KR101663444B1 - The boring bar - Google Patents

Abstract

The present invention relates to a boring bar, and more particularly, to a boring bar that forms a body separately from a shank mounted on a tool holder of a machine tool, and a saddle is mounted on the body, and a cutting tip for cutting the workpiece is fastened to the saddle It is possible to finely adjust the position of the saddle by rotating the dial so that the position of the boring head and the cutting tip can be adjusted so that the inner diameter of the workpiece can be precisely machined and a universal It is a boring bar with improved precision that can be used as an object.

Description

The boring bar has improved precision.

The present invention relates to a boring bar, and more particularly, to a boring bar, which forms a body separate from a shank mounted on a tool holder of a machine tool, and a saddle is mounted on the body, and a cutting tip for cutting the workpiece is fastened It is possible to finely adjust the position of the saddle by rotating the dial so that the position of the boring head and the cutting tip can be adjusted so that the inner diameter of the workpiece can be precisely machined and a universal It is a boring bar with improved precision that can be used as an object.

In general, boring is performed by boring a drilled hole or by using a boring bar if the inner wall of the hole is not smooth, thereby enlarging the hole diameter or increasing the roughness of the inner wall. It says.

Such boring is performed mainly by using a boring bar. As a related art related to a boring bar, there is a boring byte proposed in the Utility Model Publication No. 20-1996-0006482.

The above-mentioned utility model is characterized in that a tip is attached to a tip end of a bite body, and a chip pocket continuous to an inclined surface of the tip is formed, wherein the chip pocket comprises a first chip pocket and a second chip pocket, The first chip pocket is inclined at an angle of 15 to 45 with respect to the axis of the bobbin body and is opened to the outer circumferential surface of the bobbin body. Further, the cross-sectional shape of the first chip pocket is defined by the bottom surface of the bobbin body, And the second chip pocket is formed along the front cutting edge of the tip and on the outer circumferential surface on the side opposite to the side where the first chip pocket of the bite body is opened, A boring byte is proposed in which the size of a boring byte, that is, the machining of a workpiece whose inner diameter is changed by attaching the cutting tip to a constant position at all times impossible to use.

As a proposed prior art to solve this problem, there is a sliding type bite holder of a boring machine proposed in Patent No. 10-0621752.

The patent includes a body to which a bite is fixed at one end; A clamp coupled to the body such that the body is slidably movable; And a coupling part provided between the body and the clamp for smoothly sliding the body. The sliding type bite holder of the boring machine has a body sliding along the clamp, The position can be adjusted, but the accuracy of the dimension is reduced by fixing the body by the fastening member.

That is, in the case of the fastening member, the position of the body can be moved finely by the pressure applied to the fastening member, whereby the position of the bite formed at the end of the body can be moved, and the fastening member can be loosened have.

As another prior art, there is a boring bar which extends the processing range proposed in Japanese Patent No. 10-1575567, which was filed and filed by the present applicant.

The boring bar includes a body 10 integrally formed with a shank 1 mounted on a tool holder of a machine tool, and a saddle-type fastener (not shown) A saddle 30 coupled to the groove 12 and to which a boring head 40 for cutting the workpiece is fastened and a dial 20 for moving the saddle 30, A boring bar having an enlarged working range which is characterized in that a boring head coupling groove 35 in which a boring head 40 can be inserted is formed on the bottom surface of the dial 30, Tolerance management is difficult, and if the thread formed on the dial and the thread formed on the shaft bolt of the saddle are loose, there is a problem that backlash occurs and the machining precision becomes poor.

Korean Utility Model Publication No. 20-1996-0006482 Korean Patent Registration No. 10-0621752 Korean Patent Publication No. 10-1575567

Accordingly, the present invention allows the saddle to be moved by the dial, but the dial is always pressed against the saddle by the fixing pin, thereby reducing the gap between the screw formed on the dial and the screw formed on the saddle, thereby minimizing backlash. The purpose is to provide.

Another object of the present invention is to provide a boring bar with improved precision that can improve the machining accuracy of a workpiece by allowing vibration generated during machining to be absorbed by a spring that pushes the pin.

In addition, a positioning guide pin is formed on one side of the boring head, and a positioning guide groove is formed in the saddle at a position corresponding to the position of the positioning guide pin, so that the boring head can be always fastened to a predetermined position Another object of the present invention is to provide a boring bar having improved rigidity with improved precision so as to withstand cutting loads.

A boring bar having improved precision according to the present invention is a boring bar for machining an inner diameter or an outer diameter of a workpiece. The boring bar includes a shank mounted on a tool holder of a machine tool, a shank attached to the shank, A saddle which is coupled to a saddle fastening groove formed in the body and to which a boring head for cutting the workpiece is fastened and a dial coupled to the saddle by a screw to move the saddle And the saddle can be fixed in position by a set screw which is radially coupled to the body.

The boring bar with improved precision according to the present invention allows the saddle to be moved by the dial so that the dial is always pressed against the saddle by the fixing pin and the gap between the screw formed on the dial and the screw formed on the saddle is reduced to minimize backlash There is a remarkable effect and the vibration generated during machining can be absorbed by the spring which pushes the fixing pin, thereby improving the machining accuracy with respect to the workpiece. Further, the position guide pin is formed on one side of the boring head, The saddle is provided with a position guiding groove at a position corresponding to the position of the position guiding pin so that the boring head can be always fastened to a fixed position even when the boring head is attached and detached and at the same time, It is effective.

BRIEF DESCRIPTION OF THE DRAWINGS FIG.
Figure 2 is a partial perspective view of the present invention.
Figure 3 is a schematic diagram of the separation structure of the present invention
Figures 4 to 6 show a partial configuration of the present invention
FIGS. 7 and 8 illustrate a partial configuration of the present invention

The present invention relates to a boring bar, and more particularly, to a boring bar, which forms a body separate from a shank mounted on a tool holder of a machine tool, and a saddle is mounted on the body, and a cutting tip for cutting the workpiece is fastened It is possible to finely adjust the position of the saddle by rotating the dial so that the position of the boring head and the cutting tip can be adjusted so that the inner diameter of the workpiece can be precisely machined and a universal It is a boring bar with improved precision that can be used as an object.

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

2 is a perspective view of a part of the present invention, FIG. 3 is a view showing a separation structure of the present invention, and FIGS. 4 to 6 are views showing a part of the present invention, A boring bar for machining an inner diameter and an outer diameter of a workpiece, the boring bar including a shank 1 mounted on a tool holder of a machine tool, a shank 1 attached to the shank 1, A body 10 formed with a saddle fastening groove 12 to allow the saddle 30 to be coupled to the body 10 and a boring head 40 coupled to the saddle fastening groove 12 formed in the body 10 for cutting the workpiece And a dial 20 which is screwed with the saddle 30 to move the saddle 30 and the saddle 30 is coupled to the saddle 30 in a radial direction of the body And its position can be fixed by the set screw 15 All.

First, the shank 10 refers to a bag mounted on a tool holder of a machine tool, and the tool holder is mounted on a tool stand of a machine tool, which may be a spindle (main shaft) through which rotational power of the machine tool is transmitted , Or a general tool stand in which no rotational power is transmitted when the workpiece is rotated, or a turret tool stand.

The body 10 is formed separately from the shank 1 and can be made into a series so that the body 10 or the shank 1 can have different lengths or diameters for use in various tool holders.

A dial fastening groove 13 for fastening the dial 20 and a saddle fastening groove 12 for fastening the saddle 30 are formed on the body 10, 10, and the saddle fastening groove 12 is formed axially along the central axis of the body.

The saddle fastening groove 12 is formed at a predetermined depth so as to have a cross section of a square groove at one side of the body 10 and communicates with the dial fastening groove 13. The saddle 30 is inserted through the saddle fastening groove 12, And the saddle 30 is fastened with a boring head 40 for cutting the workpiece.

The saddle 30 and the boring head 40 are formed separately from the saddle 30 and the saddle 30 and the boring head 40 can be fastened to each other. So that rigidity can be increased.

The saddle 30 is screwed to the dial 20 and is moved in the radial direction of the body 10 according to the rotation of the dial. The saddle 30 is moved in the radial direction of the body 10 by two sets of screws 15 The position can be fixed. Of course, it is a matter of course that only one set screw can be formed or fixed with two or more set screws, and a guide groove 34 is formed at one side of the saddle 30, A part of the set screw 15 can be fitted to guide the movement path of the saddle 30 and limit the amount of movement of the saddle 30. [

3 and 4, a saddle 30 is provided with a protrusion 31 at one side thereof, a semi-circular groove is formed in the protrusion 31, And the saddle 30 is moved along the thread of the dial screw part 22 as the dial 20 rotates.

That is, in the projecting portion 31 of the saddle 30, a semi-circular groove with a screw is formed so that only a part of the screw formed in the screw portion 22 of the dial 20 is screwed, The threaded portion 22 of the dial 20 is always pushed by the fixing pin 24 to prevent the saddle 30 from being pulled out of the saddle 30 As shown in Fig.

The dial 20 includes a head portion 21 with a scale engraved thereon and a screw portion 22 formed integrally with the head portion 21 and formed with a thread, And a fixing pin 24 is inserted into the groove 23 so that the position of the dial 20 is maintained by the fixing pin 24 even if the dial 20 is rotated, As the screw 16 is engaged with the body 10, the fixing pin 24 is pushed toward the dial 20.

Thus, even if the dial 20 is rotated by an external force, the saddle 30 rotates at a constant position with respect to the body 10, so that the saddle 30 is rotated along the threaded portion 22 of the dial 20, 10 in the radial direction.

The spacing between the threaded portion 22 of the dial and the projecting portion 31 of the saddle can be adjusted by the set screw 16 as the set screw 16 moves downward in the drawing, The push pin 24 pushes the dial 20 toward the saddle 20 so that the threaded portion 22 of the dial and the projecting portion 32 of the saddle are pushed toward the saddle 20, Can be adjusted.

The guide path for the movement of the saddle 30 is performed by the guide plate 18 together with the surface formed on the body 10.

7 is a view showing a state before the guide plate 18 is fastened to the body 10 and FIG. 8 is a view showing a state after the guide plate 18 is fastened to the body 10, A guide plate 18 is fastened to the body 10 with the saddle 30 interposed therebetween by an adjustment bolt 19. A stepped portion 32 is formed on one side of the saddle 30, The saddle 30 is coupled to the body 10 to increase the stability of the movement of the saddle 10 and the guide plate 18 and the guide plate 18 The frictional force against the movement of the saddle 30 can be adjusted by adjusting the gap between the saddles 30. [

The gap between the guide plate 18 and the body 10 is reduced as the adjusting bolt 19 is tilted so that the pressure applied to the stepped portion of the saddle 30, that is, the stepped portion 32, It is possible to guide the movement path more accurately. However, when the adjusting bolt 19 is too tight, the frictional force against the movement of the saddle 30 becomes large, so that a great deal of force is required to move the saddle, so that there is a proper clearance between the step portion 32 of the saddle and the guide plate 18 When the adjusting bolt 19 is further tightened after the saddle 30 is moved in this state, the fixing force of the saddle 30 can be further improved and the rigidity of the boring bar is increased. Speed can be further increased.

5 and 6, at least one position guide pin 43 is formed on the boring head 40 and a positioning guide groove 43 is formed in the saddle 30 at a position corresponding to the position guide pin 43 33 are formed so that the joining position of the boring head 40 is always constant.

That is, since the boring head 40 can have various shapes and sizes according to the workpiece to be machined, multiple boring heads can be used while being rotated around one saddle. Therefore, when the boring head 40 is attached and detached, The machining accuracy can be maintained only when the boring head 40 is joined. Therefore, even if the boring head 40 is separated from the saddle 30 by the positioning guide pin 43 and the positioning guide groove 33, the boring head 40 can be always fastened to the same position , The positioning guide pin (43) increases rigidity that can withstand the cutting load.

A cylindrical protrusion 11 to which a fastening bolt 17 is coupled is formed on an upper portion of the body 10 and an O-ring 2 is seated on an end surface of the cylindrical protrusion 11, The shank 1 and the body 10 are engaged with each other to compress the O-ring 2 so that the compressed O-ring fills the gap between the body 10 and the shank 1 to further improve the rigidity of the boring bar. .

That is, there is a certain degree of tolerance for joining and separating the shank 1 and the body 10. Such a tolerance may cause shaking during machining and may lower the overall strength of the boring bar. Is pressed to be engaged with the shank 1 and the body 10 so as to fill the gap between the body 10 and the shank 1 and the rigidity of the boring bar is improved and the vibration generated during the machining can be absorbed .

The fixing pin 24 is pushed toward the threaded portion 22 of the dial by the set screw 16 coupled in the axial direction of the body 10, Thereby preventing the set screw from being loosened arbitrarily by the vibration generated during the machining.

A spring 25 may be added separately from the pressing of the fixing pin 24 by the set screw 16.

A spring 25 is installed on one side of the fixing pin 24 so that the fixing pin 24 is always pushed toward the dial 20 by the elasticity of the spring 25, And the projections 31 of the saddle 30 to reduce the backlash and to absorb shocks and vibrations generated by cutting with the cutting tip 42. [

The fixing pin 24 may be pushed toward the threaded portion 22 of the dial by the elasticity of the spring 25 without constituting the set screw 15. In some cases, The elasticity of the spring can be adjusted by adjusting the amount of compression of the spring 25 in accordance with the movement of the set screw 16 by making the end face closely contact with the spring 25. [

One or both sides of the fixing pin 24 are flattened in order to prevent the fixing pin 24 from being arbitrarily rotated after being coupled with the body 10, and the groove of the body to which the fixing pin 24 is coupled is also fixed to one side Or both sides of the fixing pin 24 can be prevented from rotating by being chamfered in a plane. In some cases, protrusions are formed to guide the engagement position of the fixing pins 24, and the body 10 is provided with protrusions So that the engaging position of the fixing pin can be guided.

As a result, the improved precision boring bar according to the present invention allows the saddle to be moved by the dial, while the dial is always pressed against the saddle by the fixing pin, thereby reducing the gap between the screw formed on the dial and the screw formed on the saddle, And the vibration generated during machining can be absorbed by the spring that pushes the fixing pin, thereby improving the machining accuracy of the workpiece. In addition, the positioning pin is formed on one side of the boring head And the saddle is provided with a position guide groove at a position corresponding to the position of the position guiding pin so that the boring head can be always fastened to a predetermined position even when the boring head is attached and detached and at the same time the rigidity There is a remarkable effect that is increased.

1. Shank 2. O-ring
10; Body
11. Cylindrical projection 12. Saddle fastening groove 13. Dial fastening groove
14. Set screw tightening groove 15. Set screw 16. Set screw
17. Fastening bolt 18. Guide plate 19. Adjustment bolt
20; dial
21. Head part 22. Screw part 23. Groove
24. Fixing pin 25. Spring
30; Saddle
31. protrusion 32. step 33. locating guide groove
34. Guide groove
40; Boring head
41. Fixing bolt 42. Cutting tip 43. Positioning pin

Claims (7)

In a boring bar for machining an inner diameter or an outer diameter of a workpiece,
The boring bar includes a shank 1 attached to a tool holder of a machine tool and a body 10 formed with a saddle fastening groove 12 to allow the saddle 30 to be coupled to the shank 1, A saddle 30 coupled to a saddle coupling groove 12 formed in the body 10 and coupled to a boring head 40 for cutting a workpiece, The saddle 30 can be fixed in position by a set screw 15 which is coupled in the radial direction of the body,
A guide plate 18 is fastened to the body 10 with the saddle 30 interposed therebetween by an adjusting bolt 19 and a stepped portion 32 is formed on one side of the saddle 30, The saddle 30 is coupled to the body 10 in a state in which the stepped portion of the guide plate 18 is in contact with the end face of the guide plate 18 to increase the stability against the movement of the saddle 10, Wherein the frictional force with respect to the movement of the saddle (30) can be adjusted by adjusting a gap between the saddle (18) and the saddle (30).
The method according to claim 1,
A semicircular groove is formed in the projecting portion 31 and a screw thread is formed in the semicylindrical groove so that a thread formed on the threaded portion 22 of the dial 20 Characterized in that the saddle (30) is moved along the thread of the dial thread (22) in accordance with the rotation of the dial (20).
The method according to claim 1,
The dial 20 includes a head portion 21 with a scale engraved thereon and a screw portion 22 formed integrally with the head portion 21 and formed with a threaded portion. The dial 20 is held in position by the fixing pin 24 even if the dial 20 is rotated and the position of the dial 20 is maintained by the set screw 16) is attached to the body (10), the pushing pin (24) is pushed toward the dial (20).
delete The method according to claim 1,
At least one position guide pin 43 is formed in the boring head 40 and a positioning guide groove 33 is formed in the saddle 30 at a position corresponding to the position guide pin 43, 40) can be constantly brought to a constant position.
The method according to claim 1,
A cylindrical protrusion 11 to which a fastening bolt 17 is coupled is formed on an upper portion of the body 10. An O-ring 2 is seated on an end surface of the cylindrical protrusion 11, The shank 1 and the body 10 are combined to compress the O-ring 2 so that the compressed O-ring fills the gap between the body 10 and the shank 1, This improved boring bar.
The method of claim 3,
A spring 25 is provided at one side of the fixing pin 24 so that the fixing pin 24 is always pushed toward the dial 20 by the elasticity of the spring 25, It is possible to reduce the gap between threads formed in the protruding portion 31 of the saddle 30 to reduce backlash and at the same time to absorb the shock or vibration generated by cutting with the cutting tip 42, .

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