CN113334053A

CN113334053A - Combined feeding and discharging equipment for automobile spoke and rim

Info

Publication number: CN113334053A
Application number: CN202110595948.6A
Authority: CN
Inventors: 夏贤尧
Original assignee: Wuhu Feichi Automotive Components Technology Co Ltd
Current assignee: Qingdao Beihai Wheels Co ltd
Priority date: 2021-05-29
Filing date: 2021-05-29
Publication date: 2021-09-03
Anticipated expiration: 2041-05-29
Also published as: CN113334053B

Abstract

The invention relates to the field of automobile spoke and rim processing, in particular to automobile spoke and rim combined feeding and discharging equipment which comprises an elastic rotating frame, a side pushing mechanism, a two-stage pressing mechanism, an extending and separating mechanism, a rim guide rail, a detection table, a punching machine and an automatic spoke mounting machine, wherein the automobile spoke and rim combined feeding and discharging equipment is characterized in that a detection worker in the previous process pushes a rim into the rim guide rail in a smooth way, so that the cost of a worker delivering the rim is reduced, the automatic spoke mounting machine is used for adding spokes to the passing rim, so that the cost of the worker delivering the spokes is reduced, the punching machine is used for driving the two-stage pressing mechanism to work, so that the assembled spokes and the rim are conveyed to a lower die seat of the punching machine in a rotating way, the punching machine worker is reduced, and when the punching machine is reset, the automatic feeding can be carried out on the spokes after pressing, so that feeding workers are reduced, and the production cost is greatly reduced by reducing four workers.

Description

Combined feeding and discharging equipment for automobile spoke and rim

Technical Field

The invention relates to the field of automobile spoke and rim processing, in particular to a combined feeding and discharging device for an automobile spoke and a rim.

Background

In the industrial production process, the spoke and the rim are usually produced independently, the spoke and the rim are respectively placed on a lower die seat of a punching machine through a worker, the spoke and the rim are pressed together through a punching machine, the spoke and the rim after pressing are also required to be discharged by the worker, one worker is used for installing the spoke and the rim in the punching machine, the two workers are required to deliver the spoke and the rim to the punching machine worker, four workers are consumed in the process, and the production cost is increased.

Chinese patent application No.: CN 201721104744.3; a device for pre-positioning and press-fitting steel wheel rims is disclosed, by which the wheel spokes and the wheel rims can be pressed together, but the problem of excessive consumption of workers cannot be solved.

Chinese patent application No.: CN 201721038933.5; the utility model discloses a steel rim expansion station replaces artifical device of getting, gets the piece through the device is automatic, has reduced an operation staff and has operated hydraulic equipment, has reduced the potential safety hazard, has practiced thrift company's cost of labor, has improved production efficiency. However, the equipment only reduces the participation of one worker, and three workers are needed for working, so that the production cost is still difficult to reduce.

Therefore, both solutions have the following drawbacks:

1. both solutions do not allow to dispense with the puncher, the worker delivering the spokes and the worker delivering the rims, still consuming a lot of costs.

2. And after the rim is installed by a puncher worker, the spoke is installed in the rim, a large amount of assembly time can be consumed in the process, but the spoke and the rim are assembled by other workers and then delivered to the puncher worker, the work efficiency of the worker is often reduced due to overlarge weight of the superposition of the spoke and the rim, if the manipulator is used for loading and assembling, the cost of the manipulator is too high, the factory is difficult to bear, and the manipulator needs to consume a large amount of time for assembling.

Disclosure of Invention

The invention aims to provide combined feeding and discharging equipment for an automobile spoke and a rim.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a car spoke and rim combination pay-off and discharging equipment, including elasticity rotating turret, the side pushes away the mechanism, doublestage pushes down the mechanism, extend the break-away mechanism, rim guide rail, detect the platform, punching machine and automatic spoke machine of going up, detect the platform, rim guide rail and punching machine arrange in proper order along the direction of processing of equipment and all fixed mounting on the ground, automatic spoke machine of going up is located the top of rim guide rail, be used for placing the spoke in the rim that passes through, automatic spoke machine of going up is fixed mounting on the ground through the support frame, and be provided with a plurality of spokes in the automatic spoke machine of going up, the elasticity rotating turret is located the outside of punching machine, be used for placing assembled spoke and rim on the punching machine, and elasticity rotating turret and doublestage push down the mechanism transmission connection, the doublestage pushes down the mechanism fixed mounting on the punching machine, the side that the punching machine kept away from rim guide, and the side pushing mechanism is fixedly arranged on the ground, the side pushing mechanism is in transmission connection with the elastic rotating frame through a transmission mechanism, the transmission mechanism is fixedly arranged on the elastic rotating frame, an elastic abutting arm is arranged at the end part, close to the punching machine, of one side of the side pushing mechanism, the elastic abutting arm is in transmission connection with the two-stage pressing mechanism, the extending and separating mechanism is fixedly arranged on the ground and used for clamping the elastic abutting arm, and the extending and separating mechanism is located on one side, far away from the rim guide track, of the punching machine.

Furthermore, the elastic rotating frame comprises a heightening frame, a synchronous plate, two positioning pushing and lifting mechanisms, supporting rotating plates, transmission angle irons, transmission shafts, arc-shaped guide rails, positioning columns and extension plates, wherein the two supporting rotating plates are positioned at one side of the punching machine away from the automatic spoke feeding machine, the two supporting rotating plates are fixedly arranged on the ground, the two supporting rotating plates are fixedly connected through a connecting pipe, one ends of the two transmission angle irons are respectively hinged with the top ends of the two supporting rotating plates, the two transmission shafts are positioned at the outer sides of the two transmission angle irons and are respectively fixedly connected with the two transmission angle irons, the two transmission shafts are respectively inserted into the two arc-shaped guide rails, the two arc-shaped guide rails are respectively and fixedly arranged at the top of the heightening frame, the heightening frame is positioned at the other side of the punching machine and is fixedly arranged on the ground, the two positioning pushing and lifting mechanisms for pushing and lifting the two transmission shafts are respectively and fixedly arranged on the heightening frame, and the positioning columns for horizontally supporting the two transmission angle irons are fixedly arranged on the heightening frame, the two-stage pressing mechanism is in transmission connection with the middle parts of the two transmission angle irons, and the middle lower parts of the two transmission angle irons are in transmission connection with the transmission mechanism.

Further, every location promotes mechanism and all includes square push pedal, first guide pillar, first spring and first baffle, first baffle fixed mounting increases on the frame, first baffle is passed to the one end of first guide pillar, set up on the first baffle and supply the gliding guide hole of first guide pillar, square push pedal fixed mounting is on the other end of first guide pillar, first spring housing is established on first guide pillar, the one end and the square push pedal of first spring are contradicted, the other end and the first baffle of first spring are contradicted, be provided with the holding ring of contradicting with first baffle on the one end outer fringe of first guide pillar.

Further, the side pushing mechanism comprises a first mounting plate, a horizontal pushing plate and a second guide plate, the first limiting plate, two second guide pillars, second spring and spacing ring, second baffle fixed mounting is subaerial, the second baffle is passed to the one end of two second guide pillars, set up the guide hole that supplies the second guide pillar to pass on the second baffle, first mounting panel fixed mounting is served at one of two second guide pillars, first limiting plate fixed mounting is on the other end of two second guide pillars, elasticity is supported and is touched the arm fixed mounting on first mounting panel, two spacing rings fixed mounting respectively are on two second guide pillars, two second springs are overlapped respectively on two second guide pillars, the one end of every second spring is contradicted with the second baffle, the other end is contradicted with first limiting plate, horizontal push pedal fixed mounting is in the one end that first mounting panel was kept away from to first limiting plate, drive mechanism is connected with horizontal push pedal transmission.

Further, drive mechanism includes two preceding pushing arms, two preceding pushing arms are along the transversal symmetry setting of personally submitting in center of horizontal push pedal, every preceding pushing arm all includes trapezoidal frame, the third baffle, the third guide pillar, push down rod and first connecting plate, the third baffle passes through stay tube fixed mounting on supporting the commentaries on classics board, the third baffle is passed on the top of third guide pillar, set up the guide hole that supplies the third guide pillar to pass on the third baffle, first connecting plate fixed mounting is in the bottom of third guide pillar, and push down rod fixed mounting is in the bottom of first connecting plate, the bottom of push down rod is contradicted with the inclined plane top of trapezoidal frame, the top of third guide pillar is contradicted with the bottom of transmission angle bar, support and fixedly be provided with the stay tube that is used for supporting trapezoidal frame on the commentaries on classics board.

Furthermore, each elastic abutting arm comprises a fourth guide plate, a first push plate, a second connecting plate, two fourth guide posts, a third spring, a transmission post and a triangular clamping block, the fourth guide plate is fixedly arranged on the first mounting plate, the bottom end of each fourth guide post penetrates through the two fourth guide plates, a guide hole for the fourth guide post to penetrate through is formed in each fourth guide plate, the second connecting plate is fixedly arranged on the top end of each fourth guide post, the first push plate is fixedly arranged on one side of the second connecting plate, the two third springs are respectively sleeved on the two fourth guide posts, one end of each third spring is abutted with the second connecting plate, the other end of each third spring is abutted with the fourth guide plate, the two transmission columns are fixedly arranged on the two sides of the first push plate, and the two transmission columns are coaxially arranged, the two triangular clamping blocks are fixedly arranged at the bottoms of the two sides of the first push plate, and the transmission columns are in transmission connection with the two-stage pressing mechanism.

Further, doublestage pushes down the mechanism and includes the pipe, circular roof, the slider, the post pushes away, the second grade spring, go-between and second push pedal, circular roof fixed mounting is on the last die holder of punching machine, pipe fixed mounting is in the bottom of circular roof, set up the arc guide slot of two mutual symmetries on the pipe, two arc guide slots are passed respectively at the both ends of slider, it installs in the bottom of slider to push away post fixed mounting, and push away the post and insert and establish in the pipe, the second grade spring is located the pipe, and the one end of second grade spring is contradicted with circular roof, the other end is contradicted with the slider, it is located the transmission angle bar directly over to push away the post, connecting ring fixed mounting is on the outer fringe of pipe, second push pedal fixed mounting is on the go-between, and the bottom of second push pedal is seted up the draw-in groove that supplies the transmission post card to go into.

Further, extend release mechanism and include two elasticity and block the arm, every spring blocks the arm and is the symmetry setting, and two elasticity block arm fixed mounting subaerial, every elasticity blocks the arm and all includes the time delay baffle, the second mounting panel, the fifth baffle, the second limiting plate, two fifth guide pillars and fourth spring, time delay baffle fixed mounting is on the second mounting panel, the one end and the second mounting panel fixed connection of two fifth guide pillars, the other end with pass fifth guide and second limiting plate fixed connection, set up the guide hole that supplies the fifth guide pillar to pass on the fifth guide, two fourth springs overlap respectively and establish on two fifth guide pillars, and the one end of every fourth spring is contradicted with the fifth guide, the other end is contradicted with the second mounting panel.

Further, rim guide rail includes two horizontal angle irons and slope angle iron, and two horizontal angle irons and slope angle iron all supply the symmetry to set up, and horizontal angle iron and slope angle iron are the same with transmission angle iron structure, and the one end of horizontal angle iron and the one end fixed connection of slope angle iron, and horizontal angle iron and slope angle iron pass through stay tube fixed mounting subaerial, and the interval between two horizontal angle irons, the interval between two slope angle irons and the interval between two transmission angle irons are equal.

The invention has the beneficial effects that:

1. this car spoke and rim combination pay-off and discharging equipment, detection workman through last process pushes the rim into rim direction track in the same direction as the hand, and then reduced the workman that delivers the rim and reduced the cost, rethread automatic spoke machine of going up, add the spoke to the rim that passes through, the workman that delivers the spoke has been reduced, further the cost is reduced, and drive doublestage pushing down the mechanism through the punching machine and carry out work and then rotate spoke and rim after the equipment and rim and carry on the die holder of punching machine, punching machine workman has been reduced, and when the punching machine resets, can carry out automatic unloading to the spoke after the pressfitting, unloading workman has been reduced, through reducing four great reductions in production cost of workman, and the elastic rotating frame plays the effect of material loading and unloading, avoid using two kinds of equipment, the area occupied of device has been reduced.

2. Through assembling spoke and wheel hub in advance, carry out the material loading again, reduced the assemble duration on equipment, improved the production efficiency of equipment, and avoided the workman to assemble, just can not influence workman's work efficiency yet, and go on through equipment, when needs accelerate the production speed, only need accelerate the speed of pushing into wheel hub, the control of the production speed of being convenient for.

3. Push up through the doublestage mechanism on the one hand and promote the transmission angle bar and move through the one-level pushing down for the effect that elasticity rotating turret, side push mechanism and drive mechanism all moved, on the other hand, through the second level pushing down, the second push pedal moves first push pedal downstream, and drives triangle fixture block card on extending the break away from mechanism, makes it delay and blocks, makes first push pedal dodge open the rim after the processing is accomplished.

4. The delay baffle plate has the effects of clamping the triangular clamping block on one hand and positioning and releasing the side pushing mechanism on the other hand, and the time for the rim to slide downwards or the blanking angle of the transmission angle iron can be adjusted by adjusting the contact length of the delay baffle plate and the triangular clamping block.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the embodiments of the present invention will be briefly described below.

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a partial perspective view of the present invention;

FIG. 3 is a schematic perspective view of the elastic rotating frame;

FIG. 4 is a partial perspective view of the elastic turret;

FIG. 5 is a partial perspective view of the present invention;

FIG. 6 is a partial perspective view of the present invention;

FIG. 7 is a schematic perspective view of the elastic contact arm;

FIG. 8 is a schematic perspective view of a dual stage hold down mechanism;

FIG. 9 is an exploded perspective view of the dual stage hold down mechanism;

FIG. 10 is a perspective view of the extension detachment mechanism;

FIG. 11 is a perspective view of a rim guide track;

in the figure:

1. an elastic rotating frame; 1a, positioning and pushing a lifting mechanism; 1a1, square pusher plate; 1a2, a first guide pillar; 1a3, a first spring; 1a4, a first guide plate; 1b, supporting the rotating plate; 1c, driving angle iron; 1d, a transmission shaft; 1e, arc guide rails; 1f, heightening; 1h, positioning columns; 1i, an extension plate; 1j, a synchronization board;

2. a side pushing mechanism; 2a, an elastic contact arm; 2a1, fourth guide plate; 2a2, a fourth guide pillar; 2a3, a first pusher plate; 2a4, a second connecting plate; 2a5, third spring; 2a6, drive posts; 2a7, triangular fixture block; 2b, a first mounting plate; 2c, a second guide pillar; 2d, a second spring; 2e, a limiting ring; 2f, a horizontal push plate; 2h, a second guide plate; 2i, a first limiting plate;

3. a transmission mechanism; 3a, a trapezoid frame; 3b, a third guide plate; 3c, a third guide pillar; 3d, pushing the push rod down; 3e, a first connecting plate;

4. a two-stage hold-down mechanism; 4a, a conduit; 4a1, arc guide slot; 4b, a circular top plate; 4c, a sliding block; 4d, pushing the column; 4e, a secondary spring; 4f, connecting rings; 4h, a second push plate; 4h1, card slot;

5. an extension detachment mechanism; 5a, a time delay baffle; 5b, a second mounting plate; 5c, a fifth guide plate; 5d, a fifth guide pillar; 5e, a second limiting plate; 5f, a fourth spring;

6. a rim guide track; 6a, horizontal angle iron; 6b, inclined angle iron;

7. a detection table; 8. a punch press; 9. automatic spoke mounting machine; 10. a spoke; 11. a wheel rim.

Detailed Description

The technical scheme of the invention is further explained by the specific implementation mode in combination with the attached drawings.

Wherein the showings are for the purpose of illustration only and are shown by way of illustration only and not in actual form, and are not to be construed as limiting the present patent; to better illustrate the embodiments of the present invention, some components of the drawings may be omitted, enlarged or reduced, and do not represent the size of an actual product.

Referring to fig. 1 to 11, a combined feeding and discharging device for automobile spokes and rims comprises an elastic rotating frame 1, a side pushing mechanism 2, a two-stage pressing mechanism 4, an extending and separating mechanism 5, a rim guide rail 6, a detection table 7, a punching machine 8 and an automatic spoke feeding machine 9, wherein the detection table 7, the rim guide rail 6 and the punching machine 8 are sequentially arranged and distributed along the processing direction of the device and are fixedly installed on the ground, the automatic spoke feeding machine 9 is positioned above the rim guide rail 6 and is used for placing spokes 10 in passing rims 11, the automatic spoke feeding machine 9 is fixedly installed on the ground through a support frame, a plurality of spokes 10 are arranged in the automatic spoke feeding machine 9, the elastic rotating frame 1 is positioned on the outer side of the punching machine 8 and is used for placing the assembled spokes 10 and the rims 11 on the punching machine 8, and the elastic rotating frame 1 is in transmission connection with the two-stage pressing mechanism 4, two-stage pressing mechanism 4 is fixedly installed on punching machine 8, side pushing mechanism 2 is located one side that punching machine 8 keeps away from rim guide rail 6, and side pushing mechanism 2 fixed mounting is subaerial, and side pushing mechanism 2 is connected with the transmission of elasticity rotating turret 1 through drive mechanism 3, drive mechanism 3 fixed mounting is on elasticity rotating turret 1, one side tip that side pushing mechanism 2 is close to punching machine 8 is provided with elasticity and supports contact arm 2a, elasticity supports contact arm 2a and is connected with two-stage pressing mechanism 4 transmission, extension disengagement mechanism 5 fixed mounting is subaerial, be used for carrying out the joint to elasticity support contact arm 2a, and extension disengagement mechanism 5 is located one side that punching machine 8 kept away from rim guide rail 6.

The elastic rotating frame 1 comprises a heightening frame 1f, a synchronous plate 1j, two positioning and pushing mechanisms 1a, supporting rotating plates 1b, transmission angle irons 1c, transmission shafts 1d, arc-shaped guide rails 1e, positioning columns 1h and extension plates 1i, wherein the two supporting rotating plates 1b are positioned on one side of the punching machine 8 away from the automatic spoke feeding machine 9, the two supporting rotating plates 1b are fixedly arranged on the ground, the two supporting rotating plates 1b are fixedly connected through connecting pipes, one ends of the two transmission angle irons 1c are respectively hinged with the top ends of the two supporting rotating plates 1b, the two transmission shafts 1d are positioned on the outer sides of the two transmission angle irons 1c, the two transmission shafts 1d are respectively and fixedly connected with the two transmission angle irons 1c, the two transmission shafts 1d are respectively inserted into the two arc-shaped guide rails 1e, the two arc-shaped guide rails 1e are respectively and fixedly arranged on the top of the heightening frame 1f, the heightening frame 1f is positioned on the other side of the punching machine 8, and increase frame 1f fixed mounting subaerial, two location for promoting two transmission shaft 1d promote mechanism 1a fixed mounting on increasing frame 1f, a reference column 1h fixed mounting for carrying out the horizontal support to two transmission angle bar 1c is on increasing frame 1f, and doublestage pushes down mechanism 4 and is connected with the middle part transmission of two transmission angle bar 1c, and the well lower part of two transmission angle bar 1c is connected with transmission mechanism 3 transmission. The punching machine 8 is used for pressing, the punching machine 8 drives the two-stage pressing mechanism 4 to move, the two-stage pressing mechanism 4 starts to work in one stage, the two-stage pressing mechanism 4 drives the two transmission angle irons 1c to rotate downwards, the two transmission angle irons 1c drive the transmission shaft 1d to move downwards, the transmission shaft 1d extrudes the positioning and pushing mechanism 1a downwards, when the arc-shaped guide rail 1e is abutted to the positioning column 1h, the transmission angle irons 1c are in a horizontal state at the moment, and then the wheel rims 11 clamped on the two transmission angle irons 1c are converted into a horizontal state;

in the process that the transmission angle iron 1c rotates downwards, the transmission angle iron 1c drives the transmission mechanism 3 to move, so that the transmission mechanism 3 drives the side pushing mechanism 2 to move, the side pushing mechanism 2 pushes the elastic contact arm 2a, and the elastic contact arm 2a further pushes the rim 11 clamped on the transmission angle iron 1c to move towards the automatic spoke mounting machine 9;

the rim 11 moves forwards and rotates downwards at the same time, so that the rim 11 moves in an arc shape, the rim 11 is clamped on a lower die of the punching machine 8, the lower die is in an arc-shaped structure, the rim 11 is slightly error when clamped on the punching machine 8, and self-adaptive centering can be realized through the arc-shaped structure;

when the punch 8 performs the reset movement, the punch 8 drives the two-stage pressing mechanism 4 to move upwards, the two positioning and lifting mechanisms 1a push the two transmission shafts 1d, so that the two transmission shafts 1d push the transmission angle iron 1c upwards, the transmission angle iron 1c pushes the extruded and combined spoke 10 and rim 11 to be pulled upwards, and the pulled finished product slides away along the two transmission angle irons 1 c.

Each positioning and pushing mechanism 1a comprises a square push plate 1a1, a first guide post 1a2, a first spring 1a3 and a first guide plate 1a4, the first guide plate 1a4 is fixedly mounted on the heightening frame 1f, one end of the first guide post 1a2 penetrates through the first guide plate 1a4, a guide hole for the first guide post 1a2 to slide is formed in the first guide plate 1a4, a square push plate 1a1 is fixedly mounted at the other end of the first guide post 1a2, the first spring 1a3 is sleeved on the first guide post 1a2, one end of the first spring 1a3 abuts against the square push plate 1a1, the other end of the first spring 1a3 abuts against the first guide plate 1a4, and a positioning ring abutting against the first guide post 1a4 is arranged on the outer edge of one end of the first guide post 1a 2. When transmission angle bar 1c rotated downwards, transmission angle bar 1c will drive transmission shaft 1d downstream for transmission shaft 1d promotes square push pedal 1a1, and then compresses first spring 1a3, when transmission angle bar 1c upwards rotated, doublestage pushing down mechanism 4 does not contradict with transmission angle bar 1c, first spring 1a3 will upwards promote square push pedal 1a1, make square push pedal 1a1 upwards promote transmission shaft 1d, make transmission angle bar 1c reset.

The side pushing mechanism 2 comprises a first mounting plate 2b, a horizontal pushing plate 2f, a second guide plate 2h, a first limiting plate 2i, two second guide posts 2c, second springs 2d and limiting rings 2e, the second guide plate 2h is fixedly mounted on the ground, one ends of the two second guide posts 2c penetrate through the second guide plate 2h, guide holes for the second guide posts 2c to penetrate through are formed in the second guide plate 2h, the first mounting plate 2b is fixedly mounted on one ends of the two second guide posts 2c, the first limiting plate 2i is fixedly mounted on the other ends of the two second guide posts 2c, an elastic abutting arm 2a is fixedly mounted on the first mounting plate 2b, the two limiting rings 2e are respectively fixedly mounted on the two second guide posts 2c, the two second springs 2d are respectively sleeved on the two second guide posts 2c, one end of each second spring 2d abuts against the second guide plate 2h, the other end is contradicted with first limiting plate 2i, and horizontal push pedal 2f fixed mounting is kept away from the one end of first mounting panel 2b at first limiting plate 2i, and drive mechanism 3 is connected with horizontal push pedal 2f transmission. When the transmission mechanism 3 pushes the horizontal push plate 2f to move, the horizontal push plate 2f pushes the first mounting plate 2b to move, the second spring 2d is compressed, and the first mounting plate 2b drives the elastic contact arm 2a to move by pushing the first mounting plate 2b, so that the elastic contact arm 2a pushes the rim 11 to move;

when transmission angle bar 1c is not contradicting third guide pillar 3c, second spring 2d will promote first limiting plate 2i for first limiting plate 2i carries out the motion through the first mounting panel 2b of second guide pillar 2c pulling, makes first mounting panel 2b drive elasticity and touches arm 2a and reset.

The transmission mechanism 3 comprises two front push arms which are symmetrically arranged along the central cross section of the horizontal push plate 2f, each front push arm comprises a trapezoidal frame 3a, a third guide plate 3b, a third guide post 3c, a lower push rod 3d and a first connecting plate 3e, the third guide plate 3b is fixedly arranged on the supporting rotating plate 1b through a supporting tube, the top end of the third guide post 3c penetrates through the third guide plate 3b, a guide hole for the third guide post 3c to penetrate through is arranged on the third guide plate 3b, the first connecting plate 3e is fixedly arranged at the bottom of the third guide post 3c, and the lower push rod 3d is fixedly arranged at the bottom of the first connecting plate 3e, the bottom of the lower push rod 3d is abutted against the top of the inclined plane of the trapezoidal frame 3a, the top of the third guide pillar 3c is abutted against the bottom of the transmission angle iron 1c, and the supporting rotary plate 1b is fixedly provided with a supporting tube for supporting the trapezoidal frame 3 a. When two transmission angle irons 1c are to rotating, make two transmission angle irons 1c promote two third guide pillars 3c downwards, two third guide pillars 3c will drive push down rod 3d downstream, make two push down rod 3d promote two trapezoidal frames 3a and move, two trapezoidal frames 3a drive horizontal push pedal 2f towards rim guide track 6 and move, make horizontal push pedal 2f drive elasticity and touch arm 2a and move, make elasticity touch arm 2a promote rim 11 and move, and then drive rim 11 and be the arc motion, make rim 11 cover on the lower die base of punching machine 8.

Each elastic contact arm 2a comprises a fourth guide plate 2a1, a first push plate 2a3, a second connecting plate 2a4, two fourth guide posts 2a2, a third spring 2a5, a transmission post 2a6 and a triangular clamping block 2a7, the fourth guide plate 2a1 is fixedly mounted on the first mounting plate 2b, the bottom end of the fourth guide post 2a2 penetrates through the two fourth guide plates 2a1, the fourth guide plate 2a1 is provided with a guide hole for the fourth guide post 2a2 to pass through, the second connecting plate 2a4 is fixedly mounted on the top end of the fourth guide post 2a2, the first push plate 2a3 is fixedly mounted on one side of the second connecting plate 2a4, the two third springs 2a5 are respectively sleeved on the two fourth guide posts 2a2, one end of each third spring 2a5 is abutted against the second 6862 a4, the other end is abutted against the fourth guide plate 2a1, the two transmission posts 56 are fixedly mounted on the first connecting plate 828653, and two sides of the transmission post 82862 a are provided with an axis line axis 8653, the two triangular clamping blocks 2a7 are fixedly arranged at the bottoms of the two sides of the first push plate 2a3, and the transmission column 2a6 is in transmission connection with the double-stage pressing mechanism 4. When the two-stage pressing mechanism 4 is pressed down, the transmission angle iron 1c can only be pressed when the first-stage pressing is performed, and when the first-stage pressing is completed, the second-stage pressing is performed, the transmission column 2a6 is pressed down by the second-stage pressing, so that the transmission column 2a6 drives the first push plate 2a3 to move downwards, the first push plate 2a3 pushes the second connecting plate 2a4, the second connecting plate 2a4 pushes the fourth guide column 2a2 to move, the third spring 2a5 is compressed, and the triangular clamping block 2a7 is clamped on the extension separation mechanism 5, so that positioning and fixing are realized;

and when the second-stage pressing is carried out, the rim 11 and the spoke 10 are clamped on the lower die, and the punching machine 8 is not completely closed and continues to press;

when the punching machine 8 performs the reset movement, after the punching machine 8 finishes the distance of the second-stage downward pressing movement, the punching machine starts to ascend the distance of the first-stage downward pressing movement, at the moment, the transmission angle iron 1c rotates upwards, because the transmission angle iron 1c does not collide with the third guide pillar 3c, under the action of the second spring 2d, the first mounting plate 2b is pushed and drives the elastic contact arm 2a to perform the reset movement, so that the triangular clamping block 2a7 performs the reset movement, and because the triangular clamping block 2a7 performs the reset movement, one end of the triangular clamping block 2a7 is still clamped with the extending and separating mechanism 5, so that the third spring 2a5 cannot be released, and the first push plate 2a3 is prevented from blocking the pressed rim 11, and the rim 11 can slide out of the punching machine 8 along the two transmission angle irons 1 c;

when the cam block 2a7 slides out, the cam block 2a7 is separated from the extension separation mechanism 5, so that the third spring 2a5 pushes up the first push plate 2a3, and the first push plate 2a3 is ready to block the next rim 11;

therefore, elastic contact arm 2a functions as a stopper for processed rim 11, and also functions to automatically retreat from rim 11 when processing of rim 11 is completed.

The double-stage pressing mechanism 4 comprises a guide tube 4a, a circular top plate 4b, a sliding block 4c, a push column 4d, a second-stage spring 4e, a connecting ring 4f and a second push plate 4h, wherein the circular top plate 4b is fixedly arranged on an upper die seat of the punching machine 8, the guide tube 4a is fixedly arranged at the bottom of the circular top plate 4b, the guide tube 4a is provided with two mutually symmetrical arc-shaped guide grooves 4a1, two ends of the sliding block 4c respectively penetrate through the two arc-shaped guide grooves 4a1, the push column 4d is fixedly arranged at the bottom of the sliding block 4c, the push column 4d is inserted into the guide tube 4a, the second-stage spring 4e is positioned in the guide tube 4a, one end of the second-stage spring 4e is abutted against the circular top plate 4b, the other end of the second-stage spring is abutted against the sliding block 4c, the push column 4d is positioned right above the transmission angle iron 1c, the connecting ring 4f is fixedly arranged on the outer edge of the guide tube 4a, the second push plate 4h is fixedly arranged on the connecting ring 4f, and the bottom of the second push plate 4h is provided with a clamping groove 4h1 for the transmission column 2a6 to be clamped. When the punching machine 8 is pressed, the punching machine 8 drives the two-stage pressing mechanism 4 to move downwards integrally, firstly, the pushing column 4d pushes the transmission angle iron 1c to rotate downwards, the elasticity of the second-stage spring 4e is larger than the elasticity superposition of the first spring 1a3 and the second spring 2d after the compression is completed, so that the second-stage spring 4e cannot be compressed when the pressing is performed, the process is a first-stage pressing, and after the first-stage pressing is completed, the clamping groove 4h1 is positioned right above the transmission column 2a6 due to the fact that the elastic abutting arm 2a is pushed;

after the transmission angle iron 1c rotates to be horizontal, the punching machine 8 continues to press, so that the secondary spring 4e is compressed, the push column 4d is kept still, but the end part of the conduit 4a drives the connecting ring 4f to move downwards, the connecting ring 4f drives the second push plate 4h to move downwards, the second push plate 4h pushes the transmission column 2a6 downwards, the transmission column 2a6 drives the triangular clamping block 2a7 to move downwards through the first push plate 2a3, and the two triangular clamping blocks 2a7 are clamped with the extension separation mechanism 5, and the process is secondary pressing;

therefore, the double-stage pressing mechanism 4 presses down through the first stage to push the transmission angle iron 1c to move, so that the elastic rotating frame 1, the side pushing mechanism 2 and the transmission mechanism 3 move, and presses down through the second stage, the second pushing plate 4h moves the first pushing plate 2a3 downwards, and drives the triangular clamping block 2a7 to be clamped on the extension separating mechanism 5, so that the time delay blocking is performed, and the first pushing plate 2a3 avoids the rim 11 after the processing is completed.

The extending and separating mechanism 5 comprises two elastic blocking arms, each spring blocking arm is symmetrically arranged, the two elastic blocking arms are fixedly arranged on the ground, each elastic blocking arm comprises a time delay baffle 5a, a second mounting plate 5b, a fifth guide plate 5c, a second limiting plate 5e, two fifth guide pillars 5d and a fourth spring 5f, the time delay baffle 5a is fixedly arranged on the second mounting plate 5b, one end of each of the two fifth guide pillars 5d is fixedly connected with the second mounting plate 5b, the other end of each of the two fifth guide pillars 5d penetrates through the fifth guide plate 5c and the second limiting plate 5e, a guide hole for the fifth guide pillar 5d to penetrate through is formed in the fifth guide plate 5c, the two fourth springs 5f are respectively sleeved on the two fifth guide pillars 5d, one end of each of the four springs 5f is abutted against the fifth guide plate 5c, and the other end of each of the four springs is abutted against the second mounting plate 5 b. When the triangular clamping block 2a7 descends, the inclined surface on the triangular clamping block 2a7 pushes the delay baffle 5a, so that the delay baffle 5a pushes the second mounting plate 5b and the fifth guide post 5d, the two fourth springs 5f are compressed, the delay baffle 5a avoids the triangular clamping block 2a7, the delay baffle 5a clamps the triangular clamping block 2a7, and the third spring 2a5 cannot return;

when the triangular clamping block 2a7 moves rightwards, the triangular clamping block 2a7 slides along the delay baffle 5a, after the triangular clamping block 2a7 slides over the delay baffle 5a, the triangular clamping block 2a7 moves upwards due to the elasticity of the third spring 2a5, when the time for sliding the rim 11 downwards needs to be given or the blanking angle of the transmission angle iron 1c needs to be increased, only the length of the delay baffle 5a needs to be increased, and then the contact time between the delay baffle 5a and the triangular clamping block 2a7 is prolonged, or the blanking angle is increased;

therefore, the delay baffle 5a plays a role of clamping the triangular clamping block 2a7 on one hand, and also plays a role of positioning and releasing the side pushing mechanism 2 on the other hand, and the time for the rim 11 to slide downwards or the blanking angle of the transmission angle iron 1c can be adjusted by adjusting the contact length of the delay baffle 5a and the triangular clamping block 2a 7.

The rim guide rail 6 comprises two horizontal angle irons 6a and two inclined angle irons 6b, the two horizontal angle irons 6a and the two inclined angle irons 6b are symmetrically arranged, the horizontal angle irons 6a and the inclined angle irons 6b are identical to the transmission angle irons 1c in structure, one ends of the horizontal angle irons 6a are fixedly connected with one ends of the inclined angle irons 6b, the horizontal angle irons 6a and the inclined angle irons 6b are fixedly installed on the ground through supporting tubes, and the distance between the two horizontal angle irons 6a, the distance between the two inclined angle irons 6b and the distance between the two transmission angle irons 1c are equal. The wheel rim 11 is clamped between the two horizontal angle irons 6a by pushing the wheel rim 11 by a worker, when the worker pushes one wheel rim 11 again, the previous wheel rim 11 is pushed into the inclined angle iron 6b by the next wheel rim 11, the automatic spoke mounting machine 9 is enabled to mount the spoke 10 into the wheel rim 11, and the wheel rim 11 mounted with the spoke 10 slides into the two transmission angle irons 1 c.

The working principle is as follows: when pressing work is needed, a plurality of spokes 10 are loaded into the automatic spoke feeding machine 9, the controller is started, when a worker detects that the rim 11 has no problem on the detection table 7, the rim 11 is pushed into the rim guide track 6, the rim 11 slides along the rim guide track 6, when the rim 11 slides below the automatic spoke feeding machine 9, the automatic spoke feeding machine 9 places one spoke 10 into the rim 11, the process can also be carried out by the worker, the rim 11 entering the rim guide track 6 slides into the elastic rotating frame 1 along the rim guide track 6, and is collided by the first push plate 2a 3;

the rim 11 is sensed through the correlation type sensor on the punching machine 8, the correlation type sensor transmits a signal to the controller, and the controller controls the punching machine 8 to perform pressing work;

the punching machine 8 is used for pressing, the punching machine 8 drives the double-stage pressing mechanism 4 to move downwards integrally, firstly, the pushing column 4d pushes the transmission angle iron 1c to rotate downwards, the elasticity of the second-stage spring 4e is larger than the elasticity superposition of the first spring 1a3 and the second spring 2d after the compression is completed, so that the second-stage spring 4e cannot be compressed when the pressing is performed, the process is a first-stage pressing, and after the first-stage pressing is completed, the elastic abutting arm 2a is pushed, and the clamping groove 4h1 is positioned right above the transmission column 2a 6;

in the process that the transmission angle iron 1c rotates downwards, the two transmission angle irons 1c push two third guide pillars 3c downwards, the two third guide pillars 3c drive the lower push rods 3d to move downwards, the two lower push rods 3d push two trapezoid frames 3a to move, the two trapezoid frames 3a drive the horizontal push plate 2f to move towards the rim guide rail 6, the horizontal push plate 2f drives the elastic contact arms 2a to move, the elastic contact arms 2a push the rim 11 to move, and further the rim 11 is driven to move in an arc shape, so that the rim 11 is sleeved on a lower die seat of the punching machine 8, and the lower die is in an arc-shaped structure, so that the rim 11 has slight error when clamped on the punching machine 8, and self-adaptive centering can be achieved through the arc-shaped structure;

when the punching machine 8 performs the reset movement, after the punching machine 8 finishes the distance of the second-stage downward pressing movement, the punching machine starts to ascend the distance of the first-stage downward pressing movement, at the moment, the transmission angle iron 1c rotates upwards, because the transmission angle iron 1c does not collide with the third guide pillar 3c, under the action of the second spring 2d, the first mounting plate 2b is pushed and drives the elastic contact arm 2a to perform the reset movement, so that the triangular clamping block 2a7 performs the reset movement, and because the triangular clamping block 2a7 performs the reset movement, one end of the triangular clamping block 2a7 is still clamped with the delay baffle 5a, so that the third spring 2a5 cannot be released, and the first push plate 2a3 is prevented from blocking the pressed rim 11, and the rim 11 can slide out of the punching machine 8 along the two transmission angle irons 1 c;

when the rear triangular clamping block 2a7 slides out, the rear triangular clamping block is separated from the time delay baffle 5a, so that the third spring 2a5 pushes up the first push plate 2a3, and the first push plate 2a3 is ready to block the next rim 11.

Claims

1. The combined feeding and discharging equipment for the automobile spoke and the rim is characterized by comprising an elastic rotating frame (1), a side pushing mechanism (2), a two-stage pressing mechanism (4), an extending and separating mechanism (5), a rim guide rail (6), a detection table (7), a punching machine (8) and an automatic spoke feeding machine (9), wherein the detection table (7), the rim guide rail (6) and the punching machine (8) are sequentially arranged and distributed along the processing direction of the equipment and are fixedly installed on the ground, the automatic spoke feeding machine (9) is positioned above the rim guide rail (6) and used for placing spokes (10) in passing rims (11), the automatic spoke feeding machine (9) is fixedly installed on the ground through a support frame, a plurality of spokes (10) are arranged in the automatic spoke feeding machine (9), and the elastic rotating frame (1) is positioned on the outer side of the punching machine (8), the wheel disc punching machine is used for placing an assembled wheel disc (10) and a wheel rim (11) on a punching machine (8), an elastic rotating frame (1) is in transmission connection with a two-stage pressing mechanism (4), the two-stage pressing mechanism (4) is fixedly arranged on the punching machine (8), a side pushing mechanism (2) is positioned on one side, away from a wheel rim guide rail (6), of the punching machine (8), the side pushing mechanism (2) is fixedly arranged on the ground, the side pushing mechanism (2) is in transmission connection with the elastic rotating frame (1) through a transmission mechanism (3), the transmission mechanism (3) is fixedly arranged on the elastic rotating frame (1), one side end part, close to the punching machine (8), of the side pushing mechanism (2) is provided with an elastic abutting arm (2a), the elastic abutting arm (2a) is in transmission connection with the two-stage pressing mechanism (4), an extending and separating mechanism (5) is fixedly arranged on the ground and used for clamping the elastic abutting arm (2a), and the extending and separating mechanism (5) is positioned on one side of the punch (8) far away from the rim guide track (6).

2. The combined feeding and discharging equipment for the automobile spokes and the wheel rims as claimed in claim 1, wherein the elastic rotating frame (1) comprises a heightening frame (1f), a synchronous plate (1j), two positioning and pushing mechanisms (1a), supporting rotating plates (1b), transmission angle irons (1c), transmission shafts (1d), an arc-shaped guide rail (1e), a positioning column (1h) and an extension plate (1i), the two supporting rotating plates (1b) are positioned on one side of the punch (8) away from the automatic spoke mounting machine (9), the two supporting rotating plates (1b) are fixedly arranged on the ground, the two supporting rotating plates (1b) are fixedly connected through a connecting pipe, one ends of the two transmission angle irons (1c) are respectively hinged with the top ends of the two supporting rotating plates (1b), and the two transmission shafts (1d) are positioned on the outer sides of the two transmission angle irons (1c), and the two transmission shafts (1d) are respectively and fixedly connected with the two transmission angle irons (1c), and the two transmission shafts (1d) are respectively inserted in the two arc-shaped guide rails (1e), the two arc-shaped guide rails (1e) are both fixedly arranged at the top of the heightening frame (1f), the heightening frame (1f) is positioned at the other side of the punching machine (8), the heightening frame (1f) is fixedly arranged on the ground, two positioning and pushing-lifting mechanisms (1a) for pushing and lifting two transmission shafts (1d) are both fixedly arranged on the heightening frame (1f), a positioning column (1h) for horizontally supporting the two transmission angle irons (1c) is fixedly arranged on the heightening frame (1f), and the two-stage pressing mechanism (4) is in transmission connection with the middle parts of the two transmission angle irons (1c), and the middle lower parts of the two transmission angle irons (1c) are in transmission connection with the transmission mechanism (3).

3. The automobile spoke and rim combined feeding and discharging equipment as claimed in claim 2, wherein each positioning and lifting mechanism (1a) comprises a square push plate (1a1), a first guide post (1a2), a first spring (1a3) and a first guide plate (1a4), the first guide plate (1a4) is fixedly mounted on the heightening frame (1f), one end of the first guide post (1a2) penetrates through the first guide plate (1a4), a guide hole for the first guide post (1a2) to slide is formed in the first guide plate (1a4), the square push plate (1a1) is fixedly mounted on the other end of the first guide post (1a2), the first spring (1a3) is sleeved on the first guide post (1a2), one end of the first spring (1a3) abuts against the square push plate (1a1), the other end of the first spring (1a3) abuts against the first guide plate (1a2), and one end of the first positioning ring (638 a 638) is provided with an outer edge of the first guide post (1a 638).

4. The automobile spoke and rim combined feeding and discharging equipment as claimed in claim 3, wherein the side pushing mechanism (2) comprises a first mounting plate (2b), a horizontal pushing plate (2f), a second guide plate (2h), a first limiting plate (2i), two second guide pillars (2c), a second spring (2d) and a limiting ring (2e), the second guide plate (2h) is fixedly mounted on the ground, one end of each of the two second guide pillars (2c) penetrates through the second guide plate (2h), a guide hole for the second guide pillar (2c) to penetrate through is formed in the second guide plate (2h), the first mounting plate (2b) is fixedly mounted on one end of each of the two second guide pillars (2c), the first limiting plate (2i) is fixedly mounted on the other end of each of the two second guide pillars (2c), the elastic abutting arm (2a) is fixedly mounted on the first mounting plate (2b), two spacing rings (2e) are fixed mounting respectively on two second guide pillars (2c), two second springs (2d) are established respectively and are established on two second guide pillars (2c), the one end and the second baffle (2h) of every second spring (2d) are contradicted, the other end is contradicted with first limiting plate (2i), horizontal push pedal (2f) fixed mounting is in the one end of keeping away from first mounting panel (2b) in first limiting plate (2i), drive mechanism (3) are connected with horizontal push pedal (2f) transmission.

5. The automobile spoke and rim combined feeding and discharging equipment as claimed in claim 4, wherein the transmission mechanism (3) comprises two forward pushing arms which are symmetrically arranged along the central cross section of the horizontal pushing plate (2f), each forward pushing arm comprises a trapezoidal frame (3a), a third guide plate (3b), a third guide pillar (3c), a lower pushing rod (3d) and a first connecting plate (3e), the third guide plate (3b) is fixedly arranged on the supporting rotating plate (1b) through a supporting pipe, the top end of the third guide pillar (3c) penetrates through the third guide plate (3b), a guide hole for the third guide pillar (3c) to penetrate through is formed in the third guide plate (3b), the first connecting plate (3e) is fixedly arranged at the bottom of the third guide pillar (3c), and the lower pushing rod (3d) is fixedly arranged at the bottom of the first connecting plate (3e), the bottom of the lower push rod (3d) is abutted against the top of the inclined plane of the trapezoid frame (3a), the top of the third guide pillar (3c) is abutted against the bottom of the transmission angle iron (1c), and a supporting tube for supporting the trapezoid frame (3a) is fixedly arranged on the supporting rotating plate (1 b).

6. The automobile spoke and rim combined feeding and discharging device as claimed in claim 5, wherein each elastic contact arm (2a) comprises a fourth guide plate (2a1), a first push plate (2a3), a second connecting plate (2a4), two fourth guide posts (2a2), a third spring (2a5), a transmission post (2a6) and a triangular clamping block (2a7), the fourth guide plate (2a1) is fixedly mounted on the first mounting plate (2b), the bottom end of the fourth guide post (2a2) penetrates through the two fourth guide plates (2a1), the fourth guide plate (2a1) is provided with a guide hole for the fourth guide post (2a2) to penetrate through, a second connecting plate (2a4) is fixedly mounted on the top end of the fourth guide post (2a2), the first push plate (2a3) is fixedly mounted on one side of the second connecting plate (2a4), the two third guide posts (2a5) are respectively sleeved on the two fourth guide posts (2a2), and one end of each third spring (2a5) is abutted against the second connecting plate (2a4), the other end of each third spring is abutted against the fourth guide plate (2a1), the two transmission columns (2a6) are fixedly arranged on two sides of the first push plate (2a3), the two transmission columns (2a6) are coaxially arranged, the two triangular clamping blocks (2a7) are fixedly arranged at the bottoms of two sides of the first push plate (2a3), and the transmission columns (2a6) are in transmission connection with the double-stage pressing mechanism (4).

7. The automobile spoke and rim combined feeding and discharging equipment as claimed in claim 6, wherein the double-stage pressing mechanism (4) comprises a guide pipe (4a), a circular top plate (4b), a sliding block (4c), a push column (4d), a secondary spring (4e), a connecting ring (4f) and a second push plate (4h), the circular top plate (4b) is fixedly installed on an upper die seat of the punching machine (8), the guide pipe (4a) is fixedly installed at the bottom of the circular top plate (4b), two symmetrical arc-shaped guide grooves (4a1) are formed in the guide pipe (4a), two ends of the sliding block (4c) respectively penetrate through the two arc-shaped guide grooves (4a1), the push column (4d) is fixedly installed at the bottom of the sliding block (4c), the push column (4d) is inserted into the guide pipe (4a), the secondary spring (4e) is located in the guide pipe (4a), and one end of the secondary spring (4e) is abutted against the round top plate (4b), the other end of the secondary spring is abutted against the sliding block (4c), the push column (4d) is positioned right above the transmission angle iron (1c), the connecting ring (4f) is fixedly installed on the outer edge of the guide pipe (4a), the second push plate (4h) is fixedly installed on the connecting ring (4f), and the bottom of the second push plate (4h) is provided with a clamping groove (4h1) for the transmission column (2a6) to be clamped in.

8. The automobile spoke and rim combined feeding and discharging equipment as claimed in claim 7, wherein the extending and disengaging mechanism (5) comprises two elastic blocking arms, each elastic blocking arm is symmetrically arranged and fixedly mounted on the ground, each elastic blocking arm comprises a time delay baffle (5a), a second mounting plate (5b), a fifth guide plate (5c), a second limiting plate (5e), two fifth guide posts (5d) and a fourth spring (5f), the time delay baffle (5a) is fixedly mounted on the second mounting plate (5b), one end of each of the two fifth guide posts (5d) is fixedly connected with the second mounting plate (5b), the other end of each of the two fifth guide posts (5d) is fixedly connected with the second limiting plate (5e) through the fifth guide plate (5c), and a guide hole for the fifth guide post (5d) to pass through is formed in the fifth guide plate (5c), the two fourth springs (5f) are respectively sleeved on the two fifth guide pillars (5d), one end of each fourth spring (5f) is abutted against the fifth guide plate (5c), and the other end of each fourth spring is abutted against the second mounting plate (5 b).

9. The combined feeding and discharging equipment for the automobile spokes and the automobile rims as claimed in claim 8, wherein the rim guide rail (6) comprises two horizontal angle irons (6a) and two inclined angle irons (6b), the two horizontal angle irons (6a) and the two inclined angle irons (6b) are symmetrically arranged, the horizontal angle irons (6a) and the inclined angle irons (6b) are of the same structure as the transmission angle irons (1c), one ends of the horizontal angle irons (6a) are fixedly connected with one ends of the inclined angle irons (6b), the horizontal angle irons (6a) and the inclined angle irons (6b) are fixedly installed on the ground through supporting pipes, and the distance between the two horizontal angle irons (6a), the distance between the two inclined angle irons (6b) and the distance between the two transmission angle irons (1c) are equal.