KR900007519B1 - Milling chuck - Google Patents

Abstract

The milling chuck firmly and clamps tools like drill or endmill for the spindle of milling machine firmly and. The milling chuck includes cylindrical chuck body (2) with inclined loading part (3), flange (4) with inclined support surface (5), thread hole (6) for fixing chuck body (2), slot groove (9) for protecting air-compression, thread hole (7) for removing clearance.

Description

Milling chuck

1 is a front view of a portion of the present invention cut away

2 is a cross-sectional view taken along the line a-a of FIG.

3 is a reference cross-sectional view for explaining the prior art.

* Explanation of symbols for main parts of the drawings

1: milling chuck 2: chuck body

3: loading part 4: flange

5, 12: when the force is received, 6, 7: screw holes

8: Tool long major 9: Slot groove

10, 26: screw 11: tightening ring

13: manipulator 14: roller

15: Retainer 16: Roller

17, 18: stop ring 19: groove

20, 32: bolt 21: through-hole

22: right hand screw 23

24: Joo 25: Left hand thread

27: left hand thread 28: right hand thread

29, 29 ': fixed pin hole 30, 30': fixed pin

31, 31 ': Set screw A: Center line

B, C: constant distance

The present invention relates to a milling chuck (Milling Chuck) to be able to firmly and accurately hold a tool such as a drill or end mill on the spindle of the milling machine.

In the conventional milling chuck, as shown in FIG. 3, a tool such as a drill or an end mill is inserted into a tool long hole 8 'of the flange 4' of the chuck body 2, and then a fixed pin 30 'is inserted. ) And bolts (32), so that it is difficult to precisely match the center of the tool holder of the chuck body inserted into the spindle of the milling machine so that the center of the tool is concentric. As a result of the waste of time and time, it is a factor of increase in production cost. Especially, the tool is damaged due to the vibration caused by the space play because the space play of the milling chuck and the tool cannot be removed. There have been closures and problems such as frequent occurrences.

An object of the present invention can be easily adjusted by the pin and jaw and tightening ring of the chuck body so that the center of the tool holder of the chuck body inserted into the spindle of the milling machine and the center of the tool are exactly matched concentric. The present invention provides a milling chuck capable of producing a workpiece with higher precision since the shaking of the tool is considerably less in the actual machining operation.

Another object of the present invention is to remove the tool and the tool holder major space clearance of the chuck body, such as a drill or end mill to prevent the tool from being damaged by the vibration generated by the space clearance, and also to hold the tool effectively and firmly Therefore, the present invention provides a milling chuck that prevents the tool from being damaged by preventing the tool from being pushed or released.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings. As shown, the chuck body (2) is formed in a cylindrical shape, the outer periphery forms a tapered charge portion (3) of the lower light reciprocation is attached to the spindle of the milling machine (not shown), the lower end as a base The flanger 4 is integrally formed, and when the lower end of the flange 4 is formed as a base, the end of the flange 4 is gradually forced to form a tapered taper. A screw hole 6 for fixing the body 2 is formed, and a space hole removal screw hole 7 is formed at the lower end thereof, and the lower part thereof has a straight surface of the tool tool hole 8 in a straight line for inserting a tool. A plurality of air compression preventing slot grooves 9 are formed in the circumferential length direction.

The space clearance removal screw hole 7 of the chuck body 2 is screwed to lift the space clearance removal screw 10 from the top.

When the chuck body 2 receives the force (5), the operation hole 13 is laid, and when the force is received (12) to install the tightening ring 11 formed so as to be rotatable, the thin tapered phase retainer (15) Speaking at predetermined intervals in the circumferential direction, the roller group 14, which is controlled to roll freely while being regulated by the roller 16, is installed so as to be retained in the force 12 of the tightening ring 11 to stop the ring 17. (18) with the tightening ring (11) so that it can flow in some axial direction.

In the upper part of the flange 4, the bolt 20 is screwed to fix the space gap removal screw 10 at the side by concave groove 19 on both sides, and immediately through the air compression prevention through hole (21) will be buried.

형 조오(24)를 조오공(23)에 끼워넣은후 왼나사부(27)와 오른나사부(28)로 된 나사(26)에 의해 나사축방향으로 유동가능하게 설치하며, 또한 프랜지(4)의 조오(24)와 나사(26)의 바로 그 하부에는 플랜지(4)의 중심선(A)으로부터 120도 정도의 각도로 천설된 고정핀공(29)에 고정핀(30)을 삽입하고, 멈춤나사(31)로 고정할 수 있도록 한다.In the middle portion of the flange (4), it is spaced apart from the centerline (A) of the flange (4) by a predetermined distance (B) (C) to drill the right-hand screw hole 22 on one side, and to fix the tool on the other side Cylindrical jaw hole 23 is laid to allow left threaded hole 25 to be drilled.

After inserting the mold jaw 24 into the jaw hole 23, it is installed to be movable in the screw axial direction by a screw 26 composed of a left screw portion 27 and a right screw portion 28, and the flange 4 The fixing pin 30 is inserted into the fixing pin hole 29 formed at an angle of about 120 degrees from the center line A of the flange 4 at the lower part of the jaws 24 and the screw 26, and the stop screw ( 31).

The present invention configured as described above is caused by the vibration generated by the space play by adjusting the space play removal screw 10 screwed to the space play removal screw hole 7 of the chuck body 2 in a suitable manner. Prevents tool breakage.

Next, the milling chuck 1 is installed and used on the spindle of the milling machine (not shown) so that the charging portion 3 of the chuck body 2 in the tapered shape of the lower light cooperating body is attached. In fixing a tool such as a drill or an end reel to the tool holder 8 of the chuck body 2, the left screw portion 27 and the right screw portion 28 are formed on the flange 4 portion of the chuck body 2. The screw 26 is rotated to the left to loosen the jaws 24, the stop screw 31 to be removed to remove the fixing pin 30, and then a tool is inserted to temporarily fix the process in the reverse order. Next, when the tightening ring 11 is rotated by inserting the key of the key spanner into the operating hole 13 of the tightening ring 11 installed so as to be rotatable on the force 5 of the chuck body 2, the milling chuck 1 The center of the tool and the center of the tool is fixed while being concentric, and more firmly fixed to the jaw (24) flowing in the screw axial direction by the fixing pin 30 and the screw 26, the milling chuck (1) Since the tool is effectively gripped without excessive force on each part, it can not only prevent the tool from being damaged due to the tool being pushed or dislodged, but also significantly less of the tool shake, especially in the actual machining operation. The workpiece with higher accuracy can be obtained.

Further, when inserting a tool into the tool long hole 8 of the chuck body 2, the slot groove 9 and the flange 4 formed in the circumferential length direction on the main surface of the tool long hole 8 of the chuck body 2 ) Since the air is leaking through the through hole 21 in communication with the tool hole (8) in the upper groove (19) at the top, the tool can be lightly fixed without disassembly and can be disassembled.

According to the present invention as described above, 1. The space play between the milling chuck 1 and the tool can be removed, and the tool can be prevented from being broken due to the vibration generated by the space play. 2. Since the tool is effectively gripped so as not to exert excessive force on the respective parts of the milling chuck 8, it is possible to prevent the tool from being damaged by being pushed or detached. 3. Since the concentricity can be easily grasped so that the center of the milling chuck 1 and the tool coincide with each other, the shaking of the tool is considerably less in the actual machining operation, and the effect of obtaining a more precise workpiece can be obtained. .

Claims (1)

As shown, the chuck body (2) is formed in a cylindrical shape, the outer periphery is formed in the lower part of the tapered form in the lower light bargain sensitized to the spindle of the milling machine (not shown) to the lower end to the base To form the flange 4 integrally, and if the lower end of the flange 4 is forced to form a tapered taper at the lower end, the end is formed (5), and the inner end is chucked on the top of the charging section 3. A screw hole 6 for fixing the body 2 is formed, and a space hole removal screw hole 7 is formed at the lower end thereof, and the lower part thereof has a straight tool-long hole 8 for inserting the tool. A plurality of air compression preventing slot grooves 9 are formed in the circumferential length direction, and the space play removal screw 10 is provided in the space play removal screw hole 7 of the chuck body 2 from above. When screwed up and down, when the force of the chuck body (2) (5), the operating hole 13 is laid The fastening ring 11 formed in the receiving surface 12 is installed to be rotatable, but the tapered speech is spaced in the circumferential direction to the tapered retainer 15 to roll freely as the roller 16 is regulated. The roller group 14 is installed so as to be retained in the force 12 of the tightening ring 11, and the stop ring 17 and 18 are installed so as to be able to rotate to some extent in the axial direction together with the tightening ring 11. In the upper part of the flange 4, the grooves 19 are provided on both sides, and the bolt 20 is screwed to fix the space clearance removal screw 10 from the side, and the air compression prevention through hole 21 is immediately below. ) And the middle part of the flange (4) is spaced apart from the centerline (A) of the flange (4) by a predetermined distance (B) (C) to drill the right-hand screw hole 22 on one side, the other side Cylindrical jaw hole 23 is laid to fix the tool, and left threaded hole 25 is drilled.

After inserting the mold jaw 24 into the jaw hole 23, the screw 26 is formed of a left screw portion 27 and a right screw portion 28 so as to be movable in the screw axial direction, and the flange 4 The fixing pin 29 is inserted into the fixing pin hole 29 formed at an angle of about 120 degrees from the center line A of the flange 4 at the lower portion of the jaw 24 and the screw 26 of the flange 4. Milling chuck to be fixed with (31).

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