CN112536626A - Machining device for mechanical parts and using method thereof - Google Patents

Abstract

The invention discloses a machining device for a mechanical part and a using method thereof, and relates to the technical field of machining equipment. The invention comprises a lower bottom plate, wherein a first driving motor is fixed at one end of the bottom of the lower bottom plate, and a transmission shaft lever is fixed at the output end of the first driving motor. According to the invention, through the mutual cooperation of the first driving motor, the driving straight gear, the driven gear ring, the upper base plate, the rotating shaft mechanism and the clamping mechanism, when different parts are processed by the device, repeated clamping and disassembly of the parts are not required, reciprocating transportation between different processing devices is avoided, the production efficiency is improved, the production cost is reduced, the time utilization rate is improved, one or more kinds of processing can be carried out on the parts by the device through the mutual cooperation of the processing lifting column platform, the second driving motor, the lifting screw rod, the lifting processing arm, the guide sliding rod and the cutter clamping handle, the purchase cost of the device is reduced, and the maintenance cost of the processing devices is reduced.

Description

Machining device for mechanical parts and using method thereof

Technical Field

The invention belongs to the technical field of machining equipment, and particularly relates to a machining device for a mechanical part and a using method of the machining device.

Background

When processing manufacturing machine structure part, need usually through prepare material, the blanking, rough machining, heat treatment, the finish machining, bore, mill, polish one or more of them step such as, just can process and accomplish a part, however, prior art is when processing the part, need relapse carry out the centre gripping dismantlement to the part, reciprocal transport is between different processing equipment, and production efficiency is reduced, and manufacturing cost has been increased, and time utilization is reduced, and among the prior art, different processing equipment need be purchased to different processing steps, the purchase cost of equipment has been increased, the maintenance cost of processing equipment has been improved.

Disclosure of Invention

The invention aims to provide a machining device for mechanical parts, which solves the existing problems: in the prior art, when parts are machined, the parts need to be repeatedly clamped and disassembled, and are carried between different machining devices in a reciprocating mode, so that the production efficiency is reduced, the production cost is increased, and the time utilization rate is reduced.

In order to solve the technical problems, the invention is realized by the following technical scheme:

the invention relates to a machining device for mechanical parts, which comprises a lower base plate, wherein a first driving motor is fixed at one end of the bottom of the lower base plate, a transmission shaft rod is fixed at the output end of the first driving motor, the lower base plate is rotationally connected with the transmission shaft rod, the top of the outer side of the transmission shaft rod is connected with a driving straight gear through welding, a driven gear ring is assembled on the outer side of the driving straight gear, the top of the driven gear ring is connected with an upper base plate through welding, and a rotating shaft mechanism is assembled between the lower base plate and the upper base plate and positioned on the inner side of the driven gear ring;

the top of the upper bottom plate is uniformly provided with a plurality of clamping mechanisms, the top of the upper bottom plate is fixedly provided with a controller, the first driving motor is electrically connected with the controller through a wire, the bottom of the lower bottom plate is connected with an equipment base station through welding, and four end corners of the bottom of the equipment base station are respectively fixedly provided with a supporting footing;

the rotating shaft mechanism comprises a rotating shaft inner ring, a rotating shaft outer ring and alloy steel balls, the rotating shaft inner ring is connected to the top of the lower bottom plate through welding, the rotating shaft outer ring is connected to the bottom of the upper bottom plate through welding, and the alloy steel balls are assembled between the rotating shaft inner ring and the rotating shaft outer ring;

fixture includes first slide rail, first slider, second slide rail, second slider, centre gripping bottom plate, trapezoidal backup pad, centre gripping lead screw, anchorage bar and part grip block, first slider passes through welded connection in the top of upper plate, first slide rail passes through sliding connection in the outside of first slider, the second slide rail passes through welded connection in the top of first slider, second slider sliding connection in the outside of second slide rail, the centre gripping bottom plate passes through welded connection in the top of second slider, trapezoidal backup pad passes through welded connection in the top of centre gripping bottom plate, the centre gripping lead screw passes through threaded connection in the inside of trapezoidal backup pad, the anchorage bar passes through sliding connection in the one end of centre gripping lead screw, the part grip block is connected in the other end of anchorage bar through rotating.

Further, the lower base plate is rotatably connected with the transmission shaft rod through a ball bearing.

Further, the driving spur gear and the driven gear ring are connected through meshing.

Further, the model of the controller is SC-200 universal type.

Furthermore, the bottom of the supporting bottom foot is connected with a non-slip mat through bonding, and a plurality of non-slip lines are uniformly distributed at the bottom of the non-slip mat.

Furthermore, a ball guide groove is formed in the outer side of the rotating shaft inner ring, a ball sliding groove is formed in the rotating shaft outer ring, the alloy steel balls are assembled between the ball guide groove and the ball sliding groove, and the rotating shaft inner ring and the rotating shaft outer ring are rotatably connected through the alloy steel balls.

Furthermore, the first slide rail and the first slide block, the second slide rail and the second slide block, the clamping screw rod and the fastening rod, and the clamping screw rod and the part clamping plate are in clearance fit with each other.

Further, the external screw thread section has been seted up in the outside of centre gripping lead screw, the internal thread hole has been seted up to the inside of trapezoidal backup pad, trapezoidal backup pad and centre gripping lead screw carry out threaded connection through internal thread hole and external screw thread section cooperation.

Furthermore, the top of the lower bottom plate and the inner part of the upper bottom plate are connected with a processing lifting column base through welding, a plurality of processing lifting grooves are uniformly distributed on the outer side of the processing lifting column base, a plurality of second driving motors are fixed on the top of the processing lifting column base, the second driving motor is electrically connected with the controller, the output ends of the second driving motors are all fixed with driving bevel gears, the bottom of the driving bevel gear is connected with a driven bevel gear through meshing, a lifting screw rod is fixed inside the driven bevel gear, the lifting screw rod is rotatably connected with the processing lifting column base, the outer side of the lifting screw rod is connected with a lifting processing arm through threads, one side inside the lifting processing arm is slidably connected with two guide slide rods, and the two guide slide bars are connected with the processing lifting column base in a welding manner, and the other side of the bottom of the lifting processing arm is provided with a cutter clamping handle.

A use method of a machining device of a mechanical part comprises the following steps:

s1: electrically connecting the device with an external power supply, and respectively assembling different machining tools in the tool clamping handle;

s2: placing a part to be processed on the top of the clamping bottom plate, rotating the fastening rod, and clamping and fixing the part;

s3: pushing the clamping bottom plate to enable the part to be located below the machining tool;

s4: the second driving motor is started through the controller, so that the lifting screw rod drives the cutter assembled in the cutter clamping handle to move, and further, the part is processed in the first procedure;

s5: starting a first driving motor through a controller to enable a part clamping plate to rotate so as to drive the part which is processed in the first procedure to rotate;

s6: when the part rotates to the lower part of the second machining tool, the first driving motor is closed through the controller, the second driving motor is started through the controller, the part is machined in the second procedure, and the operation is repeated.

The invention has the following beneficial effects:

1. according to the invention, through the mutual matching among the first driving motor, the driving straight gear, the driven gear ring, the upper base plate, the rotating shaft mechanism and the clamping mechanism, when the device is used for carrying out different processing on parts, the parts do not need to be repeatedly clamped and disassembled, the reciprocating transportation between different processing devices is avoided, the production efficiency is improved, the production cost is reduced, and the time utilization rate is improved.

2. According to the invention, through the mutual cooperation among the processing lifting column base, the second driving motor, the lifting screw rod, the lifting processing arm, the guide slide rod and the cutter clamping handle, the device can be used for processing one or more parts, so that the purchase cost of equipment is reduced, and the maintenance cost of the processing equipment is reduced.

Of course, it is not necessary for any product in which the invention is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic structural view of the present invention as a whole;

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

FIG. 3 is an enlarged schematic view at A in FIG. 2;

FIG. 4 is a front view of the overall structure of the present invention;

FIG. 5 is an enlarged schematic view at B in FIG. 4;

FIG. 6 is a sectional view showing the structure of the spindle mechanism;

FIG. 7 is a schematic structural view of a clamping mechanism;

fig. 8 is an exploded view of the structure of the clamping mechanism.

In the drawings, the components represented by the respective reference numerals are listed below:

1. a lower base plate; 2. a first drive motor; 3. a drive shaft; 4. a driving spur gear; 5. a driven gear ring; 6. an upper base plate; 7. a rotating shaft mechanism; 8. a clamping mechanism; 9. a controller; 10. an equipment base station; 11. supporting feet; 12. processing a lifting column base; 13. a second drive motor; 14. a driving bevel gear; 15. a driven bevel gear; 16. a lifting screw rod; 17. lifting the processing arm; 18. a guide slide bar; 19. a tool clamping shank; 20. an inner ring of the rotating shaft; 21. an outer ring of the rotating shaft; 22. alloy steel balls; 23. a first slide rail; 24. a first slider; 25. a second slide rail; 26. a second slider; 27. clamping the bottom plate; 28. a trapezoidal support plate; 29. clamping a screw rod; 30. a fastening rod; 31. a part holding 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.

The first embodiment is as follows:

referring to fig. 1-8, the present invention is a machining apparatus for machine parts, including a lower plate 1, a first driving motor 2 is fixed at one end of the bottom of the lower plate 1, a transmission shaft 3 is fixed at an output end of the first driving motor 2, the lower plate 1 and the transmission shaft 3 are rotatably connected through a ball bearing, a driving spur gear 4 is connected to the top of the outer side of the transmission shaft 3 through welding, a driven gear ring 5 is connected to the outer side of the driving spur gear 4 through meshing, an upper plate 6 is connected to the top of the driven gear ring 5 through welding, and a rotating shaft mechanism 7 is assembled between the lower plate 1 and the upper plate 6 and located inside the driven gear ring 5;

the top of the upper base plate 6 is uniformly provided with a plurality of clamping mechanisms 8, the top of the upper base plate 6 is fixed with a controller 9, the first driving motor 2 is electrically connected with the controller 9 through a wire, the controller 9 can control the first driving motor 2 to operate, the bottom of the lower base plate 1 is connected with an equipment base station 10 through welding, and four end corners of the bottom of the equipment base station 10 are all fixed with supporting feet 11;

the controller 9 is SC-200 universal type, is the existing mature technology, and has good control effect;

the bottom of the supporting foot 11 is connected with a non-slip mat through bonding, and a plurality of non-slip lines are uniformly distributed on the bottom of the non-slip mat;

the rotating shaft mechanism 7 comprises a rotating shaft inner ring 20, a rotating shaft outer ring 21 and alloy steel balls 22, the rotating shaft inner ring 20 is connected to the top of the lower base plate 1 through welding, the rotating shaft outer ring 21 is connected to the bottom of the upper base plate 6 through welding, and the alloy steel balls 22 are assembled between the rotating shaft inner ring 20 and the rotating shaft outer ring 21;

here, the outer side of the rotating shaft inner ring 20 is provided with a ball guide groove, the inner side of the rotating shaft outer ring 21 is provided with a ball slide groove, the alloy steel balls 22 are assembled between the ball guide groove and the ball slide groove, and the rotating shaft inner ring 20 and the rotating shaft outer ring 21 are rotatably connected through the alloy steel balls 22;

the clamping mechanism 8 comprises a first slide rail 23, a first slide block 24, a second slide rail 25, a second slide block 26, a clamping bottom plate 27, a trapezoidal support plate 28, a clamping screw 29, a fastening rod 30 and a part clamping plate 31, wherein the first slide block 24 is connected to the top of the upper bottom plate 6 through welding, the first slide rail 23 is connected to the outer side of the first slide block 24 through sliding, the second slide rail 25 is connected to the top of the first slide block 24 through welding, the second slide block 26 is connected to the outer side of the second slide rail 25 through sliding, the clamping bottom plate 27 is connected to the top of the second slide block 26 through welding, the trapezoidal support plate 28 is connected to the top of the clamping bottom plate 27 through welding, the clamping screw 29 is connected to the inner part of the trapezoidal support plate 28 through threads, the fastening rod 30 is connected to one end of the clamping screw 29 through sliding, and the part;

here, the first slide rail 23 and the first slide block 24, the second slide rail 25 and the second slide block 26, the clamping screw 29 and the fastening rod 30, and the clamping screw 29 and the part clamping plate 31 are in clearance fit;

here, the outer side of the clamping screw 29 is provided with an external thread section, the inner part of the trapezoidal support plate 28 is provided with an internal thread hole, and the trapezoidal support plate 28 and the clamping screw 29 are in threaded connection through the matching of the internal thread hole and the external thread section;

the top of the lower bottom plate 1 and the inner part of the upper bottom plate 6 are connected with a processing lifting column 12 through welding, a plurality of processing lifting grooves are uniformly distributed on the outer side of the processing lifting column 12, a plurality of second driving motors 13 are fixed on the top of the processing lifting column 12, the second driving motors 13 are electrically connected with a controller 9, the controller 9 can control the second driving motors 13 to run, driving bevel gears 14 are fixed on the output ends of the second driving motors 13, the bottom of the driving bevel gears 14 are connected with driven bevel gears 15 through meshing, lifting lead screws 16 are fixed in the driven bevel gears 15, the lifting lead screws 16 are rotatably connected with the processing lifting column 12, a lifting processing arm 17 is connected with the outer side of the lifting lead screws 16 through threads, two guide slide rods 18 are slidably connected to one side of the inner part of the lifting processing arm 17, and the two guide slide rods 18 are connected with the processing lifting column 12 through welding, the other side of the bottom of the lift arm 17 is fitted with a tool holding shank 19.

Example two:

on the basis of the first embodiment, the application method of the machining device for the mechanical part is disclosed, and the application method comprises the following steps:

the first step is as follows: the device is electrically connected with an external power supply, and different processing tools are respectively assembled inside the tool clamping handle 19, so that the device can process parts with different contents;

the second step is that: placing a part to be processed on the top of the clamping bottom plate 27, rotating the fastening rod 30, enabling the fastening rod 30 to drive the clamping screw 29 to rotate through the sliding connection of the clamping screw 29 and the fastening rod 30, enabling the trapezoidal support plate 28 to drive the clamping screw 29 to move through the threaded connection of the clamping screw 29 and the trapezoidal support plate 28, and enabling the clamping screw 29 to drive the part clamping plate 31 to move through the rotating connection of the clamping screw 29 and the part clamping plate 31 to further clamp and fix the part;

the third step: pushing the clamping bottom plate 27 to enable the clamping bottom plate 27 to drive the part to move, and further enabling the part to be located below the machining tool;

the fourth step: the second driving motor 13 is started through the controller 9, so that the output end of the second driving motor 13 rotates, the second driving motor 13 drives the driving bevel gear 14 to rotate through the fixed connection of the second driving motor 13 and the driving bevel gear 14, the driving bevel gear 14 drives the driven bevel gear 15 to rotate through the meshed connection of the driving bevel gear 14 and the driven bevel gear 15, the driven bevel gear 15 drives the lifting screw rod 16 to rotate through the fixed connection of the driven bevel gear 15 and the lifting screw rod 16, the lifting screw rod 16 drives the lifting processing arm 17 to move through the threaded connection of the lifting screw rod 16 and the lifting processing arm 17, the lifting screw rod 16 further drives the cutter assembled inside the cutter clamping handle 19 to move, and further, the part is processed in the first process;

the fifth step: after the first process is finished, the first driving motor 2 is started through the controller 9, so that the output end of the first driving motor 2 rotates, the first driving motor 2 is enabled to drive the transmission shaft lever 3 to rotate through the fixed connection between the first driving motor 2 and the transmission shaft lever 3, the transmission shaft lever 3 is enabled to drive the driving straight gear 4 to rotate through the fixed connection between the transmission shaft lever 3 and the driving straight gear 4, the driving straight gear 4 is enabled to drive the driven gear ring 5 to rotate through the meshed connection between the driving straight gear 4 and the driven gear ring 5, the driven gear ring 5 is enabled to drive the upper base plate 6 to rotate through the welded connection between the driven gear ring 5 and the upper base plate 6, the upper base plate 6 is enabled to drive the first slide rail 23 to rotate through the welded connection between the upper base plate 6 and the first slide rail 23, and the first slide rail 23 is enabled to drive the first slide block 24 to rotate through the sliding connection between the first slide rail 23 and, the first slide block 24 drives the second slide rail 25 to rotate through the welded connection of the first slide block 24 and the second slide rail 25, the second slide rail 25 drives the second slide block 26 to rotate through the sliding connection of the second slide rail 25 and the second slide block 26, the second slide block 26 drives the clamping bottom plate 27 to rotate through the welded connection of the second slide block 26 and the clamping bottom plate 27, the clamping bottom plate 27 drives the trapezoidal support plate 28 to rotate through the welded connection of the clamping bottom plate 27 and the trapezoidal support plate 28, the trapezoidal support plate 28 drives the clamping screw rod 29 to rotate through the threaded connection of the trapezoidal support plate 28 and the clamping screw rod 29, and the clamping screw rod 29 drives the part clamping plate 31 to rotate through the rotating connection of the clamping screw rod 29 and the part clamping plate 31, so that the part processed by the first process is driven to rotate;

and a sixth step: when a part rotates below a second machining tool, the first driving motor 2 is closed through the controller 9, the second driving motor 13 is started through the controller 9, the output end of the second driving motor 13 rotates, the second driving motor 13 drives the driving bevel gear 14 to rotate through the fixed connection between the second driving motor 13 and the driving bevel gear 14, the driving bevel gear 14 drives the driven bevel gear 15 to rotate through the meshed connection between the driving bevel gear 14 and the driven bevel gear 15, the driven bevel gear 15 drives the lifting screw rod 16 to rotate through the fixed connection between the driven bevel gear 15 and the lifting screw rod 16, the lifting screw rod 16 drives the lifting machining arm 17 to move through the threaded connection between the lifting screw rod 16 and the lifting machining arm 17, the lifting screw rod 16 further drives a tool assembled inside the tool clamping handle 19 to move, and further the part is machined in a second process, so reciprocal, when can avoiding processing the part, the repeated centre gripping dismantlement of carrying out the part, avoid carrying the part reciprocal between the processing equipment of difference, improved production efficiency, reduced manufacturing cost, reduced the acquisition cost and the dimension cost of processing equipment simultaneously.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The preferred embodiments of the invention disclosed above are intended to be illustrative only. The preferred embodiments are not intended to be exhaustive or to limit the invention to the precise embodiments disclosed. Obviously, many modifications and variations are possible in light of the above teaching. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, to thereby enable others skilled in the art to best utilize the invention. The invention is limited only by the claims and their full scope and equivalents.

Claims (10)

1. The utility model provides a machine part's processingequipment, includes lower plate (1), its characterized in that: a first driving motor (2) is fixed at one end of the bottom of the lower base plate (1), a transmission shaft rod (3) is fixed at the output end of the first driving motor (2), the lower base plate (1) is rotatably connected with the transmission shaft rod (3), a driving straight gear (4) is connected to the top of the outer side of the transmission shaft rod (3) through welding, a driven gear ring (5) is assembled on the outer side of the driving straight gear (4), an upper base plate (6) is connected to the top of the driven gear ring (5) through welding, and a rotating shaft mechanism (7) is assembled between the lower base plate (1) and the upper base plate (6) and located on the inner side of the driven gear ring (5);

the top of the upper bottom plate (6) is uniformly provided with a plurality of clamping mechanisms (8), the top of the upper bottom plate (6) is fixedly provided with a controller (9), the first driving motor (2) is electrically connected with the controller (9) through a wire, the bottom of the lower bottom plate (1) is connected with an equipment base station (10) through welding, and four end corners of the bottom of the equipment base station (10) are fixedly provided with supporting bottom feet (11);

the rotating shaft mechanism (7) comprises a rotating shaft inner ring (20), a rotating shaft outer ring (21) and alloy steel balls (22), the rotating shaft inner ring (20) is connected to the top of the lower base plate (1) through welding, the rotating shaft outer ring (21) is connected to the bottom of the upper base plate (6) through welding, and the alloy steel balls (22) are assembled between the rotating shaft inner ring (20) and the rotating shaft outer ring (21);

the clamping mechanism (8) comprises a first slide rail (23), a first slide block (24), a second slide rail (25), a second slide block (26), a clamping bottom plate (27), a trapezoid supporting plate (28), a clamping screw rod (29), a fastening rod (30) and a part clamping plate (31), the first slide block (24) is connected to the top of the upper bottom plate (6) through welding, the first slide rail (23) is connected to the outer side of the first slide block (24) through sliding, the second slide rail (25) is connected to the top of the first slide block (24) through welding, the second slide block (26) is connected to the outer side of the second slide rail (25) through sliding, the clamping bottom plate (27) is connected to the top of the second slide block (26) through welding, the trapezoid supporting plate (28) is connected to the top of the clamping bottom plate (27) through welding, the clamping screw rod (29) is connected to the inner portion of the trapezoid supporting plate (28) through threads, the fastening rod (30) is connected to one end of the clamping screw rod (29) in a sliding mode, and the part clamping plate (31) is connected to the other end of the fastening rod (30) in a rotating mode.

2. A machine part machining device according to claim 1, characterised in that the lower base plate (1) and the transmission shaft (3) are rotationally connected by means of ball bearings.

3. A machine part machining device according to claim 1, characterized in that the driving spur gear (4) and the driven ring gear (5) are connected by meshing.

4. A machine part machining device according to claim 1, characterized in that the controller (9) is of the SC-200 universal type.

5. The machining device of mechanical parts according to claim 1, characterized in that the bottom of the supporting feet (11) is connected with a non-slip mat through bonding, and the bottom of the non-slip mat is uniformly provided with a plurality of non-slip lines.

6. The machining device of the mechanical part as claimed in claim 1, wherein a ball guide groove is formed on an outer side of the rotating shaft inner ring (20), a ball slide groove is formed in an inner portion of the rotating shaft outer ring (21), the alloy steel balls (22) are assembled between the ball guide groove and the ball slide groove, and the rotating shaft inner ring (20) and the rotating shaft outer ring (21) are rotatably connected through the alloy steel balls (22).

7. The machine part machining device according to claim 1, wherein the first slide rail (23) and the first slide block (24), the second slide rail (25) and the second slide block (26), the clamping screw (29) and the fastening rod (30), and the clamping screw (29) and the part clamping plate (31) are in clearance fit with each other.

8. The machining device for the mechanical part as claimed in claim 1, wherein the clamping screw rod (29) is externally threaded, the trapezoidal support plate (28) is internally threaded, and the trapezoidal support plate (28) and the clamping screw rod (29) are in threaded connection through the matching of the internally threaded hole and the externally threaded section.

9. The machine part machining device according to claim 1, wherein a machining lifting column (12) is connected to the top of the lower base plate (1) and located inside the upper base plate (6) through welding, a plurality of machining lifting grooves are uniformly formed in the outer side of the machining lifting column (12), a plurality of second driving motors (13) are fixed to the top of the machining lifting column (12), the second driving motors (13) are electrically connected with the controller (9), driving bevel gears (14) are fixed to output ends of the second driving motors (13), the bottoms of the driving bevel gears (14) are connected with driven bevel gears (15) through meshing, lifting screw rods (16) are fixed to the insides of the driven bevel gears (15), the lifting screw rods (16) are rotatably connected with the machining lifting column (16), and lifting machining arms (17) are connected to the outer sides of the lifting screw rods (16) through threads, inside one side sliding connection of lift processing arm (17) has two direction slide bars (18), and two direction slide bar (18) and processing lift stylobate (12) welded connection, the opposite side of lift processing arm (17) bottom is equipped with cutter centre gripping handle (19).

10. A method of using a machine part machining apparatus for a machine part according to any one of claims 1 to 9, characterized by the steps of:

s1: the device is electrically connected with an external power supply, and different processing tools are respectively assembled inside a tool clamping handle (19);

s2: placing a part to be processed on the top of the clamping bottom plate (27), rotating the fastening rod (30), and clamping and fixing the part;

s3: pushing the clamping base plate (27) so that the part is positioned below the machining tool;

s4: a second driving motor (13) is started through a controller (9), so that a lifting screw rod (16) drives a cutter assembled in a cutter clamping handle (19) to move, and further, the part is processed in a first procedure;

s5: the controller (9) starts the first driving motor (2) to enable the part clamping plate (31) to rotate, and further drives the part which is processed in the first procedure to rotate;

s6: when the part rotates to the lower part of the second machining tool, the first driving motor (2) is turned off through the controller (9), the second driving motor (13) is started through the controller (9), and the part is machined in the second procedure in a reciprocating mode.

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