KR100514210B1 - Locator adjustable assembly for milling cutter - Google Patents

Abstract

A locator adjusting device of a milling tool for mounting and adjusting a rocket equipped with an insert to a milling tool is disclosed. According to the present invention, a milling tool body having a conventional settling portion, an adjusting screw marginal hole and a clamp screw insertion hole for mounting the rocket, and a through hole formed in the settling portion and formed at right angles to the through hole are formed. The rocket has a hole, the clamp screw inserted into the screw insertion hole through the through hole of the locator, the adjusting screw inserted into the rocket screw thread and the body up and down, and the clamp screw and adjusting screw The object of the present invention is achieved by providing a locator adjusting device for a milling tool, characterized in that it consists of a wrench.

Description

Locator adjustable assembly for milling cutter

The present invention relates to a locator adjusting device of a milling tool, and more particularly, to a locator adjusting device capable of finely adjusting the locator in a milling tool for fixing an insert to a body using a locator. .

In general, the milling tool is a tool that is used to cut a plane by performing a linear feed motion on a workpiece while cutting the cutting edge, that is, a tool having a cutting edge, on the outer circumferential surface of the tool body. It is a tool.

Typically, such a cutting tool consists of a cutting insert having a cutting edge as described above and a body for fixing the cutting insert.

As one of the methods of fixing the cutting insert to the body as described above, the method of fixing the cutting insert directly to the body using a fixing device or the cutting insert to the rocket first, and then fixing the rocket to the body using any fixing device. There is an indexable type.

This indexable type is a method currently used in the entire field of cutting tools because the insert can be easily exchanged when necessary. A clamping mechanism is required to secure the cutting insert to the body in order to easily change the inserts, and the "wedge", "wedge + locator" and "screw-on" screws clamping mechanisms such as "on)", "clamp on" and "hikomipin" have been developed in the field of milling tools and used alone or in combination. However, in order to improve the surface roughness of the workpiece in the milling tool, the cutting insert height must be exactly the same. This requires an adjusting device that can finely adjust the cutting insert height or a device that can finely adjust the rocket equipped with the insert. Done.

However, the conventional clamping mechanisms have had a considerable inconvenience, and a limitation of the adjustment range, and it was difficult to make fine adjustment even when there is no adjustment device, but it is inconvenient to finely adjust the cutting insert.

That is, in the conventional milling tool adjusting device, it is necessary to release the clamping state of the insert or the rocket. In this process, the cutting edge adjustment situation before and after clamping is changed by about 10μ or more, so that it is not easy to adjust it again. In the wedge clamp method, the position of the insert is changed by the wedge force. The difference in height before and after the clamping is changed by about 10 to 20 µ and the bending of the entire body occurs about 15 to 20 µ. The screw-on method, which is adopted to improve the edge adjustment in the wedge clamp method, is generally used together with the locator, so the clamping state of the locator needs to be released. Therefore, in order to adjust the cutting edge in the milling tool using all conventional clamping mechanisms, the clamping state of the insert or the rocket must be released, and the precision cutting is not easy in this process. It is not too much.

Therefore, it is necessary to develop a device that can adjust the cutting edge of the milling tool more simply and easily and can adjust the cutting edge in the clamping state of the insert or rocket.

In accordance with the above situation, the applicant has disclosed a cutting tool for milling tool in the patent application No. 2001-47784.

In the above application, the adjusting screw, the set screw, and the clamp screw are used to describe the device to adjust the cutting edge by entering from the bottom of the wrench. However, the wrench insertion direction is made from the bottom of the cutter.

The present invention is to solve the problems of the prior art as described above, an object of the present invention is a milling tool that can finely adjust the cutting edge of the cutting portion in the clamping state of the rocket equipped with the insert is fixed to the cutter portion of the milling tool body To provide a rocket control device.

In order to achieve the above object, the present invention is a clamp screw for directly fixing and connecting the cutter portion of the tool body and the insert-mounted rocket, and the adjustment for adjusting and maintaining the rocket fastened to the tool body cutter portion Provided is a rocket adjuster for a milling tool consisting of screws.

Here, the through hole of the locator through which the clamp screw passes is preferably threadless and formed to be larger than the outer diameter of the clamp screw so that the clamp screw can move up and down so that the rocket can be finely adjusted.

In addition, the through-hole is formed in the corner side (θ) corresponding to one corner of the rocket, and the screw insertion hole of the body cutter portion into which the clamp screw is inserted correspondingly is threaded to fit the screw, this is also the corner It is preferable to form in the direction.

In addition, the adjustment screw in the present invention is preferable to form a plurality of screw adjustment holes that can be adjusted from the outside in the screw multiplier on the left and right and between.

In addition, it is preferable to use a lock helicator attached to the insertion hole of the body cutter portion into which the adjustment screw is inserted.

Hereinafter, with reference to the accompanying drawings will be described the present invention in more detail.

FIG. 1 schematically shows a milling tool showing a locator 300 mounted on a cutter portion 110 and a cutter portion 110 of a milling tool body 100 and equipped with an insert 200.

Here, the insert 200 is fastened to the rocket 300 by the insert screw 211, and the rocket 300 to which the insert 200 is fastened is fastened to the tool body 100 by the clamp screw 310. In addition, it is firmly fastened to the tool body 100 by the adjusting screw 320.

Figure 2a is a partial view in the X direction of Figure 1 and Figure 2b is another embodiment of Figure 2a shows that there are two clamp screws 310 for more securely fixing the rocket 300, Figure 2c As another example of FIG. 2A, the adjusting set screw 330 is further used to fix the adjusting screw 320 more firmly.

FIG. 3A is a view from the direction A of FIG. 2A, FIG. 3B is a view from the direction A of FIG. 2B, and FIG. 4 is a view from the Y direction of FIG. 2A, these diagrams being a feature of the invention. ) Is a view showing a state in which the clamp screw 310 and the adjusting screw 320 is mounted to the cutter unit 110 of the tool body 100.

In the present invention, the insert 200 fixing method is a screw-on clamping method instead of a wedge clamping method in order to avoid a change in the height of the edge due to the elastic deformation of the settle portion (not shown) formed in the tool body cutter part 110. Adopt.

3A, 3B, and 4, the rocket 300 having the insert 200 mounted thereon is placed in a locator 300 (not shown) previously formed in the milling tool body cutter 110. Insert and slightly tighten the rocket with clamp screw 310. At this time, as described above, the rocket penetrator hole 311 in the rocket 300 has a clearance to move the screw 310, so that when the rocket 300 is adjusted as the adjusting screw 320, the rocket 300 is adjusted. To be adjusted. The head of the clamp screw 310 is a round head and the bush 313 is inserted below the head.

In this state, the clamp screw 310 is tightened while adjusting and mounting the rocket 300 through the adjusting screw 320 pre-inserted in the adjusting set screw margin hole 340 formed in the body cutter unit 110. .

Here, the adjustment screw margin hole 340 is formed horizontally in the body cutter unit 110 and the lower hole 340 is a screw hole penetrating to the lower portion of the body 100 so that one end of the adjustment screw 320 is inserted In this case, the screw thread is provided with a lock helict 325 in the inner screw hole and a first screw portion of the adjusting screw 320 is inserted and adjusted in the lower portion of the rocket to correspond to the inner screw hole. In addition, a protrusion 325 having a screw adjusting hole 321 is formed between the first screw portion and the second screw portion of the adjusting screw 320.

Therefore, the adjusting screw 320 may be adjusted by a hexagon wrench from the lower side of the body as previously applied by the applicant (it is made to adjust the wrench at both ends of the adjusting screw), or used in the present invention shown in FIG. Insert the special wrench for the adjustment screw adjustment hole 321 it is also possible to adjust the adjustment screw 320.

In FIG. 4, the β angle of the rocket is preferably in the range of 60 ° to 90 °, and the angle θ at which the clamp screw 310 is inserted is in the range of 0 ° to 40 ° from the side of the rocket 300. .

FIG. 3B shows the fixing screw 320 as the adjusting set screw 330 is more firmly fixed and adjusted through the adjusting set screw hole which may be formed in the body 100 as another embodiment of FIG. 3A.

In addition, Figure 5 shows a wrench 400 suitable for use in the present invention, the wrench 400 has a handle 410 is formed in the center portion and one end clamp the clamp screw 310 with a conventional wrench 420 Can be tightened and the other end is used to adjust the adjustment screw 320 in the adjustment screw free hole 330 through the adjustment screw hole 321 to the cylindrical portion 430 that can be fitted to the adjustment screw hole 321 do.

Figure 6 is an adjustment screw 320 suitable for use in the present invention, the first screw portion 322 and the second screw portion 323 are formed with the opposite left and right multiplier screw and both ends can be adjusted wrench Cylindrical protrusions 325 are formed between the first screw portion 322 and the second screw portion 323, and a plurality of screw adjustment holes 321 are formed in the protrusions 325, so that the wrench 400 of FIG. The cylindrical portion 430 is inserted into the screw adjustment hole 321 to allow the adjustment screw 320 to be adjusted.

Hereinafter will be described the use and operation of the present invention as described above.

First, the adjustment screw 340 is inserted into the adjustment screw free hole 340 formed in the tool body 100, and the adjustment screw 340 is inserted into the insertion hole (second screw portion receiving body screw portion) formed below the tool body by the wrench 400. Insert with a margin.

Next, the locator 300 with the insert 200 mounted thereon is placed in the settling groove formed in the cutter unit 110 of the tool body 100. After aligning the locator screw portion with the first screw portion, the adjusting screw is rotated to locate the locator 300. The rotor and adjusting screw. Then, the rocket 300 is tightly tightened with the clamp screw 310.

To adjust the height of the edge, that is, to adjust the edge of the adjustment screw 320 to the left or right through the screw adjustment hole 321 using the wrench 400, the locator flows even in the clamped state, the edge can be adjusted. Done.

Since the clamp screw 310 is inserted in the direction of the diagonal (θ) of the rocket 300 and the body 100 as described above, the clamping force or the restraining force is made more effectively, and the insertion hole below the tool body 100 Since the lock helict 325 is built in, the loosening prevention effect of the adjusting screw 320 is high.

In addition, although adjustment screw can be adjusted with a wrench through the insertion hole (B direction of FIG. 1) toward the lower part of the body 100, in this invention, adjustment of the several adjustment screw in the projection part 325 formed between the both ends of the adjustment screw 320. The ball 321 may be adjusted within the adjustment screw free hole 340 using the cylindrical portion 430 of the wrench 400 of the present invention.

Therefore, the locator can be adjusted more effectively and easily than the conventional one, so that the edge adjustment can be easily performed.

Furthermore, if necessary, the adjusting set screw 330 may be additionally used to increase the anti-loosening effect of the adjusting screw 320.

In addition, even when the locator 300 is released from the body 100, the reverse order of the mounting is so convenient to use.

As described above, the present invention can solve all the problems caused by the inconvenience of adjusting through the lower body in the conventional method for adjusting the rocket for edge adjustment.

In addition, the present invention can facilitate the adjustment of the rocket by using the adjusting screw having a screw thread of the left and right multiplier and the screw adjusting hole in the projection formed between both ends and the through hole in the rocket through which the clamp screw passes. Although there is clearance, the groove is formed diagonally and the insertion groove in the body is also in the diagonal direction, so that the tightening force between the rocket and the body can be improved compared to the conventional one. Easy effects can be expected.

Although the present invention has been described above through preferred embodiments, those skilled in the art will understand that various modifications and changes can be made within the spirit and scope of the invention as set forth in the claims below.

1 is a schematic perspective view showing a milling tool body installed with a locator adjusting device of a milling tool of the present invention.

FIG. 2A is a partial view in the X direction of FIG. 1

FIG. 2B illustrates another embodiment of FIG. 2A

FIG. 2C illustrates another embodiment of FIG. 2A

FIG. 3A is a detailed view of direction A in FIG. 2A

FIG. 3B is a detailed view of direction A in FIG. 2B

Figure 4 is a detailed view of the Y direction in Figure 2a

5 shows a wrench suitable for use with the present invention;

Fig. 6 shows an adjustment screw suitable for use in the present invention.

<Description of the code for the main part of the drawing>

100: milling tool body 110: tool body cutter portion

200: insert 211: insert screw

300: locator 310: clamp screw

311 through hole 313 bush

320: adjusting screw 321: screw adjusting hole

322: adjusting screw 1st screw part 323: adjusting screw 2nd screw part

325: protrusion 326: lock helios

330: adjusting set screw 340: adjusting screw clearance hole

400: wrench 410: handle portion

420: wrench portion 430: cylindrical portion

Claims (6)

(Correction) In the locator adjusting device of the milling tool for mounting and adjusting the rocket equipped with the insert to the milling tool, A thread for accommodating the clamp screw 310 at an angle between 0 to 40 °, a thread for accommodating the second screw portion 323 of the adjusting screw 320, and a rocket of 60 to 90 ° (β) angle. (300) a milling tool body (100) in which a seating portion and an adjusting screw free hole (340) are formed, and a screw portion for accommodating the first screw portion (322) of the adjusting screw (320) with the β angle and the θ angle A rocket 300 having a through hole 311 formed therein to receive the clamp screw 310, and at least one clamp screw 310 inserted into a screw portion accommodating the through hole 311 and the clamp screw 310. And the first screw portion and the second screw portion of the adjusting screw 300 and the adjusting screw 320 inserted into the body 100 and the rocket 300 up and down the adjusting screw slack hole 340. It is formed of different left and right multiplier screws, and both ends are shaped to fit the wrench 400, the first screw portion and the second screw A plurality of the screw portion between the adjusting ball 321 location emitter adjustment device of the milling tool, characterized by consisting of a projecting portion 325 is formed. (delete) (delete) (Correction) The method of claim 1 , wherein the wrench 400 is one end is formed of a conventional wrench portion 420, the other end is formed of a cylindrical portion 430 between the wrench portion 420 and the cylindrical portion 430 There is a handle 410 is formed rocket adjusting device of the milling tool, characterized in that formed. (delete) The method of claim 1, wherein the screw portion for accommodating the second screw portion 323 of the adjusting screw 320 in the body 100 is provided with a lock helix for preventing loosening of the adjusting screw 320 is provided. Rocker Adjuster.