched through the cutting part 212 can be orderly discharged, the automobile plate 72 firstly falls onto the inclined chute 511 along the material hole 223, then slides onto the smooth chute 512, finally slides to the discharging end of the smooth chute 512, the automobile plate 72 is ingenious in structure, the automobile plate stacking device can be orderly and the automobile plate stacking device can be conveniently carried out after the automobile plate stacking device is limited by the flat chute 512.

As a preferred embodiment, a baffle plate 52 is arranged at one side of the discharge end of the inclined chute 511, an induction device 53 is arranged on the baffle plate 52, the induction end of the induction device 53 is arranged towards the flat chute 512, the induction device 53 can adopt a non-contact sensor, and the induction device 53 senses whether the automobile plate 72 exists at the discharge end of the inclined chute 511 or not, so that the induction precision is high.

As a preferred embodiment, the stacking mechanism 60 further comprises a stacking mechanism 60, the stacking mechanism 60 comprises a frame 61, a translation driving device 62 arranged on the frame 61 and driven along the y-axis direction, a mounting plate 63 connected to the output end of the translation driving device 62, a lifting driving device 64 fixed on the mounting plate 63 and driven along the z-axis direction, a carrier plate 65 connected to the output end of the lifting driving device 64, and a plurality of vacuum chucks 66 arranged on the carrier plate 65, the translation driving device 62 and the lifting driving device 64 are all screw rod modules, one end of an air inlet pipe of the vacuum chucks 66 is connected with an air suction opening of the vacuum device, vacuumizing air pressure is provided by the vacuum device, the automobile plates 72 are sucked tightly by negative pressure, a finished product box 67 is further arranged below the frame 61, the vacuum chucks 66 move above the smooth groove 512 and the finished product box 67, when the sensing device 53 senses that the automobile plates 72 exist at the discharge end of the inclined groove 511, the automobile plates 72 are sucked by the vacuum chucks 66, the automobile plates 72 are transferred to the finished product box 67 by the cooperation of the lifting driving device 64, and are stacked neatly, the automobile plates 72 are not required to be collected manually, the structure is simple, and the stacking efficiency is high.

While the preferred embodiment of the present utility model has been described in detail, the utility model is not limited to the embodiments, and various equivalent modifications and substitutions can be made by those skilled in the art without departing from the spirit of the utility model, and these equivalent modifications and substitutions are intended to be included in the scope of the utility model as defined in the appended claims.

Claims (9)

1. The stamping forming device for the automobile plate comprises a feeding mechanism (10) and a stamping mechanism (20), wherein the feeding mechanism (10) comprises a conveying table (11), a first material channel (12) which is conveyed along the x-axis direction is formed in the middle of the upper end of the conveying table (11), and the stamping forming device is characterized in that a detecting mechanism (30) and a correcting mechanism (40) are further arranged on the conveying table (11);

the detection mechanism (30) comprises a first distance detection device (31) and a second distance detection device (32), and the first distance detection device (31) and the second distance detection device (32) are respectively positioned at two sides of the first material channel (12) along the y-axis direction and are oppositely arranged;

the correcting mechanism (40) comprises a first pushing device (41) and a second pushing device (42), and the first pushing device (41) and the second pushing device (42) are respectively positioned at two sides of the first material channel (12) along the y-axis direction and are oppositely arranged;

the stamping mechanism (20) comprises an upper die (21) capable of moving up and down along the z-axis direction and a lower die (22) located below the upper die (21), a second material channel (221) is formed in the middle of the upper end of the lower die (22), and the feeding end of the second material channel (221) is connected with the discharging end of the first material channel (12).

2. The press forming device for automotive sheet material according to claim 1, wherein the first distance detecting device (31) and the second distance detecting device (32) are photoelectric sensors.

3. The stamping forming device for automobile plates according to claim 1, wherein the first pushing device (41) and the second pushing device (42) are cylinders arranged along the y-axis direction, and a push plate is connected to an output shaft of each cylinder, and an end face of the push plate facing the first material channel (12) is a plane.

4. The press forming device for the automobile sheet according to claim 1, wherein the upper die (21) has a punching portion (211) and a cutting portion (212) at a lower end thereof, the lower die (22) has a through hole (222) through which the punching portion (211) passes, and the lower die (22) has a hole (223) through which the cutting portion (212) passes.

5. The stamping forming device for the automobile plate according to claim 4, wherein the bottom of the lower die (22) is provided with a hollowed-out area (224), the lower ends of the through holes (222) and the material holes (223) are communicated with the hollowed-out area (224), a waste box (225) is further arranged in the hollowed-out area (224), and the waste box (225) is placed below the through holes (222).

6. A press forming device for automotive sheet material according to claim 1, characterized in that the press mechanism (20) further comprises a cylinder (23) for driving the upper die (21) to move up and down in the z-axis direction.

7. The stamping forming device for the automobile plate according to claim 5, further comprising a discharging mechanism (50), wherein the discharging mechanism (50) comprises a guide seat (51) positioned below the material hole (223), an inclined sliding groove (511) and a smooth groove (512) are arranged on the guide seat (51), the groove width of the inclined sliding groove (511) gradually decreases from top to bottom, the smooth groove (512) is connected to the bottom of the inclined sliding groove (511), and the groove width of the smooth groove (512) is equal to the groove width of the bottom of the inclined sliding groove (511).

8. The stamping forming device for the automobile plate according to claim 7, wherein a baffle plate (52) is arranged on one side of the discharge end of the inclined chute (511), an induction device (53) is arranged on the baffle plate (52), and the induction end of the induction device (53) is arranged towards the smooth chute (512).

9. The stamping forming device for automobile plates according to claim 7, further comprising a stacking mechanism (60), wherein the stacking mechanism (60) comprises a frame (61), a translation driving device (62) arranged on the frame (61) and driven along the y-axis direction, a mounting plate (63) connected with the output end of the translation driving device (62), a lifting driving device (64) fixed on the mounting plate (63) and driven along the z-axis direction, a carrier plate (65) connected with the output end of the lifting driving device (64), and a plurality of vacuum chucks (66) arranged on the carrier plate (65), a finished product box (67) is further arranged below the frame (61), and the vacuum chucks (66) are moved above the smooth groove (512) and the finished product box (67).