Search

CN-116689744-B - Integrated forming machine for processing rear bottom fork pipe fitting of electric vehicle and processing method thereof

CN116689744BCN 116689744 BCN116689744 BCN 116689744BCN-116689744-B

Abstract

The invention discloses an integrated forming machine for processing rear bottom fork pipe fittings of an electric vehicle and a processing method thereof, relates to the technical field of rear bottom fork pipe fittings, and aims to solve the problem that the toughness of the rear bottom fork pipe fittings of the existing electric vehicle is greatly reduced because the rear bottom fork pipe fittings are welded and assembled by different pipe fittings when the rear bottom fork pipe fittings of the existing electric vehicle are processed. The operation cavity is installed the inside central point department of integrated into one piece machine main part, the inside of operation cavity is provided with preparation mould mechanism, the both ends of preparation mould mechanism all rotate with the integrated into one piece machine main part through the axis of rotation body and are connected, and the axis of rotation body is provided with two, two the both ends of axis of rotation body run through respectively and extend inside integrated into one piece machine main part and the preparation mould mechanism, the up end of preparation mould mechanism is connected with the integrated into one piece machine main part through carrying connecting tube, the inside at preparation mould mechanism both ends all is provided with the preparation cavity, and the preparation cavity is provided with two.

Inventors

  • LUO ZEHAI

Assignees

  • 安徽骆氏电动车有限公司

Dates

Publication Date
20260512
Application Date
20230614

Claims (8)

  1. 1. The utility model provides an electric motor car rear bottom fork pipe fitting processing is with integrated into one piece machine, includes integrated into one piece machine body (1), integrated into one piece The novel integrated machine comprises a machine body (1), wherein a feeding mechanism (15) is arranged on the rear end face of the machine body (1), the feeding mechanism (15) is fixedly connected with the integrated machine body (1), an operating mechanism (9) is arranged on the front end face of the integrated machine body (1), the operating mechanism (9) is electrically and fixedly connected with the integrated machine body (1), a turnover protection plate (16) is arranged above the feeding mechanism (15), the turnover protection plate (16) is rotationally connected with the feeding mechanism (15) through a first electric control rotating shaft body (17), an overhaul shielding plate (2) is arranged below the rear end face of the integrated machine body (1), the overhaul shielding plate (2) is in threaded connection with the integrated machine body (1) through a hexagonal bolt (3), four hexagonal bolts (3) are arranged, reserved heat dissipation holes (4) are formed in the overhaul shielding plate (2), a plurality of reserved heat dissipation holes (4) are formed in the inside the overhaul shielding plate, and the reserved heat dissipation holes (4) are integrally formed with the overhaul shielding plate (2). It is characterized in that the method also comprises the following steps: The operation cavity (37) is arranged at the central position inside the integrated machine main body (1), a manufacturing die mechanism (38) is arranged inside the operation cavity (37), two ends of the manufacturing die mechanism (38) are rotationally connected with the integrated machine main body (1) through rotating shafts (39), the rotating shafts (39) are provided with two, two ends of the rotating shafts (39) respectively penetrate through and extend into the integrated machine main body (1) and the manufacturing die mechanism (38), the upper end face of the manufacturing die mechanism (38) is connected with the integrated machine main body (1) through a conveying connecting pipeline (40), manufacturing cavities (41) are arranged inside two ends of the manufacturing die mechanism (38), overturning rotating connecting rods (21) are arranged on the front side and the rear side of the upper end face of the integrated machine main body (1), the overturning rotating connecting rods (21) are respectively connected with the integrated machine main body (1) through a second rotating shaft body (22), two moving grooves (23) are reserved inside the two electric control rotating connecting rods (23) are reserved inside the two electric control rotating grooves (23), two reserve removal groove (23) all forms with upset rotation connecting rod (21) is integrative, two the up end that upset rotated connecting rod (21) is provided with sliding connection piece (24), and sliding connection piece (24) are provided with two, two sliding connection piece (24) all with upset rotation connecting rod (21) sliding connection, two both sides that upset rotated connecting rod (21) inner wall all are provided with sliding groove (46), and sliding groove (46) are provided with four, four sliding groove (46) all forms with upset rotation connecting rod (21) is integrative, two the inside that upset rotated connecting rod (21) is provided with pulley mechanism (47), and pulley mechanism (47) are provided with two, two pulley mechanism (47) all are through connecting body of rod (48) and sliding connection piece (24) fixed connection, and connecting body of rod (48) all are provided with two, two connecting body of rod (48) all are provided with sliding connection groove (46), and sliding connection piece (24) one end is provided with connecting rod (25), and two electric control body (25) are provided with connecting rod (25) and three rotation axis (25) are provided with through connecting rod (24).
  2. 2. The integrated machine for machining the rear bottom fork pipe fitting of the electric vehicle according to claim 1, wherein a first reserved groove (10) is formed in one side of the upper end face of the operating mechanism (9), a display screen (11) is arranged in the first reserved groove (10), an operating key (12) is arranged on one side of the display screen (11), a plurality of operating keys (12) are arranged, a drawer (13) is arranged on the front end face of the operating mechanism (9), the drawer (13) is in sliding connection with the operating mechanism (9), and a holding block (14) is arranged on the front end face of the drawer (13).
  3. 3. The integrated machine for machining rear bottom fork pipe fittings of electric vehicle according to claim 2, wherein a recovery end (42) is provided below the inside of the operation chamber (37), and one end of the recovery end (42) penetrates and extends into an integrated body The inside of make-up machine main part (1), the inside of make-up machine main part (1) one end is provided with second inner chamber (43), the inside of said The inside below of second inner chamber (43) is provided with recovery pump (44), recovery end (42) one end is installed on recovery pump (44), the top of recovery pump (44) is provided with recovery pipeline (45), and the one end of recovery pipeline (45) runs through and extends to inside feed mechanism (15).
  4. 4. The integrated machine for machining the rear bottom fork pipe fitting of the electric vehicle according to claim 3, wherein a second reserved groove (18) is formed in the front end face of the feeding mechanism (15), an observation window (19) is formed in the second reserved groove (18), the observation window (19) is fixedly connected with the feeding mechanism (15) in an embedded mode, servo motors (20) are arranged on two sides of the outer wall of the feeding mechanism (15), the servo motors (20) are arranged in two, and one ends of the two servo motors (20) penetrate through and extend into the feeding mechanism (15).
  5. 5. The integrated machine for machining rear bottom fork pipe fittings of electric vehicles according to claim 4, wherein an inner cavity (27) is arranged in the feeding mechanism (15), a splash guard (28) is arranged above the inner cavity (27), the splash guard (28) is fixedly connected with one side of the inner wall of the feeding mechanism (15), a conveying pump (29) is arranged below the inner cavity (27), an input port (30) is arranged at one end of the conveying pump (29), and the input port (30) is fixedly connected with the conveying pump (29).
  6. 6. The integrated machine for machining rear bottom fork pipe fittings of electric vehicles according to claim 5, wherein power output ends (31) are arranged on two sides of the inner wall of the feeding mechanism (15), the power output ends (31) are arranged in two, the two power output ends (31) are all extensions of one end of the servo motor (20), one end of each power output end (31) is provided with a central rotating rod body (32), the central rotating rod bodies (32) are arranged in two, the two central rotating rod bodies (32) are fixedly connected with one end of each power output end (31), stirring blades (33) are arranged on one circle of the outer wall of each central rotating rod body (32), and the stirring blades (33) are arranged in three circles and fixedly connected with one circle of the outer wall of each central rotating rod body (32).
  7. 7. The integrated into one piece machine for electric motor car rear bottom fork pipe fitting processing of claim 6, wherein cavity (5) are placed to the below of terminal surface before integrated into one piece machine main part (1), and cavity (5) are placed to the component is provided with two, two be provided with baffle (6) between cavity (5) are placed to the component, and baffle (6) one end and integrated into one piece machine main part (1) fixed connection, the terminal surface is provided with buckle piece (7) before baffle (6), the outside of buckle piece (7) is provided with protection isolation screen panel (8), and the one end of protection isolation screen panel (8) runs through and extends to the inside of integrated into one piece machine main part (1), the inside of integrated into one piece machine main part (1) terminal surface is provided with first inner cavity (34), the inside of first inner cavity (34) is provided with fourth automatically controlled rotation axis (35), the round of fourth automatically controlled rotation axis (35) outer wall is provided with accomodates cover (36), accomodate cover (36) and fourth automatically controlled rotation axis (35) rotate and are connected on the outer wall of protection isolation screen panel (8).
  8. 8. A processing method of an integrated forming machine for processing rear bottom fork pipe fittings of an electric vehicle based on the integrated forming machine device for processing rear bottom fork pipe fittings of an electric vehicle according to any one of claims 1 to 7, characterized by comprising the following steps: The method comprises the steps that firstly, a turnover protection plate (16) is opened by rotating a first electric control rotating shaft body (17), so that materials of a manufactured bottom fork pipe fitting can enter a feeding mechanism (15), when the materials enter the feeding mechanism, the materials are subjected to splash-proof treatment by a splash guard (28), after the materials enter the feeding mechanism, a servo motor (20) is started, a rod body (32) is rotated by an uninterrupted rotating center, and stirring blades (33) stir the materials in the feeding mechanism, so that the activity of the materials is not weakened; Secondly, conveying the materials in the die making mechanism (38) into a making cavity (41) in the die making mechanism (38) through a conveying connecting pipeline (40) by using a conveying pump (29), and placing the die making mechanism (38) in an elevation angle through a rotating shaft body (39) during making so as to avoid the materials from flowing out; step three, the overturning and rotating connecting rod (21) is overturned and unfolded through the second electric control rotating shaft body (22), and then the overturning and rotating connecting rod is slipped The movable connecting block (24) adjusts the distance between the die connecting rod (25) and the manufacturing die mechanism (38) and the arrangement of the third electric control rotating shaft body (26), and adjusts the inclination angle of the die connecting rod (25) so that the die connecting rod (25) can be inserted into the manufacturing die mechanism (38) to integrally form the pipe fitting; And fourthly, inserting the material into the manufacturing die mechanism (38) and discharging redundant materials, and recycling and conveying the materials into the feeding mechanism (15) again through the recycling end (42) arranged by the recycling pump (44), so that waste of raw materials is avoided.

Description

Integrated forming machine for processing rear bottom fork pipe fitting of electric vehicle and processing method thereof Technical Field The invention relates to the technical field of rear bottom fork pipe fittings, in particular to an integrated forming machine for processing rear bottom fork pipe fittings of an electric vehicle and a processing method thereof. Background The rear bottom fork is a main part of the electric vehicle, is positioned at the lower part of the electric vehicle and is horizontally arranged to be H-shaped, the front end of the rear bottom fork is movably connected with the middle lower part of the large frame of the vehicle through a through shaft, and the rear end of the rear bottom fork is connected with the rear part of the large frame of the vehicle through a shock absorber. For example, the bulletin No. 201810365567.7 (production method of bottom fork component) comprises punching, namely placing one end of the side tube in a first press for compression fixation, punching the edge of the other end of the side tube by adopting a punching device to form a semicircular opening, shrinking, namely placing one end of the side tube in a second press for compression fixation, shrinking the semicircular opening of the side tube by adopting a shrinking device, and welding, namely welding the side tube and the bottom fork transverse tube to form the bottom fork component. The production method reduces the development and manufacturing cost of the notch die, improves the production safety and the production efficiency, improves the strength of the motorcycle bottom fork component produced by the production method, has smoother and smoother appearance, and improves the attractiveness. However, when the existing electric vehicle rear bottom fork pipe fitting is processed, the existing electric vehicle rear bottom fork pipe fitting is welded and assembled by different pipe fittings, so that the problem of toughness of the rear bottom fork pipe fitting is greatly reduced. Disclosure of Invention The invention aims to provide an integrated forming machine for processing rear bottom fork pipe fittings of an electric vehicle and a processing method thereof, which are used for solving the problems that the conventional rear bottom fork pipe fittings of the electric vehicle provided in the prior art are welded and assembled by different pipe fittings when being processed, and the toughness of the rear bottom fork pipe fittings is greatly reduced. The integrated forming machine for machining the rear bottom fork pipe fitting of the electric vehicle comprises an integrated forming machine main body, wherein a feeding mechanism is arranged on the rear end face of the integrated forming machine main body, the feeding mechanism is fixedly connected with the integrated forming machine main body, an operating mechanism is arranged on the front end face of the integrated forming machine main body, the operating mechanism is electrically and fixedly connected with the integrated forming machine main body, a turnover protection plate is arranged above the feeding mechanism, the turnover protection plate is rotationally connected with the feeding mechanism through a first electric control rotating shaft body, an overhaul shielding plate is arranged below the rear end face of the integrated forming machine main body, the overhaul shielding plate is in threaded connection with the integrated forming machine main body through a hexagon bolt, four overhaul shielding plates are arranged in the hexagon bolt, a plurality of reserved heat dissipation hole grooves are formed after the reserved heat dissipation hole grooves are formed, and the reserved heat dissipation hole grooves are integrally formed with the overhaul shielding plate; Further comprises: The operation cavity, it installs the inside central point department of integrated into one piece machine main part, the inside of operation cavity is provided with preparation mould mechanism, the both ends of preparation mould mechanism all rotate with the integrated into one piece machine main part through the axis of rotation body and be connected, and the axis of rotation body is provided with two, two the both ends of axis of rotation body run through respectively and extend integrated into one piece machine main part and inside preparation mould mechanism, the up end of preparation mould mechanism is connected with the integrated into one piece machine main part through carrying connecting tube, the inside at preparation mould mechanism both ends all is provided with the preparation cavity, and the preparation cavity is provided with two, the front side and the rear side of integrated into one piece machine main part up end all are provided with the upset and rotate the connecting rod, and the upset rotates the connecting rod and all rotate with the integrated into one piece machine main part through the automatically controlled axis of rotation of second,