KR20180020570A - Detailed eccentricity bushing boring tool - Google Patents

Abstract

The present invention relates to a precision eccentric bushing boring tool comprising: a boring head (10) having a hollow groove (11) formed on one side thereof, and having a cutting groove (12) formed on the side wall surface thereof to allow the expansion of the hollow groove (11); a boring arbor (20) having a head seating groove (21) formed on one side thereof to allow the boring head (10) to be inserted, having a screw fastening hole (22) to which an adjusting screw (80) is fastened in a vertical direction, and having a pin fastening hole (23) to which a fixating pin (30) is fastened in a horizontal direction; the fixating pin (30) installed to be penetrated to fasten the boring arbor (20) and the boring head (10); an eccentric bushing (40) fitted between the boring head (10) and the boring arbor (20) to be press-fixed; a guide spindle (50) inserted into the hollow groove (11) of the boring head (10), having a pin insertion hole (51) penetrated in an X-axis direction to allow the fixating pin (30) to be inserted, and having a screw fastening hole (52) in a Y-axis direction; a pressing spring (60) for supporting the guide spindle (50) in the hollow groove (11) by predetermined elastic force; an adjusting screw (80) fastened to the screw fastening hole (52); and two pairs of clamping chucks (71, 72) formed in the screw fastening hole (52), wherein the clamping chucks (71, 72) flow in a symmetrical shape by a screw engagement action with the adjusting screw (80).

Description

DETAILED ECCENTRICITY BUSHING BORING TOOL

The present invention relates to a boring tool, and more particularly to a boring tool having an eccentric bushing coupled to one side for precisely cutting a hole of a workpiece.

In general, the boring tool is for boring work. If boring hole is enlarged or the inner wall surface of hole is not smooth, boring tool is used to cut the hole to enlarge the diameter of the hole or to adjust the inner wall surface roughness And the height is subjected to cutting processing.

1 is a cross-sectional view of a boring tool according to a conventional example in which a boring arbor 1, an eccentric bushing 2 and a boring head 3 are coupled by a fixing pin 4, It can be confirmed that the guide spindle 5 and the spindle 6 are constituted and the clamping screw 7 is screwed to one side of the boring head 3. [

The boring tool having such a configuration is provided with a cutting edge (not shown) fixed to the boring head 3 and the boring head 1 is fixed to the head chuck of the machine, The eccentric bending operation is performed by the action of the eccentric bushing 2, so that the workpiece is cut.

However, the boring tool in the above-described prior art has a complicated structure, which increases the cost of machining the part and causes deformation or breakage of the pressing portion of the guide spindle 5 due to the inclined surface 7a of the clamping screw 7 There was a problem.

The present invention has been made in order to solve the above problems in the prior art, and it is an object of the present invention to simplify the part structure of the boring tool and to easily adjust the fastening force of the boring head, thereby reducing the production cost of the product, The purpose is to prevent the occurrence of breakage.

In order to achieve the above object, the present invention provides a boring tool comprising: a boring head having a hollow groove formed on one side thereof and a cutout groove formed on a side wall surface thereof so that the hollow groove can be expanded; A boring arbor having a head seating groove formed at one side thereof so as to enable insertion of the boring head; A fixing pin penetratingly installed to join the boring arbor and the boring head; An eccentric bushing which is inserted between the boring head and the boring arbor and is pressed and fixed; A guide spindle inserted into the hollow groove of the boring head, the guide spindle having a pin insertion hole through which the fixing pin is inserted and passing through the X axis direction, and a screw fastening hole formed in the Y axis direction; A pressing spring for supporting the guide spindle in the hollow groove with a predetermined elastic pressing force; An adjusting screw fastened to the screw fastener; And a clamping chuck having two pairs of the screw fastening holes, wherein the clamping chuck is configured to flow in a mutually symmetrical shape by a screw joint operation with the adjusting screw.

According to the boring tool of the present invention, the multi-directional restraint of the boring head can be stably performed due to the screw tightening operation, thereby preventing the component damage due to the pressing force leaking and maintaining a more stable fastening state.

In addition, by simplifying the entire component joining structure, it is possible to improve the maintenance efficiency of the product and reduce the production cost.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a cross-sectional view of a boring tool according to a conventional example;
2 is a sectional structural view of a boring tool of the present invention.
3 is an exploded perspective view of the boring tool of the present invention.
4 is a side view of the boring tool of the present invention.
5 is a perspective view of a boring head part in the present invention.
6 is a sectional view of a part of a boring head in the present invention.
7 is a perspective view of a boring arbor part in the present invention.
8 is a perspective view of an eccentric bushing part in the present invention.
9 is a perspective view of a guide spindle part in the present invention.
10 is a sectional view of a guide spindle part in the present invention.
11 is a detail view of the clamping chuck and adjusting screw fastening section in the present invention.
12 is an external perspective view of the clamping chuck part fastened to the double clamping screw in the present invention.
Fig. 13 is a plan view of a state in which the clamping chuck part is fastened to the double clamping screw in the present invention. Fig.
Figure 14 is a plan view and side view of a double clamping screw in accordance with the present invention;

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

First, a boring tool structure according to an embodiment of the present invention will be described with reference to FIGS. 2 to 14. FIG.

The boring tool in the present embodiment has a structure in which the boring head 10, the boring arm 20, the eccentric bushing 40 and the guide spindle 50 are fastened by the fixing pin 30 and the adjusting screw 80 .

5 and 6, a hollow groove 11 is formed on one side of the boring head 10, and a cutting groove 12 is formed on a side wall surface of the boring head 10 so that the hollow groove 11 can be expanded. And a screw fastening hole 13 for fastening the adjusting screw 80 is formed in the vertical direction and a cutting edge fixing part 14 is formed at one end to fix the cutting edge 100.

7, a head seating groove 21 is formed on one side of the boring arbor 20 so that the boring head 10 can be inserted therein. In the vertical direction, the adjusting screw 80 is fastened, And a pin fixing hole 23 to which the fixing pin 30 is fastened is formed in the horizontal direction.

The eccentric bushing 40 has a shape with an inner diameter eccentric. The eccentric bushing 40 has a shape as shown in FIG. 8, and is sandwiched between the boring head 10 and the boring arbor 20 to be pressed and fixed.

9 and 10, the guide spindle 50 is inserted into the hollow groove 11 of the boring head 10, and the pin insertion hole 51 into which the stationary pin 30 is inserted is inserted into the X- A screw fixing hole 52 is formed in the Y axis direction and a spring seat groove 53 is formed at the rear end of the hollow groove 11 so as to be elastically deformed by a pressing spring 60 provided in the hollow groove 11. [ And is supported by a pressing force.

In the meantime, in the present invention, the double clamping screw 85 is fastened to the tip end of the adjusting screw 80, and a predetermined spacing distance d is formed between the two ends of the double clamping screw 85. At both ends of the double clamping screw 85, As shown in FIG. 13, the two clamping chucks 71 and 72 are paired to form a symmetrical shape.

That is, as shown in FIG. 14, the double clamping screw 85 is formed with threaded portions 85a and 85b for screwing with the clamping chucks 71 and 72, When the clamping screw 85 is rotated together with the adjusting screw 80, the both side clamping chucks 71 and 72 can be made to flow in opposite directions or in a converging direction. A bolt groove 85 'having a hexagonal shape capable of fastening one end of the adjusting screw 80 is formed at one side of the double clamping screw 85 so that the double clamping screw 85 can flow by the distance d. 85 are allowed to flow together with the clamping hoses 71, 72.

Particularly, a pressing surface 71a, 72a having a predetermined curvature is formed on one side of the clamping chucks 71, 72 and a screw fastening hole 13 of the boring head 10 corresponding to the pressing surfaces 71a, The boring head 10 can be pressurized and restrained by the flow of the clamping chucks 71 and 72.

A stopper (90) for preventing foreign matter from entering from the outside is formed in the screw fastening hole (22) to which the adjusting screw (80) is fastened.

The spring seating groove 53 is provided with a spring support plate 61 for supporting the pressing spring 60 to prevent the guide spindle 50 from being separated from the hollow groove 11, A support rod 62 is formed at one side for supporting the support rod 61 and a rod insertion hole 15 through which the support rod 62 is inserted is formed at the rear end of the boring head 10.

Hereinafter, effects of the boring tool according to the present invention will be described.

In the boring tool of the present invention, one end of the boring arbor 20 is fixed to the head chuck of the driving machine while the respective parts are fastened by the fixing pin 30 and the adjusting screw 80.

When the boring tool is rotated at a high speed by driving the driving machine, eccentric rotation of the boring head 10 is performed by the action of the eccentric bushing 40, so that the cutting edge 100 to cut the hole of the workpiece.

Meanwhile, the boring tool of the present invention can perform multiple constraints of the internal parts in the X-axis direction and the Y-axis direction through a single wrench-touch operation.

2, when the worker inserts the wrench into the wrench groove formed in the head of the adjusting screw 80 and returns the wrench in one direction, the double clamping screw (not shown) The left and right clamping chucks 71 and 72 are moved outward by a screw action so that the pressing surfaces 71a and 72a formed on the clamping chucks 71 and 72 And presses the inclined surface 13a of the boring head 10.

Due to this pressing action, the eccentric bushing 40, which is sandwiched between the boring head 20 and the boring head 10 is pushed upward and downward with respect to the incision groove 12, is strongly restrained.

In addition, the guide spindle 50 is elastically supported by the elastic force of the pressing spring 60, so that a more stable fastening state can be maintained.

Although specific embodiments of the present invention have been described and illustrated above, it is to be understood that the boring tool structure of the present invention can be variously modified by those skilled in the art.

For example, although in the above-described embodiment, the adjusting screw 80 and the double clamping screw 85 are mutually fastened and shown in two parts, this part may be replaced by a single screw.

Therefore, it should be understood that such modified embodiments should not be understood individually from the technical spirit and scope of the present invention, and such modified embodiments should be included in the appended claims of the present invention.

10: boring head 11: hollow groove
12: incision groove 13: screw fastening hole
13a: inclined surface 14: cutting edge fixing portion
20: boring arbor 21: head seating groove
22: screw fastening hole 23: pin fastening hole
30: Fixing pin 40: Eccentric bushing
50: guide spindle 51: screw fastening hole
52: pin fixing hole 53: spring seat groove
60: pressing spring 61: spring supporting plate
62: support rod 71, 72: clamping chuck
80: Adjusting screw 85: Double clamping screw
85 ': bolt groove (hexagonal) 85a, 85b: threaded portion
90: Stopper 100: Cutting edge

Claims (6)

A boring head 10 having a hollow groove 11 formed at one side thereof and a cutout groove 12 formed in a side wall of the hollow groove 11 so that the hollow groove 11 can be expanded;
A head receiving groove 21 is formed at one side to enable insertion of the boring head 10 and a screw fastening hole 22 for fastening the adjusting screw 80 is formed in a vertical direction, A boring arbor 20 having a pin fixing hole 23 to which the pin 30 is fastened;
A fixing pin 30 installed to penetrate the boring arbor 20 and the boring head 10 so as to engage with each other;
An eccentric bushing (40) sandwiched between the boring head (10) and the boring arbor (20) and pressed and fixed;
A pin insertion hole 51 is formed in the hollow groove 11 of the boring head 10 so that the pin insertion hole 51 is inserted in the X axis direction. A guide spindle 50 having a spring seating groove 53 formed at the rear end thereof;
A pressing spring (60) for supporting the guide spindle (50) in the hollow groove (11) with a constant elastic pressing force;
An adjusting screw (80) fastened to the screw fastening hole (52);
Clamping chucks (71, 72) formed of two pairs in the screw fastening holes (52) and flowing in mutually symmetrical form by screwing operation with adjustment screws (80);
Wherein the eccentric bushing boring tool The method according to claim 1,
A pressing surface 71a or 72a having a predetermined curvature is formed on one side of each of the clamping chucks 71 and 72 and a screw hole 13 corresponding to the pressing surfaces 71a and 72a of the boring head 10 And an inclined surface (13a) is formed on the inclined surface (13a). The method according to claim 1,
The clamping chucks 71 and 72 are fixed to both ends of the double clamping screw 85. The clamping chucks 71 and 72 are fixed to both ends of the double clamping screw 85. [ And each of the bolts is screwed. The method of claim 3,
And threaded portions 85a and 85b for screwing the clamping chucks 71 and 72 are formed on both ends of the double clamping screw 85. The threaded portions of the double- Boring tool. The method according to claim 1,
Wherein a stopper (90) for preventing foreign matter from entering the screw fastening hole (22) to which the adjusting screw (80) is fastened is formed. The method according to claim 1,
A spring support plate 61 for supporting the pressure spring 60 is provided in the spring seat groove 53 and a support rod 62 is provided at one side of the spring seat groove 53 in order to prevent separation of the guide spindle 50 and the spring support plate 61 And a rod insertion hole (15) through which the support rod (62) is inserted is formed through the rear end of the boring head (10).

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