CN115351554B - Stamping device is used in processing of wind-powered electricity generation roller bearing rolling element - Google Patents

Abstract

The application relates to the technical field of cutting of rolling bodies of roller bearings, in particular to a stamping device for machining rolling bodies of wind power roller bearings. The application provides a punching device for processing wind power roller bearing rolling bodies, which can automatically blanking and enable cutting operation to be consistent. The utility model provides a wind-powered electricity generation roller bearing stamping device for rolling element processing, includes base, support frame, pneumatic cylinder and punching block, and the silo that is used for placing the roller is all opened to the both sides on base upper portion, and the upper portion of base is connected with the support frame, and the mid-mounting of support frame has the pneumatic cylinder, is connected with the punching block that is used for cuting the roller on the telescopic link of pneumatic cylinder. The rollers are piled up through the blanking frame, and under the action of the pushing frame and the baffle, the pushing frame and the baffle move rightwards to avoid blocking the rollers above, so that the rollers drop downwards to the trough to automatically discharge, the cutting operation is more coherent, manual feeding is not needed, and the working efficiency of the whole cutting operation is improved.

Description

Stamping device is used in processing of wind-powered electricity generation roller bearing rolling element

Technical Field

The application relates to the technical field of cutting of rolling bodies of roller bearings, in particular to a stamping device for machining rolling bodies of wind power roller bearings.

Background

Bearings are parts for assisting the rotation of an object, and machines using bearings are automobiles, airplanes, generators, and the like. The bearings used in wind power generators are typically roller bearings, and in the production process of roller bearings, a punching device is usually required to perform equal-length cutting operation.

According to patent grant publication number CN 112453919B's a stamping device for wind-powered electricity generation roller bearing rolling element processing, the on-line screen storage device comprises a base, be provided with the support column on the base, the support column links to each other with a feeding section of thick bamboo, the left side of feeding section of thick bamboo is provided with the hopper hole, be provided with first delivery wheel in the feeding section of thick bamboo, first delivery wheel pretension installation, first delivery wheel links to each other with a power device, still the symmetry is provided with the auxiliary wheel in the feeding section of thick bamboo, the upside of feeding section of thick bamboo is provided with the upper supporting frame, the top of upper supporting frame is provided with the roof-rack, the right side of roof-rack is provided with cuts the device, it includes the punching press pneumatic cylinder to cut the device, the punching press pneumatic cylinder links to each other with the hydraulic column, the bottom of hydraulic column is provided with the stamping plate.

Above-mentioned stamping device does not possess automatic unloading function, and after the roller was cut and is accomplished, needs the staff to carry out the feed supplement manually, leads to like this holistic operation of cutting to be inconsistent, can not cut the operation to next roller immediately after cutting a roller, leads to inefficiency to this kind of manual unloading still has the shortcoming that consumes the manpower.

In order to solve the problems in the prior art, it is necessary to design a punching device for processing wind power roller bearing rolling bodies, which can automatically blanking to enable cutting operations to be consistent, so that the effect that cutting operations can be continuously performed through automatic blanking and efficient cutting operations of rollers can be achieved.

Disclosure of Invention

In order to overcome the defects of discontinuous cutting operation and low efficiency caused by manual feeding mode of the existing stamping device, the technical problem to be solved is that: provided is a punching device for processing wind power roller bearing rolling bodies, which can automatically feed materials to enable cutting operations to be consistent.

The technical scheme of the application is as follows: the utility model provides a stamping device is used in processing of wind-powered electricity generation roller bearing rolling element, including the base, a support frame, pneumatic cylinder and punching press piece, the silo that is used for placing the roller is all opened to the both sides on base upper portion, the upper portion of base is connected with the support frame, the mid-mounting of support frame has the pneumatic cylinder, be connected with the punching press piece that is used for cuting the roller on the telescopic link of pneumatic cylinder, still including the guide rail, the pushing frame, pushing mechanism, unloading mechanism and buckle mechanism, the top of base is connected with the guide rail, sliding type connection has the pushing frame that is used for promoting the roller in the silo on the guide rail, be equipped with the pushing mechanism that is used for the cooperation of pushing mechanism to carry out automatic unloading on the guide rail, be equipped with buckle mechanism on the base.

As a preferable technical scheme of the application, the pushing mechanism comprises a connecting rack, a movable rack, a rotating rod, all gears and a first one-way gear, wherein the connecting rack is connected to both ends of the pushing frame, the movable rack is connected to both ends of the stamping block, the rotating rod is rotated on both sides of a part of the guide rail far away from the pushing frame, the all gears are connected to the rotating rod and meshed with the connecting rack, the first one-way gear is connected to the rotating rod and positioned on one side of the all gears far away from the guide rail, and the movable rack is meshed with the first one-way gear after moving downwards.

As a preferable technical scheme of the application, the blanking mechanism comprises a blanking frame and a baffle, the top of the guide rail is connected with the blanking frame, and both sides of the pushing frame are connected with the baffle for blocking the roller.

As a preferred technical scheme of the application, the buckle mechanism comprises a fixing strip, a first spring, a supporting seat, a driven rack, a wedge-shaped block, a second spring, a supporting rod, a contact rod and a second unidirectional gear, wherein the connecting rack is connected with the fixing strip, a strip-shaped groove is formed in the fixing strip, the first spring is connected between the fixing strip and the base, the two sides of the upper part of the base are both connected with the supporting seat, the wedge-shaped block penetrates through the supporting seat in a sliding mode, one end of the wedge-shaped block, which is close to the fixing strip, is connected with the wedge-shaped block, clamping grooves which are matched with the wedge-shaped block are uniformly arranged on the strip-shaped groove at intervals, the wedge-shaped block is matched with the clamping grooves and the clamping grooves in a clamping mode, the second spring is connected between the wedge-shaped block and the supporting seat, the two sides of the base, which are close to the supporting seat, are both sides of the supporting rod are respectively connected with the second unidirectional gear in a rotating mode, one end, which is far away from the base, of the supporting rod is connected with the contact rod, which is used for pushing the wedge-shaped block to the direction away from the base, the bottom of the wedge-shaped block after rotating, is connected with the driven rack, and the driven rack is meshed with the second unidirectional gear after moving downwards.

As a preferable technical scheme of the application, the roller supporting device further comprises a supporting mechanism, the supporting mechanism comprises a fixing seat, a third spring and a stop block, one side of the base is connected with the fixing seat, both sides of the fixing seat are connected with the third spring, one end, close to the base, of the third spring is connected with the stop block for supporting the roller, the stop block is in sliding fit with the base, and the stop block is positioned in the trough.

As a preferable technical scheme of the application, the polishing device further comprises a polishing mechanism, wherein the polishing mechanism comprises a fixed shell and a polishing sleeve, the two sides of a part of the base, which is far away from the fixed seat, are connected with the fixed shell, and the inside of the fixed shell is connected with the polishing sleeve for polishing the truncated roller.

As a preferable technical scheme of the application, the application further comprises a collecting mechanism, wherein the collecting mechanism comprises a collecting frame and a sliding plate, a part of the base, which is far away from the fixed seat, is connected with a collecting frame for collecting the broken scraps of the roller, and the sliding plate for blocking the scraps is penetrated on the collecting frame in a sliding manner.

As a preferable technical scheme of the application, one side of the wedge-shaped frame, which is close to the contact rod, is an inclined plane.

The application has the following beneficial effects: 1. the rollers are piled up through the blanking frame, and under the action of the pushing frame and the baffle, the pushing frame and the baffle move rightwards to avoid blocking the rollers above, so that the rollers drop downwards to the trough to automatically discharge, the cutting operation is more coherent, manual feeding is not needed, and the working efficiency of the whole cutting operation is improved.

2. Under the effect of the polishing sleeve, the truncated roller continuously enters the polishing sleeve and is polished in the process of being pushed leftwards, so that the polishing operation can be automatically performed on the roller after the truncation operation, the subsequent polishing operation on the roller by workers is not needed, and the labor consumption is saved.

Drawings

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

Fig. 2 is a schematic perspective view of the polishing mechanism and the collecting mechanism of the present application.

Fig. 3 is a schematic view of a part of a pushing mechanism according to the present application.

Fig. 4 is a schematic perspective view of the blanking mechanism, the fastening mechanism and the supporting mechanism of the present application.

Fig. 5 is a schematic view of a part of a three-dimensional structure of the blanking mechanism of the present application.

Fig. 6 is an exploded view of the present application.

Fig. 7 is an enlarged view of the portion a of the present application.

Fig. 8 is a schematic view of a part of a three-dimensional structure of the fastening mechanism of the present application.

Fig. 9 is a schematic perspective view of the bearing mechanism of the present application.

Fig. 10 is a schematic perspective view of the polishing mechanism of the present application.

Fig. 11 is an exploded view of the grinding mechanism of the application.

Fig. 12 is a schematic perspective view of the collecting mechanism of the present application.

Fig. 13 is an exploded view of the collection mechanism of the present application.

Marked in the figure as: the device comprises a base, a 2-trough, a 3-supporting frame, a 4-hydraulic cylinder, a 5-punching block, a 6-guide rail, a 7-pushing frame, an 8-pushing mechanism, an 81-connecting rack, an 82-moving rack, an 83-rotating rod, an 84-all gear, an 85-first one-way gear, a 9-blanking mechanism, a 91-blanking frame, a 92-baffle, a 10-buckling mechanism, a 101-fixing bar, a 102-first spring, a 103-strip-shaped trough, a 104-supporting seat, a 1041-driven rack, a 105-wedge frame, a 106-wedge-shaped soft block, a 107-second spring, a 108-supporting rod, a 109-contact rod, a 110-second one-way gear, an 11-supporting mechanism, a 111-fixing seat, a 112-third spring, a 113-stopper, a 12-polishing mechanism, a 121-fixing shell, a 122-polishing sleeve, a 13-collecting mechanism, a 131-collecting frame and a 132-sliding plate.

Detailed Description

The application is described in further detail below with reference to the drawings and the detailed description, but does not limit the scope of protection and the application of the application.

Example 1

The utility model provides a wind-powered electricity generation roller bearing stamping device for rolling element processing, please look over fig. 1-8, including base 1, support frame 3, pneumatic cylinder 4, punching press piece 5, guide rail 6, pushing frame 7, pushing mechanism 8, unloading mechanism 9 and buckle mechanism 10, the silo 2 that is used for placing the roller is all opened to both sides around base 1 upper portion, the upper portion bolt of base 1 has support frame 3, the mid-mounting of support frame 3 has pneumatic cylinder 4, be connected with punching press piece 5 on the telescopic link of pneumatic cylinder 4, the top bolt of base 1 has guide rail 6, sliding connection has pushing frame 7 on guide rail 6, be equipped with pushing mechanism 8 on the guide rail 6, be equipped with unloading mechanism 9 on the guide rail 6, be equipped with buckle mechanism 10 on the base 1.

Referring to fig. 1, 3 and 6, the pushing mechanism 8 includes a connecting rack 81, a moving rack 82, a rotating rod 83, a full gear 84 and a first unidirectional gear 85, the connecting rack 81 is bolted to the front and rear ends of the pushing frame 7, the moving rack 82 is bolted to the front and rear ends of the stamping block 5, the rotating rod 83 is respectively rotated on the front and rear sides of the left part of the guide rail 6, the full gear 84 is connected to the rotating rod 83, the full gear 84 is meshed with the connecting rack 81, the rotating rod 83 is connected to the first unidirectional gear 85, the first unidirectional gear 85 is located on one side of the full gear 84 far away from the guide rail 6, and the moving rack 82 is meshed with the first unidirectional gear 85 after moving downwards.

Referring to fig. 1, 4, 5 and 6, the blanking mechanism 9 includes a blanking frame 91 and a baffle 92, the top of the guide rail 6 is bolted with the blanking frame 91, and both front and rear sides of the pushing frame 7 are bolted with the baffle 92.

Referring to fig. 1, fig. 4, fig. 7 and fig. 8, the fastening mechanism 10 includes a fixing strip 101, a first spring 102, a supporting seat 104, a driven rack 1041, a wedge rack 105, a wedge soft block 106, a second spring 107, a supporting rod 108, a contact rod 109 and a second unidirectional gear 110, wherein the fixing strip 101 is connected to the connecting rack 81 in a bolting manner, the fixing strip 101 is provided with a bar slot 103, a first spring 102 is connected between the fixing strip 101 and the base 1, both front and rear sides of the upper portion of the base 1 are respectively bolted with the supporting seat 104, the supporting seat 104 is penetrated by the wedge rack 105 in a sliding manner, one end of the wedge rack 105 close to the fixing strip 101 is bolted with the wedge soft block 106, the wedge soft block 106 is uniformly spaced to be matched with the clamping slot 103 and the clamping slot in a clamping manner, the wedge soft block 106 is connected with the supporting seat 104 by the second spring 107, both front and rear sides of the left portion of the base 1 are respectively rotatably connected with the supporting rod 108, one end of the supporting rod 108 far from the base 1 is connected with the second unidirectional gear 110, one end of the supporting rod 108 is connected with the supporting rod 105, the wedge rack 105 close to the rear side 109 is contacted with the wedge rack 109, and the driven rack 109 is contacted with the wedge rack 104 in a downward manner, and the wedge soft block is contacted with the wedge rack 109, which moves downward, and is contacted with the driven rack 110.

When the device is used for cutting the rollers, the rollers are piled in the blanking frame 91, the roller at the lowest part of the piled rollers is positioned in the trough 2 at the moment, the hydraulic cylinder 4 is started again, the telescopic rod of the hydraulic cylinder 4 can extend and retract and drive the stamping block 5 to move the rack 82 and the driven rack 1041 downwards and upwards, after the moving rack 82 and the driven rack 1041 downwards move, the moving rack 82 can be meshed with the first unidirectional gear 85, the driven rack 1041 can be meshed with the second unidirectional gear 110, because the first unidirectional gear 85 and the second unidirectional gear 110 are unidirectional, the moving rack 82 and the driven rack 1041 downwards move to respectively drive the first unidirectional gear 85 and the second unidirectional gear 110 to rotate, after the first unidirectional gear 85 and the second unidirectional gear 110 rotate, the first unidirectional gear 85 can not drive the rotating rod 83 to rotate, the second unidirectional gear 110 can not drive the supporting rod 108 to rotate, when the movable rack 82 and the driven rack 1041 move upwards, the driven rack 1041 drives the second unidirectional gear 110 to rotate reversely, the second unidirectional gear 110 rotates reversely to drive the contact rod 109 to rotate a certain angle through the supporting rod 108, then the movable rack 82 moves upwards to drive the first unidirectional gear 85 to rotate reversely, the first unidirectional gear 85 drives the all-gear 84 to rotate a certain angle through the rotating rod 83, the all-gear 84 rotates and drives the pushing frame 7, the fixing bar 101 and the baffle 92 to move leftwards by a certain distance through the connecting rack 81, the first spring 102 stretches, the pushing frame 7 and the baffle 92 push the roller leftwards after moving leftwards, the roller moves gradually to the lower part of the punching block 5, the baffle 92 and the pushing frame 7 block the roller above the pushed roller, simultaneously the fixing bar 101 presses the wedge-shaped soft block 106 inwards in the leftward moving process, the wedge-shaped soft block 106 is deformed and separated from the clamping groove, after the movable rack 82 moves upwards and is separated from the first unidirectional gear 85, the next clamping groove on the fixed bar 101 is aligned with the wedge-shaped soft block 106, so that the wedge-shaped soft block 106 resets and expands outwards and clamps the fixed bar 101 by being matched with the clamping groove, the wedge-shaped soft block 106 can be effectively fixedly connected with the rack 81 through the fixed bar 101 to prevent the connecting rack 81 from moving randomly, then the stamping block 5 can be moved downwards to cut off the roller in the next elongation process of the telescopic rod of the hydraulic cylinder 4, after the telescopic rod of the hydraulic cylinder 4 contracts next time, the pushing frame 7 can continuously push the roller leftwards, the cut roller can be pushed leftwards, the cut roller is pushed leftwards from the base 1, meanwhile, the fixed bar 101 can continuously move leftwards, the wedge-shaped soft block 106 is deformed and reset again and is matched with the next clamping groove, so that the automatic cutting operation is realized through the operation, then the pushing frame 7 and the baffle 92 gradually do not block the upper roller any more along with the continuous leftward movement of the pushing frame 7 and the baffle 92, the upper roller can fall into the trough 2 to the right and the lower side, the contact rod 109 can be intermittently rotated along with the continuous upward and downward movement of the driven rack 1041, after the contact rod 109 is contacted with the inclined surface of the wedge-shaped frame 105 in the intermittent rotation process, the wedge-shaped frame 105 and the wedge-shaped soft block 106 are pushed away from the fixed strip 101 through the inclined surface by continuous rotation of the contact rod 109, the wedge-shaped soft block 106 is separated from the clamping groove, the second spring 107 stretches, the roller pushed by the pushing frame 7 is cut off and is positioned at the left side of the base 1, and the baffle 92 still blocks the upper roller at the moment, the wedge-shaped soft block 106 is separated from the clamping groove immediately, the first spring 102 resets and drives the connecting rack 81, the pushing frame 7 and the baffle 92 to move rightwards for resetting through the fixing strip 101, the baffle 92 can push the upper roller upwards in the rightwards moving resetting process, the baffle 92 and the pushing frame 7 can not block the left side of the upper roller gradually, the upper roller can gradually topple into the trough 2 leftwards and downwards, after the pushing frame 7 is completely reset rightwards, the pushing frame 7 and the baffle 92 can not block the upper roller, the upper roller can drop downwards into the trough 2 to complete automatic feeding, manual feeding is not needed, after the contact rod 109 rotates, the second spring 107 resets and drives the wedge-shaped frame 105 and the wedge-shaped soft block 106 to move towards the direction close to the fixing strip 101 for resetting, the wedge-shaped soft block 106 is matched with the clamping groove, after that, the operation can be repeated under the driving force of the hydraulic cylinder 4, the operation can be continuously carried out, the automatic cutting-off operation and automatic cutting-off operation of the upper roller can be realized, and the hydraulic cylinder 4 can be continuously cut off after the whole operation is completed, and the hydraulic cylinder 4 is completely cut off.

Example 2

On the basis of embodiment 1, please see fig. 1, 4 and 9, further comprising a supporting mechanism 11, wherein the supporting mechanism 11 comprises a fixing base 111, a third spring 112 and a stop 113, the right side of the base 1 is bolted with the fixing base 111, the front side and the rear side of the fixing base 111 are both connected with the third spring 112, the left end of the third spring 112 is connected with the stop 113, the stop 113 is in sliding fit with the base 1, and the stop 113 is located in the trough 2.

Initially, the baffle 92 blocks the stop 113, so that the third spring 112 is continuously in a compressed state, after the baffle 92 moves leftwards, the baffle 92 does not block the stop 113, so that the third spring 112 resets and drives the stop 113 to move leftwards to support the right side of the upper roller, the upper roller can be stably supported when the roller is pushed, the roller is prevented from being inclined randomly, the stability of the upper roller is ensured, and after the baffle 92 moves rightwards to reset, the baffle 92 pushes the stop 113 rightwards, so that the third spring 112 is compressed.

Example 3

On the basis of embodiment 2, please see fig. 1, 2, 10 and 11, further comprising a polishing mechanism 12, wherein the polishing mechanism 12 comprises a fixing shell 121 and a polishing sleeve 122, the fixing shell 121 is symmetrically bolted on the left upper side of the base 1, and the polishing sleeve 122 is connected inside the fixing shell 121.

Please see fig. 1, 2, 12 and 13, and further include a collecting mechanism 13, where the collecting mechanism 13 includes a collecting frame 131 and a sliding plate 132, the collecting frame 131 is bolted to the lower left side of the base 1, and the sliding plate 132 is inserted through the collecting frame 131 in a sliding manner.

When the truncated roller is pushed left by the untruncated roller, the roller can move left into the polishing sleeve 122, the polishing sleeve 122 can polish the truncated roller, so that the roller can be automatically polished after the truncated operation, workers are not required to polish the roller later, labor consumption is saved, scraps produced in the process that the roller is truncated can fall onto the sliding plate 132, the sliding plate 132 can prevent scraps from falling randomly, when scraps on the sliding plate 132 are about to be piled up, the sliding plate 132 is pulled out forwards, scraps on the sliding plate 132 can fall into the collecting frame 131, and then the sliding plate 132 is put back to the original position, so that scraps can be collected, the scraps are prevented from falling randomly, and the workload of the workers is reduced.

It should be understood that this example is only illustrative of the application and is not intended to limit the scope of the application. Furthermore, it should be understood that various changes and modifications can be made by one skilled in the art after reading the teachings of the present application, and such equivalents are intended to fall within the scope of the application as defined in the appended claims.

Claims (5)

1. The utility model provides a stamping device is used in processing of wind-powered electricity generation roller bearing rolling element, including base (1), support frame (3), pneumatic cylinder (4) and punching press piece (5), the silo (2) that are used for placing the roller are all opened to the both sides on base (1) upper portion, and the upper portion of base (1) is connected with support frame (3), and the mid-mounting of support frame (3) has pneumatic cylinder (4), is connected with on the telescopic link of pneumatic cylinder (4) and is used for cutting punching press piece (5) to the roller, its characterized in that:

the automatic feeding device is characterized by further comprising a guide rail (6), a pushing frame (7), a pushing mechanism (8), a discharging mechanism (9) and a buckling mechanism (10), wherein the guide rail (6) is connected to the top of the base (1), the pushing frame (7) for pushing the rollers in the trough (2) is connected to the guide rail (6) in a sliding mode, the pushing mechanism (8) for automatically pushing the rollers in cooperation with the pushing frame (7) is arranged on the guide rail (6), the discharging mechanism (9) for automatically discharging in cooperation with the pushing mechanism (8) is arranged on the guide rail (6), and the buckling mechanism (10) is arranged on the base (1);

the pushing mechanism (8) comprises a connecting rack (81), a movable rack (82), a rotating rod (83), all gears (84) and a first one-way gear (85), wherein the connecting rack (81) is connected to two ends of the pushing frame (7), the movable rack (82) is connected to two ends of the stamping block (5), the rotating rod (83) is connected to one part of the two sides of the guide rail (6) far away from the pushing frame (7), the all gears (84) are connected to the rotating rod (83), the all gears (84) are meshed with the connecting rack (81), the first one-way gear (85) is connected to the rotating rod (83), the first one-way gear (85) is located on one side of the all gears (84) far away from the guide rail (6), and the movable rack (82) is meshed with the first one-way gear (85) after moving downwards;

the blanking mechanism (9) comprises a blanking frame (91) and a baffle plate (92), the top of the guide rail (6) is connected with the blanking frame (91), and both sides of the pushing frame (7) are connected with the baffle plate (92) for blocking the rollers;

the buckle mechanism (10) comprises a fixing strip (101), a first spring (102), a supporting seat (104), a driven rack (1041), a wedge-shaped frame (105), a wedge-shaped soft block (106), a second spring (107), a supporting rod (108), a contact rod (109) and a second unidirectional gear (110), wherein the fixing strip (101) is connected to the connecting rack (81), a strip-shaped groove (103) is formed in the fixing strip (101), the first spring (102) is connected between the fixing strip (101) and the base (1), supporting seats (104) are respectively connected to two sides of the upper portion of the base (1), the wedge-shaped frame (105) penetrates through the supporting seats (104) in a sliding mode, one end of the wedge-shaped frame (105) close to the fixing strip (101) is connected with a wedge-shaped soft block (106), clamping grooves which are matched with the wedge-shaped soft block (106) are uniformly spaced, a second spring (107) is connected between the wedge-shaped soft block (106) and the clamping grooves (103), two sides of the wedge-shaped soft block (106) are connected to the supporting seat (104), the supporting rod (108) is connected to the supporting rod (110) in a unidirectional mode, one end of the supporting rod (108) far away from the base (1) is connected with a contact rod (109) for pushing the wedge-shaped frame (105) to a direction far away from the base (1), the contact rod (109) can be contacted with the wedge-shaped frame (105) after rotating, the bottom of the movable rack (82) is connected with a driven rack (1041), and the driven rack (1041) can be meshed with a second unidirectional gear (110) after moving downwards.

2. The stamping device for machining wind power roller bearing rolling bodies according to claim 1, wherein: still including supporting mechanism (11), supporting mechanism (11) are including fixing base (111), third spring (112) and dog (113), and one side of base (1) is connected with fixing base (111), and both sides of fixing base (111) all are connected with third spring (112), and the one end that third spring (112) is close to base (1) is connected with dog (113) that are used for holding the roller, dog (113) and base (1) sliding fit to dog (113) are located silo (2).

3. The stamping device for machining wind power roller bearing rolling bodies according to claim 2, wherein: the polishing device comprises a base (1) and is characterized by further comprising a polishing mechanism (12), wherein the polishing mechanism (12) comprises a fixing shell (121) and polishing sleeves (122), the fixing shell (121) is connected to two sides of the base (1) away from the fixing base (111), and the polishing sleeves (122) for polishing the truncated rollers are connected to the fixing shell (121).

4. A stamping device for processing rolling elements of a wind power roller bearing as claimed in claim 3, wherein: the device is characterized by further comprising a collecting mechanism (13), wherein the collecting mechanism (13) comprises a collecting frame (131) and a sliding plate (132), one part of the base (1) away from the fixing seat (111) is connected with the collecting frame (131) for collecting the fragments after the roller is cut off, and the sliding plate (132) for blocking the fragments is penetrated on the collecting frame (131) in a sliding mode.

5. The stamping device for machining wind power roller bearing rolling elements according to claim 4, wherein: one side of the wedge-shaped frame (105) close to the contact rod (109) is an inclined plane.