KR20090044698A - Sleeve and block assembly capable of adjusting angle of drill - Google Patents

Abstract

The present invention relates to an assembly of a drill sleeve and a block for adjusting a drill end angle to easily set a drilling center point when drilling into a workpiece after assembling it into a turret of a turret lathe. 3 to 6 screw tightening surfaces ( P1 , P2 , P3 ) spaced at equal angles on the outer surface of the body, and in the block 21 into which the sleeve 31 is inserted, toward the center of the sleeve 31; Two tabs 23 and 25 are formed to be perpendicular to each other, and the first and second screws 27 and 29 are fastened to each of the tabs 23 and 25 so that at least one of the screws is provided. It is characterized in that the screw tightening surface of the sleeve 31 is pressed, and according to the present invention, the drill tip angle is 2 to 3 by combining three to six screw tightening surfaces formed on the sleeve and two tabs formed on the block. The operator can rotate in 10 steps, While fixing the ribs to the block, there is an effect that the tip angle of the drill can be adjusted to the position of the operator.

Drill, sleeve, block

Description

SLEEVE AND BLOCK ASSEMBLY CAPABLE OF ADJUSTING ANGLE OF DRILL}

The present invention relates to an assembly of a drill sleeve and a block, and more particularly, it is possible to adjust the drill end angle to easily set the drilling center point when drilling into a workpiece after assembling it into the turret of the turret lathe. To an assembly of drill sleeves and blocks.

Conventionally, a turret lathe forms a socket in a drill holding block that is radially installed and inserts and fixes a drill having various diameters in the socket, thereby performing various drilling operations while replacing the drill only by rotating the turret. 1 is a cross-sectional view of a conventional sleeve and block assembly for a drill. Referring to FIG. 1, the inner diameter of the socket of the block 1 is formed to have a predetermined size, and the outer diameter of the drill 13 varies according to the type and size of the drill, so that the drill 13 is connected to the socket of the block 1. When installing, the outer diameter of the drill 13 is adjusted using the sleeve 7. At this time, the drill 13 is first inserted into the hollow of the sleeve 7 and fixed, and then the sleeve 7 is inserted into the socket of the block 1 and fixed.

As shown in FIG. 1, in order to fix the sleeve 7 to the socket of the block 1, two screw tightening surfaces 9 facing each other by chamfering the outer surface of the body of the sleeve 7 in a plane. 11 ) and a tab 3 penetrating to the socket in the body of the block 1, and then one of the two screw tightening surfaces 9 , 11 formed on the sleeve 7 ( In FIG. 1, the screw 5 was fastened here with 9) facing the tab 3.

Thus, the drill end angle is assembled to the block 1 while maintaining the angle given with respect to the screw fastening surfaces 9 , 11 when the drill 13 is fixed to the sleeve 7. There was no choice but to be. That is, when assembling the sleeve 7 to the block 1, the tip angle of the drill could not be changed as needed by the operator.

However, in assembling the sleeve 7 to the block 1, if the operator cannot change the tip angle of the drill, it causes the following inefficiency of the drilling operation.

In the centering operation in which the operator aligns the center of the drill with the center point of drilling of the workpiece, the centering operation is easy or very difficult depending on the tip angle of the drill relative to the worker's position. By the way, since the wear of the tip continuously occurs due to the cutting operation of the drill, the tip angle is continuously changed according to the use because the drill tip is changed from time to time. Since the screw tightening surface (not shown) formed in the drill shank and the screw tightening tab (not shown) formed in the sleeve are formed in a predetermined direction, the screw tightening surface ( 9 , 11 ) of the drill tip angle and the sleeve 7 and The angle of may not be changed by the operator even when the drill 13 is fixed to the sleeve 7, and only depends on the wear state of the drill tip angle at that time. After all, in order to facilitate the centering operation, the operator needs to change the tip angle of the drill through the rotation of the sleeve 7 when assembling the sleeve 7 to the block 1.

However, according to the conventional drill sleeve and block assembly, the rotation angle of the sleeve is limited to 180 °, and even when the sleeve is rotated to 180 °, the drill tip angle becomes the original position and cannot be changed, so that the drilling worker There was a disadvantage that it is difficult to facilitate the centering operation.

The present invention has been made to solve the problems occurring when the centering operation of the drill using the conventional drill sleeve and block assembly described above, while the worker is fixing the sleeve to the block, the drill that can adjust the tip angle of the drill to the position of the worker It is an object to provide a sleeve and a block assembly.

The assembly of the angle adjustable drill sleeve and block according to the present invention to achieve the object of the present invention to form three to six screw tightening surfaces spaced at equal angles on the outer surface of the sleeve body, the sleeve is inserted In the block is formed two tabs running toward the center of the sleeve at a right angle to each other, each tab is fastened to the first screw and the second screw of the at least one of the screw screw tightening surface of the sleeve Pressurization is characterized in that.

According to the present invention having the above-described configuration, the drill tip angle can be rotated in two to ten steps by combining three to six screw tightening surfaces formed on the sleeve and two tabs formed on the block, so that the operator While fixing to the block, there is an effect that can adjust the tip angle of the drill to the position of the operator.

Hereinafter, with reference to the accompanying drawings, it will be described in detail a preferred embodiment of the assembly of the adjustable sleeve sleeve and block according to the present invention.

2 is a partial cross-sectional view showing the drill sleeve and block assembly drill insert according to the present invention, Figure 3 is a perspective view showing the sleeve separated from the drill sleeve and block assembly according to the invention, Figures 4a to Figure 4b shows a state diagram of use showing how to rotate the drill fixed to the drill sleeve and the block assembly according to the invention for easy centering, respectively.

Referring to FIG. 2, the block 21 generally has a wide rectangular cross section at the top, and has a hexagonal pillar shape having a trapezoidal cross section that is narrower at the bottom thereof. In addition, a socket for inserting and fixing the sleeve 31 is formed in the center of the block 21. The outer diameter of the sleeve 31 inserted into the socket coincides with a slight tolerance with the inner diameter of the socket, but the diameter of the hollow of the sleeve 31 varies depending on the drill used.

2 and 3, a feature of the present invention is to form three or more screw tightening surfaces ( P1 , P2 , P3 ) spaced at equal angles on the outer surface of the body of the sleeve 31, the sleeve 31 Is formed in the block 21, the two tabs (23, 25) running toward the center of the sleeve 31 to be perpendicular to each other, each of the tabs (23, 25) the first screw (27) And fastening the second screw 29 so that at least one of the screws presses the screw tightening surface of the sleeve 31. 2 to 4F exemplarily illustrate a case in which three screw tightening surfaces of the sleeve 31 are formed at equal angles, but may be three or more. However, in the actual drilling operation, it is most preferable that three or five screw tightening surfaces of the sleeve 31 are formed.

4A to 4F, when the three sleeve 31 screw tightening surfaces P1 , P2 and P3 are combined with the screws 27 and 29 formed on the two tabs 23 and 25, the angle of the drill Up to 6 levels can be adjusted. That is, FIG. 4A shows that the drill tip angle is adjusted vertically by tightening the first screw 27 to the first screw tightening surface P1 , and FIG. 4B shows the first screw 27 to the second screw tightening surface P2. 4) shows that the drill tip angle is adjusted to 120 °, and FIG. 4C shows that the first screw 27 is tightened to the third screw tightening surface P3 to adjust the tip angle to 60 °. Tightening the 2nd screw 29 to the 1st screw tightening surface P1 and adjusting the drill tip angle to 90 degrees, FIG. 4E shows the 2nd screw 29 to the 2nd screw tightening surface P2 and drill end 4F shows that the drill tip angle was adjusted to 150 ° by tightening the second screw 29 to the third screw tightening surface P3 .

Although not shown in the drawings, the angle of the drill may be adjusted to 10 steps when forming five screw tightening surfaces. However, when four or six screw tightening surfaces are formed, the first screw 27 and the second screw 29 are able to press two screw tightening surfaces at the same time. Since only three levels can be adjusted, it is preferable to form three or five screw tightening surfaces.

By the above-described configuration, the drilling operator can rotate the drill tip angle in 2 to 10 steps by combining 3 to 6 screw tightening surfaces formed on the sleeve and two tabs formed on the block. While fixing to the block, it is possible to facilitate the centering operation of the drill tip relative to the center of drilling by adjusting the tip angle of the drill to the position of the operator.

1 is a partial cross-sectional view showing a drill inserted into a conventional drill sleeve and block assembly.

Figure 2 is a partial cross-sectional view of the drill sleeve and block assembly drill insertion according to the present invention.

Figure 3 is a perspective view of the sleeve separated from the sleeve and drill assembly according to the present invention.

Figures 4a to 4f is a state diagram showing a method of rotating a drill fixed to a drill sleeve and block assembly according to the invention for easy centering.

                 Explanation of symbols on the main parts of the drawings

1: block 3: tap

5: screw 7: sleeve

9, 11: screw tightening surface 13: drill

21: Block 23, 25: Tap

27, 29: thread 31: sleeve

33: drill P1, P2, P3: screw tightening surface

Claims (1)

Three to six screw tightening surfaces P1 , P2 , and P3 are formed on the outer surface of the sleeve 31 at equal angles, and the block 31 into which the sleeve 31 is inserted is formed of the sleeve 31. Two tabs 23 and 25 running toward the center are formed at right angles to each other, and the first and second screws 27 and 29 are fastened to each of the tabs 23 and 25, and at least one of them is formed. Adjustable drill sleeve and block assembly characterized in that the two screws press the screw tightening surface of the sleeve (31).

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