CN218341718U - Bearing inner race processing is with founding grinding device - Google Patents

Abstract

The utility model belongs to the field of bearing processing equipment, in particular to vertical grinding equipment for processing a bearing outer ring, which comprises a rotating base, a supporting mechanism, a protective mechanism and a grinding mechanism, wherein the protective mechanism is arranged outside the rotating base; protection machanism includes supporting platform, supporting leg, protection network, first pneumatic cylinder, first limit switch, second limit switch, the rotating base outside is provided with supporting platform utilizes supporting platform to play the supporting role, and it is ascending to drive the protection network through first pneumatic cylinder, and it is rotatory to utilize third servo motor to drive the third lead screw, makes the base remove, drives rotation axis adjustment angle through step motor, utilizes second driving motor to drive the main shaft rotatory, can adjust the emery wheel angle of polishing, is convenient for carry out different angles and polishes, improves the result of use.

Description

Bearing inner race processing is with founding equipment that grinds

Technical Field

The utility model belongs to bearing processing equipment field specifically relates to a bearing inner race processing is with founding equipment of grinding.

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 motion process of the mechanical rotating body and ensure the rotation precision of the mechanical rotating body, an early linear motion bearing mode is that a row of wooden rods are placed under a row of prying plates, the modern linear motion bearing uses the same working principle, but sometimes uses balls to replace rollers, the simplest rotary bearing is a shaft sleeve bearing which is just a bushing clamped between a wheel and a wheel shaft, the design is then replaced by a rolling bearing which is just to replace the original bushing by a plurality of cylindrical rollers, each rolling body is just like an independent wheel, various mechanical equipment can not leave the bearing at present, in order to ensure the precision of the bearing during processing, the precision of the bearing needs to be polished after final processing is finished, the bearing is more stable when in use, and the use effect and the production efficiency are influenced because the outer ring of the bearing cannot be polished at different angles when the existing grinding machine is used.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a bearing inner race processing is with grinding equipment immediately.

The utility model discloses the technical scheme who adopts as follows:

the vertical grinding equipment for machining the bearing outer ring comprises a rotary base, a supporting mechanism, a protecting mechanism and a grinding mechanism, wherein the protecting mechanism is arranged outside the rotary base, the supporting mechanism is arranged outside the protecting mechanism, and the grinding mechanism is arranged outside the supporting mechanism; the protection mechanism comprises a supporting platform, supporting legs, a protection net, first hydraulic cylinders, a first limit switch and a second limit switch, wherein the supporting platform is arranged outside the rotating base, a plurality of supporting legs are arranged below the supporting platform, the protection net is arranged outside the supporting legs, two first hydraulic cylinders are arranged below the protection net, the first limit switch is arranged on one side of the supporting mechanism, and the second limit switch is arranged below the first limit switch; the grinding mechanism comprises a supporting seat, an optical shaft, a third screw rod, a third servo motor, a base, a second gear box, two stepping motors, rotating shafts, a connecting plate, a third gear box, two driving motors, a spindle and a grinding wheel, wherein the supporting seat is arranged outside the supporting mechanism, the optical shafts are arranged between the supporting seat, the third screw rod is arranged between the optical shafts, one end of the third screw rod is provided with the third servo motor, the optical shaft and the third screw rod are arranged outside the base, the second gear box is arranged outside the base, the rotating shaft is arranged outside the second gear box, the stepping motors are arranged above the second gear box, one end of the rotating shaft is provided with the connecting plate, the third gear box is arranged outside the connecting plate, the second driving motor is arranged above the third gear box, the spindle is arranged below the third gear box, and the grinding wheel is arranged outside the spindle.

Preferably: rotating base includes casing, upper cover, rotary disk, fixed frock, bearing frame, first drive gear, second drive gear, turbine, support column, worm, first gear box, a driving motor, supporting platform is inside to be provided with the rotary disk, the rotary disk top is provided with a plurality ofly fixed frock, the rotary disk below is provided with the bearing frame, the bearing frame outside is provided with the casing, the casing top is provided with the upper cover, the rotary disk is outside and to be located the bearing frame top is provided with first drive gear, first drive gear outside is provided with second drive gear, second drive gear below is provided with the turbine, second drive gear with the turbine is inside to be provided with the support column, the turbine outside is provided with the worm, worm one end is provided with first gear box, first gear box outside is provided with a driving motor.

According to the arrangement, the first driving motor drives the worm to rotate, the worm wheel rotates and the second driving gear rotates, and the second driving gear drives the first driving gear and the rotating disk to rotate.

Preferably: the supporting mechanism comprises a bottom plate, a first guide rail, a first lead screw, a first servo motor, a portal frame, a second guide rail, a second lead screw, a second servo motor and a moving frame, wherein the two sides of the supporting platform are provided with the bottom plate, one of the two sides of the supporting platform is provided with the bottom plate, the top of the bottom plate is provided with the first guide rail and the other side of the bottom plate, the top of the bottom plate is provided with the first lead screw, one end of the first lead screw is provided with the first servo motor, the first guide rail is provided with the portal frame, the outside of the portal frame is provided with the second guide rail, one side of the second guide rail is provided with the second lead screw, one end of the second lead screw is provided with the second servo motor, and the second guide rail is provided with the moving frame.

According to the arrangement, the first servo motor drives the first screw rod to rotate, so that the portal frame moves, and the second servo motor drives the second screw rod to rotate, so that the moving frame moves.

Preferably: the supporting mechanism comprises a bottom plate, a first guide rail, a first lead screw, a first servo motor, a portal frame, a second guide rail, a moving frame and a second hydraulic cylinder, wherein the two sides of the supporting platform are provided with the bottom plate, one of the two guide rails is arranged above the bottom plate, the other guide rail is arranged above the bottom plate, the first lead screw is arranged above the bottom plate, one end of the first lead screw is provided with the first servo motor, the first guide rail is arranged outside the portal frame, the two guide rails are arranged outside the portal frame, the second guide rail is arranged outside the moving frame, and the second hydraulic cylinder is arranged above the moving frame.

According to the arrangement, the first servo motor drives the first screw rod to rotate, so that the portal frame moves, and the second hydraulic cylinder drives the moving frame to move.

Preferably: the upper cover with the bearing frame all with casing bolted connection, the rotary disk with the bearing frame bearing is connected, fixed frock with rotary disk bolted connection, first drive gear with rotary disk key-type connection, the support column respectively with the casing with the upper cover bearing is connected, second drive gear with the turbine all with the support column key-type connection, first drive gear with second drive gear meshing is connected, the turbine with the worm meshing is connected, the worm with casing bearing connects, first gear box shell with first driving motor shell all with casing bolted connection, first gear box respectively with first driving motor output shaft with worm gear connects.

According to the arrangement, the first driving motor drives the worm to rotate, the worm wheel rotates and the second driving gear rotates, and the second driving gear drives the first driving gear and the rotating disk to rotate.

Preferably: the supporting platform is connected with the supporting legs in a welded mode, the protective net is connected with the first hydraulic cylinder output shaft in a welded mode, the first hydraulic cylinder shell is connected with the ground through bolts, and the first limit switch and the second limit switch are connected with the portal frame through bolts.

So set up, supporting platform plays the supporting role, first pneumatic cylinder drives the protection network rises.

Preferably: the bottom plate respectively with ground with first guide rail bolted connection, first lead screw with the bottom plate bearing is connected, first servo motor shell with bottom plate bolted connection, first servo motor output shaft with first lead screw coupling joint, the portal frame with first guide rail sliding connection, the portal frame with first lead screw threaded connection, the second guide rail with portal frame bolted connection, the second lead screw with the portal frame bearing is connected, the second servo motor shell with portal frame bolted connection, the second servo motor output shaft with second lead screw coupling joint, remove the frame with second guide rail sliding connection, remove the frame with second lead screw threaded connection.

According to the arrangement, the first servo motor drives the first screw rod to rotate, so that the portal frame moves, and the second servo motor drives the second screw rod to rotate, so that the moving frame moves.

Preferably: the bottom plate is respectively connected with the ground and the first guide rail through bolts, the first lead screw is connected with the bottom plate bearing, the first servo motor shell is connected with the bottom plate through bolts, the first servo motor output shaft is connected with the first lead screw coupler, the portal frame is connected with the first guide rail in a sliding mode, the portal frame is connected with the first lead screw through threads, the second guide rail is connected with the portal frame through bolts, the moving frame is connected with the second guide rail in a sliding mode, the second hydraulic cylinder output shaft is connected with the moving frame in a welding mode, and the second hydraulic cylinder shell is connected with the portal frame through bolts.

According to the arrangement, the first servo motor drives the first screw rod to rotate, so that the portal frame moves, and the second hydraulic cylinder drives the moving frame to move.

Preferably: the supporting seat respectively with remove the frame with optical axis welded connection, the third lead screw with supporting seat bearing connects, the third servo motor shell with supporting seat bolted connection, the third servo motor output shaft with third lead screw coupling joint, the base with optical axis sliding connection, the base with third lead screw threaded connection.

So set up, third servo motor drives the third lead screw is rotatory, makes the base removes.

Preferably: the second gear box shell is respectively connected with the stepping motor shell and the base through bolts, the second gear box is respectively connected with the stepping motor output shaft and the rotating shaft gear, the connecting plate is connected with the rotating shaft in a welding mode, the third gear box shell is respectively connected with the second driving motor shell and the connecting plate through bolts, the third gear box is respectively connected with the second driving motor output shaft and the spindle gear, and the grinding wheel is connected with the spindle through bolts.

According to the arrangement, the stepping motor drives the rotating shaft to adjust the angle, and the second driving motor drives the main shaft to rotate.

The beneficial effects of the utility model are that: utilize supporting platform to play the supporting role, drive the protection network through first pneumatic cylinder and rise, it is rotatory to utilize third servo motor to drive the third lead screw, makes the base remove, drives rotation axis adjustment angle through step motor, utilizes second driving motor to drive the main shaft rotatory, can adjust the emery wheel angle of polishing, is convenient for carry on different angles and polishes, improves the result of use.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention. In the drawings:

fig. 1 is a schematic structural view of an embodiment 1 of a vertical mill device for processing a bearing outer ring according to the present invention;

fig. 2 is a schematic perspective view of an embodiment 1 of the vertical mill apparatus for processing a bearing outer ring according to the present invention;

fig. 3 is a schematic perspective view of a rotating base of the vertical mill equipment for processing the bearing outer ring according to the present invention;

FIG. 4 is a schematic view of a rotary base of the vertical mill for processing bearing outer rings, with the housing and the upper cover hidden;

fig. 5 is a schematic connection diagram of the protection mechanism and the support mechanism of the embodiment 1 of the vertical mill equipment for processing the bearing outer ring of the present invention;

fig. 6 is a schematic perspective view of a polishing mechanism of the vertical grinding device for machining a bearing outer ring according to the present invention;

fig. 7 is a first perspective schematic view of a vertical mill apparatus for processing a bearing outer ring according to embodiment 1 of the present invention;

fig. 8 is a schematic perspective view of a second viewing angle of embodiment 2 of the vertical mill device for processing the outer ring of the bearing.

The reference numerals are illustrated below:

1. rotating the base; 2. a protection mechanism; 3. a support mechanism; 4. a polishing mechanism; 101. a housing; 102. an upper cover; 103. rotating the disc; 104. fixing a tool; 105. a bearing seat; 106. a first drive gear; 107. a second drive gear; 108. a turbine; 109. a support column; 110. a worm; 111. a first gearbox; 112. a first drive motor; 201. a support platform; 202. supporting legs; 203. a protective net; 204. a first hydraulic cylinder; 205. a first limit switch; 206. a second limit switch; 301. a base plate; 302. a first guide rail; 303. a first lead screw; 304. a first servo motor; 305. a gantry; 306. a second guide rail; 307. a second lead screw; 308. a second servo motor; 309. a movable frame; 310. a second hydraulic cylinder; 401. a supporting seat; 402. an optical axis; 403. a third screw rod; 404. a third servo motor; 405. a base; 406. a second gear box; 407. a stepping motor; 408. a rotating shaft; 409. a connecting plate; 410. a third gear case; 411. a second drive motor; 412. a main shaft; 413. and (5) grinding the grinding wheel.

Detailed Description

In the description of the present invention, it is to be understood that the terms "center", "longitudinal", "lateral", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, are not to be construed as limiting the present invention.

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

Example 1

As shown in fig. 1 to 6, a vertical mill device for processing a bearing outer ring comprises a rotary base 1, a supporting mechanism 3, a protecting mechanism 2 and a grinding mechanism 4, wherein the protecting mechanism 2 is arranged outside the rotary base 1, the supporting mechanism 3 is arranged outside the protecting mechanism 2, the grinding mechanism 4 is arranged outside the supporting mechanism 3, the protecting mechanism 2 comprises a supporting platform 201, supporting legs 202, a protective net 203, first hydraulic cylinders 204, first limit switches 205 and second limit switches 206, the supporting platform 201 is arranged outside the rotary base 1, a plurality of supporting legs 202 are arranged below the supporting platform 201, the protective net 203 is arranged outside the supporting legs 202, two first hydraulic cylinders 204 are arranged below the protective net 203, the first limit switches 205 are arranged on one side of the supporting mechanism 3, and the second limit switches 206 are arranged below the first limit switches 205; the polishing mechanism 4 comprises supporting seats 401, an optical axis 402, a third screw 403, a third servo motor 404, a base 405, a second gear box 406, a stepping motor 407, a rotating shaft 408, a connecting plate 409, a third gear box 410, a second driving motor 411, a spindle 412 and a polishing grinding wheel 413, two supporting seats 401 are arranged outside the supporting mechanism 3, two optical axes 402 are arranged between the supporting seats 401, the third screw 403 is arranged between the optical axes 402, the third servo motor 404 is arranged at one end of the third screw 403, the base 405 is arranged outside the optical axes 402 and the third screw 403, the second gear box 406 is arranged outside the base 405, the rotating shaft 408 is arranged outside the second gear box 406, the stepping motor 407 is arranged above the second gear box 406, a connecting plate 409 is arranged at one end of the rotating shaft 408, the third gear box 410 is arranged outside the connecting plate 409, the second driving motor is arranged above the third gear box 410, the spindle 412 is arranged below the third gear box 410, and the polishing grinding wheel 413 is arranged outside the spindle 412.

Preferably: the rotating base 1 comprises a machine shell 101, an upper cover 102, a rotating disc 103, a fixing tool 104, a bearing seat 105, a first driving gear 106, a second driving gear 107, a worm gear 108, a support column 109, a worm 110, a first gear box 111 and a first driving motor 112, wherein the rotating disc 103 is arranged inside a supporting platform 201, a plurality of fixing tools 104 are arranged above the rotating disc 103, the bearing seat 105 is arranged below the rotating disc 103, the machine shell 101 is arranged outside the bearing seat 105, the upper cover 102 is arranged above the machine shell 101, the first driving gear 106 is arranged outside the rotating disc 103 and above the bearing seat 105, the second driving gear 107 is arranged outside the first driving gear 106, the worm gear 108 is arranged below the second driving gear 107, the support columns 109 are arranged inside the second driving gear 107 and the worm gear 108, the worm 110 is arranged outside the worm gear 108, one end of the worm 110 is provided with the first gear box 111, and the first driving motor 112 is arranged outside the first gear box 111; the supporting mechanism 3 comprises a bottom plate 301, a first guide rail 302, a first screw rod 303, a first servo motor 304, a portal frame 305, a second guide rail 306, a second screw rod 307, a second servo motor 308 and a moving frame 309, the bottom plates 301 are arranged on two sides of the supporting platform 201, the first guide rail 302 is arranged above one bottom plate 301, the first screw rod 303 is arranged above the other bottom plate 301, the first servo motor 304 is arranged at one end of the first screw rod 303, the portal frame 305 is arranged outside the first guide rail 302 and the first screw rod 303, the second guide rail 306 is arranged outside the portal frame 305, the second screw rod 307 is arranged on one side of the second guide rail 306, the second servo motor 308 is arranged at one end of the second screw rod 307, and the moving frame 309 is arranged outside the second guide rail 306 and the second screw rod 307; the upper cover 102 and the bearing seat 105 are both in bolted connection with the machine shell 101, the rotating disc 103 is in bearing connection with the bearing seat 105, the fixed tool 104 is in bolted connection with the rotating disc 103, the first driving gear 106 is in key connection with the rotating disc 103, the supporting column 109 is in bearing connection with the machine shell 101 and the upper cover 102 respectively, the second driving gear 107 and the turbine 108 are in key connection with the supporting column 109, the first driving gear 106 is in meshed connection with the second driving gear 107, the turbine 108 is in meshed connection with the worm 110, the worm 110 is in bearing connection with the machine shell 101, the shell of the first gear box 111 and the shell of the first driving motor 112 are both in bolted connection with the machine shell 101, and the first gear box 111 is in gear connection with the output shaft of the first driving motor 112 and the worm 110 respectively; the supporting platform 201 is connected with the supporting legs 202 in a welded mode, the protective net 203 is connected with the output shaft of the first hydraulic cylinder 204 in a welded mode, the shell of the first hydraulic cylinder 204 is connected with the ground through bolts, and the first limit switch 205 and the second limit switch 206 are both connected with the portal frame 305 through bolts; the bottom plate 301 is respectively connected with the ground and a first guide rail 302 through bolts, the first lead screw 303 is connected with the bottom plate 301 through a bearing, a shell of a first servo motor 304 is connected with the bottom plate 301 through a bolt, an output shaft of the first servo motor 304 is connected with a coupler of the first lead screw 303, a portal frame 305 is connected with the first guide rail 302 in a sliding mode, the portal frame 305 is connected with the first lead screw 303 through a thread, a second guide rail 306 is connected with the portal frame 305 through a bolt, a second lead screw 307 is connected with a bearing of the portal frame 305, a shell of a second servo motor 308 is connected with the portal frame 305 through a bolt, an output shaft of the second servo motor 308 is connected with a coupler of the second lead screw 307, a movable frame 309 is connected with the second guide rail 306 in a sliding mode, and the movable frame 309 is connected with the second lead screw 307 through a thread; the supporting seat 401 is respectively welded with the moving frame 309 and the optical axis 402, the third screw 403 is in bearing connection with the supporting seat 401, the shell of the third servo motor 404 is in bolt connection with the supporting seat 401, the output shaft of the third servo motor 404 is in coupling connection with the third screw 403, the base 405 is in sliding connection with the optical axis 402, and the base 405 is in threaded connection with the third screw 403; the shell of the second gear box 406 is respectively connected with the shell of the stepping motor 407 and the base 405 through bolts, the second gear box 406 is respectively connected with the output shaft of the stepping motor 407 and the rotating shaft 408 through gears, the connecting plate 409 is connected with the rotating shaft 408 in a welding mode, the shell of the third gear box 410 is respectively connected with the shell of the second driving motor 411 and the connecting plate 409 through bolts, the third gear box 410 is respectively connected with the output shaft of the second driving motor 411 and the spindle 412 through gears, and the grinding wheel 413 is connected with the spindle 412 through bolts.

Example 2

As shown in fig. 7 and 8, the present embodiment is different from embodiment 1 in that: the supporting mechanism 3 comprises bottom plates 301, a first guide rail 302, a first screw rod 303, a first servo motor 304, a portal frame 305, a second guide rail 306, a moving frame 309 and a second hydraulic cylinder 310, the bottom plates 301 are arranged on two sides of the supporting platform 201, the first guide rail 302 is arranged above one of the bottom plates 301, the first screw rod 303 is arranged above the other bottom plate 301, the first servo motor 304 is arranged at one end of the first screw rod 303, the portal frame 305 is arranged outside the first guide rail 302 and the first screw rod 303, the two second guide rails 306 are arranged outside the portal frame 305, the moving frame 309 is arranged outside the second guide rail 306, and the second hydraulic cylinder 310 is arranged above the moving frame 309; the base plate 301 is respectively connected with the ground and the first guide rail 302 through bolts, the first lead screw 303 is connected with a base plate 301 through a bearing, a shell of a first servo motor 304 is connected with the base plate 301 through bolts, an output shaft of the first servo motor 304 is connected with a coupler of the first lead screw 303, the portal frame 305 is connected with the first guide rail 302 in a sliding mode, the portal frame 305 is connected with the first lead screw 303 through threads, the second guide rail 306 is connected with the portal frame 305 through bolts, the moving frame 309 is connected with the second guide rail 306 in a sliding mode, an output shaft of the second hydraulic cylinder 310 is connected with the moving frame 309 in a welding mode, and a shell of the second hydraulic cylinder 310 is connected with the portal frame 305 through bolts.

The working principle is as follows: when the multi-angle grinding machine is used, firstly, the bearing outer sleeve is fixed on the rotating disc 103 through the fixing tool 104, the first driving motor 112 is started to drive the worm 110 to rotate, the turbine 108 and the second driving gear 107 are made to rotate, the first driving gear 106 and the rotating disc 103 are driven to rotate, then the first servo motor 304 is started to drive the first lead screw 303 to rotate, the portal frame 305 is made to move to a proper position, the second servo motor 308 is started to drive the second lead screw 307 to rotate, the movable frame 309 is made to move, or the second hydraulic cylinder 310 is started to drive the movable frame 309 to move, the grinding wheel 413 is made to move to a proper position, then the second driving motor 411 is started to drive the spindle 412 and the grinding wheel 413 to rotate, meanwhile, the second limit switch 206 is triggered during the descending process of the movable frame 309, the first hydraulic cylinder 204 is started by a signal, the protective net 203 is lifted, the third servo motor 404 is started to drive the third servo motor 403 to rotate during the use, the grinding wheel 413 is made to horizontally move, and the spindle 412 and the grinding wheel 413 is driven by the stepping motor 407 to perform angle adjustment, so that the multi-angle adjustment can be ground, the bearing outer sleeve can be lifted after the machining is completed, and the first limit switch 309 receives a signal, the first limit switch 205 drives the hydraulic cylinder 204 to descend, and the bearing outer sleeve 204 to descend.

The preferred embodiments of the present invention have been described in detail with reference to the accompanying drawings, but the present invention is not limited to the above embodiments, and various changes can be made without departing from the gist of the present invention within the knowledge of those skilled in the art.

Claims (10)

1. The utility model provides a bearing inner race processing is with founding equipment of grinding, includes rotating base (1), supporting mechanism (3), its characterized in that: the polishing machine is characterized by further comprising a protection mechanism (2) and a polishing mechanism (4), wherein the protection mechanism (2) is arranged outside the rotating base (1), the supporting mechanism (3) is arranged outside the protection mechanism (2), and the polishing mechanism (4) is arranged outside the supporting mechanism (3); the protection mechanism (2) comprises a supporting platform (201), supporting legs (202), a protective net (203), first hydraulic cylinders (204), first limit switches (205) and second limit switches (206), wherein the supporting platform (201) is arranged outside the rotating base (1), a plurality of supporting legs (202) are arranged below the supporting platform (201), the protective net (203) is arranged outside the supporting legs (202), two first hydraulic cylinders (204) are arranged below the protective net (203), the first limit switches (205) are arranged on one side of the supporting mechanism (3), and the second limit switches (206) are arranged below the first limit switches (205); the polishing mechanism (4) comprises supporting seats (401), an optical axis (402), a third screw rod (403), a third servo motor (404), a base (405), a second gear box (406), a stepping motor (407), a rotating shaft (408), a connecting plate (409), a third gear box (410), a second driving motor (411), a spindle (412) and a polishing grinding wheel (413), two supporting seats (401) are arranged outside the supporting mechanism (3), two optical axes (402) are arranged between the supporting seats (401), the third screw rod (403) is arranged between the optical axes (402), the rotating shaft (408) is arranged outside the third screw rod (403), the stepping motor (407) is arranged above the second gear box (406), the base (405) is arranged outside the optical axes (402) and the third screw rod (403), the second gear box (406) is arranged outside the base (405), the rotating shaft (408) is arranged outside the second gear box (406), the second driving motor (411) is arranged above the second gear box (406), the connecting plate (409) is arranged at one end of the rotating shaft (408), the third gear box (410) is arranged outside the connecting plate (410), and the second driving motor (411) is arranged above the third gear box (411), the main shaft (412) is arranged below the third gear box (410), and the grinding wheel (413) is arranged outside the main shaft (412).

2. The vertical mill equipment for machining the outer ring of the bearing of claim 1, wherein: the rotating base (1) comprises a machine shell (101), an upper cover (102), a rotating disk (103), a fixed tool (104), a bearing seat (105), a first driving gear (106), a second driving gear (107), a worm gear (108), a supporting column (109), a worm (110), a first gear box (111) and a first driving motor (112), wherein the rotating disk (103) is arranged inside a supporting platform (201), a plurality of the fixed tools (104) are arranged above the rotating disk (103), the bearing seat (105) is arranged below the rotating disk (103), the machine shell (101) is arranged outside the bearing seat (105), the upper cover (102) is arranged above the machine shell (101), the first driving gear (106) is arranged outside the rotating disk (103) and above the bearing seat (105), the second driving gear (107) is arranged outside the first driving gear (106), the worm gear (108) is arranged below the second driving gear (107), the supporting column (109) is arranged inside the second driving gear (107) and the worm gear (108), the worm gear box (110) is arranged outside the worm gear box (108), and one end of the first driving motor (111) is arranged, the first driving motor (112) is arranged outside the first gear box (111).

3. The vertical mill equipment for machining the bearing outer ring according to claim 1, characterized in that: the supporting mechanism (3) comprises a bottom plate (301), a first guide rail (302), a first screw rod (303), a first servo motor (304), a portal frame (305), a second guide rail (306), a second screw rod (307), a second servo motor (308) and a moving frame (309), wherein the two sides of the supporting platform (201) are provided with the bottom plate (301), one of the two sides of the bottom plate (301) is provided with the first guide rail (302), the other side of the bottom plate (301) is provided with the first screw rod (303), one end of the first screw rod (303) is provided with the first servo motor (304), the first guide rail (302) and the first screw rod (303) are externally provided with the portal frame (305), the portal frame (305) is externally provided with the second guide rail (306), one side of the second guide rail (306) is provided with the second screw rod (307), one end of the second screw rod (307) is provided with the second servo motor (308), and the second guide rail (306) and the second guide rail (307) are externally provided with the moving frame (309).

4. The vertical mill equipment for machining the bearing outer ring according to claim 1, characterized in that: the supporting mechanism (3) comprises a bottom plate (301), a first guide rail (302), a first lead screw (303), a first servo motor (304), a portal frame (305), a second guide rail (306), a moving frame (309) and a second hydraulic cylinder (310), wherein the two sides of the supporting platform (201) are provided with the bottom plate (301), one of the two sides of the bottom plate (301) is provided with the first guide rail (302) and the other side of the bottom plate (301), the first lead screw (303) is arranged above the bottom plate (301), one end of the first lead screw (303) is provided with the first servo motor (304), the first guide rail (302) and the first lead screw (303) are externally provided with the portal frame (305), the two second guide rails (306) are externally provided with the second guide rail (306), the moving frame (309) is externally provided with the second hydraulic cylinder (310) above the moving frame (309).

5. The vertical mill equipment for machining the outer ring of the bearing of claim 2, wherein: the upper cover (102) and the bearing seat (105) are both bolted with the machine shell (101), the rotating disk (103) is in bearing connection with the bearing seat (105), the fixed tool (104) is in bolt connection with the rotating disk (103), the first driving gear (106) is in key connection with the rotating disk (103), the supporting column (109) is in bearing connection with the machine shell (101) and the upper cover (102), the second driving gear (107) and the turbine (108) are both in key connection with the supporting column (109), the first driving gear (106) is in meshing connection with the second driving gear (107), the turbine (108) is in meshing connection with the worm (110), the worm (110) is in bearing connection with the machine shell (101), the first gear box (111) and the first driving motor (112) are both in bolt connection with the machine shell (101), and the first gear box (111) is in gear connection with the first driving motor (112) output shaft and the worm (110).

6. The vertical mill equipment for machining the bearing outer ring according to claim 1, characterized in that: the supporting platform (201) is connected with the supporting legs (202) in a welded mode, the protective net (203) is connected with the output shaft of the first hydraulic cylinder (204) in a welded mode, and the shell of the first hydraulic cylinder (204) is connected with the ground through bolts.

7. The vertical mill equipment for machining the outer ring of the bearing of claim 3, wherein: the bottom plate (301) is respectively connected with the ground and the first guide rail (302) through bolts, the first lead screw (303) is connected with the bottom plate (301) through a bearing, the shell of the first servo motor (304) is connected with the bottom plate (301) through a bolt, the output shaft of the first servo motor (304) is connected with the coupling of the first lead screw (303), the portal frame (305) is connected with the first guide rail (302) in a sliding manner, the portal frame (305) is connected with the first lead screw (303) through a thread, the second guide rail (306) is connected with the portal frame (305) through a bolt, the second lead screw (307) is connected with the bearing of the portal frame (305), the shell of the second servo motor (308) is connected with the portal frame (305) through a bolt, the output shaft of the second servo motor (308) is connected with the coupling of the second lead screw (307), the movable frame (309) is connected with the second guide rail (306) in a sliding manner, and the movable frame (309) is connected with the second lead screw (307) through a thread.

8. The vertical mill equipment for machining the outer ring of the bearing of claim 4, wherein: the base plate (301) respectively with ground with first guide rail (302) bolted connection, first lead screw (303) with base plate (301) bearing connection, first servo motor (304) shell with base plate (301) bolted connection, first servo motor (304) output shaft with first lead screw (303) coupling joint, portal frame (305) with first guide rail (302) sliding connection, portal frame (305) with first lead screw (303) threaded connection, second guide rail (306) with portal frame (305) bolted connection, remove frame (309) with second guide rail (306) sliding connection, second pneumatic cylinder (310) output shaft with remove frame (309) welded connection, second pneumatic cylinder (310) shell with portal frame (305) bolted connection.

9. The vertical mill equipment for machining the outer ring of the bearing of claim 1, wherein: third lead screw (403) with supporting seat (401) bearing connection, third servo motor (404) shell with supporting seat (401) bolted connection, third servo motor (404) output shaft with third lead screw (403) coupling joint, base (405) with optical axis (402) sliding connection, base (405) with third lead screw (403) threaded connection.

10. The vertical mill equipment for machining the bearing outer ring according to claim 1, characterized in that: the shell of the second gear box (406) is respectively in bolted connection with the shell of the stepping motor (407) and the base (405), the second gear box (406) is respectively in geared connection with the output shaft of the stepping motor (407) and the rotating shaft (408), the connecting plate (409) is in welded connection with the rotating shaft (408), the shell of the third gear box (410) is respectively in bolted connection with the shell of the second driving motor (411) and the connecting plate (409), the third gear box (410) is respectively in geared connection with the output shaft of the second driving motor (411) and the spindle (412), and the grinding wheel (413) is in bolted connection with the spindle (412).

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