CN112372080A

CN112372080A - A multi-direction processing equipment for processing of car transmission shaft

Info

Publication number: CN112372080A
Application number: CN202011337203.1A
Authority: CN
Inventors: 黄婷
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-11-25
Filing date: 2020-11-25
Publication date: 2021-02-19

Abstract

The invention discloses multidirectional processing equipment for processing an automobile transmission shaft, which comprises a first base station, wherein a displacement adjusting mechanism is arranged at the lower end inside the first base station, the displacement adjusting mechanism comprises a second base station, a first fixed bearing, a first screw rod, a first rotating handle, a fixed table, a second fixed bearing, a second screw rod and a second rotating handle, the second base station is arranged at the lower end inside the first base station, the first fixed bearing is arranged at the front end of the second base station, the first screw rod is arranged on the inner surface and the front end of the first fixed bearing, the first rotating handle is arranged at the front end of the first screw rod, and the fixed table is arranged at the upper end of the second base station. The invention has stable structure, can conveniently and stably adjust the plane position of a product in processing, can achieve the aim of processing the surface of the automobile transmission shaft in multiple angles, accelerates the working efficiency and better meets the use requirement.

Description

A multi-direction processing equipment for processing of car transmission shaft

Technical Field

The invention relates to the field of automobile part processing, in particular to multidirectional processing equipment for processing an automobile transmission shaft.

Background

The transmission shaft of automobile is a shaft capable of transferring power in the transmission shaft of universal transmission device, and is a rotating body with high rotating speed and less support, so that its dynamic balance is critical, and before leaving factory, the general transmission shaft must be undergone the dynamic balance test, and regulated on the balancing machine, for the front-mounted engine rear-wheel driven automobile it is a shaft for transferring the rotation of speed changer to main speed reducer, and can be several joints, and the joints can be connected by means of universal joint.

At present, the existing processing device for processing the surface of the automobile transmission shaft can only process the plane of the automobile transmission shaft in one direction, and after the plane of the automobile transmission shaft in one direction is processed, the position of a knife edge on the processing device or the position of the automobile transmission shaft is adjusted in time, so that the plane of the automobile transmission shaft in the second direction can be processed for the second time after the processing position is ensured to be correct, the processing time of the automobile transmission shaft is longer, the working efficiency is low, and the scheme capable of relieving the problems is urgently needed.

Disclosure of Invention

The invention aims to provide multidirectional processing equipment for processing a transmission shaft of an automobile, so as to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a multidirectional processing device for processing an automobile transmission shaft comprises a first base station, wherein the lower end inside the first base station is provided with a displacement adjusting mechanism, the displacement adjusting mechanism comprises a second base station, a first fixed bearing, a first screw rod, a first rotating handle, a fixed station, a second fixed bearing, a second screw rod and a second rotating handle, a second base station is arranged at the lower end of the interior of the first base station, a first fixed bearing is arranged at the front end of the second base station, the inner surface and the front end of the first fixed bearing are provided with a first screw rod, the front end of the first screw rod is provided with a first rotating handle, the upper end of the second base station is provided with a fixed station, one end of the fixed station is provided with a second fixed bearing, and a second screw rod is arranged on the inner surface and one end of the second fixed bearing, and a second rotating handle is arranged at one end of the second screw rod.

Preferably, the inside lower extreme of first base station has seted up the spout, the slider is installed to the lower extreme of second base station, the lower extreme of second base station passes through the inside lower extreme sliding connection of slider with first base station, first fixing bearing fixed mounting is at the front end of second base station, the front end plate of first base station is seted up threaded hole, swing joint between the rear end of first screw rod and the first fixing bearing, the surface of first screw rod and the interior surface threaded connection of the front end plate threaded hole of first base station, the rear end of first rotation handle and the front end fixed connection of first screw rod.

Preferably, the upper end of second base station has seted up the spout, the slider is installed to the lower extreme of fixed station, the lower extreme of fixed station passes through the upper end sliding connection of slider and second base station, second fixing bearing fixed mounting is in the one end of fixed station, the curb plate of first base station is seted up threaded hole, swing joint between the other end of second screw rod and the second fixing bearing, the surface of second screw rod and the internal surface threaded connection of the curb plate threaded hole of first base station, the one end of second twist grip and the one end fixed connection of second screw rod.

Preferably, the upper end of the fixed table is provided with a rotating shaft clamping and rotating mechanism, the rotating shaft clamping and rotating mechanism comprises a fixed frame, a movable sliding plate, a third fixed bearing, a third screw rod, a third rotating handle, a fourth fixed bearing, a rotating shaft, a turntable, a drive plate rod, a part placing groove block, a curved surface pressing sheet, a hinge, a contraction spring column, a fixed sleeve block and a movable bearing, the upper end of the fixed table is provided with the fixed frame, the movable sliding plate is arranged inside the upper end of the fixed frame, one end of the movable sliding plate is provided with the third fixed bearing, the third screw rod is arranged inside and at one end of the third fixed bearing, one end of the third screw rod is provided with the third rotating handle, the upper side of the inside of the movable sliding plate, which is close to the third fixed bearing, is provided with a through hole, the inner surface of the through hole of the movable sliding plate is, the one end of pivot is provided with the carousel, the one end edge of carousel is provided with the driver plate pole, the other end of pivot is provided with the fixed block, the one end downside of fixed block is provided with the part and places the channel block, the upper end that the channel block was placed to the part is provided with the curved surface preforming, be provided with the hinge between the front end of curved surface preforming and the upper end that the channel block was placed to the part, the inside upper end of curved surface preforming is provided with the shrink spring post, the other end curb plate of fixed frame is provided with fixed cover piece, inside one end be provided with loose bearing, the upside that the tight slewing mechanism of axis of rotation presss from.

Preferably, the lower extreme of fixed frame and the upper end fixed connection of fixed station, the spout has been seted up to the upper end inside of fixed frame, the slider is installed to the lower extreme of activity slide, the lower extreme of activity slide passes through the upper end internal surface sliding connection of slider and fixed frame.

Preferably, third fixing bearing fixed mounting is in the one end of activity slide, the one end curb plate of fixed frame set up threaded hole, swing joint between the other end of third screw rod and the third fixing bearing, the surface of third screw rod and the internal surface threaded connection of the screw hole of the one end curb plate of fixed frame, the one end fixed connection of third twist grip's one end and third screw rod, fourth fixing bearing's surface and activity slide's through-hole internal surface fixed connection.

Preferably, fourth fixing bearing's internal surface and the surface location swing joint of pivot, fixed connection between the other end of carousel and the one end of pivot, driver plate pole fixed mounting is in the one end edge of carousel, the other end of fixed block and the one end fixed connection of pivot, the one end of groove block and the one end downside fixed connection of fixed block are placed to the part.

Preferably, the curved surface pressing sheet is movably connected with the upper end of the part placing groove block through a hinge, the rear side of the curved surface pressing sheet is connected with the rear side of the upper end of the part placing groove block through a screw in a locking mode, the shrinkage spring column is fixedly installed at the upper end of the inner portion of the curved surface pressing sheet, the other end of the fixed sleeve block is fixedly connected with one end of the side plate at the other end of the fixed frame, and the outer surface of the movable bearing is fixedly connected with the inner surface of the fixed sleeve block.

Preferably, the automatic telescopic machining head is mounted on the upper side of the rotating shaft clamping and rotating mechanism.

Compared with the prior art, the invention has the following beneficial effects:

the device mainly meets the displacement requirement in the surface processing process of the automobile transmission shaft, when the automobile transmission shaft to be processed is arranged in the rotating shaft clamping and rotating mechanism, the first screw rod can be caused to spirally move in the threaded hole at the front end of the first base station by rotating the first rotating handle, the rear end of the first screw rod can movably rotate on the inner surface of the first fixed bearing, the first screw rod forms push-pull force on the first fixed bearing in the process, the push-pull force is transmitted to the second base station through the first fixed bearing, so that the second base station drives the upper end whole to move back and forth on the surface of the lower end in the inner part of the first base station, the second screw rod can be caused to spirally move in the threaded hole of the side plate of the first base station by rotating the second rotating handle, the other end of the second screw rod can movably rotate in the inner part of the second fixed bearing, and the second screw rod forms push-pull force on the second fixed bearing in the process, the push-pull force is transmitted to the fixed platform through the second fixed bearing, so that the fixed platform drives the upper end whole body to move back and forth at the two ends of the upper end of the second base platform, the device is stable in structure, and the plane position of a product in processing can be conveniently and stably adjusted; the device mainly meets the installation requirements of multi-angle processing and fixing of the surface of an automobile transmission shaft, before starting, one end of the automobile transmission shaft is installed inside a fourth fixed bearing, the other end of the automobile transmission shaft is placed inside a curved surface groove of a part placing groove block, a curved surface pressing sheet is turned over through a hinge, an inner contraction spring post of the curved surface pressing sheet presses the upper surface of the automobile transmission shaft, then the curved surface pressing sheet and the rear side of the part placing groove block are locked through screws to prevent the deviation of the automobile transmission shaft, an automatic telescopic processing head is started to process the surface of the automobile transmission shaft after the fixing is finished, a rotating shaft, a fixed block, the part placing groove block, the curved surface pressing sheet, a hinge, the contraction spring post and the automobile transmission shaft can be driven to integrally rotate through rotating a turntable and a driving plate rod in the processing process, and the device can achieve the purpose of multi-, the working efficiency is accelerated; the automobile transmission shaft is processed through the automatic telescopic processing head.

Drawings

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

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

FIG. 3 is a schematic structural view of a clamping and rotating mechanism for a rotating shaft according to the present invention;

FIG. 4 is a partial schematic view of the present invention;

FIG. 5 is an enlarged view of part A of the present invention;

FIG. 6 is an enlarged view of the portion B of the present invention;

FIG. 7 is an enlarged view of the portion C of the present invention;

fig. 8 is an enlarged view of the D-section of the present invention.

In the figure: 1. a first base station; 2. a displacement adjustment mechanism; 201. a second base station; 202. a first fixed bearing; 203. a first screw; 204. a first rotating handle; 205. a fixed table; 206. a second fixed bearing; 207. a second screw; 208. a second rotating handle; 3. the rotating shaft clamps the rotating mechanism; 301. a fixing frame; 302. a movable skateboard; 303. a third fixed bearing; 304. a third screw; 305. a third rotating handle; 306. a fourth fixed bearing; 307. a rotating shaft; 308. a turntable; 309. a dial lever; 310. a fixed block; 311. a part placing groove block; 312. pressing a sheet on a curved surface; 313. a hinge; 314. contracting the spring columns; 315. fixing the sleeve block; 316. a movable bearing; 4. automatic flexible processing aircraft nose.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-8, an embodiment of the present invention: a multidirectional processing device for processing an automobile transmission shaft comprises a first base platform 1, a displacement adjusting mechanism 2 is arranged at the lower end inside the first base platform 1, the displacement adjusting mechanism 2 comprises a second base platform 201, a first fixed bearing 202, a first screw 203 and a first rotating handle 204, the fixing table 205, the second fixing bearing 206, the second screw 207 and the second rotating handle 208, the second base table 201 is arranged at the lower end of the inside of the first base table 1, the first fixing bearing 202 is arranged at the front end of the second base table 201, the first screw 203 is arranged on the inner surface and the front end of the first fixing bearing 202, the first rotating handle 204 is arranged at the front end of the first screw 203, the fixing table 205 is arranged at the upper end of the second base table 201, the second fixing bearing 206 is arranged at one end of the fixing table 205, the second screw 207 is arranged on the inner surface and one end of the second fixing bearing 206, and the second rotating handle 208 is arranged at one end of the second screw 207.

The inside lower extreme of first base station 1 has seted up the spout, the slider is installed to the lower extreme of second base station 201, the lower extreme of second base station 201 passes through the inside lower extreme sliding connection of slider and first base station 1, first fixed bearing 202 fixed mounting is at the front end of second base station 201, the front end plate of first base station 1 has seted up threaded hole, swing joint between the rear end of first screw rod 203 and the first fixed bearing 202, the surface of first screw rod 203 and the internal surface threaded connection of the front end plate threaded hole of first base station 1, the rear end of first handle 204 that rotates and the front end fixed connection of first screw rod 203.

The upper end of the second base platform 201 is provided with a sliding groove, the lower end of the fixed platform 205 is provided with a sliding block, the lower end of the fixed platform 205 is connected with the upper end of the second base platform 201 in a sliding way through the sliding block, a second fixed bearing 206 is fixedly arranged at one end of the fixed platform 205, a side plate of the first base platform 1 is provided with a threaded hole, the other end of the second screw 207 is movably connected with the second fixed bearing 206, the outer surface of the second screw 207 is in threaded connection with the inner surface of the threaded hole of the side plate of the first base platform 1, and one end of a second rotating handle 208 is fixedly connected with one end of the second screw; the device mainly meets the displacement requirement in the surface processing process of the automobile transmission shaft, when the automobile transmission shaft to be processed is arranged in the rotating shaft clamping and rotating mechanism 3, the first rotating handle 204 is rotated to cause the first screw rod 203 to spirally move in the threaded hole at the front end of the first base platform 1, the rear end of the first screw rod 203 movably rotates on the inner surface of the first fixed bearing 202, in the process, the first screw rod 203 forms a push-pull force on the first fixed bearing 202, the push-pull force is transmitted to the second base platform 201 through the first fixed bearing 202, so that the second base platform 201 drives the upper end whole to move back and forth on the surface of the lower end in the interior of the first base platform 1, the second screw rod 207 can spirally move in the threaded hole of the side plate of the first base platform 1 by rotating the second rotating handle 208, the other end of the second screw rod 207 can movably rotate in the interior of the second fixed bearing 206, in the process, the second screw 207 generates a push-pull force on the second fixing bearing 206, and the push-pull force is transmitted to the fixing table 205 through the second fixing bearing 206, so that the fixing table 205 drives the upper end whole body to move back and forth at the two ends of the upper end of the second base table 201.

The upper end of the fixed platform 205 is provided with a rotating shaft clamping and rotating mechanism 3, the rotating shaft clamping and rotating mechanism 3 comprises a fixed frame 301, a movable sliding plate 302, a third fixed bearing 303, a third screw 304, a third rotating handle 305, a fourth fixed bearing 306, a rotating shaft 307, a rotating disc 308, a dial rod 309, a part placing groove block 311, a curved pressing sheet 312, a hinge 313, a contraction spring column 314, a fixed sleeve block 315 and a movable bearing 316, the upper end of the fixed platform 205 is provided with the fixed frame 301, the movable sliding plate 302 is arranged in the upper end of the fixed frame 301, one end of the movable sliding plate 302 is provided with the third fixed bearing 303, the inner part and one end of the third fixed bearing 303 are provided with the third screw 304, one end of the third screw 304 is provided with the third rotating handle 305, the inner part of the movable sliding plate 302 is provided with a through hole close to the upper side of the third fixed bearing 303, a rotating shaft 307 is arranged on the inner surface of the fourth fixed bearing 306, a rotating disc 308 is arranged at one end of the rotating shaft 307, a dial rod 309 is arranged at one end edge of the rotating disc 308, a fixed block 310 is arranged at the other end of the rotating shaft 307, a part placing groove block 311 is arranged on the lower side of one end of the fixed block 310, a curved surface pressing sheet 312 is arranged at the upper end of the part placing groove block 311, a hinge 313 is arranged between the front end of the curved surface pressing sheet 312 and the upper end of the part placing groove block 311, a contraction spring column 314 is arranged at the inner upper end of the curved surface pressing sheet 312, a fixed sleeve block 315 is arranged on a side plate at the other end of the fixed frame 301, a movable.

The lower end of the fixed frame 301 is fixedly connected with the upper end of the fixed table 205, a sliding groove is formed in the upper end of the fixed frame 301, a sliding block is installed at the lower end of the movable sliding plate 302, and the lower end of the movable sliding plate 302 is slidably connected with the inner surface of the upper end of the fixed frame 301 through the sliding block.

The third fixed bearing 303 is fixedly installed at one end of the movable sliding plate 302, a threaded hole is formed in a side plate at one end of the fixed frame 301, the other end of the third screw 304 is movably connected with the third fixed bearing 303, the outer surface of the third screw 304 is in threaded connection with the inner surface of the threaded hole in the side plate at one end of the fixed frame 301, one end of the third rotating handle 305 is fixedly connected with one end of the third screw 304, and the outer surface of the fourth fixed bearing 306 is fixedly connected with the inner surface of the through hole of the movable sliding plate 302.

The inner surface of the fourth fixed bearing 306 is movably connected with the outer surface of the rotating shaft 307 in a positioning manner, the other end of the rotating disc 308 is fixedly connected with one end of the rotating shaft 307, the dial rod 309 is fixedly installed at the edge of one end of the rotating disc 308, the other end of the fixed block 310 is fixedly connected with one end of the rotating shaft 307, and one end of the part placing groove block 311 is fixedly connected with the lower side of one end of the fixed block 310.

The curved surface pressing sheet 312 is movably connected with the upper end of the part placing groove block 311 through a hinge 313, the rear side of the curved surface pressing sheet 312 is connected with the rear side of the upper end of the part placing groove block 311 through a screw in a locking manner, a contraction spring post 314 is fixedly arranged at the upper end of the inner part of the curved surface pressing sheet 312, the other end of a fixed sleeve block 315 is fixedly connected with one end of a side plate at the other end of the fixed frame 301, and the outer surface of a movable bearing 316 is fixedly connected with the inner surface of the fixed sleeve block 315; the device mainly meets the installation requirements of multi-angle processing and fixing of the surface of an automobile transmission shaft, before starting, one end of the automobile transmission shaft is firstly installed inside a fourth fixed bearing 306, the other end of the automobile transmission shaft is placed inside a curved surface groove of a part placing groove block 311, a curved surface pressing sheet 312 is turned over through a hinge 313, an internal contraction spring post 314 of the curved surface pressing sheet 312 is enabled to press the upper surface of the automobile transmission shaft, then the curved surface pressing sheet 312 and the rear side of the part placing groove block 311 are locked through screws, the deviation of the automobile transmission shaft is prevented, after the fixing is completed, an automatic telescopic processing head 4 is started to process the surface of the automobile transmission shaft, a rotating shaft 307, a fixed block 310, the part placing groove block 311, the curved surface pressing sheet 312, the hinge 313, the contraction spring post 314 and the automobile transmission shaft can be driven to integrally rotate through a rotating disc 308 and a dial, the device can achieve the purpose of multi-angle processing of the surface of the automobile transmission shaft, and the working efficiency is accelerated.

The automatic telescopic machining head 4 is arranged on the upper side of the rotating shaft clamping and rotating mechanism 3; the automobile transmission shaft is processed through the automatic telescopic processing machine head 4.

The working principle is as follows: the device mainly meets the displacement requirement in the surface processing process of the automobile transmission shaft, when the automobile transmission shaft to be processed is arranged in the rotating shaft clamping and rotating mechanism 3, the first rotating handle 204 is rotated to cause the first screw rod 203 to spirally move in the threaded hole at the front end of the first base platform 1, the rear end of the first screw rod 203 movably rotates on the inner surface of the first fixed bearing 202, in the process, the first screw rod 203 forms a push-pull force on the first fixed bearing 202, the push-pull force is transmitted to the second base platform 201 through the first fixed bearing 202, so that the second base platform 201 drives the upper end whole to move back and forth on the surface of the lower end in the interior of the first base platform 1, the second screw rod 207 can spirally move in the threaded hole of the side plate of the first base platform 1 by rotating the second rotating handle 208, the other end of the second screw rod 207 can movably rotate in the interior of the second fixed bearing 206, in the process, the second screw 207 forms a push-pull force on the second fixed bearing 206, and the push-pull force is transmitted to the fixed platform 205 through the second fixed bearing 206, so that the fixed platform 205 drives the upper end whole body to move back and forth at the two ends of the upper end of the second base platform 201, the device has a stable structure, and the plane position of a product in processing can be conveniently and stably adjusted; before starting up, firstly, one end of the automobile transmission shaft is arranged in a fourth fixed bearing 306, the other end of the automobile transmission shaft is arranged in a curved surface groove of a part placing groove block 311, a curved surface pressing sheet 312 is turned over through a hinge 313, an inner contraction spring post 314 of the curved surface pressing sheet 312 is pressed on the upper surface of the automobile transmission shaft, then the curved surface pressing sheet 312 and the rear side of the part placing groove block 311 are locked through screws to prevent the automobile transmission shaft from deviating, an automatic telescopic processing head (model: Reed-Wa SM 6753) 4 is started to process the surface of the automobile transmission shaft after the automobile transmission shaft is fixed, and a rotating disc 307 and a dial plate 309 are rotated in the processing process to drive a rotating shaft 307, a fixed block 310, a part placing groove block 311, a curved surface pressing sheet 312, a hinge 313, a contraction spring post 314 and the automobile transmission shaft to integrally rotate, the device can achieve the purpose of processing the surface of the automobile transmission shaft in multiple angles, and the working efficiency is accelerated; the automobile transmission shaft is processed through the automatic telescopic processing machine head 4.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A multidirectional processing equipment for automobile transmission shaft processing, includes first base station (1), its characterized in that: the inner lower end of the first base platform (1) is provided with a displacement adjusting mechanism (2), the displacement adjusting mechanism (2) comprises a second base platform (201), a first fixed bearing (202), a first screw rod (203), a first rotating handle (204), a fixed platform (205), a second fixed bearing (206), a second screw rod (207) and a second rotating handle (208), the inner lower end of the first base platform (1) is provided with the second base platform (201), the front end of the second base platform (201) is provided with the first fixed bearing (202), the inner surface and the front end of the first fixed bearing (202) are provided with the first screw rod (203), the front end of the first screw rod (203) is provided with the first rotating handle (204), the upper end of the second base platform (201) is provided with the fixed platform (205), one end of the fixed platform (205) is provided with the second fixed bearing (206), and a second screw rod (207) is arranged on the inner surface and one end of the second fixed bearing (206), and a second rotating handle (208) is arranged on one end of the second screw rod (207).

2. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 1, wherein: the inside lower extreme of first base station (1) has seted up the spout, the slider is installed to the lower extreme of second base station (201), the lower extreme of second base station (201) passes through the inside lower extreme sliding connection of slider and first base station (1), first fixed bearing (202) fixed mounting is at the front end of second base station (201), the front end plate of first base station (1) is seted up threaded hole, swing joint between the rear end of first screw rod (203) and first fixed bearing (202), the surface of first screw rod (203) and the interior surface threaded connection of the front end plate screw hole of first base station (1), the rear end of first handle of rotating (204) and the front end fixed connection of first screw rod (203).

3. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 1, wherein: the spout has been seted up to the upper end of second base station (201), the slider is installed to the lower extreme of fixed station (205), the lower extreme of fixed station (205) passes through the upper end sliding connection of slider and second base station (201), second fixing bearing (206) fixed mounting is in the one end of fixed station (205), the threaded hole is seted up to the curb plate of first base station (1), swing joint between the other end of second screw rod (207) and second fixing bearing (206), the surface of second screw rod (207) and the interior surface threaded connection of the curb plate screw hole of first base station (1), the one end fixed connection of second twist grip (208) and the one end of second screw rod (207).

4. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 1, wherein: the upper end of the fixed platform (205) is provided with a rotating shaft clamping and rotating mechanism (3), the rotating shaft clamping and rotating mechanism (3) comprises a fixed frame (301), a movable sliding plate (302), a third fixed bearing (303), a third screw rod (304), a third rotating handle (305), a fourth fixed bearing (306), a rotating shaft (307), a rotating disk (308), a dial rod (309), a part placing groove block (311), a curved surface pressing sheet (312), a hinge (313), a shrinkage spring column (314), a fixed sleeve block (315) and a movable bearing (316), the upper end of the fixed platform (205) is provided with the fixed frame (301), the movable sliding plate (302) is arranged inside the upper end of the fixed frame (301), one end of the movable sliding plate (302) is provided with the third fixed bearing (303), the inside and one end of the third fixed bearing (303) are provided with the third screw rod (304), a third rotating handle (305) is arranged at one end of the third screw (304), a through hole is formed in the movable sliding plate (302) close to the upper side of the third fixed bearing (303), a fourth fixed bearing (306) is arranged on the inner surface of the through hole of the movable sliding plate (302), a rotating shaft (307) is arranged on the inner surface of the fourth fixed bearing (306), a rotating disc (308) is arranged at one end of the rotating shaft (307), a dial rod (309) is arranged at the edge of one end of the rotating disc (308), a fixed block (310) is arranged at the other end of the rotating shaft (307), a part placing groove block (311) is arranged on the lower side of one end of the fixed block (310), a curved pressing plate (312) is arranged at the upper end of the part placing groove block (311), a hinge (313) is arranged between the front end of the curved pressing plate (312) and the upper, the inside upper end of curved surface preforming (312) is provided with shrink spring post (314), the other end curb plate of fixed frame (301) is provided with fixed nest block (315), inside one end be provided with loose bearing (316), the upside that the tight slewing mechanism (3) of axis of rotation clamp is provided with automatic flexible processing aircraft nose (4).

5. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 4, wherein: the lower extreme of fixed frame (301) and the upper end fixed connection of fixed station (205), the spout has been seted up to the upper end inside of fixed frame (301), the slider is installed to the lower extreme of activity slide (302), the lower extreme of activity slide (302) passes through the upper end internal surface sliding connection of slider and fixed frame (301).

6. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 4, wherein: third fixing bearing (303) fixed mounting is in the one end of activity slide (302), the one end curb plate of fixed frame (301) is seted up threaded hole, swing joint between the other end of third screw rod (304) and third fixing bearing (303), the surface of third screw rod (304) and the internal surface threaded connection of the screw hole of the one end curb plate of fixed frame (301), the one end of third twist grip (305) and the one end fixed connection of third screw rod (304), the surface of fourth fixing bearing (306) and the through-hole internal surface fixed connection of activity slide (302).

7. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 4, wherein: the internal surface of fourth fixed bearing (306) and the surface location swing joint of pivot (307), fixed connection between the other end of carousel (308) and the one end of pivot (307), dial plate pole (309) fixed mounting is in the one end edge of carousel (308), the other end of fixed block (310) and the one end fixed connection of pivot (307), the one end of groove (311) and the one end downside fixed connection of fixed block (310) are placed to the part.

8. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 4, wherein: the upper end of a groove block (311) is placed on the curved surface pressing sheet (312) through a hinge (313), the rear side of the curved surface pressing sheet (312) is connected with the rear side of the upper end of the groove block (311) through a screw in a locking mode, a contraction spring column (314) is fixedly installed at the upper end of the inner portion of the curved surface pressing sheet (312), the other end of a fixed sleeve block (315) is fixedly connected with one end of a side plate at the other end of a fixed frame (301), and the outer surface of a movable bearing (316) is fixedly connected with the inner surface of the fixed sleeve block (315).

9. The multidirectional machining apparatus for machining an automotive transmission shaft according to claim 4, wherein: the automatic telescopic machining head (4) is arranged on the upper side of the rotating shaft clamping and rotating mechanism (3).