CN212495832U - Three-dimensional shape-modifying device for copper pole logarithmic curve - Google Patents

Abstract

The utility model relates to a three-dimensional shape correcting device for a logarithmic curve of a copper pole, which comprises a base, a copper pole X-direction driving device and a grinding wheel device, wherein the copper pole X-direction driving device and the grinding wheel device are fixed on the base; a Z-direction driving device of a cutter is fixed on a grinding wheel support of the grinding wheel device, and a Z-direction moving sliding plate of the Z-direction driving device of the cutter is fixed with a cutter rotating driving device for realizing the rotation of the cutter around a Z axis; a cutter rotation driving motor support of the cutter rotation driving device is fixed on the Z-direction moving sliding plate, a cutter rotation driving motor sleeved in the cutter rotation driving motor support is connected with a shaft extending out of a cutter rotating seat sleeved in the Z-direction moving sliding plate, a cutter is fixed on the cutter rotating seat, and the cutter rotation driving motor drives the cutter rotating seat to rotate so as to adjust the swinging position of the cutter around the Z shaft.

Description

Three-dimensional shape-modifying device for copper pole logarithmic curve

Technical Field

The utility model belongs to the technical field of roller grinding machine emery wheel is repaiied the type, specifically speaking is a three-dimensional shape device of repairing of copper utmost point logarithmic curve.

Background

The logarithmic curve roller can improve the performance of the bearing, and the roller grinding mostly adopts a metal bond CBN (cubic boron nitride) grinding wheel. In order to keep good grinding performance of the grinding wheel all the time and prolong the service life of the grinding wheel, the grinding wheel must be sharpened at regular time, and an electrolytic online sharpening method of the grinding wheel is a popular method at present. The method has high forming precision, high efficiency and low cost, and can sharpen the CBN grinding wheel on line on a numerical control grinding machine. Before dressing, the surface of the copper electrode is dressed to have the profile opposite to that of the formed grinding wheel, and the accuracy of the surface shape of the copper electrode is directly related to the forming precision of the grinding wheel grinding roller. When a logarithmic curve of the surface of the copper pole is machined, the motion trail of the cutter is generally formed by linear motion synthesis in three directions of X, Y, Z, so that the cutter cannot be perpendicular to the curve when the cutter is used for modifying the logarithmic curve, the forming precision of the logarithmic curve of the surface of the copper pole is insufficient, and the machining precision of the roller is directly influenced.

Disclosure of Invention

In order to the above situation, the utility model provides a three-dimensional shape device of repairing of copper utmost point logarithmic curve, this shape device well cutter is except having the linear motion of X axle, Y axle and the three direction of Z axle, and the swing of cutter around the Z axle in addition to guarantee at the shape in-process of repairing of copper utmost point, the cutter is perpendicular to logarithmic curve all the time.

The purpose of the utility model and the technical problem to be solved are realized by adopting the following technical scheme. According to the utility model, the three-dimensional shape-modifying device for the logarithmic curve of the copper pole comprises a base 1, a copper pole X-direction driving device 2 and a grinding wheel device 5 which are fixed on the base 1, wherein a copper pole Y-direction driving device 3 is fixed on an X-direction sliding plate of the copper pole X-direction driving device 2, and a copper pole rotation driving device 4 is fixed on a Y-direction sliding plate of the copper pole Y-direction driving device 3; a cutter Z-direction driving device 6 is fixed on a grinding wheel support of the grinding wheel device 5, and a cutter rotating driving device 7 is fixed on a Z-direction moving sliding plate of the cutter Z-direction driving device 6; this cutter rotation driving device 7's cutter rotation driving motor support 7.2 is fixed on the Z moves the slide, and the suit is connected with the hub connection that stretches out on the cutter roating seat 7.3 of suit in the cutter Z moves slide lower extreme hole in cutter rotation driving motor support 7.2 hole, is fixed with cutter 7.4 on the cutter roating seat 7.3, cutter rotation driving motor 7.1 drive cutter roating seat 7.3 is rotatory in order to adjust cutter 7.4 around the wobbling position of Z axle direction.

The purpose of the present invention and the technical problem thereof can be further achieved by the following technical measures.

The three-dimensional shape modifying device for the logarithmic curve of the copper pole comprises a copper pole X-direction driving device 2.1, a copper pole X-direction motor support 2.2, a copper pole X-direction driving screw rod 2.3, a copper pole X-direction sliding plate 2.4 and a copper pole X-direction driving base 2.5, wherein the copper pole X-direction driving device 2 comprises a copper pole X-direction driving motor 2.1; wherein copper utmost point X is to drive base 2.5 fixed mounting in the upper left front of base 1, and copper utmost point X is to motor support 2.2 fixed mounting in copper utmost point X to the left end of drive base 2.5, and copper utmost point X is to driving motor 2.1 fixed mounting in the supporting hole in the middle of copper utmost point X to motor support 2.2 to link to each other to the drive lead screw 2.3 left end with copper utmost point X, and copper utmost point X closes soon to drive lead screw 2.3 and installs in copper utmost point X to the screw of slide 2.4 below.

In the three-dimensional shape modifying device for the logarithmic curve of the copper pole, the Y-direction driving device 3 for the copper pole comprises a Y-direction driving motor 3.1 for the copper pole, a Y-direction driving motor support 3.2 for the copper pole, a Y-direction driving lead screw 3.3 for the copper pole, a Y-direction sliding plate 3.4 for the copper pole and a Y-direction driving base 3.5 for the copper pole, wherein the Y-direction driving base 3.5 for the copper pole is fixedly arranged above the X-direction sliding plate 2.4 for the copper pole, the Y-direction driving motor support 3.2 for the copper pole is fixedly arranged at the rear end of the Y-direction driving base 3.5, the Y-direction driving motor 3.1 for the copper pole is fixedly sleeved in an inner hole of the Y-direction driving motor support 3.2 for the copper pole and connected with the rear end of the Y-direction driving lead screw 3.3 for the copper pole, the Y-direction driving lead screw 3.3 is rotatably engaged with a screw hole below the Y-direction sliding plate 3.4 for the copper pole, and the.

The three-dimensional shape correcting device for the logarithmic curve of the copper pole comprises a copper pole rotating support 4.1, a copper pole rotating motor 4.2, a belt 4.3, a copper pole 4.4, an upper belt pulley 4.5 and a lower belt pulley 4.6, wherein the copper pole rotating support 4.1 is fixedly installed at the upper right of a Y-direction sliding plate 3.4 of the copper pole, the copper pole rotating motor 4.2 is sleeved in a hole above the copper pole rotating support 4.1, the upper belt pulley 4.5 is installed in front of the copper pole rotating motor 4.2, the upper belt pulley 4.5 is connected with the lower belt pulley 4.6 through the belt 4.3, and the lower belt pulley 4.6 is fixedly connected with the copper pole 4.4.

In the three-dimensional dressing device for the logarithmic curve of the copper pole, the grinding wheel device 5 comprises a grinding wheel support 5.1 and a grinding wheel 5.2, the grinding wheel 5.2 is sleeved in a hole above the grinding wheel support 5.1, and the grinding wheel support is fixed on the base.

The three-dimensional shaping device for the copper pole logarithmic curve comprises a cutter Z-direction driving device 6, a cutter Z-direction driving motor support 6.2, a cutter Z-direction driving lead screw 6.3, a cutter Z-direction moving sliding plate 6.4 and a vertical plate 6.5, wherein the cutter Z-direction driving motor support 6.2 is fixedly mounted at the upper left of a grinding wheel support 5.1, the cutter Z-direction driving motor 6.1 is sleeved in an inner hole of the cutter Z-direction driving motor support 6.2 and connected with the cutter Z-direction driving lead screw 6.3, the cutter Z-direction driving lead screw 6.3 is screwed with a screw hole at the right end of the cutter Z-direction moving sliding plate 6.4, and the cutter Z-direction moving sliding plate 6.4 is connected with a sliding rail fixed on the front left vertical plate 6.5 of the grinding wheel support 5.1 through a slide block at the right of the cutter Z-direction moving sliding.

According to the three-dimensional shape modifying device for the copper pole logarithmic curve, the cutter rotating driving motor support 7.2 is fixedly installed on the upper left of the cutter Z-direction moving sliding plate 6.4, and the cutter rotating seat 7.3 is sleeved in an inner hole in the lower left end of the cutter Z-direction moving sliding plate 6.4.

Compared with the prior art, the utility model obvious advantage and beneficial effect have. Borrow by above-mentioned technical scheme, the utility model discloses can reach considerable technical advancement and practicality to have the wide use value in the industry, it has following advantage at least:

1. the utility model relates to a realize that copper pole logarithmic curve three-dimensional modification, and repair that the shape is efficient, the shaping precision is high, the reliable and stable quality repair the shape device, have adjustment, installation, maintenance, convenient to use's characteristics.

2. The utility model discloses a repair shape device adopts the three-dimensional method of repairing shape copper utmost point logarithmic curve. In the three-dimensional shape modifying device, not only the copper pole has X-direction and Y-direction movement and self-rotation movement, but also the shape modifying cutter has Z-direction movement and swing around a Z axis. The five-axis linkage can ensure that the cutter is vertical to the curve when the logarithmic curve is processed on the surface of the copper pole, so that the processed curve is more accurate and has higher precision.

Drawings

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

FIG. 2 is a diagrammatic, schematic top view of the structure of FIG. 1;

FIG. 3 is a schematic diagram of the left side view of the structure of FIG. 1;

FIG. 4 is a schematic diagram of the cross-sectional structure A-A of FIG. 1;

fig. 5 is a logarithmic curve cylindrical rolling graph.

[ description of main element symbols ]

1: base seat

2: copper pole X-direction driving device

3: y-direction driving device for copper electrode

4: copper pole rotation driving device

5: grinding wheel device

6: z-direction driving device for cutter

7: tool rotation driving device

2.1: copper pole X-direction driving motor

2.2: copper pole X is to motor support

2.3: copper pole X-direction driving lead screw

2.4: copper pole X-direction sliding plate

2.5: copper pole X-direction driving base

3.1: copper pole Y-direction driving motor

3.2: copper pole Y is to driving motor support

3.3: copper pole Y-direction driving lead screw

3.4: copper pole Y-direction sliding plate

3.5: copper pole Y-direction driving base

4.1: copper pole rotating support

4.2: copper pole rotating electric machine

4.3: leather belt

4.4: copper pole

4.5: upper belt wheel

4.6: lower belt pulley

5.1: grinding wheel support

5.2: grinding wheel

6.1: z-direction driving motor for cutter

6.2: z-direction driving motor support for cutter

6.3: z-direction driving screw rod for cutter

6.4: z-direction moving sliding plate for cutter

7.1: cutter rotation driving motor

7.2: cutter rotation driving motor support

7.3: tool rotating seat

7.4: cutting tool

Detailed Description

To further illustrate the technical means and effects of the present invention adopted to achieve the predetermined objects, the following detailed description will be given to the specific embodiments, structures, features and effects of the log curve three-dimensional copper pole trimming device according to the present invention with reference to the accompanying drawings and preferred embodiments.

Please refer to fig. 1-5, which are schematic structural diagrams of the three-dimensional trimming device for logarithmic curves of copper poles according to the present invention, the device includes a base 1, a driving device 2 for X-direction of copper poles, a driving device 3 for Y-direction of copper poles, a driving device 4 for rotation of copper poles, a grinding wheel device 5, a driving device 6 for Z-direction of cutting tools, and a driving device 7 for rotation of cutting tools. The copper pole X-direction driving device 2 comprises a copper pole X-direction driving motor 2.1, a copper pole X-direction motor support 2.2, a copper pole X-direction driving lead screw 2.3, a copper pole X-direction sliding plate 2.4 and a copper pole X-direction driving base 2.5.

Copper utmost point X is to drive base 2.5 fixed mounting in the upper left front of base 1, and copper utmost point X is to motor support 2.2 fixed mounting in copper utmost point X to the left end of drive base 2.5, and copper utmost point X is to driving motor 2.1 fixed mounting in the supporting hole in the middle of copper utmost point X to motor support 2.2 to link to each other to the drive screw 2.3 left end with copper utmost point X, and copper utmost point X closes soon to drive screw 2.3 and installs in copper utmost point X to the screw of slide 2.4 below. The copper pole X-direction sliding plate 2.4 is connected with a sliding rail above the X-direction driving base 2.5 through a sliding block below the copper pole X-direction sliding plate. The copper pole X moves back and forth to the left and the right through a copper pole X driving motor 2.1 → a copper pole X driving screw rod 2.3 → a copper pole X sliding plate 2.4.

The copper pole Y-direction driving device 3 comprises a copper pole Y-direction driving motor 3.1, a copper pole Y-direction driving motor support 3.2, a copper pole Y-direction driving screw 3.3, a copper pole Y-direction sliding plate 3.4 and a copper pole Y-direction driving base 3.5.

The Y-direction driving base 3.5 is fixedly installed above the copper pole X-direction sliding plate 2.4, the copper pole Y-direction driving motor support 3.2 is fixedly installed at the rear end of the Y-direction driving base 3.5, the copper pole Y-direction driving motor 3.1 is sleeved in an inner hole of the copper pole Y-direction driving motor support 3.2 and connected with the rear end of a copper pole Y-direction driving screw rod 3.3, the copper pole Y-direction driving screw rod 3.3 is screwed with a screw hole below the copper pole Y-direction sliding plate 3.4, and the copper pole Y-direction sliding plate 3.4 is connected with a sliding rail above the Y-direction driving base 3.5 through a sliding block below the copper pole Y-direction sliding plate. The copper pole Y-direction driving motor 3.1 → the copper pole Y-direction driving screw rod 3.3 → the copper pole Y-direction sliding plate 3.4 move back and forth.

The copper pole rotation driving device 4 comprises a copper pole rotation support 4.1, a copper pole rotation motor 4.2, a belt 4.3, a copper pole 4.4, an upper belt pulley 4.5 and a lower belt pulley 4.6.

Copper pole rotating support 4.1 is fixedly installed in the upper right of copper pole Y direction slide plate 3.4, copper pole rotating electrical machines 4.2 suit is in the hole of copper pole rotating support 4.1 top, goes up belt pulley 4.5 and installs in copper pole rotating electrical machines 4.2 the place ahead, belt 4.3 couples together last belt pulley 4.5 and lower belt pulley 4.6, lower belt pulley 4.6 and copper pole 4.4 fixed connection, copper pole 4.4 suit is in the support hole of copper pole Y direction slide plate 3.4 right front. The copper pole rotating motor 4.2 → the upper pulley 4.5 → the belt 4.3 → the lower pulley 4.6 → the copper pole 4.4 rotates.

The grinding wheel device 5 comprises a grinding wheel support 5.1 and a grinding wheel 5.2. The grinding wheel 5.2 is sleeved in a hole above the grinding wheel support 5.1.

The tool Z-direction driving device 6 comprises a tool Z-direction driving motor 6.1, a tool Z-direction driving motor support 6.2, a tool Z-direction driving lead screw 6.3, a tool Z-direction moving sliding plate 6.4 and a vertical plate 6.5.

The tool Z-direction driving motor support 6.2 is fixedly installed at the upper left of the grinding wheel support 5.1, the tool Z-direction driving motor 6.1 is sleeved in an inner hole of the tool Z-direction driving motor support 6.2 and connected with a tool Z-direction driving lead screw 6.3, the tool Z-direction driving lead screw 6.3 is screwed with a screw hole at the right end of the tool Z-direction moving sliding plate 6.4, the tool Z-direction moving sliding plate 6.4 is connected with a sliding rail on a vertical plate 6.5 through a sliding block at the right side of the tool Z-direction moving sliding plate, and the vertical plate 6.5 is fixed at the front left of the grinding wheel support. The cutter Z-direction driving motor 6.1 → the cutter Z-direction driving screw rod 6.3 → the cutter Z-direction moving slide plate 6.4 moves up and down back and forth.

The cutter rotation driving device 7 comprises a cutter rotation driving motor 7.1, a cutter rotation driving motor bracket 7.2, a cutter rotating seat 7.3 and a cutter 7.4.

Cutter rotation driving motor support 7.2 fixed mounting is in the upper left side of cutter Z to moving slide 6.4, and cutter rotation driving motor 7.1 suit is in the hole of cutter rotation driving motor support 7.2, with the hub connection that stretches out on the cutter roating seat 7.3, and cutter roating seat 7.3 suit is in the hole of cutter Z to moving slide 6.4 left lower extreme, and cutter 7.4 fixed mounting is in the left hole of cutter roating seat 7.3. The tool is driven by the tool rotation motor 7.1 → the tool rotary base 7.3 → the tool 7.4 swings.

The utility model relates to a three-dimensional shape device of repairing of copper pole logarithm curve, this shape device of repairing can guarantee to repair shape in-process cutter with the curve is perpendicular all the time at the copper pole logarithm curve, and the copper pole shaping precision is high, efficient and with low costs, and the copper pole after shaping carries out the electric spark shaping to the emery wheel and repaiies, and the emery wheel after repairing has good grinding performance.

Before repair, the copper pole X-direction driving motor 2.1 drives the copper pole X-direction driving screw rod 2.3 to rotate, the copper pole X-direction driving screw rod 2.3 drives the copper pole X-direction sliding plate 2.4 to move rightwards, meanwhile, the copper pole Y-direction driving motor 3.1 drives the copper pole Y-direction driving screw rod 3.3 to rotate, the copper pole Y-direction driving screw rod 3.3 drives the copper pole Y-direction sliding plate 3.4 to move forwards, and the copper pole is close to the cutter 7.4. The cutter Z-direction driving motor 6.1 drives the cutter Z-direction driving lead screw 6.3 to rotate, and the cutter Z-direction driving lead screw 6.3 drives the cutter Z-direction moving sliding plate 6.4 to move up and down, so that the cutter head and the axis of the copper pole are coplanar.

When the copper pole is shaped, the copper pole rotating motor 4.2 drives the upper belt pulley 4.5 to rotate, the upper belt pulley 4.5 drives the lower belt pulley 4.6 to rotate through the belt 4.3, and the copper pole 4.4 is driven to rotate; a copper pole X-direction driving motor 2.1 drives a copper pole X-direction driving screw rod 2.3 to rotate, and the copper pole X-direction driving screw rod 2.3 drives a copper pole X-direction sliding plate 2.4 to make feeding motion rightwards; a copper pole Y-direction driving motor 3.1 drives a copper pole Y-direction driving screw rod 3.3 to rotate, and the copper pole Y-direction driving screw rod 3.3 drives a copper pole Y-direction sliding plate 3.4 to reciprocate back and forth; meanwhile, the cutter rotating driving motor 7.1 drives the cutter rotating seat 7.3 to rotate so as to adjust the swinging position of the cutter 7.4 around the Z-axis direction, so that the cutter head is ensured to be perpendicular to a curve, particularly a logarithmic curve at any time, and the aim of accurately finishing the logarithmic curve of the copper pole can be fulfilled.

The above description is only a preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention has been disclosed with the preferred embodiment, it is not limited to the present invention, and any skilled person in the art can make modifications or changes equivalent to the equivalent embodiment of the above embodiments without departing from the scope of the present invention, but all the modifications, changes and modifications of the above embodiments by the technical spirit of the present invention are within the scope of the present invention.

Claims (7)

1. The utility model provides a three-dimensional shape correction of copper pole logarithm curve device which characterized in that: the device comprises a base (1), a copper electrode X-direction driving device (2) and a grinding wheel device (5), wherein the copper electrode X-direction driving device (2) and the grinding wheel device (5) are fixed on the base (1), a copper electrode Y-direction driving device (3) is fixed on an X-direction sliding plate of the copper electrode X-direction driving device (2), and a copper electrode rotation driving device (4) for realizing the autorotation of the copper electrode fixed on the copper electrode Y-direction driving device (3) is fixed on a Y-direction sliding plate of the copper electrode Y-direction driving device (; a tool Z-direction driving device (6) is fixed on a grinding wheel support of the grinding wheel device (5), and a tool rotating driving device (7) for realizing the rotation of the tool around a Z axis is fixed on a Z-direction moving sliding plate of the tool Z-direction driving device (6); a cutter rotation driving motor support (7.2) of the cutter rotation driving device (7) is fixed on the Z-direction moving sliding plate, a cutter rotation driving motor (7.1) sleeved in an inner hole of the cutter rotation driving motor support (7.2) is connected with a shaft extending out of a cutter rotating seat (7.3) sleeved in an inner hole at the lower end of the cutter Z-direction moving sliding plate to drive the cutter rotation driving motor to rotate around the Z shaft, and a cutter (7.4) is fixed on the side, facing a copper electrode, of the cutter rotating seat (7.3).

2. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 1, wherein: the copper pole X-direction driving device (2) comprises a copper pole X-direction driving motor (2.1), a copper pole X-direction motor support (2.2), a copper pole X-direction driving lead screw (2.3), a copper pole X-direction sliding plate (2.4) and a copper pole X-direction driving base (2.5); wherein, the copper pole X is fixedly arranged at the upper left front part of the base (1) towards the driving base (2.5), the copper pole X is fixedly arranged at the left end of the copper pole X towards the driving base (2.5) towards the motor support (2.2), the copper pole X is fixedly arranged in a supporting hole in the middle of the copper pole X towards the motor support (2.2) and connected with the left end of the copper pole X towards the driving lead screw (2.3), and the copper pole X is rotatably arranged in a screw hole below the copper pole X towards the sliding plate (2.4) towards the driving lead screw (2.3).

3. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 2, wherein: the copper pole Y-direction driving device (3) comprises a copper pole Y-direction driving motor (3.1), a copper pole Y-direction driving motor support (3.2), a copper pole Y-direction driving lead screw (3.3), a copper pole Y-direction sliding plate (3.4) and a copper pole Y-direction driving base (3.5), wherein the copper pole Y-direction driving base (3.5) is fixedly arranged above the copper pole X-direction sliding plate (2.4), the copper pole Y-direction driving motor support (3.2) is fixedly arranged at the rear end of the Y-direction driving base (3.5), the copper pole Y-direction driving motor (3.1) is fixedly sleeved in an inner hole of the copper pole Y-direction driving motor support (3.2) and is connected with the rear end of the copper pole Y-direction driving lead screw (3.3), the copper pole Y-direction driving lead screw (3.3) is rotatably combined with a screw hole below the copper pole Y-direction sliding plate (3.4), and the copper pole Y-direction sliding plate (3.4) is connected with a sliding rail above the Y-direction driving base (3.5) through a sliding block below the copper.

4. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 3, wherein: the copper pole rotary driving device (4) comprises a copper pole rotary support (4.1), a copper pole rotary motor (4.2), a belt (4.3), a copper pole (4.4), an upper belt wheel (4.5) and a lower belt wheel (4.6), wherein the copper pole rotary support (4.1) is fixedly installed at the upper right side of a copper pole Y-direction sliding plate (3.4), the copper pole rotary motor (4.2) is sleeved in a hole above the copper pole rotary support (4.1), the upper belt wheel (4.5) is installed in front of the copper pole rotary motor (4.2), the upper belt wheel (4.5) and the lower belt wheel (4.6) are connected through the belt (4.3), and the lower belt wheel (4.6) is fixedly connected with the copper pole (4.4).

5. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 1, wherein: the grinding wheel device (5) comprises a grinding wheel support (5.1) and a grinding wheel (5.2), the grinding wheel (5.2) is sleeved in a hole above the grinding wheel support (5.1), and the grinding wheel support is fixed on the base.

6. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 4, wherein: the tool Z-direction driving device (6) comprises a tool Z-direction driving motor (6.1), a tool Z-direction driving motor support (6.2), a tool Z-direction driving lead screw (6.3), a tool Z-direction moving sliding plate (6.4) and a vertical plate (6.5), wherein the tool Z-direction driving motor support (6.2) is fixedly installed at the upper left side of the grinding wheel support (5.1), the tool Z-direction driving motor (6.1) sleeved in an inner hole of the tool Z-direction driving motor support (6.2) is connected with the tool Z-direction driving lead screw (6.3), the tool Z-direction driving lead screw (6.3) is screwed with a screw hole at the right end of the tool Z-direction moving sliding plate (6.4), and the tool Z-direction moving sliding plate (6.4) is connected with a sliding rail fixed on the vertical plate (6.5) at the front left side of the grinding wheel support (5.1) through a sliding block at the right.

7. The three-dimensional shaping device for the logarithmic curve of the copper pole as claimed in claim 6, wherein: wherein the cutter rotation driving motor bracket (7.2) is fixedly arranged at the upper left of the cutter Z-direction moving sliding plate (6.4), and the cutter rotating seat (7.3) is sleeved in an inner hole at the lower left end of the cutter Z-direction moving sliding plate (6.4).

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