CN220942952U - High-efficient forming die of auto parts - Google Patents

Abstract

The utility model provides an efficient forming die for automobile parts, which relates to the field of automobile parts and comprises a bottom plate, wherein a torsion servo motor and a frame-shaped seat are arranged at the top end of the bottom plate, a PIN needle plate is arranged at the center of the frame-shaped seat, a supporting plate is arranged beside the frame-shaped seat, an electric telescopic rod is arranged on the supporting plate, a piston rod in the electric telescopic rod is connected with the frame-shaped seat, the output end of the torsion servo motor is connected with a coupling, a rotating plate is fixed at the end part of the coupling, a bending plate is arranged at the center of the side surface of the rotating plate, an electric push rod is arranged at the side surface of the supporting plate, a push plate is arranged at the end part of the piston rod in the electric push rod, a chute is arranged at the other side surface of the supporting plate, and a feed box is arranged at the top end of the bottom plate.

Description

High-efficient forming die of auto parts

Technical Field

The utility model relates to the field of automobile parts, in particular to an efficient forming die for automobile parts.

Background

The automobile part is a component basis for forming the whole automobile part, and all parts are electrically connected through the connector to realize control, wherein the PIN needle part is a metal substance used for completing electric signal conductive transmission in the automobile connector, and when the automobile PIN needle part is used, bending forming treatment is sometimes carried out on the PIN needle according to actual use requirements.

The utility model discloses a 90 degrees mould of bending of pin needle in automobile-used part of application number CN202120657350.0, including the workstation, be equipped with the part anchor clamps on the workstation, in the part anchor clamps were located to the one end of pin needle, in the anchor clamps of bending were located to the other end of pin needle, the one end of bending anchor clamps be the chuck, the other end of bending anchor clamps is the transmission shaft, the transmission shaft passes through the shaft coupling and links to each other with high torque motor, high torque motor links to each other with the piston rod of cylinder, high torque motor's below is equipped with guide rail and pulley, it can help bending anchor clamps to remove different positions and bend, the pin needle of different models, different length of convenient cooperation uses. However, after the bending is completed, the PIN needle after bending is folded, so that the formed PIN needle is inconvenient to withdraw in time, the subsequent bending processing is affected, and the bending forming efficiency is lower.

Therefore, an efficient forming die for automobile parts is provided.

Disclosure of utility model

The utility model aims to provide an efficient forming die for automobile parts, and solves the problems set forth in the background.

In order to solve the technical problems, the utility model provides the following technical scheme:

The utility model provides an efficient forming die for automobile parts, includes the bottom plate, torsion servo motor and frame type seat are installed on the bottom plate top, the PIN faller is installed at frame type seat center, the backup pad is installed by the frame type seat, install electric telescopic handle in the backup pad, the inside piston rod of electric telescopic handle links to each other with the frame type seat, torsion servo motor output is connected with the shaft coupling, the shaft coupling end is fixed with the rotor plate, the rotor plate side center installs the board of bending, backup pad side-mounting has the electric putter, the push pedal is installed to the inside piston rod tip of electric putter, the inclined flue is installed to backup pad another side, the workbin is installed on the bottom plate top.

Furthermore, the PIN needle plate center, the bending plate center and the coupling center are positioned on the same horizontal plane, the PIN needle plate comprises an upper plate and a lower plate, and the bending plate comprises a bending upper plate and a bending lower plate.

Still further, be provided with main lifting piece in the frame seat, main lifting piece is including main spout, main slider, main screw rod and main servo motor, main spout is seted up at frame seat inner wall, main slider is total two sets of and slides in main spout, main screw rod screw thread runs through two sets of main sliders and screw-thread fit's opposite direction, main screw rod tip rotates and passes frame seat top and main servo motor and link to each other.

Further, the upper plate and the lower plate are mounted at the ends of the main slider.

Still further, the rotor plate side is provided with vice lifter, vice lifter is including vice spout, vice slider, vice screw rod and vice servo motor, vice spout is seted up in the rotor plate side, vice slider is two sets of and slides in vice spout altogether, vice screw rod screw thread runs through two sets of vice sliders and screw-thread fit's opposite direction, vice screw rod tip rotation passes rotor plate top and vice servo motor links to each other.

Further, the upper bending plate and the lower bending plate are arranged at the end part of the auxiliary sliding block.

Still further, install the angle spare on the shaft coupling, the angle spare is including indicating plate, pointer, angle ring, riser, inner ring groove and stopper, the indicating plate is fixed at the shaft coupling lateral wall, the pointer is fixed in the indicating plate side, the angle ring is installed outside the indicating plate, the riser is fixed in angle ring bottom, the riser bottom is fixed on the bottom plate, the inner ring groove is seted up at angle ring inner wall, the stopper slides in the inner ring groove.

Furthermore, the angle ring is arranged in a transparent way, and the limiting block is provided with a contact sensor.

When the device provided by the technical scheme of the utility model is used, the position of the limiting block can be adjusted in advance when the PIN needle is bent and formed, the position is adjusted through the sliding fit of the limiting block and the inner ring groove, and when the pointer is contacted with the limiting block, the torsion servo motor stops rotating to realize the control of the bending angle; the main lifting piece is utilized to start the main servo motor to drive the main screw rod to rotate, the main slide block is driven to move by the threaded fit of the main screw rod and the main slide block, the upper plate and the lower plate fix the PIN needle, the auxiliary lifting piece is utilized to start the auxiliary servo motor, the auxiliary screw rod is driven to rotate, and the auxiliary sliding block is driven to move by utilizing the threaded fit of the auxiliary screw rod and the auxiliary sliding block, so that the PIN needle is further fixed by the movement of the bending upper plate and the bending lower plate, and the PIN needle is applicable to PIN needles with various heights; after the shaping, reverse vice servo motor for bend the upper plate and bend the lower plate separation, utilize electric telescopic handle, promote the frame seat and reset, upset main servo motor, make upper plate and lower plate separation, start electric putter, utilize the push pedal to release the PIN needle, get into the workbin through the chute and collect.

Drawings

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic view of the structure of the auxiliary lifting member of the present utility model;

FIG. 3 is an enlarged schematic view of the portion A of the present utility model;

Fig. 4 is a schematic view of the main lifter structure of the present utility model.

Marked in the figure as: 1. base plate 2, torque servo motor 3, frame type seat 4, pin plate 400, upper plate 401, lower plate 5, support plate 6, electric telescopic rod 7, shaft coupling 8, rotating plate 9, bending plate 900, bending upper plate 901, bending lower plate 10, electric push rod 11, push plate 12, chute 13, feed box 14, main slide groove 15, main slide block 16, main screw 17, main servo motor 18, auxiliary slide groove 19, auxiliary slide block 20, auxiliary servo motor 22, indicating disk 23, pointer 24, angle ring 25, vertical plate 26, inner ring groove 27, limiting block 28 and contact sensor.

Detailed Description

Embodiments of the present utility model are described in detail below, examples of which are illustrated in the accompanying drawings, wherein like or similar reference numerals refer to like or similar elements or elements having like or similar functions throughout. The embodiments described below by referring to the drawings are illustrative and intended to explain the present utility model and should not be construed as limiting the utility model.

As shown in fig. 1 to 4, an efficient molding die for automobile parts comprises a base plate 1,

Example 1

As shown in fig. 1, 2 and 4, torque servo motor 2 and frame type seat 3 are installed on the top of bottom plate 1, PIN faller 4 is installed at the center of frame type seat 3, backup pad 5 is installed by frame type seat 3, install electric telescopic handle 6 on backup pad 5, the inside piston rod of electric telescopic handle 6 links to each other with frame type seat 3, torque servo motor 2 output is connected with shaft coupling 7, shaft coupling 7 end is fixed with rotor plate 8, rotor plate 8 side center installs turn-over plate 9, PIN faller 4 center, turn-over plate 9 center and shaft coupling 7 center are located same horizontal plane, backup pad 5 side installs electric push rod 10, push pedal 11 is installed to the inside piston rod end of electric push rod 10, backup pad 5 another side installs chute 12, bottom plate 1 top is installed workbin 13, when carrying out the bending shaping of PIN needle, place the PIN needle that waits to handle on PIN faller 4, start electric telescopic handle 6, promote frame type seat 3 and remove, thereby drive the PIN needle and move towards rotor plate 8, make it get into in turn-over plate 9, start torque servo motor 2, drive rotor plate 8 and rotate, thereby drive rotor plate 8, make use of turn-over plate 9 to bend shaping.

Example two

On the basis of the first embodiment, as shown in fig. 2 and 4, the PIN board 4 comprises an upper board 400 and a lower board 401, the bending board 9 comprises a bending upper board 900 and a bending lower board 901, a main lifting piece is arranged in the frame-shaped seat 3, the main lifting piece comprises a main sliding groove 14, a main sliding block 15, a main sliding rod 16 and a main servo motor 17, the main sliding groove 14 is formed in the inner wall of the frame-shaped seat 3, the main sliding blocks 15 are divided into two groups and slide in the main sliding groove 14, the upper board 400 and the lower board 401 are arranged at the end parts of the main sliding blocks 15, the threads of the main sliding rod 16 penetrate through the two groups of main sliding blocks 15 and are opposite in the threaded matching direction, the end parts of the main sliding rod 16 are rotated through the top end part of the frame-shaped seat 3 and are connected with the main servo motor 17, a secondary lifting piece is arranged on the side surface of the rotating board 8, the secondary lifting piece comprises a secondary sliding groove 18, a secondary sliding block 19, a secondary sliding rod 20 and a secondary servo motor 21, the secondary sliding groove 18 is formed on the side surface of the rotating board 8, the secondary sliding blocks 19 are divided into two groups and slide grooves slide in the main sliding groove 18, the bending upper plate 900 and the bending lower plate 901 are arranged at the end parts of the auxiliary sliding blocks 19, the threads of the auxiliary screw rods 20 penetrate through the two groups of auxiliary sliding blocks 19, the threaded matching directions are opposite, the end parts of the auxiliary screw rods 20 rotate to penetrate through the top ends of the rotating plates 8 and are connected with the auxiliary servo motors 21, when the PIN needle is bent and formed, the PIN needle to be processed is placed on the PIN needle plate 4, the main lifting piece is firstly utilized to start the main servo motors 17 to drive the main screw rods 16 to rotate, the threaded matching of the main screw rods 16 and the main sliding blocks 15 is utilized to drive the main sliding blocks 15 to move, the upper plate 400 and the lower plate 401 fix the PIN needle, then the electric telescopic rods 6 are started to drive the frame-shaped seat 3 to move, the PIN needle is driven to move towards the rotating plates 8 to enter the bending plates 9, then the auxiliary servo motors 21 are started to drive the auxiliary screw rods 20 to rotate, the threaded matching of the auxiliary screw rods 20 and the auxiliary sliding blocks 19 is utilized, the auxiliary slide block 19 is driven to move, so that the bending upper plate 900 and the bending lower plate 901 move to further fix the PIN needle, the torsion servo motor 2 is started finally, the shaft coupling 7 is driven to rotate, the rotating plate 8 is driven to rotate, the bending plate 9 is utilized to bend and shape the PIN needle, after the shaping, the auxiliary servo motor 21 is reversed, the bending upper plate 900 and the bending lower plate 901 are separated, the electric telescopic rod 6 is started, the frame-shaped seat 3 is pushed to reset, the main servo motor 17 is turned, the upper plate 400 and the lower plate 401 are separated, the electric push rod 10 is started, the PIN needle is pushed out by the push plate 11, and the PIN needle enters the feed box 13 through the chute 12 to be collected.

Example III

On the basis of the second embodiment, as shown in fig. 3, an angle piece is installed on the coupling 7, the angle piece comprises an indicating disc 22, a pointer 23, an angle ring 24, a vertical plate 25, an inner ring groove 26 and a limiting block 27, the indicating disc 22 is fixed on the side wall of the coupling 7, the pointer 23 is fixed on the side surface of the indicating disc 22, the angle ring 24 is installed outside the indicating disc 22, the angle ring 24 is arranged in a transparent mode, the vertical plate 25 is fixed at the bottom end of the angle ring 24, the bottom end of the vertical plate 25 is fixed on the bottom plate 1, the inner ring groove 26 is formed in the inner wall of the angle ring 24, the limiting block 27 slides in the inner ring groove 26, a contact sensor 28 is installed on the limiting block 27, the position of the limiting block 27 can be adjusted in advance, the position is adjusted by utilizing the sliding fit of the limiting block 27 and the inner ring groove 26, the indicating disc 22 rotates along with the coupling 7 in the bending process, so that the pointer 23 moves, and when the pointer 23 and the limiting block 27 contact, the torsion servo motor 2 stops rotating, and the bending angle is controlled.

When in use, during bending and forming of the PIN needle, the position of the limiting block 27 can be adjusted in advance, the PIN needle to be processed is placed on the PIN needle plate 4 through the angle ring 24 and the position adjustment, the main lifting piece is firstly utilized to start the main servo motor 17 to drive the main screw rod 16 to rotate, the main screw rod 16 is utilized to be in threaded fit with the main slide block 15 to drive the main slide block 15 to move, the upper plate 400 and the lower plate 401 are used for fixing the PIN needle, then the electric telescopic rod 6 is started to push the frame-shaped seat 3 to move, the PIN needle is driven to move towards the rotating plate 8 to enter the bending plate 9, then the auxiliary lifting piece is utilized to drive the auxiliary servo motor 21 to drive the auxiliary screw rod 20 to rotate, the auxiliary screw rod 20 is utilized to be in threaded fit with the auxiliary slide block 19 to drive the auxiliary slide block 19 to move, so that the bending upper plate 900 and the bending lower plate 901 move to further fix the PIN needle, finally, the torsion servo motor 2 is started to drive the shaft coupling 7 to rotate, thereby driving the rotating plate 8 to rotate, the bending plate 9 is utilized to bend and shape the PIN needle, in the bending process, the indicating plate 22 rotates along with the shaft coupling 7, the pointer 23 moves, when the pointer 23 contacts with the limiting block 27, the torsion servo motor 2 stops rotating, the control of bending angle is realized, the auxiliary servo motor 21 is reversed after the forming, the bending upper plate 900 and the bending lower plate 901 are separated, then the electric telescopic rod 6 is started, the frame-shaped seat 3 is pushed to reset, the main servo motor 17 is turned over, the upper plate 400 and the lower plate 401 are separated, the electric push rod 10 is started, the PIN needle is pushed out by the push plate 11, and enters the feed box 13 through the chute 12 to be collected.

The present utility model is not limited to the preferred embodiments, and any person skilled in the art can make many possible variations and modifications to the technical solution of the present utility model by using the disclosed method without departing from the scope of the technical solution of the present utility model.

Claims (8)

1. The utility model provides an efficient forming die for automobile parts, includes bottom plate (1), its characterized in that: torsion servo motor (2) and frame type seat (3) are installed on bottom plate (1) top, PIN faller (4) are installed at frame type seat (3) center, backup pad (5) are installed other to frame type seat (3), install electric telescopic handle (6) on backup pad (5), inside piston rod and frame type seat (3) of electric telescopic handle (6) link to each other, torsion servo motor (2) output is connected with shaft coupling (7), shaft coupling (7) end fixing has rotating plate (8), rotating plate (8) side center installs bending plate (9), backup pad (5) side-mounting has electric push rod (10), push pedal (11) are installed to inside piston rod end of electric push rod (10), inclined flue (12) are installed to backup pad (5) another side, workbin (13) are installed on bottom plate (1) top.

2. An automotive part efficient forming die as defined in claim 1, wherein: the PIN needle plate (4) center, the bending plate (9) center and the shaft coupling (7) center are located on the same horizontal plane, the PIN needle plate (4) comprises an upper plate (400) and a lower plate (401), and the bending plate (9) comprises a bending upper plate (900) and a bending lower plate (901).

3. An automotive part efficient forming die as defined in claim 2, wherein: be provided with main lifting part in frame type seat (3), main lifting part is including main spout (14), main slider (15), main screw rod (16) and main servo motor (17), main spout (14) are seted up at frame type seat (3) inner wall, main slider (15) are total two sets of and slip in main spout (14), main screw rod (16) screw thread runs through two sets of main slider (15) and screw-thread fit's opposite direction, main screw rod (16) tip rotates and passes frame type seat (3) top and main servo motor (17) link to each other.

4. An automotive part efficient forming die as described in claim 3, wherein: the upper plate (400) and the lower plate (401) are mounted at the end of the main slider (15).

5. The efficient forming die for automobile parts according to claim 4, wherein: the side of the rotating plate (8) is provided with an auxiliary lifting part, the auxiliary lifting part comprises an auxiliary sliding groove (18), auxiliary sliding blocks (19), auxiliary screws (20) and auxiliary servo motors (21), the auxiliary sliding grooves (18) are formed in the side of the rotating plate (8), the auxiliary sliding blocks (19) are shared by two groups and slide in the auxiliary sliding grooves (18), threads of the auxiliary screws (20) penetrate through the two groups of auxiliary sliding blocks (19) and are opposite in threaded fit direction, and the end parts of the auxiliary screws (20) rotate to penetrate through the top ends of the rotating plate (8) and are connected with the auxiliary servo motors (21).

6. The efficient forming die for automobile parts according to claim 5, wherein: the upper bending plate (900) and the lower bending plate (901) are arranged at the end part of the auxiliary sliding block (19).

7. The high-efficiency molding die for automobile parts as defined in claim 6, wherein: install angle spare on shaft coupling (7), angle spare is including indicating disk (22), pointer (23), angle ring (24), riser (25), interior ring groove (26) and stopper (27), indicating disk (22) are fixed in shaft coupling (7) lateral wall, pointer (23) are fixed in indicating disk (22) side, angle ring (24) are installed in indicating disk (22) outside, riser (25) are fixed in angle ring (24) bottom, riser (25) bottom mounting is on bottom plate (1), interior ring groove (26) are seted up at angle ring (24) inner wall, stopper (27) slip is in ring groove (26).

8. The high-efficiency molding die for automobile parts as claimed in claim 7, wherein: the angle ring (24) is arranged in a transparent mode, and the limiting block (27) is provided with a contact sensor (28).