KR100781760B1 - Spindle structure for cutting process - Google Patents

Abstract

The present invention relates to a spindle structure for cutting, and more particularly, to provide a spindle structure of the structure capable of fastening and arranging the arbor chuck and the spring collet chuck alternately arbor chuck and spring collet chuck during machining of the workpiece. The purpose is to make it easier to link the cutting process by arbor chuck and spring collet chuck. The present invention is configured for this purpose is a spindle installed rotatably in the center of the spindle head of the machine tool, chuck coupling portion, which is configured on the lower portion of the spindle protrudes below the center of the spindle head fixed to the cutting tool is coupled to the chuck coupling portion It is formed in the form of a cone in the lower center of the head coupling groove to which the head of the chuck is coupled, the through hole formed to penetrate the spindle up and down in the upper center of the head coupling groove, can be moved up and down on the through hole as well as rotatably installed to the left In the cutting spindle structure consisting of a chuck fixing member having a bolt screw at its lower end and an anti-rotation key protruding on both sides of the lower surface of the chuck coupling portion that is both sides of the head coupling groove, the chuck coupling configured at the lower end of the spindle Coupling screw portion made of male thread form on the outer peripheral surface; And a female thread corresponding to the coupling screw portion formed on the outer circumferential surface of the chuck coupling portion is screw-coupled to the chuck coupling portion, the center having a cutting tool through hole vertically penetrated and a pressure inclined surface formed on the inner surface of the cutting tool through hole. It consists of a configuration including a chuck fixing cap.

Machine Tools, Spindle, Arbor Chuck, Spring Collet, Spring Collet Chuck, Cutting Tool

Description

Spindle structure for cutting process

1 is a cross-sectional view showing a separate spindle structure coupled to the arbor chuck according to the prior art.

Figure 2a is a cross-sectional view separately showing the spindle structure coupled to the spring collet chuck in accordance with the prior art.

2b is a perspective view of the spring collet chuck according to FIG. 2a;

Figure 3a is a perspective view showing a cutting spindle structure in accordance with the present invention.

Figure 3b is an exploded cross-sectional view showing a separate cutting chuck spindle structure and the arbor chuck coupled to the present invention.

Figure 3c is a combined cross-sectional view showing the cutting spindle structure and the arbor chuck coupled thereto according to the present invention.

Figure 4a is an exploded cross-sectional view showing the cutting spindle structure and the spring collet chuck coupled thereto in accordance with the present invention.

Figure 4b is a combined cross-sectional view showing the cutting spindle structure and the spring collet chuck coupled thereto in accordance with the present invention.

Figure 5 is a perspective view of the spring collet chuck according to Figure 4a.

[Description of Symbols for Main Parts of Drawing]

100. Spindle Structure 110. Spindle

120. Chuck coupling 130. Head coupling groove

140. Nut groove 150. Chuck fixing member

152. Bolt screw 160. Anti-rotation key

170. Coupling thread 180. Chuck fixing cap

182. Cutting tool through hole 184. Pressurized slope

200. Arbor Chuck 300. Spring Collet Chuck

The present invention relates to a spindle structure for cutting, and more particularly, to provide a spindle having a structure capable of coupling and fixing both an arbor chuck and a spring collet chuck used to fix a cutting tool, thereby cutting by an arbor chuck and a spring collet chuck. The present invention relates to a spindle structure for cutting.

Generally, a spring collet chuck is one of the tools for cutting to fix the cutting tool to the spindle of the machine tool. Of course, the arbor chuck is functionally the same as the spring collet chuck but is divided into a portion that is fixed to the spindle and a part that fixes the cutting tool, which may be structurally different from the spring collet chuck.

In addition, due to the structural difference described above, the arbor chuck is easier to fit a relatively long or thick cutting tool than the spring collet chuck, and thus is mainly used for powerful cutting. Spring collet chucks, on the other hand, are often used for relatively precise cutting rather than arbor chucks.

On the other hand, the recent machine tools with numerical control devices are capable of moving the workpiece, moving the spindle head, controlling the spindle, and selecting and replacing the machining tool so that the machining technician does not have to be in the field during the machining of the workpiece. It is done automatically by the CAM program.

1 is a cross-sectional view showing a separate spindle structure coupled to the arbor chuck according to the prior art.

As shown in FIG. 1, a spindle 20 of a machine tool is rotatably installed at the center of a spindle head 10. At this time, protruding to the lower portion of the spindle head 10 to form a lower portion of the spindle 20, the chuck coupling portion 22 to which the arbor chuck 200 is coupled, in the form of a cone in the lower center of the chuck coupling portion 22 Is formed through the head coupling groove 24, the arbor head 210 of the arbor chuck 200 is coupled, the through hole 26 penetrating the upper and lower spindle 20 in the upper center of the head coupling groove 24 In addition, the through hole 26 is movable up and down, as well as rotatable from side to side, but both sides of the chuck fixing member 28 and the head coupling groove 24 are formed with a bolt screw 28a at the bottom thereof. It consists of a configuration of the anti-rotation key 30 protruding on both sides of the lower surface of the part (22).

On the other hand, the arbor chuck 200 is fixed to the chuck coupling portion 22 of the above-described spindle 20 is formed in the shape of a cone corresponding to the head coupling groove 24 of the chuck coupling portion 22 to the head coupling Arbor head 210 is inserted into the groove 24, the nut groove 220 is formed in the center of the arbor head top, the arbor head 210 is formed in the lower arbor collet coupling portion 230, arbor Fasteners 240, Arbor head 210 and arbor collet for fastening and fixing the arbor collet 260 is inserted into the arbor collet coupling portion 230, the outer portion of the collet coupling portion 230 It is fixed on the arbor collet coupling part 230 by engaging the anti-rotation key groove 250 and the cutting tool 50 formed corresponding to the anti-rotation key 30 of the spindle 20 on both sides between the portions 230. Arbor collet 260 to be made of a configuration.

The arbor chuck 200 configured as described above has the chuck engaging portion 22 of the spindle 20 in a state in which the cutting tool 50 is fixed to the arbor collet engaging portion 230 through the arbor collet 260. Insert into the tool changer). At this time, the arbor head 210 of the arbor chuck 200 is inserted and coupled to the head engaging groove 24 of the chuck coupling portion 22, and the rotation preventing key groove 250 of the arbor chuck 200 is the chuck. It is coupled through a one-to-one correspondence with the rotation preventing key 30 of the coupling portion 22 to prevent the rotation of the arbor chuck 200.

As described above, in the state where the arbor chuck 200 is inserted and coupled to the chuck coupling portion 22 of the spindle 20, the chuck fixing member 28 configured on the through hole 26 is moved downward to rotate. By arranging the bolt screw 28a at the bottom of the chuck fixing member 28 and the nut groove 220 of the arbor chuck 200, the arbor chuck 200 is mounted on the chuck coupling portion 22 of the spindle 20. Make sure that it is fully engaged in

 Figure 2a is a cross-sectional view showing a separate spindle structure coupled to the spring collet chuck according to the prior art, Figure 2b is a perspective view showing a spring collet chuck according to Figure 2a.

Meanwhile, in the case of a machine tool using the spring collet chuck 300 as shown in FIGS. 2A and 2B, the configuration of the spindle 70 protrudes toward the lower center of the spindle head 60 of the machine tool and thus the spring collet chuck 300. The collet chuck coupling portion 72 to be coupled, the coupling screw portion 74 formed on the outer circumference of the collet chuck coupling portion 72, the collet chuck coupling portion 72 is formed in the form of a cone in the center of the spring collet chuck 300 Spring collet chuck screwed to the head coupling groove 76 and the coupling screw portion 74 of the collet chuck coupling portion 72 is coupled to the collet chuck head 310 of the It consists of a configuration of the collet chuck fixing cap 78 for fixing 300.

In addition, the spring collet chuck 300 coupled to the collet chuck coupling portion 72 of the spindle 70 as shown in FIGS. 2A and 2B has a head coupling groove 76 of the collet chuck coupling portion 72 thereon. ) Is formed in a cone shape corresponding to the tool is inserted through the center of the collet chuck head 310 and the spring collet 300 inserted and coupled to the head coupling groove 76 is inserted into the cutting tool 50 is inserted and coupled It is made of a configuration of the coupling groove 320. At this time, the spring collet chuck 300 is formed in a tubular shape of the front circumference thereof by a cutting groove 330 at a predetermined interval so as to apply a tightening force to the cutting tool 50 inserted into the tool coupling groove 320. Is cut into a number of to tighten the cutting tool 50 by tightening from the outside to the inside.

As described above, the reason for placing the cutting section through the cutting groove 330 at a predetermined interval in the spring collet chuck 300 may be a tightening force applied to the outer circumference of the cutting tool 50 inserted into the tool coupling groove 320. In order to ensure that, as the name of the spring collet chuck 300 can be seen that the incision section is to have an elastic force. The spring collet chuck 300 is generally formed of a special alloyed metal material not only to prevent wear and deformation during friction with the peripheral parts, but also to have elastic force in the incision section.

The spring collet chuck 300 configured as described above is inserted into the head coupling groove 76 of the spindle 70 through the collet chuck head 310 to be coupled to the screw thread formed on the outer circumference of the collet coupling portion 72 ( 74 is held by the collet chuck fixing cap 78 screwed to the collet coupling portion 72. At this time, the collet chuck fixing cap 78 is loosely tightened. In this state, the cutting tool 50 is inserted into the tool coupling groove 320 of the spring collet chuck 300, and the lower portion of the spring collet chuck 300 is tightened by tightening the collet chuck fixing cap 78 in a loose state. By tightening the cutting tool 50 strongly, the cutting tool 50 may be fixed.

As described above, as shown in FIG. 1 and FIG. 2, the two types of cutting spindles have been examined. Each spindle using an arbor chuck and a spring collet chuck can be combined due to the structural difference. Since the tool holding chucks are different, the spring collet chuck cannot be used for the spindle using the arbor chuck, and the lever chuck cannot be used for the spindle using the spring collet chuck.

Therefore, the spindle structure of the structure as shown in Figs. 1 and 2 as described above has a problem that the work is not linked to each other when the arbor chuck and the spring collet chuck are alternately used when machining the workpiece. .

The present invention has been made to solve the above-mentioned problems of the prior art, by providing a spindle structure of the structure that can be combined fastening the arbor chuck and the spring collet chuck by arbor chuck and spring collet chuck when machining the workpiece. In order to alternately use the purpose of the present invention is to provide a spindle structure for cutting to facilitate the cutting operation of the arbor chuck and the spring collet chuck more easily.

In addition, the technology according to the present invention by providing a spindle structure of the structure that can be combined fastening the arbor chuck and the spring collet chuck to enable the two cutting operations with one machine tool to burden the purchase of the machine tool To reduce the

The present invention configured to achieve the above object is as follows. That is, the spindle structure for cutting according to the present invention is a spindle installed rotatably at the center of the spindle head of the machine tool, the chuck coupling portion which is configured in the lower portion of the spindle protrudes below the center of the spindle head fixed to the cutting tool is coupled Is formed in the form of a cone in the lower center of the chuck coupling portion, the head coupling groove to which the head of the chuck is coupled, the through hole formed to penetrate the spindle up and down in the upper center of the head coupling groove, can be moved vertically on the through hole In the spindle structure for cutting, which is rotatably installed, the chuck fixing member having a bolt screw formed at its lower end and a rotation preventing key protrudingly formed on both sides of the lower surface of the chuck coupling portion which are both sides of the head coupling groove, Coupling screw portion formed in the form of male thread on the outer peripheral surface of the chuck coupling portion configured in; And a female thread corresponding to the coupling screw portion formed on the outer circumferential surface of the chuck coupling portion is screw-coupled to the chuck coupling portion, the center having a cutting tool through hole vertically penetrated and a pressure inclined surface formed on the inner surface of the cutting tool through hole. It consists of a configuration including a chuck fixing cap.

In the configuration as described above, the chuck coupled to the chuck coupling portion of the spindle structure is formed in the shape of a cone corresponding to the head coupling groove of the chuck coupling portion is formed in the arbor head, the arbor head top center inserted into the head coupling groove Nut groove, formed in the lower part of the arbor head and formed on the outer circumference of the arbor collet coupling portion and the arbor collet coupling portion, the fastener fastening and fixing the arbor collet inserted and coupled to the arbor collet coupling portion, the arbor head and the arbor An arbor chuck consisting of an arbor collet fixed to an arbor collet engaging portion by engaging an anti-rotation key groove and a cutting tool formed on both sides of the collet coupling portion corresponding to the rotation preventing key of the spindle; Or a collet chuck head which is formed in a cone shape corresponding to the head coupling groove of the chuck coupling part at the upper part and penetrates the center of the collet chuck head inserted into and coupled to the head coupling groove, and a tool coupling groove into which the cutting tool is inserted and coupled. While the front circumference is formed in a cylindrical shape, the lower part is cut into a plurality of sections by a cutting groove at regular intervals to apply a tightening force to the cutting tool inserted into the tool engaging groove, and the cutting tool is tightened by tightening from the outside to the inside. It may be made of a spring collet chuck for fixing.

On the other hand, the above-mentioned spindle structure is fixed to the top of the arbor chuck and screwed through the bolt screw on the bottom of the chuck fixing member when the arbor chuck is fixed to the head engaging groove of the chuck coupling portion configured at the lower end of the spindle, When fixing the spring collet chuck coupled to the head coupling groove of the chuck coupling portion configured at the bottom can be made to be configured to enable the combination of the arbor chuck and the spring collet chuck to be fixed through the chuck fixing cap.

Hereinafter, a spindle structure for cutting according to a preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings.

Figure 3a is a perspective view showing a cutting spindle structure in accordance with the present invention, Figure 3b is a separate cross-sectional view showing the cutting spindle structure and the arbor chuck coupled thereto according to the present invention, Figure 3c is a cutting spindle structure for cutting in accordance with the present invention 4A is a separate cross-sectional view showing a separate cutting collet chuck according to the present invention and a spring collet chuck coupled thereto, and FIG. 4B is a cutting spindle structure for cutting according to the present invention. Coupling cross-sectional view showing the spring collet chuck coupled to this, Figure 5 is a perspective view showing a spring collet chuck according to Figure 4a.

Cutting spindle structure 100 according to the present invention is to enable the use of the arbor chuck 200 and the spring collet chuck 300 as described above, the arbor chuck 200 and the spring collet as described above The configuration for using the chuck 300 in combination is as shown in Figures 3a to 4b.

As shown in FIGS. 3A to 5, the cutting spindle structure 100 according to the present invention is fixed to the spring collet chuck 300 on the spindle 110 capable of fixing the arbor chuck 200. It is configured to be. That is, the cutting spindle structure 100 according to the present invention is a coupling screw portion formed in the form of a male thread on the outer circumferential surface of the chuck coupling portion 120 formed at the lower end of the spindle 110 capable of coupling and arboring the arbor chuck 200. A female thread corresponding to the coupling screw 170 formed on the outer circumferential surface of the 170 and the chuck coupling portion 120 is formed to be screwed to the chuck coupling portion 120, and a cutting tool through-hole 182 penetrated vertically in the center thereof. ) And a chuck fixing cap 180 having a pressing slope 184 formed on the inner surface of the cutting tool.

On the other hand, looking at the configuration of the cutting spindle structure 100 that can be fixed to the arbor chuck 200 in the configuration as described above, the spindle 110 rotatably installed in the center of the spindle head 102 of the machine tool, The chuck coupling portion 120 and the chuck coupling portion 120, which are configured under the spindle 110, protrude under the center of the spindle head 102, and are coupled to the chuck 200 fixing the cutting tool 50. The through hole is formed in the form of a cone in the lower center through the head coupling groove 130 to which the head 210 of the chuck 200 is coupled, the spindle 110 penetrates up and down in the upper center of the head coupling groove 130 ( 140, which can be moved up and down on the through hole 140, as well as rotatable from side to side, but both sides of the chuck fixing member 150 and the head coupling groove 130 formed with a bolt screw 152 at its lower end. Consists of the configuration of the anti-rotation key 160 protruding on both sides of the lower surface of the chuck coupling portion 120 .

Therefore, the cutting spindle structure 100 according to the present invention is a chuck fixing member formed with the spindle 110, the chuck coupling portion 120, the head coupling groove 130, the through hole 140, the bolt screw 152 ( 150 and the outer rotational surface of the chuck coupling portion 120 to be fixed to the spring collet chuck 300 in addition to the spindle structure of the structure consisting of a combination of the anti-rotation key 160 to secure the Aba chuck 200 A female thread corresponding to the coupling screw portion 170 and the chuck coupling portion 120 formed on the outer circumferential surface of the male screw shape formed on the outer circumferential surface thereof is formed and screwed to the chuck coupling portion 120. The chuck fixing cap 180 is further provided with a cutting tool through-hole 182 and a pressing inclined surface 184 formed on the inner surface of the cutting tool.

On the other hand, the chuck is fixed to the above-mentioned cutting spindle structure 100 is formed in the shape of a cone corresponding to the head engaging groove 130 of the chuck coupling portion 120 is inserted into the head coupling groove 130 Burr head 210, the arbor head 210, the nut groove 220 is formed in the upper center, the arbor head 210 formed in the lower arbor collet coupling portion 230, the arbor collet coupling portion 230 Fasteners 240 for fastening and fixing the arbor collet 260 inserted and coupled to the arbor collet coupling portion 230, between the arbor head 210 and the arbor collet coupling portion 230 Arbor collet 260 for fixing on the arbor collet coupling portion 230 by combining the anti-rotation key groove 250 and the cutting tool 50 formed corresponding to the anti-rotation key 160 formed on both upper surfaces of the Arbor chuck 200 may be made of, or the head coupling groove 130 of the chuck coupling portion 120 on the top; The tool coupling groove which is formed in the shape of a corresponding cone and penetrates the center of the collet chuck head 310 and the collet chuck head 310 inserted into and coupled to the head coupling groove 130 is inserted into the cutting tool 50 ( It is composed of 320, but the front circumference is formed in a cylindrical shape while the lower portion of the plurality by the cutting groove 330 of a predetermined interval so as to apply a tightening force to the cutting tool 50 is inserted into the tool coupling groove 320 It may be made of a spring collet chuck 300 which is cut and tightened to fix the cutting tool 50 by tightening from the outside to the inside.

The spring collet chuck 300 described above, as shown in FIG. 5, the spring collet chuck 300 has a front circumference formed in a cylindrical shape, and applies a tightening force to the cutting tool 50 inserted into the tool coupling groove 320. The lower portion of the cutting groove 330 is fixed to the cutting tool 50 by tightening the lower portion of the cutting groove 330 at regular intervals.

When the arbor chuck 200 configured as described above is fixed to the cutting spindle structure 100 for cutting in accordance with the present invention, the arbor collet coupling unit 230 passes through the cutting tool 50 through the arbor collet 260. It is inserted and coupled by the tool changer on the chuck coupling portion 120 of the spindle 110 in a state of being fixed to the. At this time, the arbor head 210 of the arbor chuck 200 is inserted and coupled to the head engaging groove 130 of the chuck coupling part 120, and the rotation preventing key groove 250 of the arbor chuck 200 is the chuck. The rotation preventing key 160 of the coupling unit 120 is coupled through a one-to-one correspondence to prevent rotation of the arbor chuck 200.

As described above, in the state where the arbor chuck 200 is inserted and coupled to the chuck coupling portion 120 of the spindle 110, the chuck fixing member 150 configured on the through hole 140 is moved downward to rotate. By arranging the bolt screw 152 at the bottom of the chuck fixing member 150 and the nut groove 220 of the arbor chuck 200, the arbor chuck 200 is mounted on the chuck coupling portion 120 of the spindle 110. Make sure that it is fully engaged in In this case, when the arbor chuck 200 is fixed to the chuck coupling portion 120, the chuck fixing cap 180 is not used.

On the contrary, when the spring collet chuck 300 described above is fixed to the cutting spindle structure 100 according to the present invention, the collet chuck 300 is inserted into the head engaging groove 130 of the spindle 110 through the collet chuck head 310. The coupling is held by the chuck fixing cap 180 is screwed to the chuck coupling portion 120 through the coupling screw 170 formed on the outer circumference of the chuck coupling portion 120. At this time, the chuck fixing cap 180 is loosely tightened. In this state, the cutting tool 50 is inserted into the tool coupling groove 320 of the spring collet chuck 300 through the chuck fixing cap 180 and the cutting tool through hole 182, and the chuck fixing cap 180 is loose. When the tightening force), the inclined surface 184 formed on the inner surface of the cutting tool through-hole 182 presses the lower cutting section of the spring collet chuck 300 to tighten the cutting tool 50 to strongly tighten the cutting tool. Allow 50 to be secured.

Meanwhile, as described above, when the spring collet chuck 300 is fixed to the cutting spindle structure 100 according to the present invention, the chuck fixing member 150 and the chuck configured on the through hole 140 of the spindle 110 are fixed. The anti-rotation key 160 formed on both sides of the lower surface of the coupling part 120 does not act to fix the spring collet chuck 300 to the chuck coupling part 120. That is, the anti-rotation key 160 formed on both sides of the lower surface of the chuck fixing member 150 and the chuck coupling unit 120 formed on the through hole 140 of the spindle 110 has no relationship with the spring collet chuck 300. It does not matter, but only relates to the combination of the arbor chuck (200).

As described above, when the cutting spindle structure 100 according to the present invention couples and fixes the arbor chuck 200 on the head coupling groove 130 of the chuck coupling unit 120 configured at the lower end of the spindle 110. The head coupling groove 130 of the chuck coupling part 120 formed at the lower end of the spindle 110 is fixed by screw coupling with the top of the arbor chuck 200 through the bolt screw 152 at the bottom of the chuck fixing member 150. In the case of fixing the spring collet chuck 300 on the coupling), the arbor chuck 200 and the spring collet chuck 300 may be used in combination by allowing the coupling to be fixed through the chuck fixing cap 180.

Cutting spindle structure of the present invention is not limited to the above-described embodiment can be carried out in a variety of modifications within the scope of the technical idea of the present invention.

According to the cutting spindle structure of the present invention as described above, by arranging the arbor chuck and the spring collet chuck in combination to provide a spindle structure of the structure to be processed alternately arbor chuck and spring collet chuck in the machining of the workpiece If you want to use the effect is to facilitate the linking operation of the arbor chuck and the spring collet chuck.

In addition, the technology according to the present invention by providing a spindle structure of the structure capable of fastening and arranging the arbor chuck and the spring collet chuck in combination to enable the two cutting operations with one machine tool burden of the purchase of the machine tool The effect of reducing this is expected.

Claims (3)

A spindle rotatably installed at the center of the spindle head of the machine tool, a chuck coupling portion which is configured at the lower portion of the spindle but protrudes below the spindle head center and is coupled to the chuck fixing the cutting tool, and a cone at the lower center of the chuck coupling portion. It is formed in the form of the head coupling groove to which the head of the chuck is coupled, the through hole formed to penetrate the spindle up and down in the upper center of the head coupling groove, can be moved up and down on the through hole as well as rotatably installed to the left and right In the spindle structure for cutting processing consisting of a rotation preventing key protruding on both sides of the lower surface of the chuck coupling member which is a bolt screw at the bottom and the chuck coupling portion of the head coupling groove, A coupling screw portion having a male thread shape on an outer circumferential surface of the chuck coupling portion formed at the lower end of the spindle; And A female thread corresponding to the coupling screw portion formed on the outer circumferential surface of the chuck coupling portion is formed to be screwed to the chuck coupling portion, and at the center thereof, a cutting tool through hole penetrated up and down and a pressing inclined surface formed on the inner surface of the through hole are provided. Spindle structure for cutting, comprising a fixed chuck fixed cap. The arbor head of claim 1, wherein the chuck coupled to the chuck coupling portion of the spindle structure is formed in a cone shape corresponding to the head coupling groove of the chuck coupling portion and is inserted into and coupled to the head coupling groove. Nut groove formed in the center, the arbor collet formed on the arbor head lower portion, the arbor collet is configured on the outer periphery of the arbor collet coupling portion fasteners for fastening and fixing the arbor collet inserted and coupled to the arbor collet coupling portion, An arbor collet fixed to the arbor collet coupling portion by engaging an anti-rotation key groove and the cutting tool formed on both upper surfaces between the arbor head and the arbor collet coupling portion corresponding to the rotation preventing key of the spindle; Arbor Chuck consisting of; Or a collet chuck formed in the shape of a cone corresponding to the head coupling groove of the chuck coupling portion and inserted into the head coupling groove and penetrated vertically through the center of the collet chuck head to insert the cutting tool. Consists of a groove, but the front circumference is formed in a cylindrical shape while the lower part is cut in a plurality by the cutting groove at regular intervals to apply a tightening force to the cutting tool inserted into the tool coupling groove and tightened from the outside to the inside. Spindle structure for cutting, characterized in that the spring collet chuck tightening and fixing the cutting tool. 3. The spindle structure of claim 2, wherein the spindle structure is screwed to the top of the arbor chuck through a bolt screw at the bottom of the chuck fixing member when the arbor chuck is fixed to the head coupling groove of the chuck coupling portion formed at the lower end of the spindle. While fixing the spring collet chuck on the head coupling groove of the chuck coupling unit configured at the lower end of the spindle, the arbor chuck and the spring collet chuck can be used in combination so as to be fixed by the chuck fixing cap. Spindle structure for cutting, characterized in that.

Images