CN115709391A

CN115709391A - Cutting device and method for machining flange based on wind power

Info

Publication number: CN115709391A
Application number: CN202211562002.0A
Authority: CN
Inventors: 胡大为; 闫志龙; 樊璟赟; 郭振华; 郝军伟; 张博丹; 张雁玲
Original assignee: Shanxi Tianbao Group Co ltd
Current assignee: Shanxi Tianbao Group Co ltd
Priority date: 2022-12-07
Filing date: 2022-12-07
Publication date: 2023-02-24

Abstract

The invention discloses a cutting device for processing a wind power flange and a method thereof based on the field of wind power flange processing, and the cutting device comprises a base, wherein a fixed column is fixedly installed at the top of the base, a horizontal rail is fixedly installed at the top end of the fixed column, the base is vertical to the fixed column, the base is parallel to the horizontal rail, and a first motor is fixedly installed at the right end of the horizontal rail.

Description

Cutting device and method for machining flange based on wind power

Technical Field

The invention relates to the field of wind power flange machining, in particular to a cutting device and a cutting method based on wind power flange machining.

Background

The wind power flange is a structural member for connecting each section of a tower drum or the tower drum and a hub, and the hub and the blades, is usually connected by bolts, is a part specially used for wind power generation, and is used for connection between the tower drums.

At present, when the cutting device for the partial wind power flange is used, cuttings cut by a cutter are in various shapes, some cuttings are in a needle shape or small pieces and splash everywhere, and are easily clamped between the turntable and the base.

Disclosure of Invention

The invention aims to provide a cutting device and a cutting method for processing a wind power-based flange, which are used for solving the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme:

the utility model provides a cutting device and method for processing based on wind-powered electricity generation flange, includes the base, the top fixed mounting of base has the fixed column, the top fixed mounting of fixed column has horizontal track, and the base is perpendicular with the fixed column, and the base is parallel with horizontal track, horizontal orbital right-hand member fixed mounting has first motor, first threaded rod is installed to the output of first motor, first slider has been cup jointed to the outside screw thread of first threaded rod, and first slider is located horizontal orbital inboard, and first slider and horizontal track slidable mounting, the inboard rotation of base is installed and is changeed the carousel, the top of carousel is provided with the work piece body, the interior diapire of base rotates installs the axis of rotation, the top of axis of rotation and the bottom fixed mounting of carousel.

As a further scheme of the invention: the left side fixed mounting of first slider has vertical track, vertical orbital top fixed mounting has the second motor, the scroll bar is installed to the output of second motor, vertical orbital inboard is rotated and is installed the second threaded rod, the top fixed mounting of second threaded rod has the turbine, the outside screw thread of second threaded rod has cup jointed the second slider, the left side fixed mounting of second slider has the slide bar, the bottom fixed mounting of slide bar has the cutter board.

As a still further scheme of the invention: the worm is connected with the worm wheel in a matched and meshed mode, the sliding rod is located on the inner side of the vertical track, and the sliding rod is installed with the vertical track in a sliding mode.

As a still further scheme of the invention: the outer disc fixed surface of carousel installs check and keeps off the ring, the inside wall fixed mounting of carousel has annular rack, the interior diapire fixed mounting of base has the third motor, the gear is installed to the output of third motor, the last fixed surface of carousel installs six fixing bases, fixing base and this body contact of work piece, the inboard slidable mounting of fixing base has the fly leaf, the last fixed surface of fly leaf installs the kicking block, kicking block and this body contact of work piece, the lower fixed surface of fly leaf installs the connecting rod, the bottom fixed mounting of carousel has six electric telescopic handle.

As a still further scheme of the invention: the gear and the annular rack are provided with matched teeth, the gear is meshed with the annular rack and connected, and the output end of the electric telescopic rod is fixedly installed with the connecting rod.

As a still further scheme of the invention: an operation method based on a cutting device for machining a wind power flange is disclosed, and the operation method of the device comprises the following steps:

the method comprises the following steps: the method comprises the following steps that (1) a workpiece is installed, wherein the initial position of an ejector block is located at the central position of a fixed seat, firstly, an operator controls an electric telescopic rod to contract to drive a connecting rod and a movable plate to move towards the direction close to a rotating shaft, so that the ejector block moves to one end, close to the rotating shaft, of the fixed seat, then the operator lifts a workpiece body through a lifting appliance and places the workpiece body on the top of the fixed seat above a rotary table, then the operator controls the electric telescopic rod to extend to drive the connecting rod and the movable plate to move outwards along the fixed seat, so that the movable plate can drive the ejector block to position and fix the workpiece body, and the initial position of a cutter plate is located at the rightmost end of a horizontal track;

step two: the outer diameter machining method comprises the following steps that an operator drives a first sliding block to slide along the inner side of a horizontal rail by controlling a first motor to rotate in the forward direction, the first sliding block drives a vertical rail to move towards the left end of the horizontal rail and move to the top end of the outer diameter of a workpiece body, then a worm can be driven to rotate by controlling a second motor to drive a worm wheel and a second threaded rod to rotate, the second threaded rod can drive the second sliding block and a sliding rod to vertically move downwards along the vertical rail by rotating, so that the outer diameter machining and cutting operation of a cutter plate at the bottom of the sliding rod and the workpiece body can be controlled, and the cutter plate is reset to an initial position after machining is finished;

step three: the top processing, an operator drives a first sliding block to slide along the inner side of a horizontal track by controlling a first motor to rotate in the forward direction, the first sliding block drives a vertical track to move towards the left end direction of the horizontal track and move to the top of a workpiece body, then a worm can be driven to rotate by controlling a second motor to drive a worm wheel and a second threaded rod to rotate, the second threaded rod can drive the second sliding block and a sliding rod to vertically move downwards along the vertical track by rotating, so that the processing and cutting operation of the cutter plate at the bottom of the sliding rod and the upper surface of the workpiece body can be controlled, and the cutter plate is reset to an initial position after processing;

step four: the inner diameter machining comprises the steps that firstly, an operator lifts a workpiece body through a lifting appliance, then the operator controls an electric telescopic rod to extend to drive a connecting rod and a movable plate to move towards a direction far away from a rotating shaft, so that a top block moves to one end, far away from the rotating shaft, of a fixed seat, then the operator places the lifted workpiece body on the top of the fixed seat above a rotary table through the lifting appliance, then the operator controls the electric telescopic rod to contract to drive the connecting rod and the movable plate to move inwards along the fixed seat, so that the movable plate can drive the top block to position and fix the workpiece body, otherwise, the operator moves a cutter plate to the inner diameter position of the workpiece body, the inner diameter machining and cutting operation of the workpiece body can be carried out, and the cutter plate is reset to the initial position after machining is finished;

step five: and (4) processing the bottom, namely, after the processing is finished, an operator reversely takes down the workpiece body by the operation of the step one, and then the bottom surface of the workpiece body is processed and cut.

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

when the device is used, an operator controls the electric telescopic rod to contract to drive the connecting rod and the movable plate to move towards the direction close to the rotating shaft, so that the top block moves to one end, close to the rotating shaft, of the fixed seat, then the operator lifts the workpiece body through the lifting appliance and places the workpiece body on the top of the fixed seat above the rotary table, then the operator controls the electric telescopic rod to extend to drive the connecting rod and the movable plate to move outwards along the fixed seat, and therefore the movable plate can drive the top block to position and fix the workpiece body, and at the moment, the initial position of the cutter plate is located at the rightmost end position of the horizontal track; an operator can drive a first sliding block to slide along the inner side of a horizontal rail by controlling the forward rotation of a first motor, the first sliding block drives a vertical rail to move towards the left end direction of the horizontal rail and move to the top end of the outer diameter of a workpiece body, then a worm can be driven to rotate by controlling a second motor so as to drive a turbine and a second threaded rod to rotate, the second threaded rod can drive the second sliding block and a sliding rod to vertically move downwards along the vertical rail, so that the outer diameter machining and cutting operation of a cutter plate at the bottom of the sliding rod and the workpiece body can be controlled, the operator can drive the first sliding block to slide along the inner side of the horizontal rail by controlling the forward rotation of the first motor in the same way, the first sliding block drives the vertical rail to move towards the left end direction of the horizontal rail and move to the upper side of the workpiece body, the cutter plate can be driven by controlling the downward movement of the sliding rod, and the machining and cutting operation of the cutter plate at the bottom of the sliding rod and the top of the workpiece body can be controlled; similarly, only need to change the clamping position of kicking block can, adjust the external diameter position of work piece body with the kicking block and fix and can cut the internal diameter of work piece body and have worked, similarly, overturn the upper and lower face of hoisting the work piece body, fix a position and fix the work piece body internal diameter through the kicking block, just can cut the bottom of work piece body and work, this device is adding man-hour, the accessible check ring separates the fender to the smear metal, avoid the smear metal to fall and cause the card pause phenomenon between carousel and the base, and then improve this device in use's security, separate the fender to the smear metal through the fly leaf, can block the smear metal and enter into the inside of base from the fixing base, thereby make the carousel can carry out stable rotation operation, this device clamping work piece is simple convenient, need not that the operator consumes a large amount of energy to carry out centering and fixing to the work piece, reduce operator's operating procedure, thereby can improve operator's work efficiency.

Drawings

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

FIG. 2 is a schematic bottom sectional view of the base of the present invention;

FIG. 3 is a schematic side sectional view of a base according to the present invention;

FIG. 4 is a schematic view of a vertical rail of the present invention in partial cross-section;

fig. 5 is a schematic diagram of the present invention.

In the figure: 1. a base; 2. fixing a column; 3. a horizontal rail; 4. a first motor; 5. a first threaded rod; 6. a first slider; 7. a vertical track; 8. a slide bar; 9. a cutter plate; 10. a top block; 11. a second motor; 12. a scroll bar; 13. a second threaded rod; 14. a turbine; 15. a second slider; 16. a turntable; 17. a check ring; 18. a fixed seat; 19. a workpiece body; 20. a third motor; 21. a gear; 22. an annular rack; 23. a rotating shaft; 24. an electric telescopic rod; 25. a connecting rod; 26. a movable plate.

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.

Referring to fig. 1 to 5, in the embodiment of the present invention, a cutting device for processing a flange based on wind power and a method thereof include a base 1, a fixed column 2 is fixedly installed at the top of the base 1, a horizontal rail 3 is fixedly installed at the top end of the fixed column 2, the base 1 is perpendicular to the fixed column 2, the base 1 is parallel to the horizontal rail 3, a first motor 4 is fixedly installed at the right end of the horizontal rail 3, a first threaded rod 5 is installed at the output end of the first motor 4, a first slider 6 is threadedly sleeved on the outer side of the first threaded rod 5, the first slider 6 is located on the inner side of the horizontal rail 3, the first slider 6 is slidably installed with the horizontal rail 3, the first slider 6 can be driven to slide along the inner side of the horizontal rail 3 by controlling the rotation of the first motor 4, the first slider 6 drives a vertical rail 7 to move to a corresponding position above a workpiece body 19, then the cutter plate 9 is driven by controlling the downward movement of a sliding rod 8, the cutter plate 9 at the bottom of the sliding rod 8 can be controlled to perform cutting operation with the corresponding processing position of the workpiece body 19, a rotary shaft 16 is rotatably installed on the base 1, and a rotary shaft 23 of the rotary table 16 is stably installed above the rotary table 16, so that the rotary shaft 23 of the rotary table 16 can perform stable operation of the rotary table 16.

The left side of the first sliding block 6 is fixedly provided with a vertical rail 7, the top of the vertical rail 7 is fixedly provided with a second motor 11, the output end of the second motor 11 is provided with a worm 12, the inner side of the vertical rail 7 is rotatably provided with a second threaded rod 13, the top end of the second threaded rod 13 is fixedly provided with a turbine 14, the outer side of the second threaded rod 13 is in threaded sleeve connection with a second sliding block 15, the left side of the second sliding block 15 is fixedly provided with a sliding rod 8, and the bottom end of the sliding rod 8 is fixedly provided with a cutter plate 9; the worm wheel 12 is in fit engagement connection with the worm wheel 14, the sliding rod 8 is located on the inner side of the vertical track 7, the sliding rod 8 and the vertical track 7 are installed in a sliding mode, the worm wheel 12 can be driven to rotate by controlling the second motor 11 to drive the worm wheel 14 and the second threaded rod 13 to rotate, the second threaded rod 13 can drive the second sliding block 15 and the sliding rod 8 to vertically move downwards along the vertical track 7 through rotating, and therefore machining and cutting operations can be conducted on the corresponding positions of the cutter plate 9 at the bottom of the sliding rod 8 and the workpiece body 19;

a check ring 17 is fixedly mounted on the outer circular surface of the rotary table 16, an annular rack 22 is fixedly mounted on the inner side wall of the rotary table 16, a third motor 20 is fixedly mounted on the inner bottom wall of the base 1, a gear 21 is mounted at the output end of the third motor 20, six fixed seats 18 are fixedly mounted on the upper surface of the rotary table 16, the fixed seats 18 are in contact with a workpiece body 19, a movable plate 26 is slidably mounted on the inner side of the fixed seats 18, a top block 10 is fixedly mounted on the upper surface of the movable plate 26, the top block 10 is in contact with the workpiece body 19, a connecting rod 25 is fixedly mounted on the lower surface of the movable plate 26, and six electric telescopic rods 24 are fixedly mounted at the bottom of the rotary table 16; the gear 21 and the annular rack 22 are provided with the matched teeth, the gear 21 is meshed with the annular rack 22 and connected with the same, the output end of the electric telescopic rod 24 is fixedly mounted with the connecting rod 25, chips are prevented from falling between the rotary table 16 and the base 1 to cause a blocking phenomenon through the blocking of the blocking ring 17, so that the safety of the device in use is further improved, the chips can be prevented from entering the base 1 from the fixed seat 18 through the blocking of the movable plate 26, and the rotary table 16 can perform stable rotation operation;

the operation method of the device comprises the following steps:

the method comprises the following steps: firstly, an operator controls an electric telescopic rod 24 to contract to drive a connecting rod 25 and a movable plate 26 to move towards a direction close to a rotating shaft 23, so that the top block 10 moves to one end, close to the rotating shaft 23, of the fixed seat 18, then the operator lifts the workpiece body 19 by a lifting appliance and puts the workpiece body 19 on the top of the fixed seat 18 above the turntable 16, then the operator controls the electric telescopic rod 24 to extend to drive the connecting rod 25 and the movable plate 26 to move outwards along the fixed seat 18, so that the movable plate 26 drives the top block 10 to position and fix the workpiece body 19, and at the moment, the initial position of the cutter plate 9 is located at the rightmost end position of the horizontal rail 3;

step two: the outer diameter machining method comprises the following steps that (1) outer diameter machining is carried out, an operator controls a first motor 4 to rotate in the forward direction to drive a first sliding block 6 to slide along the inner side of a horizontal rail 3, the first sliding block 6 drives a vertical rail 7 to move towards the left end of the horizontal rail 3 and move to the top end of the outer diameter of a workpiece body 19, then controls a second motor 11 to drive a worm rod 12 to rotate to drive a turbine 14 and a second threaded rod 13 to rotate, the second threaded rod 13 rotates to drive a second sliding block 15 and a sliding rod 8 to move vertically and downwards along the vertical rail 7, so that the outer diameter machining and cutting operations of a cutter plate 9 at the bottom of the sliding rod 8 and the workpiece body 19 can be controlled, and the cutter plate 9 is reset to an initial position after machining is finished;

step three: top processing, wherein an operator drives a first sliding block 6 to slide along the inner side of a horizontal rail 3 by controlling the forward rotation of a first motor 4, the first sliding block 6 drives a vertical rail 7 to move towards the left end direction of the horizontal rail 3 and move to the top of a workpiece body 19, then the operator can drive a worm 12 to rotate by controlling a second motor 11 to drive a turbine 14 and a second threaded rod 13 to rotate, the second threaded rod 13 can drive a second sliding block 15 and a sliding rod 8 to vertically move downwards along the vertical rail 7 by rotating to control the cutting operation of the cutter plate 9 at the bottom of the sliding rod 8 and the upper surface of the workpiece body 19, and the cutter plate 9 is reset to an initial position after processing;

step four: firstly, an operator lifts the workpiece body 19 by a lifting appliance, then the operator drives the connecting rod 25 and the movable plate 26 to move in the direction away from the rotating shaft 23 by controlling the electric telescopic rod 24 to extend, so that the top block 10 moves to one end of the fixed seat 18 away from the rotating shaft 23, then the operator places the lifted workpiece body 19 on the top of the fixed seat 18 above the turntable 16 by the lifting appliance, then the operator drives the connecting rod 25 and the movable plate 26 to move inwards along the fixed seat 18 by controlling the electric telescopic rod 24 to contract, so that the movable plate 26 drives the top block 10 to position and fix the workpiece body 19, otherwise, the operator moves the cutter plate 9 to the inner diameter position of the workpiece body 19, the inner diameter machining operation of the workpiece body 19 can be carried out, and the cutter plate 9 is reset to the initial position after the machining is finished;

step five: and (5) bottom machining, wherein after machining is finished, an operator removes the workpiece body 19 by the operation of the first step, and then performs machining and cutting operation on the bottom surface of the workpiece body 19.

In summary, the initial position of the top block 10 is located at the central position of the fixed seat 18, firstly, an operator controls the electric telescopic rod 24 to contract to drive the connecting rod 25 and the movable plate 26 to move towards the direction close to the rotating shaft 23, so that the top block 10 moves to one end of the fixed seat 18 close to the rotating shaft 23, then the operator lifts the workpiece body 19 by the lifting appliance and places the workpiece body 19 on the top of the fixed seat 18 above the turntable 16, and then the operator controls the electric telescopic rod 24 to extend to drive the connecting rod 25 and the movable plate 26 to move outwards along the fixed seat 18, so that the movable plate 26 drives the top block 10 to position and fix the workpiece body 19, and at this time, the initial position of the tool plate 9 is located at the rightmost end position of the horizontal rail 3; an operator controls the first motor 4 to rotate in the forward direction to drive the first sliding block 6 to slide along the inner side of the horizontal rail 3, the first sliding block 6 drives the vertical rail 7 to move towards the left end direction of the horizontal rail 3 and move to the top end of the outer diameter of the workpiece body 19, then controls the second motor 11 to drive the worm 12 to rotate to drive the worm wheel 14 and the second threaded rod 13 to rotate, and the second threaded rod 13 rotates to drive the second sliding block 15 and the sliding rod 8 to vertically move downwards along the vertical rail 7, so that the outer diameter machining and cutting operation of the cutter plate 9 at the bottom of the sliding rod 8 and the workpiece body 19 can be controlled; similarly, an operator controls the first motor 4 to rotate in the forward direction to drive the first sliding block 6 to slide along the inner side of the horizontal rail 3, the first sliding block 6 drives the vertical rail 7 to move towards the left end of the horizontal rail and move above the workpiece body 19, and then the operator can control the cutter plate at the bottom of the sliding rod and the top of the workpiece body to perform machining and cutting operation by controlling the sliding rod 8 to move downwards to drive the cutter plate 9; similarly, only need change the clamping position of kicking block 10 can, adjust the external diameter position of work piece body 19 with kicking block 10 and fix and can cut the internal diameter of work piece body 19 and do the cutting operation, similarly, overturn about lifting work piece body 19, fix and fix work piece body 19 internal diameter through kicking block 10, just can cut the operation to the bottom of work piece body 19, this device is adding man-hour, accessible check keep off ring 17 separates the fender of smear metal, avoid the smear metal to fall to cause the card pause phenomenon between carousel 16 and the base 1, and then improve this device in use's security, separate the fender through fly leaf 26 to the smear metal, can block the inside that the smear metal enters into base 1 from fixing base 18, thereby make carousel 16 can carry out stable rotation operation, this device clamping work piece is simple and convenient, need not that the operator consumes a large amount of energy to carry out centering and fixing to the work piece, reduce operator's operation step, thereby can improve operator's work efficiency.

Finally, it should be noted that: in the description of the present invention, it should be noted that the terms "vertical", "upper", "lower", "horizontal", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, which are only for convenience of description and simplification of the description, and do not indicate or imply that the device or element referred to must have a specific orientation, be constructed in a specific orientation, and operate, and thus, should not be construed as limiting the present invention.

In the description of the present invention, it should also be noted that, unless otherwise explicitly stated or limited, the terms "disposed," "mounted," "connected," and "connected" are to be construed broadly and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood according to specific situations by those of ordinary skill in the art.

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

Claims

1. The utility model provides a cutting device for processing based on wind-powered electricity generation flange, includes base (1), its characterized in that: the workpiece positioning device is characterized in that a fixed column (2) is fixedly mounted at the top of the base (1), a horizontal rail (3) is fixedly mounted at the top end of the fixed column (2), the base (1) is perpendicular to the fixed column (2), the base (1) is parallel to the horizontal rail (3), a first motor (4) is fixedly mounted at the right end of the horizontal rail (3), a first threaded rod (5) is mounted at the output end of the first motor (4), a first sliding block (6) is sleeved on the outer side of the first threaded rod (5) in a threaded manner, the first sliding block (6) is located on the inner side of the horizontal rail (3), the first sliding block (6) is slidably mounted with the horizontal rail (3), a rotary table (16) is rotatably mounted on the inner side of the base (1), a workpiece body (19) is arranged above the rotary table (16), a rotating shaft (23) is rotatably mounted on the inner bottom wall of the base (1), and the top end of the rotating shaft (23) is fixedly mounted with the bottom of the rotary table (16); outer disc fixed mounting of carousel (16) has check to keep off ring (17), the inside wall fixed mounting of carousel (16) has annular rack (22), the interior diapire fixed mounting of base (1) has third motor (20), gear (21) are installed to the output of third motor (20), the last fixed surface of carousel (16) installs six fixing bases (18), fixing base (18) and work piece body (19) contact, the inboard slidable mounting of fixing base (18) has fly leaf (26), the last fixed surface of fly leaf (26) installs kicking block (10), kicking block (10) and work piece body (19) contact, the lower fixed surface of fly leaf (26) installs connecting rod (25), the bottom fixed mounting of carousel (16) has six electric telescopic handle (24).

2. The cutting device for machining the wind power flange according to claim 1, wherein the cutting device comprises: the utility model discloses a cutting tool, including first slider (6), the left side fixed mounting of first slider (6) has vertical track (7), the top fixed mounting of vertical track (7) has second motor (11), scroll bar (12) are installed to the output of second motor (11), the inboard of vertical track (7) is rotated and is installed second threaded rod (13), the top fixed mounting of second threaded rod (13) has turbine (14), second slider (15) have been cup jointed to the outside screw thread of second threaded rod (13), the left side fixed mounting of second slider (15) has slide bar (8), the bottom fixed mounting of slide bar (8) has cutter board (9).

3. The cutting device for machining the wind power flange as claimed in claim 2, wherein the cutting device comprises: the worm rod (12) is in fit engagement connection with the worm wheel (14), the sliding rod (8) is located on the inner side of the vertical track (7), and the sliding rod (8) and the vertical track (7) are installed in a sliding mode.

4. The cutting device for machining the wind power flange according to claim 1, wherein the cutting device comprises: the gear (21) and the annular rack (22) are provided with teeth matched with each other, the gear (21) is meshed with the annular rack (22) to be connected, and the output end of the electric telescopic rod (24) is fixedly installed with the connecting rod (25).

5. The operation method based on the cutting device for the wind power flange machining is characterized by comprising the following steps of: the operation method of the device comprises the following steps:

the method comprises the following steps: an initial position of the ejector block (10) is located at the central position of the fixed seat (18), firstly, an operator controls an electric telescopic rod (24) to contract to drive the connecting rod (25) and the movable plate (26) to move towards the direction close to the rotating shaft (23), so that the ejector block (10) moves to one end, close to the rotating shaft (23), of the fixed seat (18), then the operator lifts the workpiece body (19) through a lifting appliance and puts the workpiece body on the top of the fixed seat (18) above the turntable (16), then the operator controls the electric telescopic rod (24) to extend to drive the connecting rod (25) and the movable plate (26) to move outwards along the fixed seat (18), so that the movable plate (26) drives the ejector block (10) to position and fix the workpiece body (19), and at the moment, the initial position of the cutter plate (9) is located at the rightmost end position of the horizontal rail (3);

step two: the outer diameter machining method comprises the following steps that outer diameter machining is carried out, an operator controls a first motor (4) to rotate in the forward direction to drive a first sliding block (6) to slide along the inner side of a horizontal rail (3), the first sliding block (6) drives a vertical rail (7) to move towards the left end of the horizontal rail (3), the first sliding block moves to the top end of the outer diameter of a workpiece body (19), then a second motor (11) is controlled to drive a worm rod (12) to rotate to drive a turbine (14) and a second threaded rod (13) to rotate, the second threaded rod (13) rotates to drive a second sliding block (15) and a second sliding rod (8) to move vertically downwards along the vertical rail (7), so that the outer diameter machining cutting operation of a cutter plate (9) at the bottom of a sliding rod (8) and the workpiece body (19) can be controlled, and the sliding cutter plate (9) is reset to the initial position after machining is finished;

step three: processing the top, an operator drives a first sliding block (6) to slide along the inner side of a horizontal rail (3) by controlling a first motor (4) to rotate in the forward direction, the first sliding block (6) drives a vertical rail (7) to move towards the left end of the horizontal rail (3) and moves to the top of a workpiece body (19), then a second motor (11) is controlled to drive a worm rod (12) to rotate to drive a turbine (14) and a second threaded rod (13) to rotate, the second threaded rod (13) rotates to drive a second sliding block (15) and a sliding rod (8) to move vertically downwards along the vertical rail (7), so that the processing and cutting operations of the upper surfaces of a cutter plate (9) at the bottom of the sliding rod (8) and the workpiece body (19) can be controlled, and the cutter plate (9) is reset to an initial position after the processing is finished;

step four: firstly, an operator lifts a workpiece body (19) by a lifting appliance, then the operator controls an electric telescopic rod (24) to extend to drive a connecting rod (25) and a movable plate (26) to move towards a direction far away from a rotating shaft (23), so that a top block (10) moves to one end of a fixed seat (18) far away from the rotating shaft (23), then the operator places the lifted workpiece body (19) on the top of the fixed seat (18) above a turntable (16) by the lifting appliance, and then the operator controls the electric telescopic rod (24) to contract to drive the connecting rod (25) and the movable plate (26) to move inwards along the fixed seat (18), so that the movable plate (26) drives the top block (10) to position and fix the workpiece body (19), otherwise, the operator moves a cutter plate (9) to the position of the inner diameter of the workpiece body (19), so that the inner diameter of the workpiece body (19) can be machined and the cutter plate (9) is reset to an initial position after machining is finished;

step five: and (4) bottom machining, wherein after machining is finished, an operator reversely removes the workpiece body (19) through the operation of the step one, and then machining and cutting the bottom surface of the workpiece body (19).