CN212761220U - Bearing parts machining is with drilling equipment that has sweeps recovery structure - Google Patents

Abstract

The invention discloses a drilling device with a scrap recovery structure for bearing part processing, which particularly comprises a bottom plate, a scrap recovery mechanism, a processing table, a first electromagnetic slide rail and a second electromagnetic slide rail, wherein a frame body is arranged at the top end of the bottom plate, the scrap recovery mechanism is arranged in the middle of one end of the frame body, a filter screen is arranged at one end, close to an opening, of the scrap recovery mechanism, a fan is arranged at one end, far away from the opening, of the scrap recovery mechanism, an opening is formed in the middle of the other end of the frame body, a control panel is fixed on the frame body on one side of the opening, the drilling device with the scrap recovery structure for bearing part processing can collect scrap materials generated by drilling while bearing drilling is carried out by arranging a scrap recovery device, the scrap is prevented from being accumulated in the machine body, the normal operation of the device is ensured, and the collected scrap can be reused at the same time, and resources are saved.

Description

Bearing parts machining is with drilling equipment that has sweeps recovery structure

Technical Field

The invention relates to the technical field, in particular to drilling equipment with a scrap recycling structure for machining bearing parts.

Background

The bearing is an important part in modern mechanical equipment, the main function of the bearing is to support a mechanical rotating body, reduce the friction coefficient in the movement process of the mechanical rotating body and ensure the rotation precision of the mechanical rotating body, and the bearing is usually required to be drilled in the machining process.

The drilling equipment of current bearing simple structure needs artifical material loading and presss from both sides tightly, and degree of automation is lower, and can't collect the bits material that drilling produced, leads to the piece to pile up inside the organism, and the later stage clearance is troublesome, influences equipment operation, causes the material extravagant simultaneously, and the bearing of processing out is unclean, and can't carry out multistation multi-angle drilling to the bearing, to some special bearing spare, needs multiunit instrument to cooperate the drilling, and work efficiency is lower.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides drilling equipment with a scrap recovery structure for machining a bearing part, which solves the problems in the background art.

In order to achieve the purpose, the invention is realized by the following technical scheme: a drilling device with a scrap recycling structure for bearing part machining comprises a base plate, a scrap recycling mechanism, a machining table, a first electromagnetic slide rail and a second electromagnetic slide rail, wherein a frame body is installed at the top end of the base plate, the scrap recycling mechanism is installed at the middle position of one end of the frame body, a filter screen is installed at one end, close to an opening, of the scrap recycling mechanism, a fan is arranged at one end, far away from the opening, of the scrap recycling mechanism, an opening is formed in the middle position of the other end of the frame body, a control panel is fixed on the frame body on one side of the opening, the first electromagnetic slide rail is installed at the top end of the interior of the frame body, first slide blocks are fixed on two sides of the interior of the first electromagnetic slide rail, a hydraulic telescopic rod is installed at the bottom end of each first slide block, a pressing block is installed at the bottom end of each hydraulic, a first drilling motor is arranged at the bottom end of the second sliding block, a first miniature hydraulic telescopic rod is arranged at the output end of the first drilling motor through a rotating shaft, a first drill bit is fixed at the bottom end of the first miniature hydraulic telescopic rod, a processing table is fixed at the middle position of the top end of the bottom plate, a first hydraulic push rod is arranged at the middle position of the top end of the bottom plate close to one end of the opening, a speed reducing motor is arranged at the middle position of the inside of the bottom plate, the output end of the speed reducing motor is connected with the bottom end of the processing table through the rotating shaft, a first conveying mechanism is arranged at one side of the top end of the bottom plate close to the control panel, a transfer platform is arranged at the middle position of the top end of the bottom plate close to one end of the scrap recovery mechanism, a second conveying mechanism is arranged at the top end of the bottom plate far away from one side of, a baffle is arranged in the bottom plate at one side of the processing table close to the second conveying mechanism, a mounting seat is fixed at the top end of the bottom plate at one side of the baffle far away from the processing table, a second electromagnetic slide rail is arranged at one side of the mounting seat close to the processing table, a third slide block is fixed in the second electromagnetic slide rail, a hinge seat is arranged at one side of the third slide block far away from the second electromagnetic slide rail, a second drilling motor is arranged in the hinge seat, a second miniature hydraulic telescopic rod is arranged at the output end of the second drilling motor through a rotating shaft, a second drill bit is arranged at the output end of the second miniature hydraulic telescopic rod, a third miniature hydraulic telescopic rod is hinged on the hinge seat below the second drilling motor, the output end of the third miniature hydraulic telescopic rod is hinged with the bottom end of the second drilling motor, and a motor is arranged at one side of the bottom plate close to the, and the output end of the motor is fixed with a rotating gear through a rotating shaft, a transmission gear is installed in a bottom plate between the baffle and the rotating gear, and a touch sensor is arranged at the middle position of the baffle close to the top end of one side of the processing table.

Optionally, be the gomphosis design between mechanism and the support body is retrieved to the piece, and the piece is retrieved the mechanism and is passed through to constitute detachable structural design between joint and the filter screen.

Optionally, the cross section of the processing table is circular, the outer surface of the processing table is attached to the inner surface of the baffle, and the diameter of the processing table is equal to that of the bearing to be processed.

Optionally, the processing table, the first conveying mechanism, the second conveying mechanism and the transfer platform are all located on the same horizontal plane, and gaps among the processing table, the first conveying mechanism and the transfer platform are smaller than the radius of the bearing.

Optionally, the cross section of the mounting seat is arc-shaped, and the arc center of the mounting seat coincides with the circle center of the processing table.

Optionally, the first slider and the second slider are both wedge-shaped, and the shapes of the first slider and the second slider are identical to the shape of the first electromagnetic sliding rail.

Optionally, the first drill bit and the first miniature hydraulic telescopic rod form a detachable structural design through a bolt, and the surface of the first drill bit is in a thread design.

Optionally, the baffle is designed in a semi-arc shape, transmission teeth meshed with the transmission gear are uniformly arranged at the bottom end of one side, close to the transmission gear, of the baffle, and the height of the baffle is twice of that of the processing table.

Optionally, the second drilling motor is hinged to the hinge base, and the second drilling motor and the hinge base form a rotating structure through a third miniature hydraulic telescopic rod.

Optionally, the transmission gear is engaged with the rotating gear, and the motor and the baffle form a transmission structure through the rotating gear and the transmission gear.

The invention provides drilling equipment with a scrap recovery structure for bearing part machining, which has the following beneficial effects:

1. this bearing parts machining is with drilling equipment that has sweeps recovery structure, through being provided with first transport mechanism, first hydraulic rod, second hydraulic rod and second transport mechanism, first transport mechanism can carry the bearing of waiting to process to the processing bench, first hydraulic rod and second hydraulic rod synergism can push away the bearing that has processed to the second transport mechanism on, realize automatic feeding and unload, need not artifical manual operation, carry out pipelined drilling to the bearing, degree of automation is higher.

2. This bearing parts machining is with drilling equipment that has sweeps recovery structure through being provided with piece recovery unit, can be when carrying out bearing drilling processing, collects the bits material that the drilling produced, prevents that the sweeps from piling up inside the organism, guarantees equipment normal operating, and the piece of collecting simultaneously can carry out reutilization, resources are saved.

3. This bearing parts machining is with drilling equipment that has sweeps recovery structure, through being provided with first drilling motor and second drilling motor, first drilling motor is located the bearing top, and second drilling motor is located the bearing side, can drill the terminal surface and the periphery of bearing respectively, and it is more convenient to process, adapts to different processing demands, and application range is extensive.

Drawings

FIG. 1 is a schematic cross-sectional view of the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a schematic top view of the base plate of the present invention;

FIG. 4 is a schematic view of the debris retrieval mechanism of the present invention;

FIG. 5 is an enlarged view of the structure at A in FIG. 1 according to the present invention.

In the figure: 1. a base plate; 2. a first conveying mechanism; 3. a scrap recovery mechanism; 301. filtering with a screen; 302. a fan; 4. a processing table; 401. a reduction motor; 5. a mounting seat; 6. a second transport mechanism; 7. a frame body; 8. a hydraulic telescopic rod; 9. a first slider; 10. briquetting; 11. a first electromagnetic slide rail; 12. a first micro hydraulic telescopic rod; 13. a second slider; 14. a first drilling motor; 15. a first drill bit; 16. a control panel; 17. an opening; 18. a first hydraulic push rod; 19. a baffle plate; 1901. a transmission gear; 20. a second electromagnetic slide rail; 21. a third slider; 22. a second hydraulic push rod; 23. a transfer platform; 24. a hinged seat; 25. a second drilling motor; 26. a second micro hydraulic telescopic rod; 27. a second drill bit; 28. a touch sensor; 29. a transmission gear; 30. a rotating gear; 31. a motor; 32. and a third miniature hydraulic telescopic rod.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the referred devices or elements must have a specific orientation, be constructed in a specific orientation, and be operated, and thus are not to be construed as limiting the present invention, and furthermore, the terms "first", "second", "third", and the like are only used for descriptive purposes and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; they may be directly connected or indirectly connected through an intermediate, and those skilled in the art will understand the specific meaning of the above terms in the present invention in specific situations.

Referring to fig. 1 to 5, the present invention provides a technical solution: the utility model provides a bearing parts machining is with drilling equipment that has sweeps recovery structure, comprising a base plate 1, the piece is retrieved mechanism 3, processing platform 4, first electromagnetism slide rail 11 and second electromagnetism slide rail 20, support body 7 is installed on the top of bottom plate 1, and the intermediate position department of support body 7 one end installs piece and retrieves mechanism 3, it designs for the gomphosis between 3 and the support body 7 to retrieve the mechanism 3, and piece is retrieved and is constituted detachable structural design between mechanism 3 passes through joint and the filter screen 301, the gomphosis formula design makes 3 more convenient to detach of piece recovery mechanism and difficult emergence and empty or rock, the convenient sweeps that will collect take out, and the joint design makes filter screen 301 can dismantle, be convenient for wash and change filter screen 301, it is more reasonable to design.

A filter screen 301 is arranged at one end of the debris recovery mechanism 3 close to the opening 17, a fan 302 is arranged at one end of the debris recovery mechanism 3 far away from the opening 17, the opening 17 is arranged at the middle position of the other end of the frame body 7, a control panel 16 is fixed on the frame body 7 at one side of the opening 17, a first electromagnetic slide rail 11 is arranged at the top end inside the frame body 7, and both sides of the interior of the first electromagnetic slide rail 11 are fixed with a first slide block 9, the first slide block 9 and the second slide block 13 are both wedge-shaped, and the shapes of the first sliding block 9 and the second sliding block 13 are matched with the first electromagnetic slide rail 11, the first sliding block 9 and the second sliding block 13 are not easy to fall off due to the wedge-shaped design, the use safety is higher, and the identical design makes first slider 9 and second slider 13 slide more smoothly in first electromagnetism slide rail 11, and first slider 9 and second slider 13 are difficult for taking place to rock, and the precision of drilling is higher.

The bottom of the first slider 9 is provided with a hydraulic telescopic rod 8, the bottom of the hydraulic telescopic rod 8 is provided with a pressing block 10, the middle position inside the first electromagnetic slide rail 11 is provided with a second slider 13, the bottom of the second slider 13 is provided with a first drilling motor 14, the model of the first drilling motor 14 can be Y90L-1, the output end of the first drilling motor 14 is provided with a first micro hydraulic telescopic rod 12 through a rotating shaft, the bottom end of the first micro hydraulic telescopic rod 12 is fixed with a first drill bit 15, the first drill bit 15 and the first micro hydraulic telescopic rod 12 form a detachable structural design through a bolt, the surface of the first drill bit 15 is in a thread-shaped design, the detachable structural design enables the first drill bit 15 to be replaceable, different drill bits can be selected to drill according to different drilling requirements, and the practical requirements are better met, and the thread-shaped design enables the drilling efficiency to be higher, The drilling effect is better.

The middle position department on bottom plate 1 top is fixed with processing platform 4, and bottom plate 1 top is close to the middle position department of opening 17 one end and is installed first hydraulic push rod 18, the cross section of processing platform 4 is circular, and the surface of processing platform 4 and the internal surface of baffle 19 laminate mutually, processing platform 4 equals with treating the processing bearing diameter, circular design is the same with the bearing shape, laminate the design mutually with the internal surface of baffle 19 and make baffle 19 shape identical with the bearing just, location effect to the bearing is better, be convenient for going on smoothly of drilling operation.

The processing table 4, the first conveying mechanism 2, the second conveying mechanism 6 and the transfer platform 23 are located on the same horizontal plane, gaps among the processing table 4, the first conveying mechanism 2 and the transfer platform 23 are smaller than the radius of the bearing, the design of the same horizontal plane is convenient, the bearing can be conveniently conveyed among the first conveying mechanism 2, the processing table 4, the transfer platform 23 and the second conveying mechanism 6, the gaps are smaller than the radius of the bearing, the bearing can be prevented from falling in the conveying process, automatic feeding and discharging are achieved, manual operation is not needed, assembly line type drilling is conducted on the bearing, and the automation degree is higher.

A speed reducing motor 401 is arranged in the middle position inside the bottom plate 1, the output end of the speed reducing motor 401 is connected with the bottom end of the processing table 4 through a rotating shaft, the model of the speed reducing motor 401 can be RX57-62-Y80-4-M1, the model of the speed reducing motor 401 can be that a first conveying mechanism 2 is arranged on one side of the top end of the bottom plate 1 close to the control panel 16, a transfer platform 23 is arranged at the middle position of one end of the top of the bottom plate 1 close to the scrap recovery mechanism 3, a second conveying mechanism 6 is arranged on the top end of the bottom plate 1 on one side of the transfer platform 23 far away from the first conveying mechanism 2, a second hydraulic push rod 22 is arranged on the top end of the bottom plate 1 on one side of the transfer platform 23 close to the first conveying mechanism 2, a baffle plate 19 is arranged in the bottom plate 1 on one side of the processing table 4 close to the second, baffle 19 becomes half arc design, and the bottom that baffle 19 is close to drive gear 29 one side evenly is provided with driving tooth 1901 with drive gear 29 engaged with, the height of baffle 19 is the twice of processing platform 4, half arc design can carry out spacing blockking to the bearing again can not block the bearing and shift to processing platform 4 by first drive mechanism 2, and driving tooth 1901 design can drive baffle 19 when making drive gear 29 rotatory and move up or descend, it is spacing to fix a position the bearing when moving up, be convenient for second drill bit 27 when descending to carry out drilling treatment to the bearing periphery, it is more reasonable to design.

The cross-section of mount pad 5 is the arc, and the arc center of mount pad 5 coincides with the centre of a circle of processing platform 4, and the arc design makes second electromagnetism slide rail 20 on the mount pad 5 be the arc, more laminating bearing shape, and porous, multi-angle and position adjustable's requirement when adaptation that can be fine is to bearing periphery drilling, and the adjustment is convenient, and structural design is reasonable.

One side that mount pad 5 is close to processing platform 4 is provided with second electromagnetism slide rail 20, and the inside of second electromagnetism slide rail 20 is fixed with third slider 21, third slider 21 is kept away from one side of second electromagnetism slide rail 20 and is installed articulated seat 24, and the internally mounted of articulated seat 24 has second drilling motor 25, the model of second drilling motor 25 can be Y80M1-2, second drilling motor 25 is articulated mutually with articulated seat 24, and second drilling motor 25 constitutes revolution mechanic through third miniature hydraulic telescoping rod 32 with articulated seat 24, revolution mechanic designs and makes the inclination of second drilling motor 25 adjustable, conveniently carry out multi-angle drilling to the bearing periphery, the practicality is stronger.

The output end of the second drilling motor 25 is provided with a second micro hydraulic telescopic rod 26 through a rotating shaft, the output end of the second micro hydraulic telescopic rod 26 is provided with a second drill bit 27, a hinge seat 24 below the second drilling motor 25 is hinged with a third micro hydraulic telescopic rod 32, the output end of the third micro hydraulic telescopic rod 32 is hinged with the bottom end of the second drilling motor 25, one side of the inner part of the bottom plate 1 close to the second conveying mechanism 6 is provided with a motor 31, the output end of the motor 31 is fixed with a rotating gear 30 through a rotating shaft, the model of the motor 31 can be RF57-72-Y80-4-M1, a transmission gear 29 is arranged in the bottom plate 1 between the baffle plate 19 and the rotating gear 30, the middle position of the baffle plate 19 close to the top end of one side of the processing table 4 is provided with a touch sensor 28, the transmission gear 29 is meshed with the rotating gear 30, and the motor 31 forms a transmission structure with the baffle, when the motor 31 works, the rotating gear 30 can be driven to rotate, so that the transmission gear 29 meshed with the rotating gear 30 rotates, and then the baffle plate 19 is driven to ascend or descend, and the transmission effect is better.

In summary, when the drilling equipment with the scrap recycling structure for processing bearing parts is used, a power supply is switched on, firstly, bearings to be processed are placed on the first conveying mechanism 2 one by one, the first conveying mechanism 2 works to drive the bearings to move towards the processing table 4, when the bearings approach the processing table 4, the rear bearings push the previous bearings under the transmission action of the first conveying mechanism 2 to enable the previous bearings to fall onto the processing table 4, the baffle plate 19 can block and limit the bearings, the baffle plate 19 is provided with the touch sensor 28, when the bearings contact the touch sensor 28, the touch sensor 28 can transmit signals to the control panel 16, the control panel 16 can control the first conveying mechanism 2 to stop transmitting, and control the first sliding block 9 and the second sliding block 13 to move to proper positions of the first electromagnetic sliding rail 11, then the hydraulic telescopic rod 8 works to drive the pressing block 10 to press down to fix the bearings, then the first micro hydraulic telescopic rod 12 and the first drilling motor 14 work, the first drill bit 15 drills holes on the end face of the bearing, the motor 31 works to drive the rotating gear 30 to rotate, the transmission gear 29 meshed with the rotating gear 30 rotates, the baffle plate 19 is driven to descend, then the third micro hydraulic telescopic rod 32, the second drilling motor 25 and the second micro hydraulic telescopic rod 26 work to drive the second drill bit 27 to drill the periphery of the bearing, after the holes are drilled, the hydraulic telescopic rod 8 works to drive the pressing block 10 to lift up to release the bearing, the first hydraulic push rod 18 pushes the bearing to the tail end of the transfer platform 23, the second hydraulic push rod 22 pushes the bearing on the transfer platform 23 to the second conveying mechanism 6, the second conveying mechanism 6 works to convey the bearing out of the device to complete the whole process, and the process is repeated, so that the bearing can be drilled in an assembly line mode.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (10)

1. The utility model provides a bearing parts machining is with drilling equipment that has sweeps recovery structure, includes bottom plate (1), piece recovery mechanism (3), processing platform (4), first electromagnetism slide rail (11) and second electromagnetism slide rail (20), its characterized in that: the top end of the bottom plate (1) is provided with a frame body (7), a fragment recovery mechanism (3) is installed at the middle position of one end of the frame body (7), the fragment recovery mechanism (3) is provided with a filter screen (301) at the end close to the opening (17), a fan (302) is arranged at the end, away from the opening (17), of the fragment recovery mechanism (3), the opening (17) is formed at the middle position of the other end of the frame body (7), a control panel (16) is fixed on the frame body (7) at one side of the opening (17), a first electromagnetic slide rail (11) is installed at the top end of the interior of the frame body (7), first sliding blocks (9) are fixed on two sides of the interior of the first electromagnetic slide rail (11), a hydraulic telescopic rod (8) is installed at the bottom end of the first sliding block (9), a pressing block (10) is installed at the bottom end of the hydraulic telescopic rod (8), and a second sliding block (13) is installed at the middle, and a first drilling motor (14) is installed at the bottom end of the second sliding block (13), a first micro hydraulic telescopic rod (12) is installed at the output end of the first drilling motor (14) through a rotating shaft, a first drill bit (15) is fixed at the bottom end of the first micro hydraulic telescopic rod (12), a processing table (4) is fixed at the middle position of the top end of the bottom plate (1), a first hydraulic push rod (18) is installed at the middle position of the top end of the bottom plate (1) close to one end of the opening (17), a speed reducing motor (401) is installed at the middle position of the inner part of the bottom plate (1), the output end of the speed reducing motor (401) is connected with the bottom end of the processing table (4) through the rotating shaft, a first transmission mechanism (2) is installed at one side of the top end of the bottom plate (1) close to the control panel (16), and a transfer platform (23) is installed at the middle position of the top end, a second conveying mechanism (6) is arranged at the top end of the bottom plate (1) on one side, far away from the first conveying mechanism (2), of the transfer platform (23), a second hydraulic push rod (22) is arranged at the top end of the bottom plate (1) on one side, close to the first conveying mechanism (2), of the transfer platform (23), a baffle (19) is arranged in the bottom plate (1) on one side, close to the second conveying mechanism (6), of the machining table (4), a mounting seat (5) is fixed at the top end of the bottom plate (1) on one side, far away from the machining table (4), of the baffle (19), a second electromagnetic sliding rail (20) is arranged on one side, close to the machining table (4), of the mounting seat (5), a third sliding block (21) is fixed inside the second electromagnetic sliding rail (20), a hinged seat (24) is arranged on one side, far away from the second electromagnetic sliding rail (20), of the third sliding block (21), and a second drilling motor (25, the output end of the second drilling motor (25) is provided with a second miniature hydraulic telescopic rod (26) through a rotating shaft, and the output end of the second micro hydraulic telescopic rod (26) is provided with a second drill bit (27), a third miniature hydraulic telescopic rod (32) is hinged on the hinge seat (24) below the second drilling motor (25), and the output end of the third miniature hydraulic telescopic rod (32) is hinged with the bottom end of the second drilling motor (25), a motor (31) is arranged at one side of the inner part of the bottom plate (1) close to the second transmission mechanism (6), and the output end of the motor (31) is fixed with a rotating gear (30) through a rotating shaft, a transmission gear (29) is arranged in the bottom plate (1) between the baffle plate (19) and the rotating gear (30), and a touch sensor (28) is arranged at the middle position of the baffle (19) close to the top end of one side of the processing table (4).

2. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the debris recovery mechanism (3) and the frame body (7) are in embedded design, and the debris recovery mechanism (3) is in detachable structural design through the clamping connection between the clamping connection and the filter screen (301).

3. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the cross section of the processing table (4) is circular, the outer surface of the processing table (4) is attached to the inner surface of the baffle (19), and the diameter of the processing table (4) is equal to that of the bearing to be processed.

4. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the processing table (4), the first conveying mechanism (2), the second conveying mechanism (6) and the transfer platform (23) are all located on the same horizontal plane, and gaps among the processing table (4), the first conveying mechanism (2) and the transfer platform (23) are smaller than the radius of the bearing.

5. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the cross section of the mounting seat (5) is arc-shaped, and the arc center of the mounting seat (5) coincides with the circle center of the processing table (4).

6. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the first sliding block (9) and the second sliding block (13) are both wedge-shaped, and the shapes of the first sliding block (9) and the second sliding block (13) are identical to those of the first electromagnetic sliding rail (11).

7. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the first drill bit (15) and the first miniature hydraulic telescopic rod (12) form a detachable structural design through a bolt, and the surface of the first drill bit (15) is in a threaded design.

8. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the baffle (19) is designed in a semi-arc shape, the bottom end of one side, close to the transmission gear (29), of the baffle (19) is evenly provided with transmission teeth (1901) meshed with the transmission gear (29), and the height of the baffle (19) is twice of that of the processing table (4).

9. The drilling apparatus with a shavings recovery structure for bearing parts working according to claim 1, wherein: the second drilling motor (25) is hinged to the hinge base (24), and the second drilling motor (25) and the hinge base (24) form a rotating structure through a third miniature hydraulic telescopic rod (32).

10. The bearing part machining drilling apparatus having a scrap recovery structure in accordance with claim 8, wherein: the transmission gear (29) is meshed with the rotating gear (30), and the motor (31) and the baffle (19) form a transmission structure through the rotating gear (30), the transmission gear (29) and the baffle (19).

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