CN108526319B

CN108526319B - Multi-functional anti-deviation automobile part stamping device

Info

Publication number: CN108526319B
Application number: CN201810501081.1A
Authority: CN
Inventors: 潘凤华
Original assignee: Hefei Intellectual Property Mdt Infotech Ltd
Current assignee: Suzuki Dongxin Electronics (Zhongshan) Co.,Ltd.
Priority date: 2018-05-23
Filing date: 2018-05-23
Publication date: 2020-01-07
Anticipated expiration: 2038-05-23
Also published as: CN108526319A

Abstract

The invention discloses a multifunctional anti-deviation automobile part stamping device which comprises a first mounting plate, a second mounting plate, a fixing plate, a positioning plate, a forming mechanism and a stamping mechanism, wherein the first mounting plate is fixedly connected with the second mounting plate; the positioning plate is provided with N positioning holes which are uniformly distributed in the circumference and penetrate through the upper surface and the lower surface of the positioning plate; the N forming molds are arranged between the fixing plate and the positioning plate and are uniformly distributed in a circumferential manner; the stamping mechanism comprises a stamping mechanism fixing frame, a rotary table, a feeding assembly, a cutting assembly, a forming assembly and a first driving mechanism; the material loading unit mount keeps away from carousel one end at the third bracing piece, tailors the unit mount and keeps away from carousel one end at the second bracing piece, and the shaping unit mount keeps away from carousel one end at first bracing piece. According to the automatic feeding device, automatic feeding is realized by arranging the feeding assembly, so that the production efficiency is improved; through setting up the locating plate, fix a position raw and other materials, prevent to add the skew of raw and other materials man-hour, influence product quality, the locating plate can be fixed a position cutting drift, shaping drift simultaneously, improves machining precision and product quality.

Description

Multi-functional anti-deviation automobile part stamping device

Technical Field

The invention relates to the technical field of automobile part processing, in particular to a multifunctional anti-deviation automobile part stamping device.

Background

At present, stamping is a forming method in which a press and a die are used to apply an external force to a plate, a strip, a pipe, a profile, or the like to cause plastic deformation or separation, thereby obtaining a workpiece (a stamped part) having a desired shape and size. The press machine (including a punch press and a hydraulic press) is a universal press machine with an exquisite structure, has the characteristics of wide application, high production efficiency and the like, can be widely applied to the processes of cutting, punching, blanking, bending, riveting, forming and the like, and is used for processing parts by applying strong pressure to metal blanks to enable metal to generate plastic deformation and fracture. But press in the existing market is at work, the phenomenon of position offset appears in raw and other materials easily, so, influence automobile parts's shaping quality easily to make the punching press effect unsatisfactory, work efficiency greatly reduced.

Disclosure of Invention

In order to solve the technical problems in the background art, the invention provides a multifunctional anti-deviation automobile part stamping device.

The invention provides a multifunctional anti-deviation automobile part stamping device which comprises a first mounting plate, a second mounting plate, a fixing plate, a positioning plate, a forming mechanism and a stamping mechanism, wherein the first mounting plate is fixedly connected with the second mounting plate; wherein:

the first mounting plate and the second mounting plate are arranged in parallel up and down, the first mounting plate and the second mounting plate are connected through a plurality of supports, a processing area is formed between the first mounting plate and the second mounting plate, and the fixing plate, the positioning plate, the forming mechanism and the stamping mechanism are all arranged in the processing area;

the fixed plate is parallel to the first mounting plate and the second mounting plate and is connected with the bracket;

the positioning plate is positioned above the fixing plate and is parallel to the fixing plate, the positioning plate is connected with the bracket, the positioning plate is provided with N positioning holes which are uniformly distributed in the circumference and penetrate through the upper surface and the lower surface of the positioning plate, N is a positive integer, the positioning holes are stepped holes, and the stepped holes are formed by two holes with different diameters and are positioned above the holes with larger diameters;

the forming mechanism comprises N forming dies, the N forming dies are arranged between the fixing plate and the positioning plate and are uniformly distributed in a circumferential manner, the N forming dies and the N positioning holes are arranged in a one-to-one correspondence manner, each forming die is provided with a die cavity communicated with the corresponding positioning hole, and the central axis of the die cavity is superposed with the central axis of the corresponding positioning hole;

the punching mechanism comprises a fixed frame, a rotary plate, a feeding assembly, a cutting assembly, a forming assembly and a first driving mechanism, wherein the fixed frame is positioned above the positioning plate and parallel to the positioning plate, the fixed frame is connected with a support, the rotary plate is arranged in the fixed frame and is rotationally connected with the fixed frame, the first driving mechanism is connected with the rotary plate and is used for driving the rotary plate to rotate, a first supporting rod, a second supporting rod and a third supporting rod are sequentially arranged below the rotary plate along the rotating direction of the rotary plate, and when the first supporting rod is opposite to one of the N positioning holes, the second supporting rod and the third supporting rod are respectively opposite to the other two positioning holes of the N positioning holes; the feeding assembly is arranged at one end of the third supporting rod, which is far away from the turntable, and is used for feeding raw materials into a hole with a larger diameter of the positioning hole; the cutting assembly is arranged at one end, far away from the turntable, of the second supporting rod and is used for cutting the raw materials of the positioning hole and guiding the cut semi-finished product into a mold cavity of a forming mold; the forming assembly is arranged at one end, far away from the turntable, of the first supporting rod and used for performing punch forming on a semi-finished product in the die cavity.

Preferably, the feeding assembly comprises a feeding mechanical arm and a second driving mechanism, the second driving mechanism is mounted on the third supporting rod, and the second driving mechanism is connected with the feeding mechanical arm and used for driving the feeding mechanical arm to move up and down in the vertical direction.

Preferably, the cutting assembly comprises a cutting punch and a third driving mechanism, the third driving mechanism is installed on the second supporting rod, and the third driving mechanism is connected with the cutting punch and used for driving the cutting punch to move up and down in the vertical direction.

Preferably, the forming assembly comprises a forming punch and a fourth driving mechanism, the fourth driving mechanism is mounted on the first supporting rod, and the fourth driving mechanism is connected with the forming punch and is used for driving the forming punch to move up and down in the vertical direction.

Preferably, the fixed plate is provided with N blanking holes which penetrate through the upper surface and the lower surface of the fixed plate and are uniformly distributed in a circumferential mode, the central axes of the N blanking holes are respectively overlapped with the central axes of the N positioning holes, the inner diameter of each blanking hole is larger than the maximum diameter of the cavity, and a conveying mechanism is arranged below the fixed plate.

Preferably, the forming die comprises a first movable die, a second movable die, a fifth driving mechanism and a sixth driving mechanism, the first movable die and the second movable die are both connected with the fixed plate and the positioning plate in a sliding manner, and the first movable die and the second movable die are driven by the fifth driving mechanism and the sixth driving mechanism respectively to carry out die closing or die splitting; the first movable die and the second movable die are closed to form a die cavity, when the first movable die and the second movable die are closed, the die cavity is communicated with the positioning hole, the central axis of the die cavity is coincided with the central axis of the positioning hole, and when the first movable die and the second movable die are separated, the first movable die and the second movable die are retreated to two sides of the blanking hole.

According to the multifunctional anti-deviation automobile part stamping device, a first driving mechanism drives a rotating shaft to rotate by a certain angle, so that when a first supporting rod, a second supporting rod and a third supporting rod respectively correspond to a positioning hole, a feeding assembly feeds raw materials into the hole with the larger diameter of the positioning hole, a cutting assembly cuts the raw materials of the positioning hole and respectively guides the cut semi-finished products into a die cavity of a forming die, the forming assembly performs punch forming on the semi-finished products in the die cavity, after the forming is finished, a fifth driving mechanism and a sixth driving mechanism respectively drive a first movable die and a second movable die to move for die separation, so that the products fall into a blanking port for collection, and then the fifth driving mechanism and the sixth driving mechanism respectively drive the first movable die and the second movable die to move for die assembly; the above-described operation is repeated. According to the automatic feeding device, automatic feeding is realized by arranging the feeding assembly, so that the production efficiency is improved; the positioning plate is arranged to position the raw materials, so that the raw materials are prevented from deviating during processing and affecting the product quality, and meanwhile, the cutting punch and the forming punch can be positioned by the positioning plate, so that the processing precision and the product quality are improved; through setting up first movable mould, second movable mould, fifth actuating mechanism, sixth actuating mechanism and blanking mouth, realize the automatic discharge of product, improve production efficiency.

Drawings

Fig. 1 is a schematic structural diagram of a multifunctional anti-deviation automobile part stamping device provided by the invention.

Detailed Description

As shown in fig. 1, fig. 1 is a schematic structural diagram of a multifunctional anti-deviation automobile part stamping device provided by the present invention.

Referring to fig. 1, the multifunctional anti-deviation automobile part stamping device provided by the invention comprises a first mounting plate, a second mounting plate 2, a fixing plate 3, a positioning plate 4, a forming mechanism and a stamping mechanism; wherein:

first mounting panel, second mounting panel 2 parallel arrangement about and connect through a plurality of supports 5 between first mounting panel, the second mounting panel 2, form the processing region between first mounting panel and the second mounting panel 2, and fixed plate 3, locating plate 4, forming mechanism, punching press mechanism all set up in the processing region.

The fixed plate 3 is parallel to the first mounting plate and the second mounting plate 2, the fixed plate 3 is connected with the bracket 5, a conveying mechanism 20 is arranged below the fixed plate 3, N blanking holes 19 which penetrate through the upper surface and the lower surface of the fixed plate 3 and are uniformly distributed on the circumference are formed in the fixed plate 3, and N is a positive integer.

Locating plate 4 is located fixed plate 3 top and is on a parallel with fixed plate 3, and locating plate 4 is connected with support 5, is equipped with N on the locating plate 4 and is circumference evenly distributed and runs through locating hole 6 of its upper and lower surface, and locating hole 6 is the step hole, and this step hole comprises two holes that the diameter is different and the great hole of diameter is last, and the axis of N locating hole 6 coincides with the axis of N blanking hole 19 respectively.

The forming mechanism comprises N forming dies, the N forming dies are arranged between the fixed plate 3 and the positioning plate 4 and are uniformly distributed in a circumferential mode, the N forming dies and the N positioning holes 6 are arranged in a one-to-one correspondence mode, each forming die comprises a first movable die 21, a second movable die 22, a fifth driving mechanism 23 and a sixth driving mechanism 24, the first movable die 21 and the second movable die 22 are connected with the fixed plate 3 and the positioning plate 4 in a sliding mode, and the first movable die 21 and the second movable die 22 are driven by the fifth driving mechanism 23 and the sixth driving mechanism 24 respectively to carry out die closing or die division; the first movable die 21 and the second movable die 22 are matched to form a die cavity communicated with the positioning hole 6, and the maximum diameter of the die cavity is smaller than the inner diameter of the blanking hole 19; when the first movable die 21 and the second movable die 22 are closed, the die cavity is communicated with the positioning hole 6, the central axis of the die cavity is overlapped with the central axis of the positioning hole 6, and when the first movable die 21 and the second movable die 22 are separated, the first movable die 21 and the second movable die 22 are retreated to two sides of the blanking hole 19.

The stamping mechanism comprises a fixed frame 7, a rotary disc 8, a feeding assembly, a cutting assembly, a forming assembly and a first driving mechanism 13. The fixing frame 7 is located above the positioning plate 4 and parallel to the positioning plate 4, the fixing frame 7 is connected with the support 5, the rotary table 8 is arranged in the fixing frame 7 and is connected with the fixing frame 7 in a rotating mode, the first driving mechanism 13 is connected with the rotary table 8 and is used for driving the rotary table 8 to rotate, the first supporting rod 9, the second supporting rod 10 and the third supporting rod 11 are sequentially arranged below the rotary table 8 along the rotating direction of the rotary table, and when the first supporting rod 9 is opposite to one positioning hole 6 in the N positioning holes 6, the second supporting rod 10 and the third supporting rod 11 are opposite to the other two positioning holes 6 in the N positioning holes 6 respectively. The feeding assembly is arranged at one end, far away from the turntable 8, of the third supporting rod 11 and used for feeding raw materials into a hole with a larger diameter of the positioning hole 6; the feeding assembly comprises a feeding mechanical arm 12 and a second driving mechanism 14, the second driving mechanism 14 is installed on the third supporting rod 11, and the second driving mechanism 14 is connected with the feeding mechanical arm 12 and used for driving the feeding mechanical arm 12 to move up and down in the vertical direction. The cutting assembly is arranged at one end, far away from the turntable 8, of the second supporting rod 10 and used for cutting the raw materials of the positioning hole 6 and guiding the cut semi-finished product into a mold cavity of a forming mold; the cutting assembly comprises a cutting punch 15 and a third driving mechanism 16, the third driving mechanism 16 is installed on the second supporting rod 10, and the third driving mechanism 16 is connected with the cutting punch 15 and used for driving the cutting punch 15 to move up and down in the vertical direction. The forming assembly is arranged at one end of the first supporting rod 9, which is far away from the turntable 8, and is used for performing punch forming on a semi-finished product in the mold cavity; the forming assembly comprises a forming punch 17 and a fourth driving mechanism 18, the fourth driving mechanism 18 is installed on the first supporting rod 9, and the fourth driving mechanism 18 is connected with the forming punch 17 and used for driving the forming punch 17 to move up and down in the vertical direction.

In the specific working process of the multifunctional anti-deviation automobile part stamping device, a feeding manipulator 12 of a feeding assembly clamps raw materials, a first driving mechanism 13 drives a rotating shaft to rotate by a certain angle, when a first supporting rod 9, a second supporting rod 10 and a third supporting rod 11 respectively correspond to one positioning hole 6, a second driving mechanism 14 drives the feeding manipulator 12 to move towards a positioning plate 4, the feeding manipulator 12 feeds the raw materials into the larger-diameter hole of the positioning hole 6, meanwhile, a third driving mechanism 16 drives a cutting punch 15 to move towards the positioning plate 4, the cutting punch 15 cuts the raw materials of the positioning hole 6 and respectively guides the cut semi-finished products into a die cavity of a forming die, a fourth driving mechanism 18 drives the forming punch 17 to move towards the positioning plate 4, and the forming punch 17 performs stamping forming on the semi-finished products in the die cavity, after the molding is finished, the fifth driving mechanism 23 and the sixth driving mechanism 24 respectively drive the first movable mold 21 and the second movable mold 22 to move for mold splitting, so that the product falls into the blanking port 19 for collection, and then the fifth driving mechanism 23 and the sixth driving mechanism 24 respectively drive the first movable mold 21 and the second movable mold 22 to move for mold closing; the above-described operation is repeated. According to the automatic feeding device, automatic feeding is realized by arranging the feeding assembly, so that the production efficiency is improved; the positioning plate 4 is arranged to position the raw materials, so that the raw materials are prevented from deviating during processing and affecting the product quality, and meanwhile, the cutting punch 15 and the forming punch 17 can be positioned by the positioning plate 4, so that the processing precision and the product quality are improved; by arranging the first movable die 21, the second movable die 22, the fifth driving mechanism 23, the sixth driving mechanism 24 and the blanking port 19, automatic discharging of products is realized, and production efficiency is improved.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. A multifunctional anti-deviation automobile part stamping device is characterized by comprising a first mounting plate, a second mounting plate (2), a fixing plate (3), a positioning plate (4), a forming mechanism and a stamping mechanism; wherein:

the first mounting plate and the second mounting plate (2) are arranged in parallel up and down, the first mounting plate and the second mounting plate (2) are connected through a plurality of brackets (5), a processing area is formed between the first mounting plate and the second mounting plate (2), and the fixing plate (3), the positioning plate (4), the forming mechanism and the stamping mechanism are all arranged in the processing area;

the fixing plate (3) is parallel to the first mounting plate and the second mounting plate (2), and the fixing plate (3) is connected with the bracket (5);

the positioning plate (4) is positioned above the fixing plate (3) and is parallel to the fixing plate (3), the positioning plate (4) is connected with the bracket (5), N positioning holes (6) which are uniformly distributed in the circumferential direction and penetrate through the upper surface and the lower surface of the positioning plate are formed in the positioning plate (4), N is a positive integer, the positioning holes (6) are stepped holes, and the stepped holes consist of two holes with different diameters and are positioned on the upper part of the positioning plate;

the forming mechanism comprises N forming dies, the N forming dies are arranged between the fixing plate (3) and the positioning plate (4) and are uniformly distributed in a circumferential manner, the N forming dies and the N positioning holes (6) are arranged in a one-to-one correspondence manner, each forming die is provided with a die cavity communicated with the positioning holes (6), and the central axis of the die cavity is coincided with the central axis of the positioning holes (6);

the punching mechanism comprises a fixed frame (7), a rotary table (8), a feeding assembly, a cutting assembly, a forming assembly and a first driving mechanism (13), wherein the fixed frame (7) is positioned above the positioning plate (4) and is parallel to the positioning plate (4), the fixed frame (7) is connected with the bracket (5), the rotary table (8) is arranged in the fixed frame (7) and is rotatably connected with the fixed frame (7), the first driving mechanism (13) is connected with the rotary table (8) and is used for driving the rotary table (8) to rotate, a first supporting rod (9), a second supporting rod (10) and a third supporting rod (11) are sequentially arranged below the rotary table (8) along the rotating direction of the rotary table, and when the first supporting rod (9) is opposite to one positioning hole (6) in the N positioning holes (6), the second supporting rod (10) and the third supporting rod (11) are respectively opposite to the other two positioning holes (6) in the N positioning holes (6); the feeding assembly is arranged at one end, far away from the turntable (8), of the third supporting rod (11) and used for feeding raw materials into the hole with the larger diameter of the positioning hole (6); the cutting assembly is arranged at one end, far away from the rotary table (8), of the second supporting rod (10) and used for cutting the raw materials of the positioning hole (6) and guiding the cut semi-finished product into a mold cavity of a forming mold; the forming assembly is arranged at one end, far away from the turntable (8), of the first supporting rod (9) and used for performing punch forming on a semi-finished product in the die cavity;

the feeding assembly comprises a feeding mechanical arm (12) and a second driving mechanism (14), the second driving mechanism (14) is installed on the third supporting rod (11), and the second driving mechanism (14) is connected with the feeding mechanical arm (12) and used for driving the feeding mechanical arm (12) to move up and down in the vertical direction;

the cutting assembly comprises a cutting punch (15) and a third driving mechanism (16), the third driving mechanism (16) is installed on the second supporting rod (10), and the third driving mechanism (16) is connected with the cutting punch (15) and used for driving the cutting punch (15) to move up and down in the vertical direction;

the forming assembly comprises a forming punch head (17) and a fourth driving mechanism (18), the fourth driving mechanism (18) is installed on the first supporting rod (9), and the fourth driving mechanism (18) is connected with the forming punch head (17) and used for driving the forming punch head (17) to move up and down in the vertical direction.

2. The multifunctional anti-deviation automobile part stamping device as claimed in claim 1, wherein the fixing plate (3) is provided with N blanking holes (19) which penetrate through the upper and lower surfaces of the fixing plate and are uniformly distributed in a circumferential manner, the central axes of the N blanking holes (19) are respectively overlapped with the central axes of the N positioning holes, the inner diameter of each blanking hole (19) is larger than the maximum diameter of the cavity, and a conveying mechanism (20) is arranged below the fixing plate (3).

3. The multifunctional anti-deviation automobile part stamping device according to claim 2, wherein the forming die comprises a first movable die (21), a second movable die (22), a fifth driving mechanism (23) and a sixth driving mechanism (24), the first movable die (21) and the second movable die (22) are slidably connected with the fixed plate (3) and the positioning plate (4), and the first movable die (21) and the second movable die (22) are driven by the fifth driving mechanism (23) and the sixth driving mechanism (24) respectively to be closed or separated; the first movable die (21) and the second movable die (22) are closed to form a die cavity, when the first movable die (21) and the second movable die (22) are closed, the die cavity is communicated with the positioning hole (6), the central axis of the die cavity coincides with the central axis of the positioning hole (6), and when the first movable die (21) and the second movable die (22) are separated, the first movable die (21) and the second movable die (22) retreat to two sides of the blanking hole (19).