CN116213840B

CN116213840B - Spoke wind hole chamfering equipment

Info

Publication number: CN116213840B
Application number: CN202310329398.2A
Authority: CN
Inventors: 孙小明; 董存
Original assignee: Zhejiang Ouxing Huanmei Automobile Parts Co ltd
Current assignee: Zhejiang Ouxing Huanmei Automobile Parts Co ltd
Priority date: 2023-03-30
Filing date: 2023-03-30
Publication date: 2023-09-26
Anticipated expiration: 2043-03-30
Also published as: CN116213840A

Abstract

The invention discloses spoke wind hole chamfering equipment which comprises a frame, wherein a plurality of conveying rollers are symmetrically arranged on the frame, conveying narrow belts are symmetrically arranged between two conveying rollers positioned in the middle, limiting drums are symmetrically arranged below the frame and between the two conveying narrow belts, a fixed lifting assembly is arranged in the middle of the frame, lifting upright posts are symmetrically arranged on two sides of the frame, a chamfering assembly is slidingly arranged right above the fixed lifting assembly and between the two lifting upright posts, the conveying rollers are used for conveying spokes, after the spokes are conveyed onto the two conveying narrow belts, the fixed lifting assembly is lifted upwards and is used for fixing the spokes, and finally, a plurality of wind holes on the spokes can be chamfered simultaneously through the chamfering assembly.

Description

Spoke wind hole chamfering equipment

Technical Field

The invention relates to the technical field of machining of air holes of spokes, in particular to chamfering equipment for the air holes of spokes.

Background

The most widely used wheels in automobiles are steel wheels, which are typically composed of two parts, a rim and a spoke, which are manufactured separately and then assembled and welded together. Wherein: the upper part of the spoke is provided with a wind hole;

with the rapid development of the automobile industry, the product quality of the spoke is also of great concern, and a spoke wind hole is an important factor influencing the service performance of the spoke. At present, each wheel factory is to spoke wind hole processing, firstly fixes the mesopore of wheel spoke on blanking mould positioning disk, then carries out single or diplopore blanking processing to the spoke through the drift and obtain, but in order to guarantee the smoothness and the aesthetic property on spoke surface, need grind flat or chamfer to the wind hole edge on the spoke, and current chamfer mode adopts the manipulator to polish in proper order the wind hole on the spoke, but because the wind hole is more, and single polishing efficiency is too slow, production machining efficiency is low.

Disclosure of Invention

The invention aims to provide spoke wind hole chamfering equipment for solving the technical problems in the background.

The aim of the invention can be achieved by the following technical scheme:

the spoke wind hole chamfering equipment comprises a frame, wherein a plurality of conveying rollers are symmetrically arranged on the frame, conveying narrow belts are symmetrically arranged between two conveying rollers positioned in the middle, limiting drums are symmetrically arranged below the frame and between the two conveying narrow belts, a fixed lifting assembly is arranged in the middle of the frame, lifting upright posts are symmetrically arranged on two sides of the frame, and a chamfering assembly is slidably arranged between the two lifting upright posts and right above the fixed lifting assembly;

the chamfering assembly comprises a chamfering lifting seat which is arranged between two lifting upright posts in a sliding mode, a plurality of chamfering steering balls are rotatably arranged on the chamfering lifting seat, a chamfering support is arranged below the chamfering steering balls, a chamfering motor is fixedly arranged at the end portion of the chamfering support, and a chamfering grinding wheel is arranged at the output end of the chamfering motor.

As a further scheme of the invention: the upper portion of chamfer elevating seat rotates and is provided with power gear, the top of chamfer elevating seat just is the annular array and rotates and be provided with a plurality of drive gears and be connected with power gear meshing respectively in the outside that is power gear, the top of chamfer elevating seat is the annular array and has seted up a plurality of chamfers and turns to the spout, the chamfer turns to the slip in the spout and is provided with and turns to the stand, it is provided with the power connecting rod to rotate on the drive gear, a plurality of the tip of power connecting rod rotates with a plurality of tip that turn to the stand respectively to be connected, the chamfer turns to the top of ball and is provided with and turns to connecting rod and tip and turn to the stand and rotate to be connected.

As a further scheme of the invention: the middle part of chamfer elevating seat is provided with power motor, power gear is fixed to be set up on power motor's output.

As a further scheme of the invention: the transmission gears, the chamfering steering sliding grooves and the chamfering steering balls are the same in number, and the chamfering steering balls are respectively located in the middle of the chamfering steering sliding grooves.

As a further scheme of the invention: the fixed lifting assembly comprises a fixed base arranged in the middle of the frame, a lifting cylinder is fixedly arranged in the middle of the fixed base, a lifting chassis is fixedly arranged at the extending end of the lifting cylinder, a supporting table is fixedly arranged above the lifting chassis, a plurality of tightening frames are slidably arranged on the supporting table in an annular array, and tightening rubber blocks are arranged on one sides of the tightening frames.

As a further scheme of the invention: the support bench is annular array and has seted up a plurality of fixed spouts, it is provided with fixed revolving stage to rotate on the support bench, be annular array on the fixed revolving stage and seted up a plurality of fixed arc wall, prop tight frame slip setting in fixed arc wall and bottom slip setting in fixed spout.

As a further scheme of the invention: the lifting chassis is internally provided with a fixed motor, and the output end of the fixed motor passes through the supporting table and is fixedly connected with the fixed rotating table.

As a further scheme of the invention: the lower part of the supporting table is provided with a plurality of stable lifting cylinders in an annular array, and the fixed base is provided with a plurality of stable supports in an annular array and is respectively connected with the stable lifting cylinders in an inserting and sliding mode.

As a further scheme of the invention: the side of lift stand has seted up the lift spout, the rotation is provided with the lift screw in the lift spout, the top of lift stand is provided with elevator motor and output and the one end fixed connection of lift screw, the bilateral symmetry of chamfer lift seat is provided with the lift suspension, the one end slip of lift suspension sets up in the lift spout and with lift screw threaded connection.

As a further scheme of the invention: the lower side symmetry of frame is provided with spacing fixed block, the fixed spacing telescopic link that is provided with on the spacing fixed block, spacing rotary drum rotates to set up on the extension end of spacing telescopic link.

The invention has the beneficial effects that:

(1) According to the invention, the chamfering steering ball connected with the steering upright post through the steering connecting rod can rotate, so that the chamfering motor below the chamfering steering ball is driven to rotate, at the moment, the edges of the spoke wind holes can be polished and chamfered in a surrounding manner, and a plurality of wind holes on the spoke can be polished simultaneously through the rotation of one power gear, so that the chamfering time of the wind holes is greatly reduced, the production efficiency is improved, and in the chamfering process, each chamfering steering ball rotates, so that the chamfering grinding wheel can rotate along the outer edge of the spoke wind hole, each wind hole can be effectively chamfered, chamfering work of all the wind holes is simultaneously performed, the chamfering time is effectively saved, the production efficiency is greatly improved, and the problem that the efficiency is low due to sequential chamfering of the spoke wind holes in the existing spoke production and processing process is solved;

(2) According to the invention, the fixed rotating table is driven by the fixed motor to rotate, at the moment, the tightening frame can be controlled to synchronously move inwards or outwards, after the spoke moves to the position right above the supporting table, the supporting table is lifted upwards, so that the tightening frame moves to the inner side of the spoke, then the fixed rotating table is controlled by the fixed motor to rotate, the tightening frame is controlled to outwards move to tighten and fix the spoke, the stability in the spoke processing process is ensured, the occurrence of sliding deviation of the spoke in the chamfering process of a plurality of spoke wind holes is avoided, and the qualification rate in the chamfering process is further ensured.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a schematic top view of the overall structure of the present invention;

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

FIG. 3 is a schematic partial cross-sectional view of a connection structure between a chamfer steering ball and a chamfer lifting seat in the invention;

FIG. 4 is a schematic diagram of the connection structure of the transmission gear and the power gear in the present invention;

FIG. 5 is a schematic view of the connection structure of the tightening frame and the fixed rotary table in the present invention;

FIG. 6 is a schematic cross-sectional view of a fixed lift assembly according to the present invention;

FIG. 7 is a schematic cross-sectional view of the connection structure of the support stand and the support stand in the present invention;

FIG. 8 is a schematic diagram of a connection structure of a limit rotating drum and a limit telescopic rod in the invention;

fig. 9 is a schematic cross-sectional view of a connection structure between a lifting suspension and a lifting column in the invention.

In the figure: 1. a frame; 11. a conveying roller; 12. delivering a narrow band; 13. lifting the upright post; 130. lifting sliding grooves; 131. lifting screw rods; 132. a lifting motor; 2. limiting fixed blocks; 21. a limiting telescopic rod; 22. a limit rotary drum; 3. chamfering component; 31. chamfering lifting seat; 310. chamfering steering chute; 311. a steering column; 32. lifting suspension; 33. a power gear; 331. a power motor; 34. a transmission gear; 341. a power connecting rod; 35. chamfering steering balls; 351. a steering link; 352. chamfering the bracket; 36. chamfering motor; 361. chamfering grinding wheel; 4. fixing the lifting assembly; 40. a fixed base; 401. a stabilizing support; 41. fixing a rotary table; 410. fixing the arc-shaped groove; 42. a tightening frame; 421. tightly supporting the rubber block; 43. a support table; 430. a fixed chute; 431. lifting the underframe; 432. stabilizing the lifting cylinder; 44. fixing a motor; 45. lifting cylinder.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-9, the invention discloses a spoke wind hole chamfering device, which comprises a frame 1, wherein a plurality of conveying rollers 11 are symmetrically arranged on the frame 1, a conveying narrow band 12 is symmetrically arranged between two conveying rollers 11 positioned in the middle, a limit rotary drum 22 is symmetrically arranged below the frame 1 and between the two conveying narrow bands 12, a fixed lifting assembly 4 is arranged in the middle of the frame 1, lifting upright posts 13 are symmetrically arranged on two sides of the frame 1, a chamfering assembly 3 is slidingly arranged right above the fixed lifting assembly 4 between the two lifting upright posts 13, the conveying rollers 11 are used for conveying spokes, after the spokes are conveyed onto the two conveying narrow bands 12, the conveying narrow band 12 conveys the spokes to the upper side of the fixed lifting assembly 4 and stops and positions the spokes through the limit rotary drum 22, then the fixed lifting assembly 4 rises upwards and fixes the spokes, and finally, a plurality of wind holes on the spokes can be chamfered through the chamfering assembly 3 at the same time, the chamfering speed is high, the problems of a plurality of wind holes on the spokes are slow in turn and the chamfering speed and the production efficiency is low are solved;

specifically, referring to the structural design of the chamfering component 3, as shown in fig. 1, fig. 2, fig. 3 and fig. 4, the chamfering component 3 comprises a chamfering lifting seat 31 which is slidably arranged between two lifting columns 13, a plurality of chamfering steering balls 35 are rotatably arranged on the chamfering lifting seat 31, a chamfering bracket 352 is arranged below each chamfering steering ball 35, a chamfering motor 36 is fixedly arranged at the end of the chamfering bracket 352, a chamfering grinding wheel 361 is arranged on the output end of the chamfering motor 36, after the spokes are fixed, the chamfering lifting seat 31 moves downwards so that each chamfering grinding wheel 361 moves to the edge of an air hole on each spoke, then the chamfering motor 36 is started to drive the chamfering grinding wheel 361 to rotate, then the air holes on the spokes can be chamfered, each chamfering steering ball 35 rotates along the outer edges of the air holes of the spokes, each air hole can be effectively chamfered, chamfering work of all the air holes is simultaneously performed, chamfering time is effectively saved, production efficiency is greatly improved, and the problem that the existing spoke production process is sequentially performed, and the chamfering efficiency is low is solved.

Specifically, a power gear 33 is rotationally arranged above the chamfering lifting seat 31, a plurality of transmission gears 34 are rotationally arranged above the chamfering lifting seat 31 and are positioned outside the power gear 33 in an annular array and are respectively meshed with the power gear 33, a plurality of chamfering steering sliding grooves 310 are formed above the chamfering lifting seat 31 in an annular array, a steering column 311 is slidingly arranged in the chamfering steering sliding grooves 310, a power connecting rod 341 is rotationally arranged on the transmission gears 34, the ends of the plurality of power connecting rods 341 are respectively rotationally connected with the ends of the plurality of steering columns 311, a steering connecting rod 351 is arranged above the chamfering steering ball 35 and is rotationally connected with the steering column 311, a power motor 331 is arranged in the middle of the chamfering lifting seat 31, and the power gear 33 is fixedly arranged on the output end of the power motor 331; namely, the number of the transmission gears 34, the chamfer steering sliding grooves 310 and the chamfer steering balls 35 is the same, the chamfer steering balls 35 are respectively positioned in the middle of the chamfer steering sliding grooves 310, each corresponding transmission gear 34, chamfer steering sliding groove 310 and chamfer steering ball 35 are in a group, the length of a power connecting rod 341 between the transmission gear 34 and the chamfer steering sliding groove 310 is the same as the distance between the transmission gear 34 and the circle center of the chamfer steering sliding groove 310, the rotating radius of the power connecting rod 341 in the chamfer steering sliding groove 310 is the same as the rotating radius of the other end on the transmission gear 34, at this moment, when the transmission gear 34 rotates, the steering column 311 can be driven to slide in the chamfer steering sliding groove 310 through the power connecting rod 341, at this moment, the chamfer steering balls 35 connected with the steering column 311 can rotate through the steering connecting rod 351, and further the chamfer motor 36 below the chamfer steering balls 35 are driven to rotate, at this moment, the edges of spoke wind holes can be polished in a surrounding manner, the time of a plurality of wind holes can be achieved through the rotation of one power gear 33, the time of polishing of the spoke wind holes can be greatly reduced, and the production efficiency is improved.

In addition, referring to fig. 5, 6 and 7, the structural design of the fixed lifting assembly 4 is shown, the fixed lifting assembly 4 comprises a fixed base 40 arranged in the middle of the frame 1, a lifting cylinder 45 is fixedly arranged in the middle of the fixed base 40, a lifting underframe 431 is fixedly arranged on the extending end of the lifting cylinder 45, a supporting table 43 is fixedly arranged above the lifting underframe 431, a plurality of tightening frames 42 are slidably arranged on the supporting table 43 in an annular array, a tightening rubber block 421 is arranged on one side of the tightening frames 42, after spokes are conveyed to two conveying narrow bands 12 through the conveying roller 11, the spokes are in a state of being suspended in the middle, at this time, the lifting cylinder 45 extends to upwards lift the supporting table 43, then the spokes can be respectively and fixedly supported and moved outwards through controlling the tightening frames 42, and chamfering is further performed, so that stability in the spoke machining process is ensured, the occurrence of sliding offset in the spoke chamfering process is avoided, and the qualification rate in the chamfering process is further ensured.

Specifically, a plurality of fixed sliding grooves 430 are formed in an annular array on the supporting table 43, a fixed rotating table 41 is rotatably arranged on the supporting table 43, a plurality of fixed arc grooves 410 are formed in an annular array on the fixed rotating table 41, the supporting frame 42 is slidably arranged in the fixed arc grooves 410, the bottom of the supporting frame is slidably arranged in the fixed sliding grooves 430, in addition, a fixed motor 44 is arranged in the lifting chassis 431, the output end of the fixed motor 44 penetrates through the supporting table 43 and is fixedly connected with the fixed rotating table 41, the fixed rotating table 41 performs limit sliding on the supporting frame 42 through the fixed arc grooves 410, the lower end of the supporting frame 42 slides in the fixed sliding grooves 430 on the supporting table 43, the fixed rotating table 41 is driven to rotate through the fixed motor 44, at the moment, the supporting frame 42 can be controlled to synchronously move inwards or outwards, after the spoke moves to the right above the supporting table 43, the supporting table 43 rises upwards, the supporting frame 42 is enabled to move to the inner side of the spoke, then the fixed motor 44 is controlled to rotate so as to control the supporting frame 42 to move outwards, and the spoke is fastened.

In addition, be annular array in the below of supporting bench 43 and be provided with a plurality of steady lift section of thick bamboo 432, be annular array on the fixed base 40 and be provided with a plurality of steady rest 401 and respectively with steady lift section of thick bamboo 432 grafting sliding connection, when supporting bench 43 goes on elevating movement, in order to guarantee the stationarity to spoke in-process, through setting up a plurality of steady rest 401 and steady lift section of thick bamboo 432 in the below, can effectually guarantee the stationarity of supporting bench 43.

In addition, referring to fig. 9, a lifting chute 130 is formed in a side surface of the lifting upright post 13, a lifting screw 131 is rotationally arranged in the lifting chute 130, a lifting motor 132 is arranged above the lifting upright post 13, an output end of the lifting motor is fixedly connected with one end of the lifting screw 131, lifting suspensions 32 are symmetrically arranged on two sides of the chamfering lifting seat 31, one end of each lifting suspension 32 is slidingly arranged in the lifting chute 130 and is in threaded connection with the lifting screw 131, the lifting screw 131 is driven to rotate by the lifting motor 132, the lifting suspensions 32 can be driven to rotate in the lifting chute 130, after the spoke is fixed, the chamfering assembly 3 is started, lifting of the chamfering assembly 3 can be controlled, and further wind holes on the spoke are chamfered.

Finally, referring to fig. 8, a limiting fixing block 2 is symmetrically arranged below the frame 1, a limiting telescopic rod 21 is fixedly arranged on the limiting fixing block 2, a limiting rotary drum 22 is rotatably arranged on the extending end of the limiting telescopic rod 21, when spokes are conveyed to the upper side of the fixed lifting assembly 4 along the conveying narrow band 12, two limiting telescopic rods 21 extend simultaneously, and the spokes are stopped and positioned, so that the condition that the spokes are out of position in the conveying process is avoided.

The working principle of the invention is as follows:

during operation, after the conveying roller 11 conveys spokes to the two conveying narrow belts 12, the two limiting telescopic rods 21 extend simultaneously to stop and position the spokes, then the supporting table 43 rises upwards, the supporting frame 42 moves to the inner side of the spokes, then the fixed rotating table 41 is controlled to rotate through the fixed motor 44 so as to control the supporting frame 42 to move outwards to support and fix the spokes, then the chamfering motor 36 is started to drive the chamfering grinding wheel 361 to rotate, meanwhile, the power motor 331 drives the power gear 33 to rotate so as to drive the transmission gear 34 to rotate, the chamfering steering ball 35 connected with the steering upright post 311 through the steering connecting rod 351 can rotate, at the moment, the chamfering motor 36 drives the chamfering grinding wheel 361 to rotate integrally, finally the lifting screw 131 is driven to rotate through the lifting motor 132, and then the lifting suspension 32 can be driven to rotate in the lifting sliding groove 130, and the chamfering assembly 3 is controlled to descend, so that wind holes on the spokes can be chamfered through the chamfering grinding wheel 361.

The foregoing describes one embodiment of the present invention in detail, but the description is only a preferred embodiment of the present invention and should not be construed as limiting the scope of the invention. All equivalent changes and modifications within the scope of the present invention are intended to be covered by the present invention.

Claims

1. The spoke wind hole chamfering equipment comprises a frame (1), and is characterized in that a plurality of conveying rollers (11) are symmetrically arranged on the frame (1), conveying narrow belts (12) are symmetrically arranged between the two conveying rollers (11) in the middle, limiting drums (22) are symmetrically arranged below the frame (1) and between the two conveying narrow belts (12), a fixed lifting assembly (4) is arranged in the middle of the frame (1), lifting upright posts (13) are symmetrically arranged on two sides of the frame (1), and chamfering assemblies (3) are slidably arranged between the two lifting upright posts (13) and right above the fixed lifting assembly (4);

the chamfering assembly (3) comprises chamfering lifting seats (31) which are arranged between two lifting columns (13) in a sliding mode, a plurality of chamfering steering balls (35) are rotatably arranged on the chamfering lifting seats (31), chamfering brackets (352) are arranged below the chamfering steering balls (35), chamfering motors (36) are fixedly arranged at the end portions of the chamfering brackets (352), and chamfering grinding wheels (361) are arranged at the output ends of the chamfering motors (36);

the automatic chamfering device is characterized in that a power gear (33) is rotatably arranged above the chamfering lifting seat (31), a plurality of transmission gears (34) are rotatably arranged above the chamfering lifting seat (31) and located on the outer side of the power gear (33) in an annular array and are respectively connected with the power gear (33) in a meshed mode, a plurality of chamfering steering sliding grooves (310) are formed above the chamfering lifting seat (31) in an annular array mode, a steering upright post (311) is arranged in the chamfering steering sliding grooves (310) in a sliding mode, a power connecting rod (341) is rotatably arranged on the transmission gears (34), the ends of the power connecting rod (341) are rotatably connected with the ends of the steering upright posts (311) respectively, and a steering connecting rod (351) is arranged above the chamfering steering ball (35) and the ends of the chamfering steering ball are rotatably connected with the steering upright post (311);

the middle part of the chamfering lifting seat (31) is provided with a power motor (331), and the power gear (33) is fixedly arranged at the output end of the power motor (331);

the transmission gears (34), the chamfering steering sliding grooves (310) and the chamfering steering balls (35) are the same in number, and a plurality of chamfering steering balls (35) are respectively positioned in the middle of the chamfering steering sliding grooves (310);

lifting sliding grooves (130) are formed in the side faces of the lifting upright posts (13), lifting screws (131) are rotationally arranged in the lifting sliding grooves (130), lifting motors (132) are arranged above the lifting upright posts (13) and are fixedly connected with one ends of the lifting screws (131), lifting suspensions (32) are symmetrically arranged on two sides of the chamfering lifting seat (31), and one ends of the lifting suspensions (32) are slidably arranged in the lifting sliding grooves (130) and are in threaded connection with the lifting screws (131).

2. The spoke wind hole chamfering equipment according to claim 1, characterized in that the fixed lifting assembly (4) comprises a fixed base (40) arranged in the middle of the frame (1), a lifting cylinder (45) is fixedly arranged in the middle of the fixed base (40), a lifting underframe (431) is fixedly arranged at the extending end of the lifting cylinder (45), a supporting table (43) is fixedly arranged above the lifting underframe (431), a plurality of tightening frames (42) are slidably arranged on the supporting table (43) in an annular array, and tightening rubber blocks (421) are arranged on one side of each tightening frame (42).

3. The spoke wind hole chamfering equipment according to claim 2, characterized in that a plurality of fixed sliding grooves (430) are formed in the support table (43) in a ring-shaped array, a fixed rotating table (41) is rotatably arranged on the support table (43), a plurality of fixed arc grooves (410) are formed in the fixed rotating table (41) in a ring-shaped array, and the tightening frame (42) is slidably arranged in the fixed arc grooves (410) and the bottom is slidably arranged in the fixed sliding grooves (430).

4. The spoke wind hole chamfering equipment according to claim 2, characterized in that a fixed motor (44) is arranged inside the lifting underframe (431), and the output end of the fixed motor (44) penetrates through the supporting table (43) to be fixedly connected with the fixed rotary table (41).

5. The spoke wind hole chamfering equipment according to claim 2, characterized in that a plurality of stable lifting cylinders (432) are arranged below the supporting table (43) in an annular array, and a plurality of stable supports (401) are arranged on the fixed base (40) in an annular array and are respectively connected with the stable lifting cylinders (432) in an inserting and sliding mode.

6. The spoke wind hole chamfering equipment according to claim 1, wherein limiting fixed blocks (2) are symmetrically arranged below the frame (1), limiting telescopic rods (21) are fixedly arranged on the limiting fixed blocks (2), and the limiting rotary cylinders (22) are rotatably arranged on the extending ends of the limiting telescopic rods (21).