CN114986173B - Plate shearing machine hydro-cylinder shell inner chamber turn-milling lathe - Google Patents

Abstract

The invention provides a turning and milling machine tool for an inner cavity of an oil cylinder shell of a plate shearing machine, which relates to the technical field of turning and milling and comprises a processing table, wherein an oil cylinder processing cabin is fixedly arranged in the middle of the surface of the upper end of the processing table, an oil cylinder feeding channel is formed in one side of the oil cylinder processing cabin, an oil cylinder processing hole is formed in the side surface of the oil cylinder processing cabin, the oil cylinder processing hole is communicated with the oil cylinder feeding channel, two cutting fluid leaking grooves are formed in the inner side of the lower end of the oil cylinder feeding channel, which is close to the oil cylinder processing hole, and communicated with a cutting fluid collecting groove.

Description

Plate shearing machine hydro-cylinder shell inner chamber turn-milling lathe

Technical Field

The invention relates to the technical field of turning and milling, in particular to a turning and milling machine tool for an inner cavity of an oil cylinder shell of a plate shearing machine.

Background

Milling machines (milling machines) are generally machine tools that use milling cutters to machine various surfaces of a workpiece. Typically the milling cutter is moved primarily in a rotary motion and the movement of the workpiece and the milling cutter is a feed motion. It can be used for processing plane, groove, various curved surfaces and gears.

The milling machine is a machine tool for milling a workpiece by using a milling cutter. The milling machine can mill planes, grooves, gear teeth, threads and spline shafts, can also process complex molded surfaces, has higher efficiency than a planer, and is widely applied to mechanical manufacturing and repairing departments.

The milling machine is a machine tool with wide application, and planes (horizontal planes and vertical planes), grooves (key grooves, T-shaped grooves, dovetail grooves and the like), tooth dividing parts (gears, spline shafts and chain wheels), spiral surfaces (threads and spiral grooves) and various curved surfaces can be processed on the milling machine. In addition, the method can be used for machining the surface and the inner hole of the revolving body, cutting off the revolving body and the like. When the milling machine works, a workpiece is arranged on a workbench or an indexing head and other accessories, the milling cutter rotates into main motion, and the workpiece can obtain a required processing surface by the aid of the feeding motion of the workbench or the milling head. Since the multi-edge intermittent cutting is performed, the productivity of the milling machine is high. In brief, a milling machine may be a machine tool that performs milling, drilling, and boring of a workpiece.

When the existing turn-milling equipment is used for turn-milling the inner wall of the oil cylinder, the finish degree of turn-milling and the distance of penetration are too far, so that a cutter head needs to work in cooperation with cutting fluid for protection, and when the deep part of the oil cylinder is subjected to turn-milling, a nozzle of the cutting fluid cannot penetrate deeply and align to a turn-milling position.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a turning and milling machine tool for an inner cavity of an oil cylinder shell of a plate shearing machine, which solves the problems that when the existing turning and milling equipment is used for turning and milling the inner wall of an oil cylinder, the smooth finish and the penetration distance of the turning and milling are too far, a cutter head needs to work in cooperation with cutting fluid for protection, and when the deep part of the oil cylinder is turned and milled, a nozzle of the cutting fluid cannot go deep into and align at the turning and milling position.

(II) technical scheme

In order to realize the purpose, the invention is realized by the following technical scheme: the utility model provides a plate shearing machine hydro-cylinder shell inner chamber turn-milling lathe, includes the processing platform, fixed mounting has hydro-cylinder processing cabin in the middle of the processing platform upper end surface, hydro-cylinder processing cabin has seted up hydro-cylinder feed channel one side, on the inner wall of hydro-cylinder feed channel both sides respectively fixed mounting have two electronic slide rails No. two, slidable mounting has hydro-cylinder fixed subassembly on the electronic slide rail No. two, hydro-cylinder processing cabin both sides surface respectively fixed mounting have two electronic slide rails No. one, and the electronic slide rail outer end of per two homonymies all is connected with two removal turn-milling subassemblies, remove turn-milling subassembly slidable mounting on turn-milling subassembly slip table, turn-milling subassembly slip table integration sets up at processing platform upper end surface, hydro-cylinder processing hole has been seted up to hydro-cylinder processing cabin side, hydro-cylinder processing hole and hydro-cylinder feed channel intercommunication, hydro-cylinder feed channel lower extreme inboard is close to hydro-cylinder processing hole and has seted up two cutting fluid small kerfs and cutting fluid collecting tank intercommunication.

As preferred, processing bench end surface just is located the turn-milling subassembly slip table both sides and has seted up two cutting fluid collecting tanks respectively, two cutting fluid collecting tank one end inner wall rotates respectively and installs two cutting fluid flowing back augers, two the equal coaxial fixed connection of cutting fluid flowing back auger one end is on auger driving motor's output shaft, auger driving motor fixed mounting is at processing bench side surface.

Preferably, processing platform one side just is located auger driving motor another side integration fixedly connected with flowing back spout, processing platform lower extreme surface four corners department is fixed mounting four support columns respectively, processing platform side just is located hydro-cylinder processing cabin one side and is provided with control panel, hydro-cylinder processing cabin upper end is provided with two cutting fluid respectively and advances the pipe.

Preferably, the cylinder fixing assembly includes: fixed frame, the spout that floats, the slide bar that floats, mount upper ledge, mount side frame rotation axis, mount side frame, side frame locking rotation axis, locking lock nut, double-end locking lead screw, locking rotation handle, roof and the top spring that floats have been seted up to fixed frame upper end surface, sliding installation has the slide bar that floats in the spout that floats, the frame on the integrated fixedly connected with mount of slide bar lower extreme that floats, both ends are provided with two mount side frame rotation axes respectively under the mount upper ledge, two mount side frame rotation axis both ends are rotated respectively and are installed four mount side frames, per two homonymies be provided with side frame locking rotation axis between the mount side frame, two side frame locking rotation axis one end is rotated respectively and is installed two locking lock nuts, two it runs through double-end locking lead screw to rotate on the locking lock nut, double-end locking rotation is provided with the rotatory handle of locking, the integrated fixedly connected with roof that floats on the slide bar, just it is provided with the top spring that floats.

Preferably, the upper ends of the side frames of the two fixing frames are respectively and fixedly connected with a floating positioning jacking block in an integrated manner.

Preferably, the rotation directions of the threads in the two locking nuts are opposite, and the rotation directions of the threads at the two ends of the double-head locking screw rod are also opposite and correspond to the threads in the two locking nuts.

Preferably, the mobile turn-milling assembly comprises: tool bit driving motor mount, tool bit driving motor, cutting fluid case, motor oil blanket, tool bit connecting axle, cutting fluid case oil blanket, turn-milling cutter head and cutting fluid spout, fixed mounting has tool bit driving motor on the tool bit driving motor mount, tool bit driving motor front end fixed surface installs the cutting fluid case, the cutting fluid incasement rotation run through the tool bit connecting axle and with tool bit driving motor's output shaft coaxial coupling, tool bit driving motor front end is provided with the motor oil blanket, fixed mounting has cutting fluid case oil blanket on the inner wall of cutting fluid case front end, the coaxial fixedly connected with turn-milling cutter head of tool bit connecting axle front end, it spouts the way to have seted up two cutting fluids in the turn-milling cutter head.

Preferably, the two cutting fluid spray channels are communicated with the inner cavity of the cutting fluid box.

Preferably, the upper end of the cutting fluid box is provided with a cutting fluid inlet hole, and the cutting fluid inlet hole is communicated with the cutting fluid inlet pipe.

Preferably, the cutter head connecting shaft is fixedly connected with the motor oil seal and the inner ring of the cutting fluid box oil seal.

(III) advantageous effects

The invention provides a turning and milling machine tool for an inner cavity of an oil cylinder shell of a plate shearing machine. The method has the following beneficial effects:

according to the scheme, when the existing turn-milling equipment provided in the background technology is used for turn-milling the inner wall of an oil cylinder, because the finish degree and the penetrating distance of the turn-milling equipment are too far, the cutter head needs to be matched with cutting fluid to work, and because the deep part of the oil cylinder cannot be deeply inserted into and aligned with the turn-milling position when the turn-milling equipment is used for turn-milling, the oil cylinder to be processed is driven to slide out of an oil cylinder fixing component through two electric sliding rails on two sides from an oil cylinder feeding channel at one end of an oil cylinder processing cabin, the oil cylinder is fixed in the oil cylinder fixing component, the oil cylinder is conveyed to the original position through the two electric sliding rails, the movable turn-milling components on the two sides are driven to move towards the oil cylinder fixing component through the one electric sliding rail, the cutting fluid is conveyed to the movable turn-milling component through a cutting fluid inlet pipe, the used cutting fluid flows out of a cutting fluid collecting tank through a cutting fluid leakage tank and an oil cylinder processing hole, and the auger drives a cutting fluid auger at two ends to rotate, the cutting fluid auger to push out the cutting fluid and fall into a chute, so as to discharge fluid;

the cutting fluid is sprayed out from two sides of the front end of the cutting fluid spraying channel through the cutting fluid spraying channel after the cutting fluid is conveyed to the inner cavity of the cutting fluid box from a cutting fluid inlet hole through a cutting fluid inlet pipe, so that the cutting fluid can be accurately sprayed to the cutting head when the cutting head is deep in an oil cylinder, the cutting head is cooled, the cutting head is protected, the turning and milling efficiency can be effectively improved, the use time of the turning and milling is reduced, and the cutting head is protected;

wherein, through the rotatory handle of locking among the fixed subassembly of rotatory hydro-cylinder, it is female to the centre removal to drive the locking lock that the double-end locking lead screw drove both ends cover and established, thereby can drive the side frame locking rotation axis of rear side and drive the mount side frame in step and rotate with mount side frame rotation axis, thereby can make the hydro-cylinder in the middle fixed, wherein because mount side frame is rotatory, thereby make the fixed skew rotatory hydro-cylinder fixed subassembly center in fixed position of middle hydro-cylinder, through the unsteady location kicking block counter-rotation of upper end, thereby can promote the inner wall of fixed frame, make the unsteady spring of slide bar pulling, make frame downstream on the mount, thereby the fixed position that makes the hydro-cylinder is at rotatory hydro-cylinder fixed subassembly center all the time.

Drawings

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

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

FIG. 3 is a schematic cross-sectional view taken along line a-a of FIG. 2 according to the present invention;

FIG. 4 is a schematic structural view of a cylinder fixing assembly according to the present invention;

FIG. 5 is a schematic front view of the cylinder fixing assembly of the present invention;

FIG. 6 is a schematic cross-sectional view taken along line b-b of FIG. 5 according to the present invention;

FIG. 7 is an enlarged view of the structure at A in FIG. 6 according to the present invention;

FIG. 8 is a schematic view of the mobile turn-milling assembly of the present invention;

FIG. 9 is a schematic front view of the mobile milling assembly of the present invention;

FIG. 10 is a cross-sectional view taken along line c-c of FIG. 9 according to the present invention;

fig. 11 is an enlarged view of the structure at B in fig. 10 according to the present invention.

Wherein, 1, processing platform; 2. an oil cylinder processing cabin; 3. a first electric slide rail; 4. moving the turn-milling assembly; 401. the cutter head drives the motor mount; 402. a cutter head driving motor; 403. a cutting fluid tank; 404. cutting fluid enters the hole; 405. an inner cavity of the cutting fluid box; 406. a motor oil seal; 407. a cutter head connecting shaft; 408. cutting fluid tank oil seal; 409. turning and milling a cutter head; 410. cutting fluid spraying channels; 5. a cylinder feed channel; 6. a second electric slide rail; 7. an oil cylinder fixing component; 701. fixing the frame; 702. a floating chute; 703. a floating slide bar; 704. a frame is arranged on the fixing frame; 705. a fixed frame side frame rotating shaft; 706. a side frame of the fixing frame; 707. floating and positioning the top block; 708. the side frame locks the rotating shaft; 709. locking a lock nut; 710. the double-end locking screw rod; 711. locking the rotating handle; 712. a floating roof; 713. a floating top spring; 8. machining holes in the oil cylinder; 9. a cutting fluid leakage groove; 10. a cutting fluid sump; 11. the cutting fluid draining auger; 12. the auger drives the motor; 13. turning and milling a component sliding table; 14. a liquid discharge chute; 15. a cutting fluid inlet pipe; 16. a support pillar; 17. a control panel.

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. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The embodiment is as follows:

as shown in fig. 1 to 11, an embodiment of the invention provides a plate shearing machine cylinder shell inner cavity turning and milling machine tool, which comprises a processing table 1, wherein a cylinder processing cabin 2 is fixedly installed in the middle of the upper end surface of the processing table 1, a cylinder feeding channel 5 is formed in one side of the cylinder processing cabin 2, two second electric slide rails 6 are respectively and fixedly installed on the inner walls of the two sides of the cylinder feeding channel 5, a cylinder fixing component 7 is installed on the second electric slide rails 6 in a sliding manner, two first electric slide rails 3 are respectively and fixedly installed on the surfaces of the two sides of the cylinder processing cabin 2, two mobile turning and milling components 4 are connected to the outer ends of the first electric slide rails 3 on the same side, the mobile turning and milling components 4 are installed on a turning and milling component sliding table 13 in a sliding manner, the turning and milling component sliding table 13 is integrally arranged on the upper end surface of the processing table 1, a cylinder processing hole 8 is formed in the side surface of the cylinder processing cabin 2, and the cylinder processing hole 8 is communicated with the cylinder feeding channel 5, the inboard hydro-cylinder processing hole 8 that is close to of 5 lower extremes of hydro-cylinder feed channel has seted up two cutting fluid small orifices 9 and cutting fluid collecting tank 10 intercommunication, 1 upper end surface of processing platform just lies in turnning and milling subassembly slip table 13 both sides and has seted up two cutting fluid collecting tanks 10 respectively, two cutting fluid collecting tank 10 one end inner wall rotates respectively and installs two cutting fluid flowing back augers 11, two cutting fluid flowing back auger 11 one end is coaxial fixed connection on the output shaft of auger driving motor 12 all, auger driving motor 12 fixed mounting is on 1 side surface of processing platform, processing platform 1 one side just lies in auger driving motor 12 another side integration fixedly connected with flowing back spout 14, processing platform 1 lower extreme surface four corners department is fixed mounting four support columns 16 respectively, processing platform 1 side just lies in hydro-cylinder processing cabin 2 one side and is provided with control panel 17, two cutting fluid inlet pipes 15 are respectively arranged at the upper end of the oil cylinder processing cabin 2.

According to the technical scheme, an oil cylinder to be processed is driven to slide out of an oil cylinder fixing component 7 through a second electric slide rail 6 on two sides from an oil cylinder feeding channel 5 at one end of an oil cylinder processing cabin 2, the oil cylinder is fixed in the oil cylinder fixing component 7, then the oil cylinder is conveyed to the original position through the second electric slide rail 6, a first electric slide rail 3 drives a movable turning and milling component 4 on two sides to move towards the oil cylinder fixing component 7, cutting fluid is conveyed to the movable turning and milling component 4 through a cutting fluid inlet pipe 15, the used cutting fluid flows out of a cutting fluid collecting tank 10 through a cutting fluid leaking tank 9 and an oil cylinder processing hole 8, a packing auger driving motor 12 drives cutting fluid packing augers 11 at two ends to rotate, the cutting fluid is pushed out and falls into a fluid drainage chute 14, and then is discharged.

In this embodiment, the oil cylinder fixing assembly 7 includes: fixed frame 701, the spout 702 that floats, the slide bar 703 that floats, frame 704 on the mount, mount side frame rotation axis 705, mount side frame 706, side frame locking rotation axis 708, locking nut 709, double-end locking lead screw 710, locking rotation handle 711, floating roof 712 and floating head spring 713, floating spout 702 has been seted up on the fixed frame 701 upper end surface, slidable mounting has the slide bar 703 that floats in the spout 702, frame 704 on the integrated fixedly connected with mount of the slide bar 703 lower extreme, both ends are provided with two mount side frame rotation axes 705 respectively under the mount frame 704, two mount side frame rotation axis 705 both ends rotate respectively and install four mount side frames 706, per two homonymies be provided with side frame locking rotation axis 708 between the mount side frame 706, two side frame locking rotation axis 708 one end rotates respectively and installs two locking nut 709, two locking nut 709 rotates to go up to rotate to have run through double-end locking lead screw 710, double-end locking screw 710 one end rotation is provided with locking rotation handle 711, floating roof 712 is connected with the integration fixedly connected with floating roof that floats on the upper end, and the top plate upper end is provided with floating roof 712, two fixed spring 709 that the fixed nut screws pass through the internal thread screw 707, the two fixed frame internal thread screw locking nut screw threads 707 also the opposite directions that float the fixed frame 706 and the two internal thread that fix the internal fixation block that fix the opposite directions that the lock the two that fix the fixed frame 706 and fix the opposite directions that fix the two that lock the fixed frame 706 and fix the internal thread that fix the two that fix the fixed frame 706.

Through the technical scheme, the double-head locking screw rod 710 is driven to drive the locking nuts 709 sleeved at two ends to move towards the middle by rotating the locking rotating handle 711 in the oil cylinder fixing component 7, so that the side frame locking rotating shaft 708 at the rear side can be driven to synchronously drive the fixing frame side frame 706 to rotate by the fixing frame side frame rotating shaft 705, so that the oil cylinder in the middle can be fixed, wherein the fixing frame side frame 706 rotates, so that the fixed position of the oil cylinder in the middle deviates from the center of the rotating oil cylinder fixing component 7, the floating positioning top block 707 at the upper end rotates reversely, so that the inner wall of the fixing frame 701 can be pushed, the floating sliding rod 703 pulls the floating top spring 713, the upper frame 704 of the fixing frame moves downwards, and the fixed position of the oil cylinder is always at the center of the rotating oil cylinder fixing component 7.

In this embodiment, the mobile turn-milling assembly 4 includes: tool bit driving motor mount 401, tool bit driving motor 402, cutting fluid case 403, motor oil seal 406, tool bit connecting shaft 407, cutting fluid case oil seal 408, turn-milling tool bit 409 and cutting fluid spout 410, fixed mounting has tool bit driving motor 402 on tool bit driving motor mount 401, fixed mounting has cutting fluid case 403 on tool bit driving motor 402 front end surface, cutting fluid case 403 is interior to rotate to have run through tool bit connecting shaft 407 and with tool bit driving motor 402's output shaft coaxial coupling, tool bit driving motor 402 front end is provided with motor oil seal 406, fixed mounting has cutting fluid case oil seal 408 on the inner wall of cutting fluid case 403 front end, the coaxial fixedly connected with turn-milling tool bit 409 in tool bit connecting shaft 407 front end, two cutting fluid spouts 410 have been seted up in the turn-milling tool bit 409, two cutting fluid spouts 410 all communicate with cutting fluid case inner chamber 405, cutting fluid inlet 404 has been seted up to cutting fluid case 403 upper end, just cutting fluid inlet 404 and cutting fluid inlet 15 communicate, tool bit connecting shaft 407 and motor 408 inner circle and cutting fluid case oil seal fixed connection.

Through the technical scheme, the cutter head driving motor 402 in the mobile turn-milling component 4 drives the cutter head connecting shaft 407 to rotate in the motor oil seal 406 and the cutting fluid box oil seal 408, after cutting fluid enters the pipe 15 and conveys the cutting fluid from the cutting fluid inlet hole 404 to the cutting fluid box inner cavity 405, the cutting fluid is sprayed out from the two sides of the front end of the cutting fluid spraying channel 410 through the cutting fluid spraying channel 410, so that the cutter head can be sprayed to the cutter head accurately in the deep part of the oil cylinder, the cutter head is cooled, the cutter head is protected, the mobile turn-milling component 4 on the two sides simultaneously performs turn-milling towards the center, the turn-milling efficiency can be effectively improved, the service time of turn-milling is reduced, and the cutter head is protected.

The working principle is as follows:

according to the scheme, an oil cylinder to be processed is driven to slide out of an oil cylinder fixing component 7 through a second electric slide rail 6 on two sides from an oil cylinder feeding channel 5 at one end of an oil cylinder processing cabin 2, the oil cylinder is fixed in the oil cylinder fixing component 7, then the oil cylinder is fed to the original position through the second electric slide rail 6, a first electric slide rail 3 drives a movable turn-milling component 4 on two sides to move towards the oil cylinder fixing component 7, cutting fluid is conveyed to the movable turn-milling component 4 through a cutting fluid inlet pipe 15, the used cutting fluid flows out to a cutting fluid collecting tank 10 through a cutting fluid leakage groove 9 and an oil cylinder processing hole 8, a packing auger driving motor 12 drives cutting fluid discharging packing augers 11 at two ends to rotate, the cutting fluid is pushed out and falls into a discharging chute 14, and then the cutting fluid is discharged;

the cutting head driving motor 402 in the mobile turn-milling component 4 drives the cutting head connecting shaft 407 to rotate in the motor oil seal 406 and the cutting fluid box oil seal 408, and after cutting fluid is conveyed to the inner cavity 405 of the cutting fluid box from the cutting fluid inlet hole 404 through the cutting fluid inlet pipe 15, the cutting fluid is sprayed out from two sides of the front end of the cutting fluid spraying channel 410 through the cutting fluid spraying channel 410, so that the cutting fluid can be accurately sprayed to the cutting head when the cutting head is deep in the oil cylinder, the cutting head is cooled, the cutting head is protected, and the mobile turn-milling components 4 on two sides simultaneously turn-mill the cutting head to the center, so that the turn-milling efficiency can be effectively improved, the service time of the turn-milling is shortened, and the cutting head is protected;

wherein, through the locking rotation handle 711 in the rotary cylinder fixing component 7, drive the double-end locking screw 710 to drive the locking nut 709 of both ends cover and move to the middle, thereby can drive the side frame locking rotation shaft 708 of rear side to drive the mount side frame 706 to rotate with mount side frame rotation shaft 705 synchronously, thereby can make the middle cylinder fixed, wherein because the mount side frame 706 rotates, thereby make the fixed position of middle cylinder deviate from the fixed component 7 center of rotary cylinder, through the floating location kicking block 707 counter rotation of upper end, thereby can promote the inner wall of fixed frame 701, make the floating slide bar 703 pull the floating spring 713, make the frame 704 on the mount move downwards, thereby make the fixed position of cylinder be in the fixed component 7 center of rotary cylinder all the time.

It should be understood that the above-mentioned embodiments of the present invention are only examples for clearly illustrating the present invention, and are not intended to limit the embodiments of the present invention, and it will be obvious to those skilled in the art that other variations and modifications can be made on the basis of the above description, and all embodiments cannot be exhaustive, and obvious variations and modifications may be made within the scope of the present invention.

Claims (8)

1. The utility model provides a plate shearing machine hydro-cylinder shell inner chamber turn-milling lathe, includes processing platform (1), its characterized in that: an oil cylinder machining cabin (2) is fixedly installed in the middle of the surface of the upper end of the machining table (1), an oil cylinder feeding channel (5) is formed in one side of the oil cylinder machining cabin (2), two electric sliding rails (6) are fixedly installed on the inner walls of the two sides of the oil cylinder feeding channel (5) respectively, an oil cylinder fixing assembly (7) is installed on each electric sliding rail (6) in a sliding mode, two electric sliding rails (3) are fixedly installed on the surfaces of the two sides of the oil cylinder machining cabin (2) respectively, the outer ends of the electric sliding rails (3) on every two same sides are connected with two movable turning and milling assemblies (4), each movable turning and milling assembly (4) is installed on a turning and milling assembly sliding table (13) in a sliding mode, the turning and milling assembly sliding table (13) is integrally arranged on the surface of the upper end of the machining table (1), an oil cylinder machining hole (8) is formed in the side face of the oil cylinder machining cabin (2), the oil cylinder machining hole (8) is communicated with the oil cylinder feeding channel (5), and two cutting fluid leakage grooves (9) and a cutting fluid collecting tank (10) are formed in the inner side, close to the oil cylinder machining hole (8) of the oil cylinder machining hole (5);

the oil cylinder fixing component (7) comprises: the floating frame structure comprises a fixed frame (701), a floating sliding groove (702), a floating sliding rod (703), a fixed frame upper frame (704), a fixed frame side frame rotating shaft (705), a fixed frame side frame (706), a side frame locking rotating shaft (708), locking nuts (709), a double-end locking screw rod (710), a locking rotating handle (711), a floating top plate (712) and a floating top spring (713), wherein the floating sliding groove (702) is formed in the upper end surface of the fixed frame (701), the floating sliding rod (703) is installed in the floating sliding groove (702) in a sliding manner, the lower end of the floating sliding rod (703) is fixedly connected with the fixed frame upper frame (704) in an integrated manner, two fixed frame side frame rotating shafts (705) are respectively arranged at the lower ends of the fixed frame upper frame (704), four fixed frame side frames (706) are respectively installed at the two ends of the fixed frame side frame rotating shaft (705), the side frame locking nuts (708) are respectively installed at the two ends of the fixed frame side frame rotating shaft (705), the fixed frame side frames (706) are respectively provided with the side frame locking nuts (706) through which are arranged at the same side frames (706), one ends of the double-end locking screws (710), and the floating screw rod (712) is arranged at one end of the floating screw rod (710), the upper end of the floating top plate (712) is provided with a floating top spring (713);

the upper ends of the side frames (706) of the two fixing frames are respectively and fixedly connected with a floating positioning jacking block (707) in an integrated manner.

2. The plate shearing machine cylinder shell inner cavity turn-milling machine tool according to claim 1, characterized in that: processing platform (1) upper end surface just is located turn-milling subassembly slip table (13) both sides and has seted up two cutting fluid collecting tanks (10), two cutting fluid collecting tank (10) one end inner wall rotates respectively and installs two cutting fluid flowing back auger (11), two the equal coaxial fixed connection of cutting fluid flowing back auger (11) one end is on the output shaft of auger driving motor (12), auger driving motor (12) fixed mounting is at processing platform (1) side surface.

3. The plate shearing machine cylinder shell inner cavity turn-milling machine tool according to claim 2, characterized in that: processing platform (1) one side just is located auger driving motor (12) another side integration fixedly connected with flowing back spout (14), processing platform (1) lower extreme surface four corners department fixed mounting respectively has four support columns (16), processing platform (1) side just is located hydro-cylinder processing cabin (2) one side and is provided with control panel (17), hydro-cylinder processing cabin (2) upper end is provided with two cutting fluid inlet pipe (15) respectively.

4. The plate shearing machine cylinder shell inner cavity turn-milling machine tool according to claim 3, characterized in that: two screw thread direction of rotation in the locking lock nut (709) is opposite, just the screw thread direction of rotation at double-end locking lead screw (710) both ends is also opposite and corresponds with the screw thread in two locking lock nuts (709).

5. The plate shearing machine cylinder shell inner cavity turn-milling machine tool according to claim 4, characterized in that: the mobile turn-milling assembly (4) comprises: tool bit driving motor mount (401), tool bit driving motor (402), cutting fluid case (403), motor oil blanket (406), tool bit connecting axle (407), cutting fluid case oil blanket (408), turn-milling tool bit (409) and cutting fluid spout (410), fixed mounting has tool bit driving motor (402) on tool bit driving motor mount (401), tool bit driving motor (402) front end fixed surface installs cutting fluid case (403), cutting fluid case (403) internal rotation run through have tool bit connecting axle (407) and with the output shaft coaxial coupling of tool bit driving motor (402), tool bit driving motor (402) front end is provided with motor oil blanket (406), fixed mounting has cutting fluid case oil blanket (408) on cutting fluid case (403) front end inner wall, the coaxial fixedly connected with turn-milling tool bit (409) of tool bit connecting axle (403) front end, two cutting fluid spouts (410) have been seted up in turn-milling tool bit (409).

6. The turning and milling machine tool for the inner cavity of the oil cylinder shell of the plate shearing machine as claimed in claim 5, characterized in that: and the two cutting fluid spray channels (410) are communicated with the inner cavity (405) of the cutting fluid box.

7. The turning and milling machine tool for the inner cavity of the oil cylinder shell of the plate shearing machine as claimed in claim 6, characterized in that: cutting fluid inlet holes (404) are formed in the upper end of the cutting fluid box (403), and the cutting fluid inlet holes (404) are communicated with the cutting fluid inlet pipe (15).

8. The plate shearing machine cylinder shell inner cavity turn-milling machine tool according to claim 7, characterized in that: and the cutter head connecting shaft (407) is fixedly connected with the inner rings of the motor oil seal (406) and the cutting fluid tank oil seal (408).

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