CN114985781B - Bearing ring cross-section ring turning equipment - Google Patents

Abstract

The invention relates to a turning device for a ring piece with a bearing ring cross section, which comprises a mounting bottom plate, wherein a fixed clamping unit used for locking the bearing ring is arranged on the left side of the mounting bottom plate, and an execution processing unit used for turning the bearing ring is arranged on the right side of the mounting bottom plate. The invention can solve the problems that the prior bearing rings need to be fixed by using a clamp in the turning process, the bearing rings need to be manually and frequently disassembled and taken and placed in the batch process of processing the bearings, the working efficiency is low, the bearing rings cannot be simultaneously fixed and locked, corresponding clamping tools need to be replaced when the bearing rings with different specifications are processed, in addition, the prior processing machine cannot conduct turning processing on the bearing rings, the bearing rings need to be turned one by one, the operation is complex, the processing time is long, and the like.

Description

Bearing ring cross-section ring turning equipment

Technical Field

The application relates to the technical field of bearing machining, in particular to turning equipment for a ring piece with a bearing ring section.

Background

The bearing is a part which is important in the current machinery, the bearing has a plurality of working procedures in the processing, wherein the turning processing of the bearing is a key processing procedure, a bearing ring is an important part for forming the bearing, the shapes of the outer rings of the different bearings are different, and the needle roller bearing is required to be uniformly turned with inner grooves along the inner parts for limiting the rollers in the processing process.

At present, bearing rings need to be fixed by using a clamp in the turning process, and the bearing rings need to be taken and placed by manually frequently disassembling the clamp in the batch processing process of the bearing, so that the working efficiency is low, the bearing rings cannot be simultaneously fixed and locked, corresponding clamping tools need to be replaced when the bearing rings with different specifications are processed, in addition, the turning treatment of the bearing rings cannot be carried out by the existing processing machinery, the bearing rings need to be turned one by one, and the complex processing time is long.

Disclosure of Invention

In order to realize the synchronous stable locking of a plurality of bearing rings and simultaneously turning the bearing rings with various specifications, the application provides a turning device for the ring piece with the section of the bearing ring.

The invention provides a turning device for a ring piece with a bearing ring cross section, which comprises a mounting bottom plate, wherein a fixed clamping unit used for locking the bearing ring is arranged on the left side of the mounting bottom plate, and an execution processing unit used for turning the bearing ring is arranged on the right side of the mounting bottom plate;

the fixed clamping unit comprises a linear electric sliding block arranged on the mounting bottom plate, a supporting driving mechanism is arranged on the linear electric sliding block, and a clamping operation mechanism for locking the bearing ring is arranged on the supporting driving mechanism;

the execution processing unit comprises an execution fixing frame arranged on the mounting bottom plate, wherein the execution fixing frame is provided with a moving groove from left to right at equal intervals, the execution fixing frame is provided with a moving cylinder, the moving cylinder is provided with a moving frame, the moving frame is connected with the execution fixing frame in a sliding manner, the moving frame is provided with a rotating hole matched with the moving groove, the rotating hole is internally provided with an execution turning mechanism, and the moving frame is provided with a braking mechanism.

Preferably, the support driving mechanism comprises a support plate arranged on the linear electric sliding block, an auxiliary installation frame is arranged on the left side of the upper end of the support plate, an auxiliary installation ring is arranged in the auxiliary installation frame in a sliding fit mode, an auxiliary support frame is arranged on the right side of the upper end of the support plate, an auxiliary rotating plate is arranged on the auxiliary support frame in a sliding fit mode, a clamping operation mechanism is connected between the auxiliary rotating plate and the auxiliary installation ring, and a driving branched chain for controlling the auxiliary rotating plate to rotate at a uniform speed is arranged on the auxiliary support frame.

Preferably, the driving branched chain comprises a driving motor arranged on the auxiliary supporting frame through a motor seat, a driving gear is arranged on an output shaft of the driving motor, a rotating gear is meshed with the driving gear, and the rotating gear is sleeved on the outer wall of the auxiliary rotating plate.

Preferably, the clamping operation mechanism comprises a placing frame arranged between the auxiliary rotating plate and the auxiliary mounting ring, clamping branched chains used for fixing the bearing ring are uniformly arranged on the placing frame, extrusion branched chains are arranged on the placing frame between two adjacent clamping branched chains, and control branched chains used for applying pressure to the extrusion branched chains are arranged on the placing frame.

Preferably, the placement frame comprises placement support plates which are uniformly connected between the auxiliary rotating plate and the auxiliary mounting ring, and storage frames which are in semicircular structures are arranged between the placement support plates at equal intervals from left to right.

Preferably, the clamping branched chains comprise vertical plates which are uniformly arranged on the storage rack, clamping holes are formed in the vertical plates, clamping rods are slidably arranged in the clamping holes, clamping springs are sleeved between the clamping rods and the inner wall of the storage rack, clamping operation plates are arranged on the clamping rods, and rubber particles are arranged on the clamping operation plates.

Preferably, the extrusion branched chain comprises an extrusion groove formed in the placement support plate, an extrusion block is slidably arranged in the extrusion groove, an extrusion spring rod is arranged between the extrusion block and the outer wall of the placement support plate, the extrusion block is of a stepped structure, and the clamping rod abuts against the extrusion block.

Preferably, the control branched chain comprises a control motor arranged on the auxiliary mounting frame through a motor base, a control screw is arranged on an output shaft of the control motor, the control screw is arranged on the auxiliary mounting frame through a bearing, a control block used for extruding an extrusion block is arranged on the placement frame in a sliding manner from left to right at equal intervals, the control block is of a semicircular structure, one end, close to the control block, of the extrusion block is of an inclined structure, a moving block is arranged at the lower end of the control block, and the moving block is connected with the control screw in a threaded engagement mode.

Preferably, the executing turning mechanism comprises a linear bearing arranged in the moving groove in a sliding manner, an executing sleeve is arranged in the linear bearing and penetrates through the rotating hole in a sliding manner, an executing rod is arranged in the executing sleeve in a sliding manner, a turning drill bit is arranged on the executing rod, a lifting cylinder is arranged on the inner wall of the moving frame, a lifting plate is arranged on the lifting cylinder, and the executing rod is arranged on the lifting plate through a bearing.

Preferably, the braking mechanism comprises a linkage chain wheel sleeved on the outer wall of the execution sleeve, a braking motor is installed on the movable frame through a motor seat, a driving chain wheel is installed on an output shaft of the braking motor, and the driving chain wheel is connected with the linkage chain wheel through a chain.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the fixed clamping unit designed by the invention can be used for placing the bearing rings ready for turning on the fixed clamping unit in a specific operation process, synchronously locking and fixing the bearing rings through the fixed clamping unit, simultaneously fixing and locking the bearing rings, automatically adjusting the fixed clamping unit according to the specifications of the bearing rings, meeting the fixed clamping operation of the bearing rings with different specifications, simultaneously completing the synchronous locking treatment of the bearing rings, improving the turning efficiency of the bearing rings, adapting to the machining of the bearing rings with different specifications, avoiding manual adjustment and replacement of clamps, ensuring the stability of the simultaneous machining of the bearing rings,

2. the execution processing unit designed by the invention can simultaneously carry out turning processing on a plurality of fixed bearing rings in the operation, and the execution processing unit and the fixed clamping unit are mutually matched in the turning processing operation, the fixed clamping unit can lock and fix the bearing rings, and can control the bearing rings to rotate in the turning processing operation, and the overall turning processing operation on the bearing rings is completed through the mutual matching between the fixed clamping unit and the execution processing unit.

Drawings

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

Fig. 1 is a schematic perspective view of the present application.

Fig. 2 is a first structural schematic diagram between the mounting baseplate and the fixed clamping unit of the present application.

Fig. 3 is a second structural schematic diagram between the mounting baseplate and the fixed clamping unit of the present application.

Fig. 4 is a schematic view of a partial structure of the clamping mechanism of the present application.

Fig. 5 is a schematic view of the structure between the mounting base plate and the execution processing unit of the present application.

Fig. 6 is a schematic cross-sectional structure of the present application execution processing unit.

Detailed Description

The present application is described in further detail below in conjunction with figures 1-6.

The embodiment of the application discloses a turning device for a ring piece with a bearing ring cross section, which comprises a mounting bottom plate 1, wherein a fixed clamping unit 2 for locking the bearing ring is arranged on the left side of the mounting bottom plate 1, and an execution processing unit 3 for turning the bearing ring is arranged on the right side of the mounting bottom plate 1;

the fixed clamping unit 2 comprises a linear electric sliding block 21 arranged on the mounting bottom plate 1, a supporting driving mechanism 22 is arranged on the linear electric sliding block 21, and a clamping operation mechanism 23 for locking a bearing ring is arranged on the supporting driving mechanism 22;

through adopting above-mentioned technical scheme to be ready to carry out the bearing ring of turning processing and place on supporting actuating mechanism 22 in actual operation, carry out unified centre gripping locking operation to the complete ring of taking out of placing through supporting actuating mechanism 22, after the bearing ring is locked fixedly, start sharp electronic slider 21, the bearing ring after the drive centre gripping is fixed is adjusted to the position department that carries out processing unit 3 and can carry out the turning processing to the bearing ring to control the bearing ring in the turning operation and rotate the regulation, thereby accomplish the comprehensive turning processing's of bearing ring operation.

The clamping operation mechanism 23 comprises a placing frame 231 arranged between the auxiliary rotating plate 225 and the auxiliary mounting ring 223, clamping branched chains 232 used for fixing bearing rings are uniformly arranged on the placing frame 231, extrusion branched chains 233 are arranged on the placing frame 231 between two adjacent clamping branched chains 232, and control branched chains 234 used for applying pressure to the extrusion branched chains 233 are arranged on the placing frame 231.

Place the frame 231 including evenly connect auxiliary rotating plate 225 with place extension board 2311 between the auxiliary collar 223, place equidistant storage rack 2312 that is semi-circular structure from left to right between the extension board 2311, storage rack 2312 has played the effect of interim spacing to the bearing housing circle of placing.

Through adopting above-mentioned technical scheme, will prepare to carry out the even sign indicating number of bearing ring of turning processing and put into place frame 231 in specific operation in-process, then start control branched chain 234 and extrude branched chain 233, extrude branched chain 233 in operation in-process control centre gripping branched chain 232 and carry out centre gripping fixed to the outside of bearing ring, can lock fixedly to a plurality of bearing rings simultaneously, can practice thrift the processing time of bearing ring, improve the machining efficiency of bearing ring.

The control branched chain 234 includes a control motor 2341 installed on the auxiliary installation frame 222 through a motor base, a control screw 2342 is installed on an output shaft of the control motor 2341, the control screw 2342 is installed on the auxiliary installation frame 224 through a bearing, a control block 2343 for extruding the extrusion block 2331 is arranged on the placement frame 231 in a sliding manner from left to right at equal intervals, the control block 2343 is of a semicircular structure, one end of the extrusion block 2331, which is close to the control block 2343, is of an inclined structure, a moving block 2344 is arranged at the lower end of the control block 2343, and the moving block 2344 is connected with the control screw 2342 through a threaded engagement mode.

By adopting the technical scheme, after the bearing ring is placed in a specific operation process, the control motor 2341 is started to drive the control screw 2342 to rotate, the control screw 2342 drives the moving block 2344 to move in a threaded transmission mode in a rotation adjustment process, the moving block 2344 drives the control block 2343 to extrude the extruding branched chain 233 in the operation, and the control screw 2342 synchronously drives the plurality of control blocks 2343 to horizontally move in the movement process.

The extruding branched chain 233 comprises an extruding groove formed in the supporting plate 2311, an extruding block 2331 is slidably arranged in the extruding groove, an extruding spring rod 2332 is arranged between the extruding block 2331 and the outer wall of the supporting plate 2311, the extruding block 2331 is in a stepped structure, and the clamping rod 2321 abuts against the extruding block 2331.

The control block 2343 extrudes the extrusion block 2331 in the moving process, the extrusion block 2331 is subjected to position adjustment in the extrusion groove after being extruded, the contact position between the extrusion block 2331 and the clamping rod 2321 is changed in the moving process, and the clamping rod 2321 is extruded in the moving process due to the fact that the extrusion block 2331 is of a step structure, and the clamping rod 2321 drives the clamping branched chain 232 in the moving process to complete locking and fixing operation of the bearing ring.

Clamping branched chain 232 is including evenly seting up riser on the storage rack 2312, the centre gripping hole has been seted up on the riser, the downthehole slip of centre gripping is provided with clamping lever 2321, the cover is equipped with the clamping spring between the inner wall of clamping lever 2321 and storage rack 2312, be provided with centre gripping operation board 2322 on the clamping lever 2321, be provided with the rubber granule on the centre gripping operation board 2322.

The clamping rod 2321 drives the clamping operation plate 2322 to move towards the direction of the bearing ring in the moving process, and rubber particles on the clamping operation plate 2322 can increase friction force between the clamping operation plate 2322 and the bearing ring, so that stability after the bearing ring is clamped and fixed is guaranteed.

The execution processing unit 3 is including installing the execution mount 31 on the mounting plate 1, equidistant removal groove has been seted up from left to right on the execution mount 31, install the removal cylinder 32 on the execution mount 31, be provided with on the removal cylinder 32 and remove the frame 33, remove the frame 33 with the execution mount 31 slip links to each other, the rotatory hole with removal groove complex has been seted up on the frame 33, be provided with the execution turning mechanism 34 in the rotatory hole, the frame 33 is provided with the brake mechanism 35.

After the fixed bearing ring moves to a proper position, the brake mechanism 35 drives the turning mechanism 34 to carry out turning treatment on the bearing ring, and the moving cylinder 32 controls the moving frame 33 to carry out left-right reciprocating movement in the word process, so that the turning treatment operation on the bearing ring is completed.

The turning executing mechanism 34 comprises a linear bearing 341 slidably arranged in the moving groove, an executing sleeve 342 is arranged in the linear bearing 341 and slidably penetrates through the rotating hole, an executing rod 343 is slidably arranged in the executing sleeve 342, a turning drill bit is arranged on the executing rod 343, a lifting cylinder 344 is arranged on the inner wall of the moving frame 33, a lifting plate 345 is arranged on the lifting cylinder 344, the executing rod 343 is arranged on the lifting plate 345 through a bearing, a sliding groove is formed in the executing sleeve 342, and a lug matched with the sliding groove is arranged on the executing rod 343.

The braking mechanism 35 comprises a linkage chain wheel 351 sleeved on the outer wall of the execution sleeve 342, a braking motor 352 is installed on the movable frame 33 through a motor seat, a driving chain wheel 353 is installed on an output shaft of the braking motor 352, and the driving chain wheel 353 is connected with the linkage chain wheel 351 through a chain 354.

Through adopting above-mentioned technical scheme, after the bearing ring is adjusted to suitable position, start braking motor 352 drives drive sprocket 353 and rotates, drive sprocket 353 is through linking the cooperation between sprocket 351 and the chain 354 and drive the execution sleeve 342 and rotate at pivoted in-process, execution sleeve 342 is rotatory at the turning drill bit on the pivoted in-process drive actuating lever 343, start lift cylinder 344 and drive lifter plate 345 and carry out the altitude mixture control this moment, thereby it acts on the inner wall of bearing ring to drive the turning drill bit in rotation, control the degree of bearing ring turning through lift cylinder 344, and move cylinder 32 and drive and remove frame 33 and carry out side-to-side motion regulation, control the degree of bearing ring turning, the fixed bearing ring of centre gripping is driven in addition and is rotated swing in the drive and is adjusted the width that is used for controlling bearing ring turning in the operation, thereby guarantee the precision of bearing ring machining.

The support driving mechanism 22 comprises a support plate 221 arranged on the linear electric sliding block 21, an auxiliary installation frame 222 is arranged on the left side of the upper end of the support plate 221, an auxiliary installation ring 223 is arranged in the auxiliary installation frame 222 in a sliding fit mode, an auxiliary support frame 224 is arranged on the right side of the upper end of the support plate 221, an auxiliary rotating plate 225 is arranged on the auxiliary support frame 224 in a sliding fit mode, a clamping operation mechanism 23 is connected between the auxiliary rotating plate 225 and the auxiliary installation ring 223, and a driving branched chain for controlling the auxiliary rotating plate 225 to rotate at a uniform speed is arranged on the auxiliary support frame 224.

The driving branched chain comprises a driving motor 226 arranged on the auxiliary supporting frame 224 through a motor seat, a driving gear 227 is arranged on an output shaft of the driving motor 226, a rotating gear 228 is meshed on the driving gear 227, and the rotating gear 228 is sleeved on the outer wall of the auxiliary rotating plate 225.

When the turning position of the bearing ring needs to be replaced, the processing unit 3 is reset, the driving motor 226 is started to drive the driving gear 227 to rotate at the moment, the driving gear 227 drives the rotating gear 228 to rotate in the rotating process, the rotating gear 228 drives the auxiliary rotating plate 225 to rotate in the rotating process, and after the position of the bearing ring is adjusted, the processing unit 3 is executed to repeat the steps to continue processing the bearing ring, and the steps are repeated until the bearing ring is turned.

The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.

Claims (7)

1. The turning equipment for the ring piece of the section of the bearing ring comprises a mounting bottom plate (1), wherein a fixed clamping unit (2) for locking the bearing ring is arranged on the left side of the mounting bottom plate (1), and an execution processing unit (3) for turning the bearing ring is arranged on the right side of the mounting bottom plate (1);

the fixed clamping unit (2) comprises a linear electric sliding block (21) arranged on the mounting bottom plate (1), a supporting driving mechanism (22) is arranged on the linear electric sliding block (21), and a clamping operation mechanism (23) for locking a bearing ring is arranged on the supporting driving mechanism (22);

the support driving mechanism (22) comprises a support plate (221) arranged on the linear electric sliding block (21), an auxiliary installation frame (222) is arranged on the left side of the upper end of the support plate (221), an auxiliary installation ring (223) is arranged in the auxiliary installation frame (222) in a sliding fit mode, an auxiliary support frame (224) is arranged on the right side of the upper end of the support plate (221), an auxiliary rotating plate (225) is arranged on the auxiliary support frame (224) in a sliding fit mode, a clamping operation mechanism (23) is connected between the auxiliary rotating plate (225) and the auxiliary installation ring (223), and a driving branched chain for controlling the auxiliary rotating plate (225) to rotate at a constant speed is arranged on the auxiliary support frame (224);

the driving branched chain comprises a driving motor (226) arranged on the auxiliary supporting frame (224) through a motor seat, a driving gear (227) is arranged on an output shaft of the driving motor (226), a rotating gear (228) is meshed on the driving gear (227), and the rotating gear (228) is sleeved on the outer wall of the auxiliary rotating plate (225);

the clamping operation mechanism (23) comprises a placing frame (231) arranged between the auxiliary rotating plate (225) and the auxiliary mounting ring (223), clamping branched chains (232) used for fixing bearing rings are uniformly arranged on the placing frame (231), extrusion branched chains (233) are arranged on the placing frame (231) between two adjacent clamping branched chains (232), and control branched chains (234) used for applying pressure to the extrusion branched chains (233) are arranged on the placing frame (231);

the execution processing unit (3) is including installing execution mount (31) on mounting plate (1), from left to right equidistant removal groove of having seted up on execution mount (31), install on the execution mount (31) and remove cylinder (32), be provided with on removing cylinder (32) and remove frame (33), remove frame (33) with carry out mount (31) slip and link to each other, offer on removing frame (33) with remove groove complex rotatory hole, be provided with in the rotatory hole and carry out turning mechanism (34), remove frame (33) and be provided with brake mechanism (35).

2. The bearing ring cross-section ring turning apparatus as claimed in claim 1, wherein the placement frame (231) includes placement support plates (2311) uniformly connected between the auxiliary rotating plate (225) and the auxiliary mounting ring (223), and storage frames (2312) having a semicircular structure are provided between the placement support plates (2311) at equal intervals from left to right.

3. The bearing ring cross-section ring turning device according to claim 2, wherein the clamping branched chain (232) comprises a vertical plate uniformly arranged on the storage rack (2312), clamping holes are formed in the vertical plate, clamping rods (2321) are slidably arranged in the clamping holes, clamping springs are sleeved between the clamping rods (2321) and the inner wall of the storage rack (2312), clamping operation plates (2322) are arranged on the clamping rods (2321), and rubber particles are arranged on the clamping operation plates (2322).

4. A bearing ring cross-section ring turning apparatus as claimed in claim 3, wherein the extrusion branched chain (233) comprises an extrusion groove formed in the placement support plate (2311), an extrusion block (2331) is slidably arranged in the extrusion groove, an extrusion spring rod (2332) is arranged between the extrusion block (2331) and the outer wall of the placement support plate (2311), the extrusion block (2331) is in a stepped structure, and the clamping rod (2321) abuts against the extrusion block (2331).

5. The bearing ring cross-section ring turning device according to claim 4, wherein the control branched chain (234) comprises a control motor (2341) installed on the auxiliary installation frame (222) through a motor seat, a control screw (2342) is installed on an output shaft of the control motor (2341), the control screw (2342) is installed on the auxiliary support frame (224) through a bearing, a control block (2343) for extruding the extrusion block (2331) is arranged on the placement frame (231) in a sliding manner from left to right at equal intervals, the control block (2343) is in a semicircular structure, one end, close to the control block (2343), of the extrusion block (2331) is in an inclined structure, a moving block (2344) is arranged at the lower end of the control block (2343), and the moving block (2344) is connected with the control screw (2342) through a threaded engagement mode.

6. The bearing ring cross-section ring turning device according to claim 1, wherein the turning executing mechanism (34) comprises a linear bearing (341) slidably arranged in the moving groove, an executing sleeve (342) is arranged in the linear bearing (341), the executing sleeve (342) slidably passes through the rotating hole, an executing rod (343) is slidably arranged in the executing sleeve (342), a turning drill bit is arranged on the executing rod (343), a lifting cylinder (344) is arranged on the inner wall of the moving frame (33), a lifting plate (345) is arranged on the lifting cylinder (344), and the executing rod (343) is arranged on the lifting plate (345) through a bearing.

7. The bearing ring cross-section ring turning equipment according to claim 6, wherein the braking mechanism (35) comprises a linkage chain wheel (351) sleeved on the outer wall of the execution sleeve (342), a braking motor (352) is installed on the moving frame (33) through a motor seat, a driving chain wheel (353) is installed on an output shaft of the braking motor (352), and the driving chain wheel (353) is connected with the linkage chain wheel (351) through a chain (354).

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