KR20180001336A - Deep Hole Drilling Machine - Google Patents

Abstract

According to the present invention, the present invention relates to a deep hole machining device capable of minimizing a phenomenon that a machining hole of a workpiece goes out of a center thereof by rotating the workpiece and a machining member for machining the workpiece in a direction opposite to each other so as to machine the workpiece, and capable of shortening a machining time of the workpiece, reducing a phenomenon that the machining member is worn, and of improving productivity. Accordingly, by rotating a driving motor of a fixing member, to which a workpiece is fixed, in a direction opposite to a rotation direction of a cutting tool of a machining member, the present invention is able to minimize a phenomenon that a machining hole of the workpiece goes out of a center thereof so as to be able to improve productivity thereof. To this end, the present invention includes a frame, a fixing member, a supporting member, a conveying member, and a machining member.

Description

[0002] Deep hole drilling machine [

The present invention relates to a deep hole processing apparatus, and more particularly, to a method for processing a material by rotating a workpiece for processing a workpiece and a workpiece in a direction opposite to each other, The present invention relates to a deep hole machining apparatus capable of shortening a machining time of a workpiece, reducing a phenomenon of abrasion of a machining member, and improving productivity.

In general, a deep hole forming apparatus is used for machining a hole having a predetermined shape in a workpiece or cutting a portion thereof, and is used particularly for processing a deep hole having a diameter of 100 times or more the diameter of a cutting tool, and is widely used in various industrial fields . That is, the ratio of the diameter machining to the workpiece is very high, and machining precision is required.

As described above, various apparatuses for machining a material have been proposed. In the deep hole processing apparatus of Patent Document 1, the spindle head 10 is mounted movably in a vertical direction to a column (not shown) . Reference numeral 12 denotes a table in which the workpiece W is located. The X axis is an axis for controlling the movement of the table 12 in the lateral direction and the Y axis is an axis for controlling the vertical movement of the spindle head 10. [ The Z axis is an axis for controlling the movement of the table 12 in the longitudinal direction. The spindle head 10 is then provided with a spindle 14 in a horizontal position. When the deep hole 15 is machined on the workpiece W, the gun drill 16 as a tool is mounted on the spindle 14. The workpiece W is a large mold for molding a bumper or an instrument panel of an automobile and a cooling hole as a deep hole 15 is drilled in the longitudinal direction through the workpiece W.

However, if the length of the deep hole processing apparatus is longer than the diameter of the bore, the discharge of the chip and the lubrication of the cutting tool become difficult, and there is a problem that the material is deviated from the center due to the vibration problem of the tool.

Therefore, recently, as the mechanical device is changed to ultra precise, high performance, etc., the machining which is widely used in the final process of the processed product is required to have high hardness, ultra precision and hard surface.

Patent Document 1: Domestic Registration No. 10-0988968 Method and Apparatus for Machining Deep Hole (Registered on October 13, 2010)

SUMMARY OF THE INVENTION Accordingly, the present invention has been made in order to solve the above-mentioned problems, and it is an object of the present invention to minimize the phenomenon that a machining hole of a workpiece deviates from a center by rotating a workpiece for machining a workpiece, And it is an object of the present invention to provide a new type of deep hole machining apparatus capable of reducing the machining time of the material, reducing the phenomenon of abrasion of the machining member, and improving the productivity.

Particularly, the rotation direction of the driving motor of the fixed member having the fixed material is rotated in the direction opposite to the rotating direction of the cutting tool of the processing member, thereby minimizing the phenomenon that the machining hole of the workpiece deviates from the center, And to provide a new type deep hole processing apparatus.

According to an aspect of the present invention for achieving the above-described object, there is provided a display device comprising: a frame formed in a longitudinal direction; A fixing member 30 installed on one side of the upper portion of the frame 20 for fixing one side of the work 100 and rotating the work 100; A supporting member 40 installed on the upper side of the frame 20 for supporting the other side of the work 100; A conveying member (50) installed on the frame (20) and allowing the fixing member (30) to move at an upper portion of the frame (20); And a processing member (60) disposed on the opposite side of the fixing member (30) from the support member (40) to process the workpiece (100) by rotating the cutting tool (61) And the cutting tool 61 of the machining member 60 is rotated in a direction opposite to the machining direction so that the workpiece 100 is machined.

In the deep hole forming apparatus according to the present invention, the fixing member 30 includes a main body 31 provided on the conveying member 50 and having a through hole 311 therein; A support body 32 coupled to the through hole 311 of the main body 31 and having a mounting hole 321 in which the workpiece 100 is mounted; A fixing chuck 33 coupled to one side of the support 32 for varying the thickness of the work 100 and fixing the work 100; And a driving unit (34) installed outside the main body (31) for rotating the supporting body (32).

In the deep hole forming apparatus according to the present invention, the fixing chuck 33 has a communication hole 331 communicating with the mounting hole 321 of the support 32 to which the workpiece 100 is mounted, A body 333 having an incision groove 332 cut in the edge direction from the body 331; And a jaw 334 positioned in the cutout groove 332 of the body 333 for fixing the workpiece 100 mounted on the communication hole 331.

In the deep hole forming apparatus according to the present invention, the driving unit 34 includes a driving motor 341 installed outside the main body 31; A first sprocket 342 connected to the rotation shaft of the driving motor 341; And a second sprocket 343 coupled to the outer circumferential surface of one side of the support body 32 and connected to the first sprocket 342 through a chain.

In the deep hole processing apparatus according to the present invention, the support member 40 is provided on the other side of the upper side of the frame 20, and includes a body 41 having a "C"shape; A plurality of support arms 42 coupled to the body 41 and adapted to support the work 100 according to the thickness of the work 100; A roller (43) coupled to an end of the support arm (42) and corresponding to a rotation direction of the work (100); And a handle (44) for adjusting the support arm (42) according to the thickness of the material (100).

In the deep hole forming apparatus according to the present invention, the support arm 42 is positioned at least two above and below the work 100 to prevent the work 100 from being separated.

In the deep hole forming apparatus according to the present invention, the conveying member 50 includes a rail 51 spaced from the conveying member 50 and formed in the longitudinal direction of the frame 20; A moving body 52 to which the fixing member 30 is fixed and moves along the rail 51; And an actuator (53) positioned between the rails (51) for moving the moving body (52) on the rail (51).

In the dipholing apparatus according to the present invention, the actuator 53 includes fixtures 531 fixed to both sides in the longitudinal direction of the frame 20; A screw rod 532 connected to and fixed to the fixture 531; A moving member 533 fixed to the moving body 52 and penetrating the screw rod 532 to be movable on the screw rod 532; And a handle 534 fixed to one end of the screw rod 532 for rotating the screw rod 532.

As described above, according to the deep hole processing apparatus of the present invention, the material and the processing member for processing the workpiece are rotated in opposite directions to process the workpiece, thereby minimizing the phenomenon that the processing hole of the workpiece deviates from the center, It is possible to shorten the machining time of the material, reduce the phenomenon of the abrasion of the machining member, and improve the productivity.

Particularly, the rotating direction of the driving motor of the fixed member having the fixed material is rotated in the direction opposite to the rotating direction of the cutting tool of the processing member, thereby minimizing the phenomenon that the machining hole of the material goes out of the center, .

1 is a view for explaining a conventional deep hole forming apparatus,
2 is a schematic view of a deep hole processing apparatus according to a preferred embodiment of the present invention,
3 is a perspective view of a deep hole processing apparatus according to a preferred embodiment of the present invention,
4 is a side view of a deep hole processing apparatus according to a preferred embodiment of the present invention,
5 is a front view and a rear view of a deep hole processing apparatus according to a preferred embodiment of the present invention,
6 is a view showing a fixing member in a deep hole forming apparatus according to a preferred embodiment of the present invention.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In FIGS. 2 to 6, the same reference numerals are assigned to components performing the same function. In the drawings and the detailed description, detailed description of specific elements and functions of elements not directly related to the technical features of the present invention will be omitted. .

2 to 6, a deep hole processing apparatus 10 according to a preferred embodiment of the present invention includes a frame 20 formed in a longitudinal direction, a frame 20 installed on one side of the frame 20, A support member 40 provided on the other side of the upper side of the frame 20 for supporting the other side of the work 100, A conveying member 50 which is installed on the upper side of the fixing member 30 so as to allow the fixing member 30 to move on the upper portion of the frame 20 and a fixing member 30 which is provided on the opposite side of the fixing member 30, And includes a workpiece 60 for machining the workpiece 100 by rotating the cutting tool 61 so that the workpiece 100 fixed to the fixing member 30 and the cutting tool 61 Are rotated in opposite directions to allow the work 100 to be machined.

The frame 20 is provided with the fixing member 30, the supporting member 40 and the conveying member 50, and the shape of the frame 20 may be different depending on the installation place. The workpiece 100 fixed to the fixing member 30 is machined by mounting the processing member 60 at a distance from the frame 20.

The fixing member 30 is installed on one side of the upper part of the frame 20 and fixes one side of the work 100 and rotates the work 100. The fixing member 30 is installed on the upper side of the conveying member 50, A support body 32 coupled to the through hole 311 of the main body 31 and having a mounting hole 321 in which the workpiece 100 is mounted, A fixing chuck 33 coupled to one side of the main body 32 and adapted to be fixed according to the thickness of the work 100 and fixing the work 100; And a driving unit 34 for driving the motor.

The fixing chuck 33 is variable in accordance with the thickness of the work 100 and has a communication hole 331 communicating with the mounting hole 321 of the support body 32 to which the workpiece 100 is mounted, A body 333 having a cutout groove 332 cut in the edge direction from the cutout 333 and a cutout groove 332 of the body 333 so as to be movable on the cutout 333, And a set 334 for fixing. At this time, although the tank 334 is not shown, it may be fixed to the body 333 by a bolt to fix the work 100.

The fixing chuck 33 may be configured to move the jaws 334 on the cutout grooves 332 of the body 333 to fix the blank 100 regardless of the thickness of the blank 100. [

The driving unit 34 includes a driving motor 341 installed on the outer side of the main body 31, a first sprocket 342 connected to the rotation shaft of the driving motor 341, And a second sprocket 343 connected to the first sprocket 342 through a chain (not shown). At this time, the first sprocket 342, the chain, and the second sprocket 343 are protected by the cover 344 for the safety of foreign objects and the operator.

The support member 40 is provided on the opposite side of the fixing member 30 provided on one side of the frame 20 to support the material 100 and is provided on the other side of the frame 20, A plurality of support arms 42 coupled to the body 41 and adapted to vary the thickness of the work 100 to support the work 100, And a handle 44 for adjusting the support arm 42 in accordance with the thickness of the work 100. The rollers 43 are formed to correspond to the rotation direction of the work 100, .

The support arm 42 is positioned at least two above and below the work 100 to prevent the work 100 from being separated from the work 100. In a preferred embodiment of the present invention, Three angles are formed at an angle of 120 [deg.], But this is only an example, and a plurality of angles may be formed to prevent the material from separating from the upper side and the lower side of the material.

The conveying member 50 is provided to move the fixing member 30 at the upper portion of the frame 20 so as to move the fixing member 30 at the upper portion of the frame 20 along the length of the work 100 do.

The conveying member 50 is separated from the conveying member 50 at both sides and includes a rail 51 formed in the longitudinal direction of the frame 20 and a movable member 30 fixed to the upper portion thereof and moving along the rail 51 And an actuator 53 positioned between the rail 51 and moving the moving body 52 on the rail 51.

The actuator 53 includes a fixture 531 fixed to both sides in the longitudinal direction of the frame 20, a screw rod 532 connected to and supported by the fixture 531, And a handle 534 which is fixed to one end of the screw rod 532 and rotates the screw rod 532. The screw rod 532 is inserted into the screw rod 532, .

The machining member 60 is for machining the workpiece 100 by rotating the cutting tool 61, and is generally used for machining the workpiece 100, and thus a detailed description thereof will be omitted.

On the other hand, the rotation of the cutting tool 61 of the processing member 60 is rotated in a direction opposite to the rotation of the driving unit 34 of the fixing member 30, that is, the driving motor 341 to machine the workpiece 100 .

As described above, according to the deep hole processing apparatus 10 of the present invention, the work 100 is machined by rotating the work 100 and the work 60 for machining the work 100 in opposite directions It is possible to minimize the phenomenon that the machining holes of the workpiece 100 are out of the center, to shorten the machining time of the workpiece 100, to reduce the phenomenon of abrasion of the machining member 60, There is an effect that can be.

Particularly when the material 100 is rotated by rotating the rotating direction of the driving motor 341 of the fixing member 30 to which the material 100 is fixed in a direction opposite to the rotating direction of the cutting tool 61 of the processing member 60, Thereby minimizing the phenomenon that the machining holes of the center of gravity deviate from the center, thereby improving the productivity.

First, the work 100 is mounted on the mounting hole 321 of the supporting body 32 of the fixing member 30 and the mounting hole 321 of the fixing chuck 33 of the supporting member 32 of the fixing member 30. [ And inserted into the support member 40 through the communication hole 331 to be positioned. The support 33 of the fixing chuck 33 is adjusted to the thickness of the work 100 to fix the work 100 and the support arm 42 of the support 40 to adjust the handle 44 The center of the work 100 is made to coincide with the cutting tool 61 of the machining member 60 while the work 100 is stably fixed. The distance between the fixing member 30 and the supporting member 40 is controlled by the conveying member 50 according to the length of the material 100 so that one side of the material 100 is fixed to the fixing member 30, To be fixed to the support member (40). Thereafter, the driving unit 34 of the fixing member 30, that is, the driving motor 341 is driven, and at the same time, the cutting tool 61 of the processing member 60 is driven to machine the workpiece 100. At this time, the rotation direction of the drive motor 341 and the rotation direction of the cutting tool 61 of the processing member 60 are rotated in directions opposite to each other.

While the present invention has been described in connection with what is presently considered to be practical exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. As will be appreciated by those of ordinary skill in the art.

10: Deep hole processing device
20: frame 30: fixing member
31: main body 32: support
33: fixed chuck 34:
40: support member 41: body
42: support arm 43: roller
44: handle 50:
51: rail 52:
53: Actuator 60: Machining member
61: Cutting tool

Claims (8)

A frame (20) formed in the longitudinal direction;
A fixing member 30 installed on one side of the upper portion of the frame 20 for fixing one side of the work 100 and rotating the work 100;
A supporting member 40 installed on the upper side of the frame 20 for supporting the other side of the work 100;
A conveying member (50) installed on the frame (20) and allowing the fixing member (30) to move at an upper portion of the frame (20);
And a processing member 60 disposed on the opposite side of the fixing member 30 from the supporting member 40 and for rotating the cutting tool 61 to machine the workpiece 100,
Wherein the workpiece (100) fixed to the fixing member (30) and the cutting tool (61) of the machining member (60) rotate in opposite directions to machine the workpiece (100).
The method according to claim 1,
The fixing member 30 includes a main body 31 provided on the conveying member 50 and having a through hole 311 therein;
A support body 32 coupled to the through hole 311 of the main body 31 and having a mounting hole 321 in which the workpiece 100 is mounted;
A fixing chuck 33 coupled to one side of the support 32 for varying the thickness of the work 100 and fixing the work 100;
And a driving part (34) provided outside the main body (31) for rotating the supporting body (32).
3. The method of claim 2,
The fixing chuck 33 has a communication hole 331 communicating with the mounting hole 321 of the support 32 to mount the workpiece 100 thereon and has a cutting groove 331 cut in the edge direction from the communication hole 331, A body 333 having a body 332;
And a tank (334) located in the cutout groove (332) of the body (333) for fixing the workpiece (100) mounted on the communication hole (331).
3. The method of claim 2,
The driving unit 34 includes a driving motor 341 installed outside the main body 31;
A first sprocket 342 connected to the rotation shaft of the driving motor 341;
And a second sprocket (343) coupled to an outer circumferential surface of one side of the support (32) and connected to the first sprocket (342) through a chain.
The method according to claim 1,
The support member 40 is provided on the other side of the upper side of the frame 20 and includes a body 41 having a 'C'shape;
A plurality of support arms 42 coupled to the body 41 and adapted to support the work 100 according to the thickness of the work 100;
A roller (43) coupled to an end of the support arm (42) and corresponding to a rotation direction of the work (100);
And a handle (44) for adjusting the support arm (42) according to the thickness of the material (100).
6. The method of claim 5,
Wherein the supporting arm (42) is located at least two above and below the work (100), thereby preventing the work (100) from being separated from the work (100).
The method according to claim 1,
The conveying member 50 is spaced apart on both sides and includes a rail 51 formed in the longitudinal direction of the frame 20;
A moving body 52 to which the fixing member 30 is fixed and moves along the rail 51;
And an actuator (53) positioned between the rails (51) for moving the moving body (52) on the rail (51).
8. The method of claim 7,
The actuator (53) includes fixtures (531) fixed to both sides in the longitudinal direction of the frame (20);
A screw rod 532 connected to and fixed to the fixture 531;
A moving member 533 fixed to the moving body 52 and penetrating the screw rod 532 to be movable on the screw rod 532;
And a handle (534) fixed to one end of the screw rod (532) and rotating the screw rod (532).

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