CN116765828B - Intelligent automobile hub processing equipment - Google Patents

Abstract

The invention relates to the technical field of automobile hub processing equipment, in particular to intelligent automobile hub processing equipment which comprises a conveyor, a punching machine, a welding structure, a carrying structure, a feeding structure, a positioning structure, a mechanical arm and a taking structure, wherein the positioning structure and the feeding structure are matched for use, so that a disc is conveniently positioned, deviation is avoided when the disc is punched into a spoke, the product punching quality of the spoke is improved, the carrying structure is convenient for carrying the disc, the carrying difficulty is reduced, the feeding structure is convenient for automatically carrying the disc in the carrying structure, the operation flexibility is improved, the stamped spoke is conveniently taken onto a rim through the mechanical arm matched with the taking structure, the flexibility is improved, the spoke and the rim can be welded together on the conveyor through the welding structure, the spoke and the rim are prevented from being carried to the welding equipment, and the operation flexibility and the processing quality are improved.

Description

Intelligent automobile hub processing equipment

Technical Field

The invention relates to the technical field of automobile hub processing equipment, in particular to intelligent automobile hub processing equipment.

Background

The wheel hub is a part for installing the axle at the center of the wheel, and the automobile wheel hub mainly plays a role in supporting the whole weight of the vehicle and installing the axle, so that external impact can be buffered, and the contact between the tire and the road surface is realized. In the production and processing process of the automobile hub, the aluminum plate is generally subjected to the procedures of rolling, welding, re-rounding and the like through hub processing equipment to form a rim, and then the rim is combined with the spoke punched by a punching machine to form the hub.

However, when the disc is punched into the spoke by the traditional processing equipment, the disc is usually directly placed on the punching machine, the disc is easy to deviate during punching, so that the punching quality of a product is reduced, meanwhile, the disc is required to be manually taken to the punching machine during feeding, the operation efficiency is low, and meanwhile, after the spoke is placed on the rim, the spoke and the rim are required to be carried to a welding equipment to be welded together, so that the operation flexibility is low.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides intelligent automobile hub processing equipment.

The technical scheme adopted for solving the technical problems is as follows: the intelligent automobile hub processing equipment comprises a conveyor, wherein a welding structure is arranged on the conveyor; a punching machine is arranged on the conveyor; the punching machine is provided with a positioning structure for positioning the wafer; the punching machine is provided with a carrying structure for carrying the wafer; the wafer in the carrying structure is fed through a feeding structure; a mechanical arm is arranged on the conveyor; the mechanical arm is provided with a taking structure;

the positioning structure comprises positioning plates, two positioning plates are connected to the punching machine in a sliding mode, connecting shafts are connected to the positioning plates in a rotating mode, the connecting shafts are matched with driving grooves on the connecting plates in a rolling mode, the driving grooves are arranged in an inclined mode, and the connecting plates are connected with the punching machine in a sliding mode.

Specifically, fixedly connected with pull rod on the connecting plate, sliding connection between pull rod and the punching machine, fixedly connected with fixed column on the connecting plate, fixedly connected with second reset spring between fixed column and the punching machine.

Specifically, the transport structure includes the carrier, can dismantle on the punching machine and be connected with the carrier, fixedly connected with three spliced pole on the carrier, sliding connection has the fixed block on the carrier, the block is with the block between the fixed slot on the punching machine.

Specifically, fixed connection between fixed block and the running-board, sliding connection between running-board and the punching machine, fixed connection has first reset spring between running-board and the punching machine, the cross-section of fixed block is trapezium structure.

Specifically, the feeding structure comprises a supporting plate, sliding connection has the supporting plate on the carrier, fixedly connected with connecting rod on the supporting plate, sliding connection between connecting rod and the punching machine, install the second hydraulic stem on the punching machine, fixed connection between the flexible end of connecting rod and second hydraulic stem, install the third hydraulic stem on the conveyer, the flexible end fixedly connected with push pedal of third hydraulic stem, contradict between push pedal and the pull rod.

Specifically, take the structure and include the erection column, install the erection column on the arm, sliding connection has the riding block on the erection column, fixedly connected with briquetting on the riding block, sliding connection between briquetting and the erection column.

Specifically, the support block is rotationally connected with a roller, the roller is matched with the driving block in a rolling way, and the driving block is connected with the mounting column in a sliding way.

Specifically, install the fourth hydraulic stem on the erection column, fixed connection between the flexible end of drive block and fourth hydraulic stem, fixedly connected with third reset spring between riding block and the erection column, the drive block is trapezium structure.

Specifically, welded structure includes the mounting bracket, install the mounting bracket on the conveyer, it is connected with the carousel to rotate on the mounting bracket, install first hydraulic stem on the carousel, welder is installed to the flexible end of first hydraulic stem.

Specifically, install the motor on the mounting bracket, fixed connection between carousel and the output shaft of motor.

The beneficial effects of the invention are as follows:

(1) According to the intelligent automobile hub processing equipment, the positioning structure for positioning the disc is arranged on the punching machine, the positioning structure is matched with the feeding structure, the disc is conveniently positioned by the matching of the positioning structure and the feeding structure, and the deviation when the disc is punched into the spoke is avoided, so that the product punching quality of the spoke is improved.

(2) According to the intelligent automobile hub processing equipment, the carrying structure for carrying the wafer is arranged on the punching machine, and the carrying structure is convenient to carry the wafer, so that the carrying difficulty is reduced.

(3) According to the intelligent automobile hub processing equipment, the wafers in the carrying structure are fed through the feeding structure, and the feeding structure is convenient to automatically feed the wafers in the carrying structure, so that the operation flexibility is improved.

(4) According to the intelligent automobile hub processing equipment, the mechanical arm is arranged on the conveyor, the taking structure is arranged on the mechanical arm, and the arm is matched with the taking structure to facilitate taking the stamped spoke onto the rim, so that the flexibility is improved.

(5) According to the intelligent automobile hub processing equipment, the welding structure is arranged on the conveyor, and the spoke and the rim can be welded together on the conveyor by the aid of the welding structure, so that the spoke and the rim are prevented from being conveyed to the welding equipment for welding, and the operation flexibility and the processing quality are improved.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic diagram of the overall structure of a preferred embodiment of an intelligent automobile hub machining apparatus according to the present invention;

FIG. 2 is an enlarged schematic view of the portion A shown in FIG. 1;

FIG. 3 is an enlarged schematic view of the B-section structure shown in FIG. 1;

FIG. 4 is an enlarged schematic view of the structure of the portion C shown in FIG. 1;

FIG. 5 is a schematic diagram of a connection structure between a truck and a press according to the present invention;

FIG. 6 is an enlarged schematic view of the structure of the portion D shown in FIG. 5;

FIG. 7 is an enlarged schematic view of the E-section structure shown in FIG. 5;

FIG. 8 is an enlarged schematic view of the F portion structure shown in FIG. 5;

FIG. 9 is a schematic diagram of a connection structure between a fixed column and a truck according to the present invention;

FIG. 10 is a schematic view of the connection structure of the connection plate and the press machine of the present invention;

fig. 11 is a schematic diagram of a connection structure between a bracket and a mounting post according to the present invention.

In the figure: 1. a conveyor; 2. a punching machine; 3. welding a structure; 301. a mounting frame; 302. a turntable; 303. a first hydraulic lever; 304. a welding gun; 305. a motor; 4. a carrying structure; 401. a carrier; 402. a connecting column; 403. a fixed block; 404. a fixing groove; 405. a foot pedal; 406. a first return spring; 5. a feeding structure; 501. a supporting plate; 502. a connecting rod; 503. a second hydraulic lever; 504. a third hydraulic lever; 505. a push plate; 6. a positioning structure; 601. a positioning plate; 602. a connecting shaft; 603. a driving groove; 604. a connecting plate; 605. a pull rod; 606. fixing the column; 607. a second return spring; 7. a mechanical arm; 8. a taking structure; 801. a mounting column; 802. a support block; 803. a roller; 804. a driving block; 805. a third return spring; 806. briquetting; 807. and a fourth hydraulic rod.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

As shown in fig. 1 to 11, the intelligent automobile hub processing equipment comprises a conveyor 1, wherein a welding structure 3 is arranged on the conveyor 1; a punching machine 2 is arranged on the conveyor 1; the punching machine 2 is provided with a positioning structure 6 for positioning the wafer; the punching machine 2 is provided with a carrying structure 4 for carrying the wafer; the wafer in the carrying structure 4 is fed through a feeding structure 5; the positioning structure 6 and the feeding structure 5 are matched for use; a mechanical arm 7 is arranged on the conveyor 1; the mechanical arm 7 is provided with a taking structure 8;

the positioning structure 6 comprises a positioning plate 601, two positioning plates 601 are connected to the punching machine 2 in a sliding mode, a connecting shaft 602 is connected to the positioning plates 601 in a rotating mode, the connecting shaft 602 is matched with a driving groove 603 on a connecting plate 604 in a rolling mode, the driving groove 603 is arranged in an inclined mode, and the connecting plate 604 is connected with the punching machine 2 in a sliding mode.

Specifically, fixedly connected with pull rod 605 on connecting plate 604, sliding connection between pull rod 605 and the punching machine 2, fixedly connected with fixed column 606 on connecting plate 604, fixedly connected with second reset spring 607 between fixed column 606 and the punching machine 2, when push pedal 505 returns to the initial position, make third hydraulic stem 504 continue to shrink this moment, make push pedal 505 continue to move left, push pedal 505 can drive pull rod 605 to move left, can drive connecting plate 604 to slide left when pull rod 605 slides left, can drive fixed column 606 to move left when connecting plate 604 slides left, second reset spring 607 shrink when fixed column 606 moves left, can make two connecting shafts 602 roll the cooperation between the drive slot 603 on connecting plate 604 when connecting plate 604 slides left, because drive slot 603 is the slope setting, consequently, can drive two locating plates 601 slide in opposite directions, can fix a position the disk between two locating plates 601 when the opposite directions, accessible punching machine 2 carries out the punching forming to the disk, thereby the disk is fixed a position through two locating plates 601, the disk has been avoided when the disk to take place the skew when the punching spoke, the punching quality has improved to the spoke.

Specifically, the handling structure 4 includes carrier 401, can dismantle on the punching machine 2 and be connected with carrier 401, three spliced pole 402 of fixedly connected with on the carrier 401, sliding connection has fixed block 403 on the carrier 401, block between fixed block 403 and the fixed slot 404 on the punching machine 2, fixed connection between fixed block 403 and the running-board 405, sliding connection between running-board 405 and the punching machine 2, fixed connection has first reset spring 406 between running-board 405 and the punching machine 2, the fixed block 403 is trapezoidal structure, after the disk punching on the carrier 401, can step down presser foot footboard 405, first reset spring 406 shrink when running-board 405 slides down, drives simultaneously and slides down to no longer with the fixed slot 404 on the punching machine 2 between the fixed block 403 block, can dismantle between carrier 401 and the punching machine 2 this moment, installs another carrier 401 that is equipped with the disk on the punching machine 2, therefore is convenient for carry the disk through carrier 401, has reduced the transport degree of difficulty, and through the block 403 block 2 block, can be convenient for with the disk between the punching machine 2 and the carrier 401 has avoided the fixed pole 402 to drop down when the carrier is stable with the carrier 401, and the three stable connection has avoided the disk has been carried down.

Specifically, the feeding structure 5 includes the layer board 501, sliding connection has the layer board 501 on the carrier 401, fixedly connected with connecting rod 502 on the layer board 501, sliding connection between connecting rod 502 and the punching machine 2, install second hydraulic stem 503 on the punching machine 2, fixed connection between the flexible end of connecting rod 502 and second hydraulic stem 503, install third hydraulic stem 504 on the conveyer 1, the flexible end fixedly connected with push pedal 505 of third hydraulic stem 504, contradict between push pedal 505 and the pull rod 605, at first through starting second hydraulic stem 503, can drive connecting rod 502 upwards slip when the flexible end of second hydraulic stem 503 stretches, can drive layer board 501 upward movement when connecting rod 502 upwards slides, can drive disk upward movement between three spliced pole 402 when layer board 501 upward movement, when the top disk bottom surface is parallel and level with the top of spliced pole 402, can start third hydraulic stem 504, can drive the push pedal 505 when the flexible end stretches to the right, pushes up the disk on the uppermost punching machine 2 when the push pedal 505 moves to the right to through automatic cooperation between push pedal 505, the flexibility has been convenient for use on the layer board 501.

Specifically, the taking structure 8 comprises a mounting column 801, the mechanical arm 7 is provided with the mounting column 801, the mounting column 801 is connected with a supporting block 802 in a sliding manner, the supporting block 802 is fixedly connected with a pressing block 806, the pressing block 806 is connected with the mounting column 801 in a sliding manner, the supporting block 802 is rotationally connected with a roller 803, the roller 803 is in rolling fit with a driving block 804, the driving block 804 is connected with the mounting column 801 in a sliding manner, the mounting column 801 is provided with a fourth hydraulic rod 807, the driving block 804 is fixedly connected with the telescopic end of the fourth hydraulic rod 807, a third return spring 805 is fixedly connected between the supporting block 802 and the mounting column 801, the driving block 804 is in a trapezoid structure, the mounting column 801 can be inserted into a hole in the middle of a spoke through the mechanical arm 7 at the moment, then the fourth hydraulic rod 807 can be started, the telescopic end of the fourth hydraulic rod 807 extends to drive the driving block 804 to slide downwards, the driving block 804 slides downwards to be in rolling fit with the roller 803, the roller 803 drives the two support blocks 802 to slide relatively due to the trapezoid structure of the driving block 804, the third reset spring 805 contracts when the support blocks 802 slide relatively, the support blocks 802 drive the pressing blocks 806 to slide with the mounting columns 801, the support blocks 802 extend out of the mounting columns 801 at the moment, spokes are carried on the two support blocks 802, the spokes can be carried by the mechanical arm 7 to be matched with the support blocks 802, at the moment, the rim is carried to the outer side of the punching machine 2 by the conveyor 1, the spokes are carried to the rim by the mechanical arm 7, after being carried to the rim, the spokes can be continuously moved downwards by the mounting columns 801, the pressing blocks 806 can be tightly attached to the rim, so that the spokes formed by punching are conveniently taken to the rim by the support blocks 802 by the mechanical arm 7, flexibility is improved.

Specifically, the welded structure 3 includes mounting bracket 301, install mounting bracket 301 on the conveyer 1, rotate on the mounting bracket 301 and be connected with carousel 302, install first hydraulic stem 303 on the carousel 302, welder 304 is installed to the flexible end of first hydraulic stem 303, install motor 305 on the mounting bracket 301, fixed connection between carousel 302 and the output shaft of motor 305, conveyer 1 carries the rim and the spoke of combination to carousel 302 below this moment, then can drive welder 304 downward movement when the flexible end of first hydraulic stem 303 extends, and welder 304 moves to certain position down when, and accessible motor 305 positive and negative rotation can drive carousel 302 rotation when the output shaft of motor 305 rotates, and accessible welder 304 welds spoke and rim together through welder 304 to just weld spoke and rim together on conveyer 1, avoided need carry spoke and rim to welding equipment department, improved operation flexibility and processingquality.

When the automatic feeding device is used, firstly, the second hydraulic rod 503 is started, the telescopic end of the second hydraulic rod 503 drives the connecting rod 502 to slide upwards when being extended, the connecting rod 502 drives the supporting plate 501 to move upwards when sliding upwards, the supporting plate 501 drives the wafers between the three connecting columns 402 to move upwards when moving upwards, when the bottom surface of the uppermost wafer is level with the top of the connecting column 402, the push plate 505 is driven to move rightwards when the telescopic end of the third hydraulic rod 504 is started, and the push plate 505 is driven to move rightwards, so that the uppermost wafer is pushed to the punching machine 2 when the push plate 505 moves rightwards, and the automatic feeding of the wafers is facilitated and the operation flexibility is improved through the cooperation between the supporting plate 501 and the push plate 505;

when the push plate 505 returns to the initial position, the third hydraulic rod 504 is continuously contracted at this time, so that the push plate 505 continuously moves leftwards, the push plate 505 can drive the pull rod 605 to move leftwards, the pull rod 605 can drive the connecting plate 604 to slide leftwards when sliding leftwards, the connecting plate 604 can drive the fixing column 606 to move leftwards when sliding leftwards, the second reset spring 607 contracts when the fixing column 606 moves leftwards, the two connecting shafts 602 are in rolling fit between the driving grooves 603 on the connecting plate 604 when sliding leftwards, and because the driving grooves 603 are obliquely arranged, the two connecting shafts 602 can be driven to drive the two positioning plates 601 to slide oppositely, the positioning plates 601 can position a disc between the two positioning plates 601, at this time, the disc can be subjected to punching forming through the punching machine 2, so that the disc is positioned through the two positioning plates 601, the deviation when the disc is punched into a spoke is avoided, and the punching quality of the spoke is improved;

the mounting column 801 can be inserted into a hole in the middle of a spoke through the mechanical arm 7, then the driving block 804 can be driven to slide downwards when the telescopic end of the fourth hydraulic rod 807 stretches, the driving block 804 can be matched with the roller 803 in a rolling way when sliding downwards, the driving block 804 is in a trapezoid structure, so that the roller 803 can drive the two supporting blocks 802 to slide relatively, the third reset spring 805 is contracted when the supporting blocks 802 slide relatively, the supporting blocks 802 can drive the pressing blocks 806 to slide with the mounting column 801, at the moment, the supporting blocks 802 extend out of the mounting column 801, the spoke is carried on the two supporting blocks 802, at the moment, the spoke can be carried by the conveyor 1 to the outer side of the punching machine 2 through the mechanical arm 7 to be matched with the supporting blocks 802, after the spoke is carried on the rim, the mounting column 801 can continue to move downwards, the pressing blocks 806 can be used for tightly attaching the spoke to the rim, and the spoke formed by punching can be conveniently taken on the rim through the supporting blocks 802 matched with the mechanical arm 7, and the flexibility is improved;

the conveyor 1 conveys the combined wheel rim and wheel spoke to the lower part of the turntable 302, then the first hydraulic rod 303 can be started, the welding gun 304 can be driven to move downwards when the telescopic end of the first hydraulic rod 303 stretches, when the welding gun 304 moves downwards to a certain position, the motor 305 can be driven to rotate positively and negatively, the turntable 302 can be driven to rotate when the output shaft of the motor 305 rotates, the welding gun 304 can be started when the turntable 302 rotates, the wheel spoke and the wheel rim are welded together through the welding gun 304, so that the wheel spoke and the wheel rim are welded together on the conveyor 1, the need of carrying the wheel spoke and the wheel rim to welding equipment for welding is avoided, and the operation flexibility and the processing quality are improved;

after the disk punching press on carrier 401 is accomplished, can step on presser foot footboard 405 downwards, first reset spring 406 shrink when footboard 405 slides downwards, drive simultaneously fixed block 403 slide down to no longer with the fixed slot 404 on the punching machine 2 between the block, can dismantle carrier 401 and punching machine 2 this moment between, install another carrier 401 that is equipped with the disk on punching machine 2, thereby be convenient for carry the disk through carrier 401, the transport degree of difficulty has been reduced, and block between through fixed block 403 and punching machine 2, be convenient for fix carrier 401 and punching machine 2 between, the steadiness has been improved, and the disk drops when having avoided the transport through three spliced pole 402.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present disclosure describes embodiments, not every embodiment is provided with a separate embodiment, and that this description is provided for clarity only, and that the disclosure is not limited to the embodiments described in detail below, and that the embodiments described in the examples may be combined as appropriate to form other embodiments that will be apparent to those skilled in the art.

Claims (6)

1. The intelligent automobile hub processing equipment is characterized by comprising a conveyor (1), wherein a welding structure (3) is arranged on the conveyor (1); a punching machine (2) is arranged on the conveyor (1); a positioning structure (6) for positioning the wafer is arranged on the punching machine (2); a carrying structure (4) for carrying the wafer is arranged on the punching machine (2); the wafer in the carrying structure (4) is fed through a feeding structure (5); the positioning structure (6) and the feeding structure (5) are matched for use; a mechanical arm (7) is arranged on the conveyor (1); a taking structure (8) is arranged on the mechanical arm (7);

the positioning structure (6) comprises positioning plates (601), two positioning plates (601) are connected to the punching machine (2) in a sliding mode, a connecting shaft (602) is connected to the positioning plates (601) in a rotating mode, the connecting shaft (602) is in rolling fit with driving grooves (603) on a connecting plate (604), the two driving grooves (603) are obliquely arranged, and the connecting plate (604) is connected with the punching machine (2) in a sliding mode; a pull rod (605) is fixedly connected to the connecting plate (604), the pull rod (605) is in sliding connection with the punching machine (2), a fixed column (606) is fixedly connected to the connecting plate (604), and a second reset spring (607) is fixedly connected between the fixed column (606) and the punching machine (2);

the carrying structure (4) comprises a carrying vehicle (401), the carrying vehicle (401) is detachably connected to the punching machine (2), three connecting columns (402) are fixedly connected to the carrying vehicle (401), a fixed block (403) is connected to the carrying vehicle (401) in a sliding mode, and the fixed block (403) is clamped with a fixed groove (404) in the punching machine (2); the fixing block (403) is fixedly connected with the pedal plate (405), the pedal plate (405) is in sliding connection with the punching machine (2), a first reset spring (406) is fixedly connected between the pedal plate (405) and the punching machine (2), and the section of the fixing block (403) is in a trapezoid structure;

the feeding structure (5) comprises a supporting plate (501), the supporting plate (501) is connected to the carrier (401) in a sliding mode, a connecting rod (502) is fixedly connected to the supporting plate (501), the connecting rod (502) is connected with the punching machine (2) in a sliding mode, a second hydraulic rod (503) is installed on the punching machine (2), a third hydraulic rod (504) is installed on the conveyor (1), a pushing plate (505) is fixedly connected to the telescopic end of the third hydraulic rod (504), and the pushing plate (505) is in interference with the pull rod (605).

2. The intelligent automobile hub machining device according to claim 1, wherein: the taking structure (8) comprises a mounting column (801), the mounting column (801) is mounted on the mechanical arm (7), a supporting block (802) is connected to the mounting column (801) in a sliding mode, a pressing block (806) is fixedly connected to the supporting block (802), and the pressing block (806) is connected with the mounting column (801) in a sliding mode.

3. The intelligent automobile hub machining device according to claim 2, wherein: the support block (802) is rotatably connected with a roller (803), the roller (803) is in rolling fit with the driving block (804), and the driving block (804) is in sliding connection with the mounting column (801).

4. A smart car hub machining apparatus as claimed in claim 3, wherein: install fourth hydraulic stem (807) on erection column (801), fixed connection between flexible end of drive block (804) and fourth hydraulic stem (807), fixedly connected with third reset spring (805) between riding block (802) and erection column (801), drive block (804) are trapezium structure.

5. The intelligent automobile hub machining device according to claim 1, wherein: the welding structure (3) comprises a mounting frame (301), the mounting frame (301) is mounted on the conveyor (1), a rotary table (302) is rotatably connected to the mounting frame (301), a first hydraulic rod (303) is mounted on the rotary table (302), and a welding gun (304) is mounted at the telescopic end of the first hydraulic rod (303).

6. The intelligent automobile hub machining apparatus of claim 5, wherein: and a motor (305) is arranged on the mounting frame (301), and the turntable (302) is fixedly connected with an output shaft of the motor (305).