CN210702211U - Rim expanding and finishing device - Google Patents

Abstract

The utility model discloses a rim expanding and finishing device, which comprises a feeding box mechanism, a cylinder pushing mechanism, a rim roller table stop mechanism and a press machine mechanism for rim finishing; the material loading box mechanism comprises a material loading box for accommodating a rim; the rim roller way material blocking mechanism comprises a roller path for conveying a rim, wherein a port at one end of the roller path corresponds to an opening of the feeding box, and the roller path is used for conveying the rim to the feeding box; and the cylinder pushing mechanism is used for pushing the wheel rim in the feeding box to the press mechanism for finishing. The utility model can replace the traditional manual operation, has high automation degree, can reduce the labor intensity of operators, saves the labor cost and improves the production efficiency; and the uniformity of the quality of the processed rim can be ensured.

Description

Rim expanding and finishing device

Technical Field

The utility model belongs to the technical field of the automobile manufacturing, concretely relates to rim expansion finishing device.

Background

The automobile wheel mainly comprises a spoke and a rim, wherein the rim is the assembly and fixing base of the tire, and the specification of the rim determines the specification of the tire which can be assembled on an automobile, so that the requirement on the consistency of the specification of the processed rim is high.

At present, the processing of the rim can be finished by a plurality of procedures such as edge rolling, butt welding, flaring, roll forming, finishing and the like; the processing of the rim usually adopts manual operation, and if the rim is shaped by a roll forming machine, the rim after the roll forming needs to be manually placed in a finishing machine for finishing, so that the workload of operators is large, the production efficiency is low, and the processing quality of the rim is not uniform easily due to manual operation.

SUMMERY OF THE UTILITY MODEL

In view of this, the utility model aims at providing a rim expansion finishing device can solve operating personnel's work load great, and production efficiency is low, and manual operation causes the non-uniform technical problem of rim processing quality easily.

In order to achieve the above purpose, the utility model provides a technical scheme is: a rim extension finishing device comprising: the device comprises a feeding box mechanism, a cylinder pushing mechanism, a rim roller table stop mechanism and a press machine mechanism for rim finishing; the material loading box mechanism comprises a material loading box for accommodating a rim; the rim roller way material blocking mechanism comprises a roller path for conveying a rim, wherein a port at one end of the roller path corresponds to an opening of the feeding box, and the roller path is used for conveying the rim to the feeding box; and the cylinder pushing mechanism is used for pushing the wheel rim in the feeding box to the press mechanism for finishing.

Preferably, the automatic feeding device further comprises a servo conveying mechanism arranged in parallel with the press mechanism, and the servo conveying mechanism is arranged below the feeding box mechanism and is in sliding connection with the feeding box mechanism.

Preferably, servo transport mechanism includes transfer assembly and servo motor, be connected with the conveying slide rail on the transfer assembly, go up workbin mechanism with conveying slide rail sliding connection, still be connected with the rack on the transfer assembly, servo motor's one end be connected with rack complex gear, servo motor can drive the gear is rotatory and follows the rack removes, and drives go up workbin mechanism edge the conveying slide rail slides.

Preferably, the rim roller way stock stop further comprises a first baffle and a stock stop cylinder, the first baffle is in transmission connection with the stock stop cylinder, and the stock stop cylinder drives the first baffle to move so as to stop the rim from being conveyed along the roller path.

Preferably, it includes the several to go up workbin mechanism go up workbin, last workbin support, rotation axis and last workbin motor, each go up the workbin center on the rotation axis equipartition set up and respectively with rotation axis fixed connection, go up the workbin motor with the rotation axis transmission is connected, it drives to go up the workbin motor the rotation axis is rotatory, the both ends of rotation axis respectively with go up workbin support swing joint.

Preferably, go up workbin mechanism still includes several adjustment guide bar subassembly, each adjustment guide bar subassembly respectively with each go up the workbin one-to-one connection, each adjustment guide bar subassembly includes adjusting lever, first guide arm and backup pad respectively, the one end of first guide arm with backup pad fixed connection, the other end of first guide arm with go up workbin fixed connection, the one end of adjusting lever with backup pad fixed connection, the other end of adjusting lever wears to establish go up the workbin, the adjusting lever is used for the adjustment the position of rim in the workbin.

Preferably, the feeding box mechanism further comprises a second baffle fixedly connected with the feeding box support, the feeding box rotates to the position of the second baffle, and the second baffle is used for preventing the wheel rim in the feeding box from falling.

Preferably, the press mechanism comprises a machine body, a finishing assembly, a pair of guide rods and a reciprocating assembly, wherein the finishing assembly is connected with the machine body, the finishing assembly comprises a finishing upper die and a finishing lower die, one end of each guide rod is connected with the finishing upper die, the other end of each guide rod is located between the finishing upper die and the finishing lower die, the two guide rods are arranged on two sides of a rim and used for supporting and connecting the rim, and the reciprocating assembly is used for driving the finishing upper die and the finishing lower die to move towards or away from each other.

Preferably, cylinder pushing equipment is including pushing away material cylinder, push rod subassembly and pushing away the material support, push away the material cylinder with push away material leg joint, the one end that pushes away the material cylinder with push rod subassembly transmission is connected, push away the material cylinder drive push rod subassembly promotes go up the rim in the workbin and slide.

Preferably, the cylinder pushing equipment still include with push away material cylinder parallel arrangement's the material slide rail that pushes away, push away the material slide rail with push away material support fixed connection, push rod subassembly with push away material slide rail sliding connection.

Compared with the prior art, the utility model discloses following beneficial effect has:

the utility model adopts the feeding box mechanism, the cylinder pushing mechanism, the rim roller way stop mechanism, the press mechanism and other equipment to replace the traditional manual operation, has high automation degree, can reduce the labor intensity of operators, saves the labor cost and improves the production efficiency; and the uniformity of the quality of the processed rim can be ensured.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required for the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without inventive labor.

Fig. 1 is a schematic view of a rim expanding and finishing device provided by an embodiment of the present invention;

fig. 2 is a schematic view of a rim roller table stock stop provided by the embodiment of the present invention;

FIG. 3 is a schematic view of a feeding box mechanism provided by an embodiment of the present invention;

FIG. 4 is a schematic view of an adjustment guide rod assembly according to an embodiment of the present invention;

fig. 5 is a schematic view of a cylinder pushing mechanism provided in the embodiment of the present invention;

fig. 6 is a schematic view of a servo transmission mechanism according to an embodiment of the present invention;

fig. 7 is a schematic view of a press mechanism according to an embodiment of the present invention;

wherein, each reference mark in the figure is:

100-rim roller table stock stop; 101-a raceway; 102-a first baffle; 103-material blocking air cylinder; 104-a first strut assembly;

200-a feeding box mechanism; 210-feeding a material box; 220-a loading box support; 230-a rotation axis; 240-a feeding box motor; 250-adjusting the guide rod assembly; 251-an adjusting rod; 252-a first guide bar; 253-a support plate; 260-a second baffle; 270-a second guide bar; 280-bearing seats;

300-cylinder pushing mechanism; 310-material pushing cylinder; 320-a pushrod assembly; 321-a push rod; 322-an electromagnet; 330-pushing material bracket; 340-pushing sliding rail; 350 first adjusting ground feet;

400-a press mechanism; 410-a fuselage; 420-finishing the lower die; 430-a guide rod; 440-a material guiding connecting column;

500-servo transport mechanism; 510-a transfer assembly; 520-a servo motor; 530-a transport sled; 540-rack; 550-connecting plates; 560-second adjustment of feet;

600-wheel rim.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

In the description of the present invention, it is to be understood that the terms "length" - "width" - "up" - "down" - "front" - "back" - "left" - "right" - "vertical" - "horizontal" - "top" - "bottom" - "inside" - "outside" etc. indicate orientations or positional relationships based on those shown in the drawings, which are merely for convenience of describing the present invention and simplifying the description, but do not indicate or imply that the device or element referred to must have a particular orientation-be constructed and operated in a particular orientation, and therefore should not be construed as limiting the present invention.

Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" - "second" may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless specifically limited otherwise.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted" -; can be mechanically or electrically connected; either directly or indirectly through intervening media, either internally or in any other relationship. The specific meaning of the above terms in the present invention can be understood according to specific situations by those skilled in the art.

As shown in fig. 1, the present invention provides a rim expanding finishing device, including: the device comprises a feeding box mechanism 200, a cylinder pushing mechanism 300, a rim roller way stop mechanism 100 and a press mechanism 400 for rim finishing;

the loading box mechanism 200 comprises a loading box for accommodating the wheel rim 600;

the rim roller way stock stop 100 comprises a raceway 101 for conveying a rim 600, a port at one end of the raceway 101 corresponds to an opening of the feeding box 210, and the raceway 101 is used for conveying the rim 600 to the feeding box 210;

the cylinder pushing mechanism 300 is used for pushing the wheel rim 600 in the upper material box 210 to the press mechanism 400 for finishing.

The utility model discloses working process does: the rim 600 can be dropped into the raceway 101 from a previous process such as a roll forming machine, the raceway 101 conveys the rim 600 into the upper box 210, and the cylinder pushing mechanism 300 pushes the rim 600 in the upper box 210 to the press mechanism 400 for finishing.

The embodiment of the utility model adopts the feeding box mechanism 200, the cylinder pushing mechanism 300, the rim roller way stock stop 100, the press machine mechanism 400 and other equipment to replace the traditional manual operation, has high automation degree, can reduce the labor intensity of operators, saves the labor cost and improves the production efficiency; and uniformity of quality of the processed rim 600 can be ensured.

With reference to fig. 2, the raceway 101 included in the rim roller way stock stop 100 may be configured as an inclined raceway, and the rim 600 may automatically roll along the raceway 101 to an end of the raceway 101 close to the feeding box 210 without driving power.

The rim roller way stock stop 100 further comprises a first baffle plate 102 and a stock stop cylinder 103, the first baffle plate 102 is in transmission connection with the stock stop cylinder 103, and the stock stop cylinder 103 drives the first baffle plate 102 to move so as to stop the rim 600 from being conveyed along the roller way 101. In order not to interfere the conveying of the previous rim 600 to the upper box 210, the first baffle plate 102 can be driven to extend through the material blocking cylinder 103 to block the movement of the next rim 600, and after the previous rim 600 is conveyed to the upper box 210, the first baffle plate 102 can be driven to retract through the material blocking cylinder 103, so that the movement of the next rim 600 along the raceway 101 is not obstructed.

Specifically, the raceway 101 may include two side plates and a bottom plate respectively connected to the two side plates, and a raceway cavity is formed between the bottom plate and the two side plates; the first baffle plate 102 can be arranged on the bottom plate, and the material blocking cylinder 103 drives the first baffle plate 102 to lift; the first baffle plate 102 can also be arranged on a side plate, and the material blocking cylinder 103 drives the first baffle plate 102 to extend and retract.

The rim table dam 100 may further include a first strut assembly 104, and the first strut assembly 104 is used for supporting the raceway 101. Chutes can be formed between the first strut assemblies 104 and the side plates, specifically, the first strut assemblies 104 include four first sub-struts, and the first sub-struts can be connected by the first side plates; the raceway 101 can be supported by connecting the first side plate with the bottom plate or the side plate; the first sub-strut can also be connected with the bottom plate to support the roller path 101; the first side plate can be provided with a chute, the first baffle plate 102 can be arranged in the chute and corresponds to the arrangement position of the first baffle plate 102, the bottom plate of the raceway 101 is provided with a corresponding chute, when the material blocking cylinder 103 drives the first baffle plate 102 to rise, the first baffle plate 102 can penetrate the chute formed by the bottom plate, the rim in the raceway 101 is blocked, when the material blocking cylinder 103 drives the first baffle plate 102 to fall, the first baffle plate 102 can penetrate the chute formed by the bottom plate, the first baffle plate slides to the chute formed by the first side plate, and the sliding of the rim in the raceway 101 is not influenced any more.

With reference to fig. 3, the feeding box mechanism 200 includes a plurality of feeding boxes 210, feeding box supports 220, a rotating shaft 230, and feeding box motors 240, each of the feeding boxes 210 surrounds the rotating shaft 230, and is uniformly disposed and respectively fixedly connected to the rotating shaft 230, the feeding box motors 240 are in transmission connection with the rotating shaft 230, the feeding box motors 240 drive the rotating shaft 230 to rotate, and two ends of the rotating shaft 230 are respectively movably connected to the feeding box supports 220. The rotating shaft 230 and the upper material box support 220 may further be connected through a bearing seat 280, specifically, the two ends of the rotating shaft 230 may be respectively movably connected with the bearing seats 280, and the bearing seats 280 are fixedly connected with the top of the upper material box support 220. The plurality of feeding boxes 210 can ensure the continuity of the production process and improve the production efficiency through rotary feeding. Specifically, the number of the upper material boxes 210 may be six, four, or two, but is not limited to the above number, and when the number of the upper material boxes 210 is four, the four upper material boxes 210 are uniformly distributed around the rotating shaft 23090 ° and are respectively and fixedly connected to the rotating shaft 230. The upper box 210 can be provided with two open ends, which form a through cavity, so that the rims in the rolling paths 101 roll into the upper box 210, and the cylinder pushing mechanism 300 pushes out the rims in the upper box 210.

The rim 600 feeding process is as follows: the previous rim 600 rolls into an opening at one end of the upper material box 210 below from the raceway 101, the upper material box 210 below can be driven by the upper material box motor 240 to rotate, the upper material box 210 below rotates to a horizontal position at the moment, and the cylinder pushing mechanism 300 pushes the rim in the upper material box 210 to pass through a through cavity of the upper material box 210 to the press mechanism 400 for finishing; at this time, the loading box motor 240 stops operating, and the next rim 600 continues to roll into the loading box 210 through the rolling way 101, and the above-mentioned loading process of the rim 600 is repeated.

With reference to fig. 4, the feeding box mechanism 200 further includes a plurality of adjusting guide rod assemblies 250, each of the adjusting guide rod assemblies 250 is connected to each of the feeding boxes 210 in a one-to-one correspondence manner, each of the adjusting guide rod assemblies 250 includes an adjusting rod 251, a first guide rod 252 and a support plate 253, one end of the first guide rod 252 is fixedly connected to the support plate 253, the other end of the first guide rod 252 is fixedly connected to the feeding box 210, one end of the adjusting rod 251 is fixedly connected to the support plate 253, the other end of the adjusting rod 251 can penetrate through the feeding box 210, and the adjusting rod 251 is used for adjusting the position of the rim 600 in the feeding box 210. According to different specifications of the rim 600, such as thickness and the like, the length of the adjusting rod 251 is adjusted to adjust the position of the upper rim of the rim 600 in the upper box 210, so as to further ensure that the cylinder pushing mechanism 300 pushes the upper rim of the rim 600 in the upper box 210 to the guide rod 430 in the press mechanism 400, and ensure that the guide rod 430 can support and connect the rims 600 with different dimensions.

The feeding box mechanism 200 further comprises a second baffle 260 fixedly connected with the feeding box support 220, and due to the fact that the feeding box 210 is of an open design, the feeding box 210 rotates to the position of the second baffle 260, the second baffle 260 can be used for preventing the rim 600 in the feeding box 210 from falling, and safety is improved. Specifically, the number of the second baffles 260 may be two, and since the feeding box 210 is designed to have two open ends, the feeding box 210 rotates to the second baffles 260, and the two second baffles 260 are respectively located at two sides of the feeding box 210, so that the rim 600 in the feeding box 210 does not fall off.

The plurality of second guide rods 270 may be further connected in the feeding box 210, each of the second guide rods 270 is arranged at intervals along a direction in which the rim 600 is pushed by the cylinder pushing mechanism 300, the second guide rods 270 may prevent the rim 600 from sliding in a rotating feeding process, and when the cylinder pushing mechanism 300 pushes the rim 600 in the feeding box 210 to slide, the rim 600 may slide along the second guide rods 270.

Combine fig. 5, cylinder pushing equipment 300 is including pushing away material cylinder 310, push rod assembly 320 and pushing away material support 330, push away material cylinder 310 with it connects to push away material support 330, push away the one end of material cylinder 310 with push rod assembly 320 transmission is connected, push away the drive of material cylinder 310 push rod assembly 320 promotes go up rim 600 in the workbin 210 and slide. Specifically, the pushing material support 330 may be a frame formed by welding square steel pipes.

Specifically, the push rod assembly 320 may be a first push rod 321, and the push rod cylinder 310 drives the first push rod to push the rim 600 in the upper bin 210 to slide;

when the rim 600 is made of steel, the push rod assembly 320 may also include a push rod 321 and an electromagnet 322, one end of the push rod 321 is in transmission connection with one end of the pushing cylinder 310, and the other end of the push rod 321 is connected with the electromagnet 322; when the push rod 320 is required to push the rim 600 in the feeding box to slide, the electromagnet 322 is electrified, and at the moment, the electromagnet 322 and the rim 600 are attracted magnetically to push the rim 600 to slide; after the rim 600 slides to the press mechanism 400, the electromagnet 322 is powered off, and the electromagnet 322 exits the press mechanism 400. The present embodiment can detect the position of the feeding box 210 by the sensor and then energize the electromagnet 322.

The push rod assembly 320 may also include a Y-shaped fork and an electromagnet, one end of the Y-shaped fork is in transmission connection with one end of the pushing cylinder 310, and the other end of the Y-shaped fork is connected with the electromagnet.

The cylinder pushing mechanism 300 further includes a pushing slide rail 340 parallel to the pushing cylinder 310, the pushing slide rail 340 is fixedly connected to the pushing support 330, and the push rod assembly 320 is slidably connected to the pushing slide rail 340. The pushing slide rail 340 can ensure the moving route of the push rod assembly 320, and the push rod assembly 320 cannot deviate in the moving process, so that sliding deviation cannot occur in the sliding process of the pushing rim 600; if the pushing path is a straight line, the push rod assembly 320 pushes the rim 600 to slide linearly.

The cylinder pushing mechanism 300 further includes a first adjusting anchor 350 for adjusting the height of the cylinder pushing mechanism 300. Specifically, a first adjustment anchor 350 may be installed at the bottom of the pushing support 330, and the height of the entire device of the cylinder pushing mechanism 300 may be adjusted by adjusting the height of the first adjustment anchor 350.

Referring to fig. 7, the press mechanism 400 includes a body 410, a finishing assembly including a finishing upper die and a finishing lower die 420, a pair of guide rods 430, each of which has one end connected to the finishing upper die and the other end between the finishing upper die and the finishing lower die 420, and a reciprocating assembly for driving the finishing upper die and the finishing lower die 420 to move toward or away from each other, the guide rods 430 being disposed at both sides of a rim 600 and supporting and connecting the rim 600. The finishing upper die and the finishing lower die 420 approach each other, specifically, the finishing upper die descends, and the material guide rod 430 drives the rim 600 to descend to finish and expand the rim 600; after the finishing expansion, the finishing upper die and the finishing lower die 420 are away from each other, specifically, the finishing upper die is lifted, the material guiding rod 430 takes up the finished rim 600, and at this time, the cylinder pushing mechanism 300 can push away the finished rim 600. Wherein the guide bar 430 can support an upper rim of the connecting rim 600. The press mechanism 400 may finish the rim 600, expanding the rim 600 from a blank size to a design size.

When the material guiding rod 430 supports and connects the rim 600, one end of the material guiding rod 430 may incline due to the gravity action of the rim 600, and the rim 600 slides down along the material guiding rod 430, in order to effectively avoid this problem, two ends of the material guiding rod 430 may be respectively connected with the finishing upper die through the material guiding connection column 440; specifically, two ends of the material guiding rod 430 may be respectively connected to one end of the material guiding connection column 440, and the other end of the material guiding connection column 440 is connected to the finishing upper die.

With reference to fig. 6, the embodiment of the present invention provides a rim expanding and finishing device further including a servo transmission mechanism 500 arranged in parallel with the press mechanism 400, wherein the servo transmission mechanism 500 is disposed below the material loading box mechanism 200 and is slidably connected to the material loading box mechanism 200. When the press machine mechanism 400 needs to be replaced, the servo conveying mechanism 500 can drive the feeding box mechanism 200 to move to one side, an operation space for replacing the press machine mechanism 400 is provided, after the replacement of the press machine mechanism 400 is finished, the servo conveying mechanism 500 drives the feeding box mechanism 200 to move to a working position, and the working position is a position where an opening of the feeding box can correspond to a port of one end of the roller path 101. The utility model discloses convenient the maintenance does not influence press mechanism 400's change space.

Servo transport mechanism 500 includes transfer assembly 510 and servo motor 520, be connected with conveying slide rail 530 on the transfer assembly 510, go up workbin mechanism 200 with conveying slide rail 530 sliding connection, still be connected with rack 540 on the transfer assembly 510, servo motor 520's one end be connected with rack 540 complex gear, servo motor 520 can drive the gear is rotatory and follow rack 540 removes, and drives go up workbin mechanism 200 and follow conveying slide rail 530 slides. Specifically, the transfer unit 510 may be a transfer plate, or a rectangular transfer unit 510 formed by welding square steel pipes. The servo conveying mechanism 500 further comprises a connecting plate 550, the feeding box mechanism 200 can be connected with the connecting plate 550, and the servo motor 520 is fixedly mounted on the connecting plate 550.

The servo transmission mechanism 500 further includes a second adjustment foot 560 for adjusting the height of the servo transmission mechanism 500. The second adjusting anchor 560 may be used to adjust the overall height of the servo transmission mechanism 500. Specifically, second set ground leg 560 may be coupled to transfer assembly 510.

As a specific embodiment of the working process of the utility model, first, the material blocking cylinder 103 on the raceway 101 drives the first baffle plate 102 to rise, the rim 600 rolls to the first baffle plate 102 from the roller machine to the raceway 101, the material feeding box motor 240 drives the opening of the material feeding box to align with one end of the raceway 101, the material blocking cylinder 103 drives the first baffle plate 102 to fall, the rim 600 rolls into the material feeding box, the material blocking cylinder 103 drives the first baffle plate 102 to rise to block the subsequent rim 600, the material feeding box motor 240 drives the material feeding box to rotate 90 degrees anticlockwise, the electromagnet 322 is electrified after the material feeding box 210 is detected to be in place by the sensor, the cylinder pushing mechanism 300 stretches out to send the rim 600 into the press mechanism 400, the electromagnet 322 is powered off, the cylinder pushing mechanism 300 withdraws, the press mechanism 400 expands the rim 600 to the design size, meanwhile, the material feeding box mechanism 200 and the rim roller way material blocking mechanism 100 repeatedly move and the press, and (4) continuous production.

The above description is only a preferred embodiment of the present invention, and should not be taken as limiting the invention, and all modifications, equivalents, and improvements made within the spirit and principles of the present invention are intended to be included within the scope of the invention.

Claims (10)

1. A rim extension finishing device, characterized by comprising: the device comprises a feeding box mechanism, a cylinder pushing mechanism, a rim roller table stop mechanism and a press machine mechanism for rim finishing;

the material loading box mechanism comprises a material loading box for accommodating a rim;

the rim roller way material blocking mechanism comprises a roller path for conveying a rim, wherein a port at one end of the roller path corresponds to an opening of the feeding box, and the roller path is used for conveying the rim to the feeding box;

and the cylinder pushing mechanism is used for pushing the wheel rim in the feeding box to the press mechanism for finishing.

2. The rim dilation finishing device of claim 1, further comprising a servo transfer mechanism arranged in parallel with the press mechanism, the servo transfer mechanism being disposed below the loading bin mechanism and slidably connected thereto.

3. The rim expanding and finishing device according to claim 2, wherein the servo transmission mechanism comprises a transmission assembly and a servo motor, the transmission assembly is connected with a transmission slide rail, the loading box mechanism is connected with the transmission slide rail in a sliding manner, the transmission assembly is also connected with a rack, one end of the servo motor is connected with a gear matched with the rack, and the servo motor can drive the gear to rotate and move along the rack and drive the loading box mechanism to slide along the transmission slide rail.

4. The rim expanding and finishing device according to any one of claims 1 to 3, wherein the rim roller way stock stop further comprises a first baffle and a stock stop cylinder, the first baffle is in transmission connection with the stock stop cylinder, and the stock stop cylinder drives the first baffle to move so as to stop the rim from being conveyed along the raceway.

5. The rim expanding and finishing device according to any one of claims 1 to 3, wherein the feeding box mechanism comprises a plurality of feeding boxes, a feeding box support, a rotating shaft and feeding box motors, each feeding box is uniformly arranged around the rotating shaft and is fixedly connected with the rotating shaft, the feeding box motors are in transmission connection with the rotating shaft, the feeding box motors drive the rotating shaft to rotate, and two ends of the rotating shaft are movably connected with the feeding box support respectively.

6. The rim expanding and finishing device according to claim 5, wherein the feeding box mechanism further comprises a plurality of adjusting guide rod assemblies, each adjusting guide rod assembly is connected with each feeding box in a one-to-one correspondence manner, each adjusting guide rod assembly comprises an adjusting rod, a first guide rod and a support plate, one end of the first guide rod is fixedly connected with the support plate, the other end of the first guide rod is fixedly connected with the feeding box, one end of the adjusting rod is fixedly connected with the support plate, the other end of the adjusting rod penetrates through the feeding box, and the adjusting rod is used for adjusting the position of the rim in the feeding box.

7. The rim dilation finishing device of claim 5, wherein the top box mechanism further comprises a second stop fixedly connected to the top box support, the top box rotating to the second stop, the second stop preventing the rims in the top box from falling.

8. The rim expanding and finishing device according to any one of claims 1 to 3, wherein the press mechanism includes a body, a finishing assembly connected to the body, a pair of guide rods including a finishing upper die and a finishing lower die, each of the guide rods having one end connected to the finishing upper die and the other end located between the finishing upper die and the finishing lower die, respectively, and a reciprocating assembly for driving the finishing upper die and the finishing lower die to move toward or away from each other.

9. The rim expanding and finishing device according to any one of claims 1 to 3, wherein the cylinder pushing mechanism comprises a pushing cylinder, a pushing rod assembly and a pushing support, the pushing cylinder is connected with the pushing support, one end of the pushing cylinder is in transmission connection with the pushing rod assembly, and the pushing cylinder drives the pushing rod assembly to push the rim in the loading box to slide.

10. The rim expanding and finishing device according to claim 9, wherein the cylinder pushing mechanism further comprises a pushing slide rail arranged in parallel with the pushing cylinder, the pushing slide rail is fixedly connected with the pushing support, and the push rod assembly is slidably connected with the pushing slide rail.

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