KR200455673Y1 - Tool Holding Chuck for Milling Machine - Google Patents

Abstract

The present invention relates to a tool holding chuck for a milling machine.
In the tool fixing chuck for a milling machine of the present invention, the outer side has a truncated cone-shaped upper outer circumferential portion, and an outer diameter is formed larger than the upper outer circumferential surface portion under the upper outer circumferential portion, and both sides of the first key groove for coupling with the spin of the milling machine are present. And a lower outer peripheral surface portion having a smaller outer diameter than the flange portion formed at the lower portion of the flange portion, and having a first screw thread formed at the lower portion thereof. The inner side penetrates up and down to the inner side of the upper outer peripheral surface portion. The first upper hollow portion and the upper portion of the flange portion and the lower outer circumferential surface of the upper upper hollow portion in communication with the upper upper portion is formed, the inner diameter is larger than the first upper hollow portion, the boundary between the first upper hollow portion It is composed of a first lower hollow portion having a first locking jaw formed at the point, and an expanded hollow portion formed at a lower portion of the first lower hollow portion and having an inner diameter increased to the outside. An outer case having a key insertion hole formed at one side of the flange portion so that the key is inserted into the key insertion hole so that the tip of the key protrudes toward the first lower hollow portion; The outer side includes an upper through portion having a lower outer circumferential surface inserted through the first upper hollow portion of the outer case, and an outer diameter formed at a lower portion of the upper through portion than the upper through portion, and having a tip end of the key inserted therein. 2 key groove is formed on one side and the upper end is configured to be caught on the first locking jaw and is inserted into the first lower hollow portion of the outer case, and formed in the lower portion of the lower through portion It is formed to be inclined downward, but comprises an inclined portion configured to have the same inclination angle as the expansion hollow portion, the inner side, the second penetrating up and down into the inner side of the upper through and coupled to the spindle of the milling machine on the upper inner peripheral surface A second upper hollow portion in which a thread is formed, and is formed through the upper hollow portion in communication with the second upper hollow portion inside the lower hollow portion; And a second lower hollow portion in which a tool is inserted and fixed, and the lower through-hole has a plurality of incisions cut in the vertical direction so as to communicate with the inner second lower hollow portion, and is formed of a spring steel material. An inner case; The outer side is formed in a cylindrical shape, the inner side is formed with a third screw thread to be screwed with the first screw thread of the outer case, the lower portion of the inner case through the hollow hole formed while penetrating the lower through the inner case The third screw thread is formed between the inner casing hollow portion and the third screw thread, and the clearance hollow part having a larger inner diameter than the inner casing hollow part is formed between the inner casing hollow part and the inner casing hollow part. A lower case having a catching jaw formed therein; the inner case is inserted into the outer case, and the lower end of the inclined portion is fastened by screwing the lower case to the lower part of the outer case. 2, which is seated on the catching jaw, and the inclined portion is expanding according to the degree of screwing the first screw thread of the outer case and the third screw thread of the lower case. It is configured to be movable up and down along, and, as insertion of the inclined portion extended along the study As narrowing of the incision hole width narrows the inner diameter of the study of the second bottom is characterized in that is configured to secure the tool.
According to the present invention, the tool fixing chuck is largely composed of an outer case, an inner case and a lower case, and forms an inclined portion protruding from the inner case lower part, and forms a slanted portion protruding under the inner case, By forming a hole and forming the inner case with a spring steel material, when the inner case is inserted into the outer case, the inclined portion enters the inclined portion of the inner circumferential surface of the inner case so that the width of the incision hole can be narrowed. Therefore, the tool can be easily fixed without having a separate thread or the like.

Description

Chuck of milling machine for fixing tool}

The present invention relates to a tool fixing chuck for a milling machine, and forms a plurality of incision holes in the inner case, and forms an inclined portion protruding in the lower inner case, while the expansion hollow portion having the same inclination angle as the inclined portion in the lower outer case Formed to be inclined portion is inserted into the expansion hollow so that the width of the incision hole becomes smaller or larger, and relates to a tool fixing chuck for a milling machine, which can easily secure the tool without a separate manual work.

Generally, arbor is divided into CHUCK part and MODULE part. Arbor's chuck part is coupled to the spindle head of the milling machine of the machine tool, and the cutting tool is coupled to the module part to rotate the spindle motor of the milling machine. When the spindle head is rotated, the arbor coupled with the chuck to the spindle head and the cutting tool coupled to the modulus are rotated together. At this time, the table on which the workpiece positioned below is fixed is left. As you move to the right, the cutting tool coupled to the arbor of the arbor will cut the workpiece fixed to the table.

Therefore, the arbor plays an intermediate role in connecting the cutting tool and the spindle head driven by the spindle motor in the milling machine.

Looking at the conventional technology related to such a tool fixing chuck for a milling machine, "arbor coupling structure" (Korean Utility Model Publication No. 1992-0001522) shows a structure that is screwed to the tool by forming a thread It is.

However, when fixing the tool by forming a thread inside the arbor as described above, there was a problem in that the screw is loosened during the operation so that the tool is not positioned correctly.

In addition, since the worker has to work to tighten the tool by hand every day, there was a problem inconvenient work.

KR 20-1992-0001522 (1991.08.30)

Tool fixing chuck for the milling machine of the present invention is to solve the problems occurring in the prior art as described above, the tool fixing chuck largely composed of the outer case, inner case and lower case, and form the inner peripheral surface of the lower outer case inclined While forming the inclined portion protruding under the inner case, a plurality of incision holes are formed in the inner case wall, and the inner case is formed of a spring steel material so that the inclined portion of the inner case when the inner case is inserted into the outer case The inner diameter of the inner case is variable by allowing the width of the incision hole to be narrowed while entering the photo part, so that the tool can be easily fixed without a separate thread or the like.

It is also intended to prevent the fixed tool from being separated from the inner case by vibration or the like.

At this time, the incision hole is intended not to be completely cut to the bottom of the inner case to take the form cut in the middle portion to prevent excessive deformation and to be deformed only finely so that the tool can be firmly fixed.

In order to solve the above problems, the tool fixing chuck for a milling machine of the present invention has a larger outer diameter than the upper outer circumferential portion at the bottom of the upper outer circumferential portion and the upper outer circumferential portion of the truncated cone shape, and It consists of a flange portion formed on both sides of the first key groove for coupling, and a lower outer circumferential surface portion having a smaller outer diameter than the flange portion at the lower portion of the flange portion, the first screw thread is formed in the lower portion, the inner side, The first upper hollow portion penetrated up and down inside the upper outer circumferential portion, and the upper upper hollow portion is formed through the upper and lower hollow portion in communication with the first upper hollow portion, the inner diameter is larger than the first upper hollow portion. The first lower hollow part and the first lower hollow part are formed at the boundary with the first upper hollow part, and the lower inner part of the first lower hollow part and the inner diameter increases to the outside An outer case comprising an expansion hollow portion, wherein a key insertion hole is formed at one side of the flange portion so that a key is inserted into the key insertion hole so that the tip of the key protrudes toward the first lower hollow portion; The outer side includes an upper through portion having a lower outer circumferential surface inserted through the first upper hollow portion of the outer case, and an outer diameter formed at a lower portion of the upper through portion than the upper through portion, and having a tip end of the key inserted therein. 2 key groove is formed on one side and the upper end is configured to be caught on the first locking jaw and is inserted into the first lower hollow portion of the outer case, and formed in the lower portion of the lower through portion It is formed to be inclined downward, but comprises an inclined portion configured to have the same inclination angle as the expansion hollow portion, the inner side, the second penetrating up and down into the inner side of the upper through and coupled to the spindle of the milling machine on the upper inner peripheral surface A second upper hollow portion in which a thread is formed, and is formed through the upper hollow portion in communication with the second upper hollow portion inside the lower hollow portion; And a second lower hollow portion in which a tool is inserted and fixed, and the lower through-hole has a plurality of incisions cut in the vertical direction so as to communicate with the inner second lower hollow portion, and is formed of a spring steel material. An inner case; The outer side is formed in a cylindrical shape, the inner side is formed with a third screw thread to be screwed with the first screw thread of the outer case, the lower portion of the inner case through the hollow hole formed while penetrating the lower through the inner case The third screw thread is formed between the inner casing hollow portion and the third screw thread, and the clearance hollow part having a larger inner diameter than the inner casing hollow part is formed between the inner casing hollow part and the inner casing hollow part. A lower case having a catching jaw formed therein; the inner case is inserted into the outer case, and the lower end of the inclined portion is fastened by screwing the lower case to the lower part of the outer case. 2, which is seated on the catching jaw, and the inclined portion is expanding according to the degree of screwing the first screw thread of the outer case and the third screw thread of the lower case. It is configured to be movable up and down along, and, as insertion of the inclined portion extended along the study As narrowing of the incision hole width narrows the inner diameter of the study of the second bottom is characterized in that is configured to secure the tool.

At this time, the incision hole is characterized in that the circular upper incision hole of a diameter larger than the width of the incision hole is connected to the upper portion, the lower circular hole of a diameter larger than the width of the incision hole is connected to the lower portion.

In addition, the lower through portion of the inner case is characterized in that the outer diameter reducing portion having a smaller outer diameter than the lower through portion is formed in the portion corresponding to the upper incision hole.

According to the present invention, the tool fixing chuck is largely composed of an outer case, an inner case and a lower case, and forms an inclined portion protruding from the inner case lower part, and forms a slanted portion protruding under the inner case, By forming a hole and forming the inner case with a spring steel material, when the inner case is inserted into the outer case, the inclined portion enters the inclined portion of the inner circumferential surface of the inner case so that the width of the incision hole can be narrowed. Therefore, the tool can be easily fixed without having a separate thread or the like.

In addition, the fixed tool is not separated from the inner case by vibration or the like.

At this time, the cut-out hole is not completely cut to the bottom of the inner case to take a form cut only in the middle portion to prevent excessive deformation and to be able to deform only finely to be able to firmly fix the tool.

1 is an exploded perspective view showing a partially cut tool chuck for a milling machine of the present invention.
Figure 2 is an exploded cross-sectional view showing the outer case and the lower case in the present invention.
Figure 3 is a cross-sectional view showing the inner case in the present invention.
4 and 5 is a cross-sectional view showing an operating state according to the present invention.

Hereinafter, a tool fixing chuck for a milling machine of the present invention will be described in detail with reference to the accompanying drawings.

Tool fixing chuck for a milling machine of the present invention is largely composed of an outer case 10, the inner case 20 and the lower case 30 as shown in FIG.

The outer side of the outer case 10 is composed of an upper outer peripheral surface portion 11, a flange portion 12, a lower outer peripheral surface portion 13 from top to bottom as shown in FIG.

The upper outer circumferential surface portion 11 has a truncated conical shape as shown, and the flange portion 12 is formed below the upper outer circumferential surface portion 11, and the outer diameter thereof is larger than the upper outer circumferential surface portion 11.

In addition, as shown in FIG. 1, the flange portion 12 is provided with first key grooves 12a on both sides for coupling with the spin of the milling machine.

The lower outer circumferential surface portion 13 is formed at the lower portion of the flange portion 12, the outer diameter is formed smaller than the flange portion 12, the first screw thread (13a) is formed in the lower portion.

As shown in FIG. 2, the inner side of the outer case 10 configured as described above has a hollow portion penetrated up and down in the center thereof.

The hollow portion is formed inside the upper outer circumferential portion 11 and penetrates the upper and lower first upper hollow portions 14, the flange portion 12, and the lower outer circumferential portion 13 to the inner portion of the first upper hollow portion 14. It is formed in the lower portion of the first lower hollow portion 15 and the first lower hollow portion 15 which is formed to penetrate up and down while communicating with the expansion hollow portion 16 having an inner diameter increasing outward. .

At this time, between the first upper hollow portion 14 and the first lower hollow portion 15 is characterized in that the first catching jaw 15a is formed along the inner circumference at the boundary point according to the sudden change in the inner diameter. .

In addition, a key insertion hole 17 is formed at one side of the flange portion 12 so that the key 17a is inserted into the key insertion hole 17 so that the tip of the key 17a is the first lower hollow portion 15. It is configured to protrude to the side.

The inner case 20 is made of a spring steel material, the outside of the inner case 20 is composed of the upper through portion 21, the lower through portion 22 from top to bottom as shown in FIG. In the lower portion of the lower through portion 22, the inclined portion 23 is formed to protrude outward.

As shown in the upper through part 21, the lower outer circumferential surface is inserted while passing through the first upper hollow part 14 of the outer case 10.

The lower through part 22 is configured to be inserted into the first lower hollow part 15 of the outer case 10 as shown.

To this end, the lower through portion 22 has a larger outer diameter than the upper through portion 21 at the lower portion of the upper through portion 21 as shown.

In addition, a second key groove 22a into which the front end of the key 17a is inserted is formed at one side at one side of the lower through part 22.

At this time, the lower through part 22 of the inner case 20 inserted into the first lower hollow part 15 of the outer case 10 while the lower case 30 is connected to the outer case 10 is vertically 1. It is preferable that the second key groove 22a is formed to be about 1 to 10 mm longer than the vertical length of the key 17a so as to be movable about 10 mm.

In addition, the upper end of the lower through portion 22 is configured to be caught by the first catching jaw 15a of the outer case 10 as shown.

On the other hand, the lower portion of the lower portion 22 is formed along the lower portion of the periphery of the periphery of the lower portion 22, the cross-sectional structure is formed in a downwardly inclined triangle shape, but inclined to have the same inclination angle as the inner wall surface of the expansion hollow portion 16 The part 23 protrudes and is formed.

The inner side of the inner case 20 is penetrated up and down into the upper through portion 21 as shown in the second upper portion of the second screw thread 24a for engaging the spindle of the milling machine on the upper inner peripheral surface is formed. Study 24 is formed.

In addition, the second lower hollow portion 25 is formed to penetrate up and down while communicating with the second upper hollow portion 24 in the lower hollow portion, and the tool 40 is inserted and fixed thereto.

At this time, the lower through portion 22 of the inner case 20 is characterized in that a plurality of incision holes 26 are cut in the vertical direction so as to communicate with the second lower hollow portion 25 of the inner side.

This structure is such that the inclined portion 23 extends the hollow portion of the outer case 10 when the lower through portion 22 of the inner case 20 is inserted into the first lower hollow portion 15 of the outer case 10. 16) The lower through portion 22 of the inner case 20 is guided along the inner wall surface and is configured to be inserted into the first lower hollow portion 15. In this way, the inclined portion 23 of the inner case 20 is inserted. As the width of the incision hole 26 of the inner case 20 made of the spring steel is reduced while entering the inner wall surface of the expanded hollow portion 16, the inner diameter of the second lower hollow portion 25 is eventually reduced. Therefore, it serves to pressurize and fix the tool 40 inserted into the second lower hollow portion 25.

The lower case 30 is formed in a cylindrical shape as shown, and the third screw thread 31 is formed on the inner side to be coupled to the first screw thread 13a of the outer case 10.

In addition, the inner lower case through-hole 32 is formed to penetrate while the lower through portion 22 of the inner case 20 is in close contact with the inner bottom.

In addition, between the inner case through hollow portion 32 and the third screw thread 31, a portion having a third screw thread 31 formed therein and a clearance hollow portion 33 having a larger inner diameter than the inner case through hollow portion 32 are formed. The second catching jaw 34 is formed between the clearance gap 33 and the inner case through hollow 32.

The tool fixing chuck of the present invention configured as described above has an inner case 20 inserted into the outer case 10, and the lower case 30 is screwed to the lower portion of the outer case 10 as shown. The lower end of the inclined portion 23 is seated on the second catching jaw 34 in the fastened state by the first screw thread, and the first screw thread 13a of the outer case 10 and the third screw thread 31 of the lower case 30. According to the degree that the screw is coupled to the inclined portion 23 is configured to be moved up and down along the expansion hollow portion 16, the inclined portion 23 is inserted along the expansion hollow portion 16 as the incision hole ( As the width of the 26 is narrowed, the inner diameter of the second lower hollow portion 25 is narrowed to fix the tool 40.

As shown in the above configuration, the incision hole 26 has a circular upper incision hole 26a having a diameter larger than the width of the incision hole 26 at the top thereof, and a lower portion of the incision hole 26 at the bottom thereof. It can be configured so that the circular lower incision hole 26b larger in diameter than the width is connected.

As such, forming the upper incision hole 26a and the lower incision hole 26b is relatively easy to change the inner diameter of the inner case 20 as compared with only cutting the incision hole 26 to a predetermined width.

In this case, it is preferable that the lower through portion 22 of the inner case 20 forms an outer diameter reducing portion 22b having a smaller outer diameter than the lower through portion 22 in a portion corresponding to the upper cutout hole 26a. .

The outer diameter reducing portion 22b preferably reduces the outer diameter so as to correspond to the depth of the second key groove 22a described above. Accordingly, the up and down flow in the state where the key 17a is inserted into the second key groove 22a is performed. You can make it possible.

In addition, since the thickness of the portion where the upper cutout hole 26a is formed is thin, the change in the inner diameter of the second lower hollow portion 25 is more easily performed.

Looking at the operating state of the tool fixing chuck for a milling machine of the present invention configured as described above, when inserting the tool 40 to rotate the lower case 30 so that the first screw thread 13a and the third screw thread 31 are released. The inclined portion 23 of the inner case 20 to move outward on the inner wall surface of the expanded hollow portion 16 so that a separate pressure is not applied to the outside of the inner case 20. The head portion is inserted into the second lower hollow portion 25, and then the lower case 30 is rotated in the opposite direction, so that the inclined portion 23 of the inner case 20 forms the inner wall surface of the expanded hollow portion 16. As the inside of the outer case 10 is inserted into the outer case 10, the width of the incision hole 26 is narrowed, and as the inner diameter of the second lower hollow portion 25 decreases, the tool 40 is pressed and fixed.

10: outer case 11: upper outer peripheral portion
12: flange 12a: first key groove
13: lower peripheral surface portion 13a: first thread
14: first upper heavy part 15: first lower heavy part
15a: first locking jaw 16: expansion hollow part
17: key insertion hole 17a: key
20: inner case 21: upper through
22: lower through part 22a: second key groove
22b: outer diameter reducing portion 23: inclined portion
24: 2nd upper hollow part 24a: 2nd thread
25: second lower hollow part 26: incision hole
26a: Upper incision hole 26b: Lower incision hole
30: lower case 31: third thread
32: through the inner case hollow 33
34: second locking jaw 40: tool

Claims (3)

In the tool holding chuck for milling machine,
The outside is
The outer circumferential surface portion 11 of the truncated conical shape, and the outer diameter is formed larger than the upper outer circumferential surface portion 11 in the lower outer circumferential surface portion 11, the first key groove 12a for coupling with the spin of the milling machine is formed on both sides Consisting of the flange portion 12 and the lower outer peripheral surface portion 13 having an outer diameter smaller than the flange portion 12 in the lower portion of the flange portion 12 and having a first screw thread 13a formed therein. It is,
The inside is
The first upper hollow portion 14 penetrates up and down inside the upper outer circumferential portion 11, and the first upper hollow portion 14 is in communication with the flange portion 12 and the lower outer circumferential portion 13. The first lower hollow part 15 which is formed to penetrate up and down but has a larger inner diameter than the first upper hollow part 14, and has a first catching jaw 15a formed at a boundary point with the first upper hollow part 14. ), And the expansion hollow portion 16 is formed in the lower portion of the first lower hollow portion 15 and the inner diameter increases to the outside,
The key insertion hole 17 is formed at one side of the flange portion 12 so that the key 17a is inserted into the key insertion hole 17 so that the front end of the key 17a is toward the first lower hollow portion 15. An outer case 10 configured to protrude;
The outside is
The upper outer periphery 21 of which the lower outer peripheral surface is inserted while penetrating the first upper hollow portion 14 of the outer case 10, and the outer diameter than the upper through 21 in the lower portion of the upper through 21 The second key groove (22a) is formed on one side and the upper end is caught to the first catching jaw (15a) is formed largely and the front end of the key (17a) is inserted into the A lower through part 22 inserted into the first lower hollow part 15 and a lower part of the lower through part 22 and formed to be inclined downward along a circumference thereof, the same as that of the expanded hollow part 16. It consists of the inclination part 23 comprised so that it may have an inclination angle,
The inside is
A second upper hollow part 24 having a second screw thread 24a for penetrating up and down inside the upper through part 21 and coupled to the spindle of the milling machine on an upper inner circumferential surface thereof; It is formed to penetrate up and down while communicating with the second upper hollow portion 24 and the second lower hollow portion 25 to which the tool 40 is inserted and fixed,
The lower through portion 22 is formed with a plurality of incision holes 26 are cut in the vertical direction so as to communicate with the second lower hollow portion 25 of the inside, the inner case 20 made of a spring steel material;
The outer side is formed in a cylindrical shape, the inner side is formed with a third screw thread 31 to be screwed with the first screw thread 13a of the outer case 10, the lower portion through the lower case of the inner case 20 An inner case through-hole portion 32 is formed to penetrate while the portion 22 is in close contact, and a portion of the third screw thread 31 formed between the inner case through-hole portion 32 and the third screw thread 31. A clearance hollow portion 33 having an inner diameter larger than that of the inner case through hollow portion 32 is formed so that a second catching jaw 34 is formed between the clearance hollow portion 33 and the inner case through hollow portion 32. It is configured to include a lower case (30),
The inner case 20 is inserted into the outer case 10, and the lower end of the inclined portion 23 is fastened in the state where the lower case 30 is fastened to the lower portion of the outer case 10 by screwing. The inclined portion 23 is seated on the locking jaw 34, and the inclined portion 23 extends according to the degree of screwing the first screw thread 13a of the outer case 10 and the third screw thread 31 of the lower case 30. It is configured to move up and down along the (16), while the inclined portion 23 is inserted along the expansion hollow portion 16, the width of the incision hole 26 is narrowed while the inner diameter of the second lower hollow portion 25 Characterized in that it is configured to narrow and secure the tool 40,
Tool holding chuck for milling machines.
The method of claim 1,
The incision hole 26 has a circular upper incision hole 26a having a larger diameter than the width of the incision hole 26 at the upper portion, and has a circular lower incision having a diameter larger than the width of the incision hole 26 at the lower portion thereof. Characterized in that the hole 26b is connected,
Tool holding chuck for milling machines.
The method of claim 2,
The lower through portion 22 of the inner case 20 has an outer diameter reducing portion 22b having an outer diameter smaller than that of the lower through portion 22 in a portion corresponding to the upper incision hole 26a. ,
Tool holding chuck for milling machines.

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