CN211614091U - Automatic production equipment for flange shaping process for powder metallurgy automobile - Google Patents

Abstract

The utility model discloses a powder metallurgy is flange plastic technology automated production equipment for car, include: the automatic shaping device comprises a workbench and a divider turntable arranged on the workbench, wherein a workpiece moving mechanism is arranged above the workbench, and one end of the workpiece moving mechanism, which is far away from the workbench, is connected with a shaping station; the workpiece moving mechanism comprises a first moving mechanism and a second moving mechanism, the first moving mechanism comprises a first transverse moving cylinder, a first lifting cylinder and a first clamping jaw, and the first transverse moving cylinder is provided with the first clamping jaw and connected with the first lifting cylinder; the second moving mechanism comprises a second transverse moving cylinder, a second lifting cylinder and a second clamping jaw, and the second transverse moving cylinder is provided with the second clamping jaw and connected with the second lifting cylinder; the utility model provides a flange plastic technology automated production equipment for powder metallurgy car, it is efficient, simple structure, easily operation.

Description

Automatic production equipment for flange shaping process for powder metallurgy automobile

Technical Field

The utility model relates to an automobile flange plastic technical field especially relates to a powder metallurgy is flange plastic technology automated production equipment for car.

Background

Powder metallurgy is a process technique for producing metal powder or metal powder (or a mixture of metal powder and nonmetal powder) as a raw material, and then forming and sintering the raw material to produce metal materials, composite materials and various products. The powder metallurgy method has similar places to the production of ceramics and belongs to the powder sintering technology, so a series of new powder metallurgy technologies can also be used for preparing ceramic materials. Due to the advantages of the powder metallurgy technology, the powder metallurgy technology becomes a key for solving the problem of new materials, and plays a significant role in the development of the new materials. Powder metallurgy includes milling and articles. Wherein the powder making is mainly a metallurgical process and is consistent with the word. Powder metallurgy products are often far beyond the scope of materials and metallurgy, often being a technology spanning multiple disciplines (materials and metallurgy, machinery and mechanics, etc.). Materials and complex parts, which are partially not prepared by conventional casting and machining methods, can also be manufactured by powder metallurgy techniques, and are therefore gaining attention in the industry. The basic procedures of the powder metallurgy process are as follows: preparing raw material powder, forming the powder into a compact with a required shape, sintering the compact, shaping a product and carrying out subsequent treatment on the product. The purpose of powder shaping is to obtain a powder metallurgy product with more stable size, so that the powder metallurgy product is used for eliminating larger deformation of the product caused by high sintering temperature, and is beneficial to subsequent machining procedures and prolonging the service life of a cutter.

A series of actions such as manual discharging, starting and discharging are needed when the shaping machine works, damage to a die and industrial injury of personnel can be caused by carelessness, and the shaping operation has no rest time, so that the danger coefficient and labor intensity of the personnel are effectively reduced, the efficiency and quality of products are improved, and the difficulty to be overcome in shaping automation is achieved.

Therefore, there is a need for further research and practice of the above-mentioned technical problems.

Disclosure of Invention

Technical problem to be solved

The utility model aims to solve the technical problem that a powder metallurgy is flange plastic technology automated production equipment for car is provided, and is efficient, simple structure, easily operation.

(II) technical scheme

The utility model provides a technical scheme that above-mentioned problem adopted is:

an automatic production equipment for flange shaping process for powder metallurgy automobile comprises: the automatic shaping device comprises a workbench and a divider turntable arranged on the workbench, wherein a workpiece moving mechanism is arranged above the workbench, and one end of the workpiece moving mechanism, which is far away from the workbench, is connected with a shaping station;

the workpiece moving mechanism comprises a first moving mechanism and a second moving mechanism, the first moving mechanism comprises a first transverse moving cylinder, a first lifting cylinder and a first clamping jaw, and the first transverse moving cylinder is provided with the first clamping jaw and connected with the first lifting cylinder; the second moving mechanism comprises a second transverse moving cylinder, a second lifting cylinder and a second clamping jaw, and the second transverse moving cylinder is provided with the second clamping jaw and connected with the second lifting cylinder; the first transverse moving cylinder and the second transverse moving cylinder are located on the same working line.

Among the above-mentioned technical scheme, the work piece is installed on the decollator carousel on the workstation, through first moving mechanism and second moving mechanism, moves to the plastic station on, and is efficient, simple structure, easily operation.

Furthermore, a lifting system is arranged on the divider turntable, and a third transverse moving cylinder is connected between the lifting system and the divider turntable.

Among the above-mentioned technical scheme, lifting system passes through the below that third sideslip cylinder removed the work piece, brings the work piece into first sideslip mechanism and is pressed from both sides tightly by first clamping jaw.

Furthermore, a plurality of installation stations are arranged on the divider rotary table.

Furthermore, one side of the second moving mechanism, which is far away from the first moving mechanism, is provided with an oil immersion groove, the side face of the oil immersion groove is provided with a third lifting cylinder and a third clamping jaw, and the third clamping jaw is connected with the second transverse moving cylinder.

Among the above-mentioned technical scheme, the work piece in the immersion oil groove is mentioned through third lift cylinder to it is tight to be pressed from both sides by the third clamping jaw.

Furthermore, a fourth clamping jaw, a fourth lifting cylinder and a fourth transverse moving cylinder which are matched with each other are arranged on the shaping station, and the fourth clamping jaw is arranged on the fourth transverse moving cylinder and is connected with the fourth lifting cylinder.

Further, a conveyor belt is arranged on the shaping station.

In the technical scheme, the shaped workpiece leaves the shaping station through the conveyor belt.

(III) advantageous effects

Compared with the prior art, the technical scheme of the utility model have following advantage:

the utility model provides a flange plastic technology automated production equipment for powder metallurgy car, it is efficient, simple structure, easily operation.

Drawings

Fig. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is an enlarged view of the portion A of FIG. 1 according to the present invention;

fig. 3 is an enlarged view of a portion B of fig. 1 according to the present invention.

Wherein: the device comprises a worktable 1, a divider turntable 11, a lifting system 12, a third traverse cylinder 13, an installation station 14, a workpiece moving mechanism 2, a first moving mechanism 21, a first traverse cylinder 211, a first lifting cylinder 212, a first clamping jaw 213, a second moving mechanism 22, a second traverse cylinder 221, a second lifting cylinder 222, a second clamping jaw 223, a shaping station 3, a fourth clamping jaw 31, a fourth traverse cylinder 32, a fourth lifting cylinder 33, a conveyor belt 34, an oil immersion tank 4, a third lifting cylinder 41 and a third clamping jaw 42.

Detailed Description

The following detailed description of the embodiments of the present invention is provided with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

Examples

The automatic production equipment for the flange shaping process for the powder metallurgy automobile shown in fig. 1-3 comprises: the device comprises a workbench 1 and a divider turntable 11 arranged on the workbench 1, wherein a workpiece moving mechanism 2 is arranged above the workbench 1, and one end of the workpiece moving mechanism 2, which is far away from the workbench 1, is connected with a shaping station 3; the workpiece moving mechanism 2 comprises a first moving mechanism 21 and a second moving mechanism 22, the first moving mechanism 21 comprises a first traverse air cylinder 211, a first lifting air cylinder 212 and a first clamping jaw 213, and the first traverse air cylinder 211 is provided with the first clamping jaw 213 and is connected with the first lifting air cylinder 212; the second moving mechanism 22 comprises a second traverse cylinder 221, a second lifting cylinder 222 and a second clamping jaw 223, wherein the second traverse cylinder 221 is provided with the second clamping jaw 223 and is connected with the second lifting cylinder 222; the first traverse cylinder 211 and the second traverse cylinder 221 are located on the same working line. The workpiece is arranged on the divider turntable 11 on the workbench 1 and is moved to the shaping station 3 through the first moving mechanism 21 and the second moving mechanism 22, so that the efficiency is high, the structure is simple, and the operation is easy.

The divider rotating disc 11 is provided with a lifting system 12, a third traverse cylinder 13 is connected between the lifting system 12 and the divider rotating disc 11, and the lifting system 12 moves to the lower part of the workpiece through the third traverse cylinder 13 to bring the workpiece into the first traverse mechanism and clamp the workpiece by the first clamping jaw 213.

The divider turntable 11 is provided with a plurality of mounting stations 14, one side of the second moving mechanism 22, which is far away from the first moving mechanism 21, is provided with an oil immersion groove 4, the side surface of the oil immersion groove 4 is provided with a third lifting cylinder 41 and a third clamping jaw 42, the third clamping jaw 42 is connected with the second traverse cylinder 221, and a workpiece in the oil immersion groove 4 is lifted by the third lifting cylinder 41 and clamped by the third clamping jaw 42. A fourth clamping jaw 31, a fourth lifting cylinder 33 and a fourth traversing cylinder 32 which are matched with each other are arranged on the shaping station 3, and the fourth traversing cylinder 32 is provided with the fourth clamping jaw 31 and is connected with the fourth lifting cylinder 33; the shaping station 3 is provided with a conveyor belt 34, and the shaped workpiece leaves the shaping station 3 through the conveyor belt 34.

During working, a workpiece is firstly installed on an installation station 14 on a workbench 1, the workpiece is rotated to a working position through a divider turntable 11, a lifting system 12 moves to the lower part of the workpiece under the action of a third traverse cylinder 13 and drives the workpiece to lift upwards, a first clamping jaw 213 clamps the workpiece and separates the workpiece from the installation station 14 through a first lifting cylinder 212, then the workpiece moves to a second moving mechanism 22 under the action of a first traverse cylinder 211, the workpiece is moved to an immersion tank 4 under the action of a second traverse cylinder 221 through a second clamping jaw 223, the workpiece in the immersion tank 4 is moved to a third clamping jaw 42 through a third lifting cylinder 41, the workpiece is moved to a shaping station 3 through the drive of the second traverse cylinder 221 by the third clamping jaw 42, after shaping is completed, the workpiece is clamped by a fourth clamping jaw 31, the workpiece is lifted up through a fourth lifting cylinder 33, and is moved to a conveyor belt 34 under the drive of a fourth traverse cylinder 32, the conveyor belt 34 drives the workpiece to leave the shaping station 3, and shaping is completed.

The utility model provides a flange plastic technology automated production equipment for powder metallurgy car, it is efficient, simple structure, easily operation.

As described above, the above embodiments are not limiting embodiments of the present invention, and modifications or equivalent variations made by those skilled in the art based on the substance of the present invention are within the technical scope of the present invention.

Claims (6)

1. An automatic production equipment for flange shaping process for powder metallurgy automobile comprises: the automatic shaping device comprises a workbench (1) and a divider turntable (11) arranged on the workbench (1), and is characterized in that a workpiece moving mechanism (2) is arranged above the workbench (1), and one end, far away from the workbench (1), of the workpiece moving mechanism (2) is connected with a shaping station (3);

the workpiece moving mechanism (2) comprises a first moving mechanism (21) and a second moving mechanism (22), the first moving mechanism (21) comprises a first transverse moving cylinder (211), a first lifting cylinder (212) and a first clamping jaw (213), and the first transverse moving cylinder (211) is provided with the first clamping jaw (213) and is connected with the first lifting cylinder (212); the second moving mechanism (22) comprises a second traverse cylinder (221), a second lifting cylinder (222) and a second clamping jaw (223), wherein the second traverse cylinder (221) is provided with the second clamping jaw (223) and is connected with the second lifting cylinder (222); the first transverse moving cylinder (211) and the second transverse moving cylinder (221) are located on the same working line.

2. The automatic production equipment for the flange shaping process for the powder metallurgy automobile as claimed in claim 1, wherein a lifting system (12) is arranged on the divider rotating disc (11), and a third traverse cylinder (13) is connected between the lifting system (12) and the divider rotating disc (11).

3. The automatic production equipment for the flange shaping process of the powder metallurgy automobile as claimed in claim 2, wherein a plurality of mounting stations (14) are arranged on the divider rotary table (11).

4. The automatic production equipment for the flange shaping process for the powder metallurgy automobile as claimed in claim 1, wherein an oil immersion groove (4) is formed in one side, away from the first moving mechanism (21), of the second moving mechanism (22), a third lifting cylinder (41) and a third clamping jaw (42) are arranged on the side face of the oil immersion groove (4), and the third clamping jaw (42) is connected with the second traverse cylinder (221).

5. The automatic production equipment for the flange reshaping process for the powder metallurgy automobile as claimed in claim 1, wherein a fourth clamping jaw (31), a fourth lifting cylinder (33) and a fourth traversing cylinder (32) which are matched with each other are arranged on the reshaping station (3), and the fourth traversing cylinder (32) is provided with the fourth clamping jaw (31) and is connected with the fourth lifting cylinder (33).

6. The automatic production equipment for the flange shaping process of the powder metallurgy automobile as claimed in claim 5, wherein a conveyor belt (34) is arranged on the shaping station (3).

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