KR20150053471A - drilling machine - Google Patents

Abstract

A drilling machine is provided to more effectively collect cutting chips generated when forming a penetrating hole on a subject of processing, by comprising: a base unit on whose top a subject of processing is placed; a processing unit placed at the top of the base unit with a punching unit that rotates by a motor and processes and forms a penetrating hole on the subject of processing mounted at the bottom; a main elevating unit that adjusts the height of the punching unit to the subject of processing; and a duct unit that inhales the cutting chips generated from the subject of processing that is processed by the punching unit; the duct unit comprising: a top hood unit placed at the top of the subject of processing that inhales the cutting chips generated at the top of the subject of processing by the punching unit; and a bottom hood unit placed at the bottom of the subject of processing that inhales the cutting chips generated at the subject of processing penetrated by the punching unit.

Description

Drilling machine {DRILLING MACHINE}

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a drilling machine, and more particularly, to a drilling machine capable of collecting machined chips generated when a through hole is formed in an object to be processed more effectively.

In general, a drilling machine is a drilling operation that drills a hole in a workpiece by transporting the drill in the direction of the axis of rotation while rotating the drill. In addition, various operations such as boring for machining the drilled hole, .

There are many types of drilling, depending on the diameter to be machined, the position to drill holes, and the required accuracy, depending on the type of tool and drilling machine to be used.

Particularly, when drilling, drilling is performed, and the generated chip is discharged to the outside of the chip.

Such a machining chip may render the working environment unclean, the machining chip scattered, which may harm the safety of the operator, and the surface of the product may be likely to cause a scratch.

Accordingly, it has been necessary to collect or remove such processed chips. Conventionally, when a processed chip is generated, it is necessary to blow off the compressed air supplied from a compressor to remove the processed chip, to remove the processed chip from the outside, or to use a vacuum cleaner And the chip was removed by suction.

However, in the conventional drilling machine, a hood or the like for sucking a machining chip is generally disposed only on the upper portion of the object to be machined. When a through hole is formed in the object to be machined, the machining chip falls down through the through hole There was a problem.

Korean Patent Publication No. 10-2007-0067055

SUMMARY OF THE INVENTION The present invention has been made to solve the above-mentioned problems, and it is an object of the present invention to provide a method of manufacturing a semiconductor device, in which a hood is disposed at each of an upper portion and a lower portion of an object to be processed, The purpose of the drilling machine is to provide.

According to an aspect of the present invention, there is provided a drilling machine including: a base portion on which an object to be processed is disposed; A machining portion disposed at an upper portion of the base portion, the machining portion being rotatably rotated by a motor to form a through hole in the object to be machined; A main lifting unit for adjusting the height of the perforation with respect to the object; And a duct portion for sucking a machining chip generated in the machining object processed by the perforation, wherein the duct portion is disposed on an upper portion of the object to be machined, An upper hood portion for sucking the processed chips; And a lower hood portion disposed at a lower portion of the object to be processed and sucking the processed chips generated in the object to be processed penetrated by the perforation.

The upper hood part is mounted on the perforation while enclosing the outer circumferential surface of the perforation, and the lower hood part is opened to suck the machined chips generated during the machining of the object by the perforation.

A control unit for controlling the main lift unit; And a sensing unit for sensing a height of the perforation with respect to the object to be processed. The perforation unit is moved up and down with respect to the object to be processed by the main elevating unit, And the lowering speed of the main lifting portion is reduced as the height of the perforation approaches the object to be processed.

The upper hood portion includes a fixed hood portion fixedly coupled to the perforation and lifted and raised together with the perforated portion; Wherein the movable hood portion is in contact with the upper surface of the object to be processed while the lower surface of the movable hood portion is lowered from the fixed hood portion and the lower surface of the movable hood portion is in contact with the upper surface of the object, And the sensing unit senses the height of the moving hood portion with respect to the fixed hood portion and senses the height of the perforation with respect to the object to be processed.

The sensing unit includes: a position indicating member mounted on the moving hood; And a sensor unit mounted on the perforation to sense the height of the position indicating member.

The perforation portion is inserted into the hard hood portion disposed at a lower portion of the object to be processed after passing through the object to be processed.

And a lower hood lifting portion mounted on the base portion to lift the lower hood portion. When the perforating portion forms a through hole in the object to be processed, the lower hood portion is lifted by the lower hood lifting portion, It touches the lower surface of the object.

And a dust collecting part connected to the duct part and collecting the processed chips sucked through the upper and lower hood parts.

A processing and fixing unit disposed on the upper portion of the object to be pressed and fixing the object to be processed disposed on the upper portion of the base; And a fixed lifting and lowering part mounted on the working part and lifting the work fixing part.

According to the drilling machine of the present invention as described above, the following effects can be obtained.

By arranging the upper hood portion and the lower hood portion on the upper and lower portions of the object to be processed, the machined chips generated when the drill forms the through hole in the object to be machined are all collected without being scattered to the outside.

In addition, by mounting the sensing unit for sensing the height of the perforation with respect to the object to be processed, the elevating speed of the perforation equipped with the drill can be automatically adjusted, and the through hole can be formed automatically in the object.

1 is an overall structural view of a drilling machine according to an embodiment of the present invention;
Fig. 2 is a side view of the drilling machine shown in Fig. 1,
Fig. 3 is a structural view of the case where the perforated portion descends in Fig. 2 and contacts the object;
Fig. 4 is a structural view of the state in which the perforation portion is further lowered in Fig. 3 to penetrate the object to be processed;

2 is a side view of the drilling machine shown in FIG. 1, and FIG. 3 is a schematic view of a drilling machine according to an embodiment of the present invention, And Fig. 4 is a structural view of the state in which the perforated portion descends further in Fig. 3 and penetrates the object to be processed.

1 to 4, the drilling machine of the present invention includes a base portion 10, a machining portion 20, a main lift portion 30, a duct portion 40, a sensing portion 50 A control unit (not shown), and a dust collecting unit 60.

An object to be processed 70 such as a wheel of an automobile is placed on the upper portion of the base 10.

At this time, a roller or the like is mounted on the upper surface of the base portion 10, and the object 70 is automatically transferred and arranged by the rotation of the roller.

A centering device 11 is disposed on the base 10 to position the object 70 at a predetermined position.

The centering device 11 may be any conventional known device, and a detailed description thereof will be omitted.

The processing unit 20 is disposed at an upper portion of the base unit 10, and a perforation 21 is installed at a lower portion thereof.

A drill 22 is rotatably disposed in the perforation 21, and the drill 22 is rotated by a motor 23.

The drill 22 is rotated by the main elevator 30 and the drill 22 is rotated so that the through hole is formed in the object 70 placed on the upper surface of the base 10 Processing.

The machining unit 20 is provided with a machining fixture 15 which is disposed on the upper side of the object to be processed 70 and presses and fixes the object 70 disposed on the upper side of the base 10 And a fixed elevating portion 16 for elevating and lowering the processing fixture 15 are mounted.

The fixed lifting portion 16 is made of a cylinder or the like.

The main elevating unit 30 adjusts the height of the perforation 21 with respect to the object to be processed 70.

In this embodiment, the main elevating unit 30 moves the perforation 21 in the vertical direction to adjust the height, that is, the interval between the object to be processed 70 and the perforation 21.

More specifically, the main lifting unit 30 is coupled to the perforation 21 so that the perforation 21 can be moved up and down.

The main lift 30 is made of a cylinder or the like and moves the drill 22 in a vertical direction.

The main elevating unit 30 moves the upper surface of the base unit 10 on which the object to be processed 70 is placed in the vertical direction so that the upper surface of the base unit 10 between the object to be processed 70 and the perforations 21 The height, or the spacing, of the two-dimensional image.

The duct portion 40 sucks the machined chip 71 generated by the object 70 to be machined by the perforation 21.

The duct portion 40 includes an upper hood portion 41 and a lower hood portion 44.

4, the upper hood part 41 is disposed on the upper side of the object 70 to be machined so that the upper surface of the upper surface of the processing chip 71, which is generated on the upper side of the object 70, .

The upper hood part 41 is attached to the perforation 21 while surrounding the outer circumferential surface of the perforation 21 and is open at the bottom so that when the object to be processed 70 is processed by the drill 22 And sucks the machining chips 71 to be generated.

The upper hood portion 41 includes a fixed hood portion 42 and a moving hood portion 43.

The fixed hood portion 42 is fixedly coupled to the perforation 21 and ascended and descended together with the perforation 21.

The moving hood portion 43 is mounted on the lower portion of the fixed hood portion 42 so as to be able to move up and down, and the lower surface of the moving hood portion 43 contacts the upper surface of the object 70.

At this time, the lower part of the moving hood part 43 is made of an elastic material such as rubber in order to contact with the upper surface of the object 70 and to prevent the object 70 from being scratched.

The moving hood portion 43 is in contact with the upper surface of the object to be processed 70 and the fixed hood portion 42 is brought into contact with the upper surface of the object to be processed 70 as the perforation 21 is lowered by the structure of the upper hood portion 41, As shown in FIG.

The lower hood portion 44 is disposed below the object to be processed 70 and is provided with a machining chip 71 generated by the object 70 penetrated by the drill 22 as shown in Fig. Inhale.

The lower hood portion 44 may be mounted in a fixed state, but it is preferable that the lower hood portion 44 is raised and lowered as in the present embodiment.

To this end, a lower hood lifting portion 45 for lifting the lower hood portion 44 is mounted on the base portion 10.

The lower hood elevating portion 45 is formed of a cylinder so that when the perforation 21 is to form a through hole in the object to be processed 70, the lower hood portion 44 is raised so that the lower hood portion 44 Is brought into contact with the lower surface of the object 70. [

At this time, the lower hood portion 44 is bent or bent so as to be raised and lowered by the lower hood elevating portion 45.

The perforation 21 penetrates the object to be processed 70 and then inserted into the lower hood 44 disposed at the lower portion of the object 70 so that the object to be processed 70 is inserted into the lower hood 44, So that the machined chip 71 can be sucked into the lower hood 44.

A suction pump is provided at the rear of the duct unit 40 so that the machined chip 71 generated in the movable object can be sucked through the upper and lower hood parts 41 and 44 do.

The sensing unit 50 senses the height of the perforation 21 with respect to the object to be processed 70.

The sensing unit 50 senses the height of the moving hood unit 43 with respect to the fixed hood unit 42 and detects the height of the perforation 21 with respect to the object 70 Respectively.

For this, the sensing unit 50 of the present embodiment includes a position indicating member 51 mounted on the moving hood 43, and a height detecting unit 51 mounted on the perforating unit 21, And a sensor unit 52 for sensing the temperature.

The sensor unit 52 is attached to the perforation 21 and descends when the perforation 21 is lowered.

The sensor unit 52 includes a lower sensor 53 and an upper sensor 54. The lower sensor 53 and the upper sensor 54 are disposed on the upper surface of the fixed hood unit 42, And the upper sensor 54 detects the position indicating member 51, respectively.

The control unit controls the main elevating unit 30, the lower hood elevating unit 45, the fixed elevating unit 16, the motor 23, and the like.

The control unit reduces the descending speed of the main lifting unit 30 as the height of the perforation 21 sensed by the sensing unit 50 approaches the object to be processed 70. [

Specifically, when the lower sensor 53 and the upper sensor 54 do not sense the position indicating member 50, the control unit controls the lowering speed of the main lifting unit 30 to be higher, ) Is quickly lowered.

When the lower sensor 53 senses the position indicating member 51, the lowering speed of the main lifting unit 30 until the upper sensor 54 senses the position indicating member 51 Change the low speed.

When the upper sensor 54 senses the position indicating member 51, it is determined that the through hole is formed in the object to be processed 70 and the main lifting unit 30 moves the perforation 21 .

The dust collecting part 60 is connected to the duct part 40 and collects the machined chips 71 sucked through the upper and lower hood parts 41 and 44.

The dust collecting part 60 is preferably of a conventional known cyclone type.

Hereinafter, an operation process of the present invention having the above-described configuration will be described.

First, as shown in FIGS. 1 and 2, after the processing unit 20 is raised from the base unit 10, the upper surface of the base unit 10 is rotated by the rotation of the rollers, 70 are disposed.

At this time, the object to be processed 70 is arranged at a predetermined predetermined position on the upper surface of the base 10 by the centering device 11. [

In this state, the motor 23 is operated to rotate the drill 22 mounted on the perforation 21.

Thereafter, the fixed elevating and lowering portion 16 is operated to lower the work fixing portion 15 so that the object 70 disposed on the upper portion of the base portion 10 is pressed and fixed.

When the object to be processed 70 is pressed and fixed, the control unit operates the main elevating unit 30 to lower the perforation 21. [

At this time, since the position indicating member 51 is located slightly below the lower sensor 53 and the lower sensor 53 does not detect the position indicating member 51, The lowering speed of the elevating part 30 is increased so that the perforation 21 is quickly lowered to a position adjacent to the upper surface of the object 70. [

As the upper hood portion 41 and the perforation 21 descend, the lower portion of the moving hood portion 43 comes into contact with the upper surface of the object to be processed 70.

The moving hood portion 43 is stopped when the moving hood portion 43 is in contact with the upper surface of the object to be processed 70 and the fixed hood portion 42 ) Is continued.

Therefore, the moving hood portion 43 relatively moves upward with respect to the fixed hood portion 42.

As the movable hood part 43 moves upward, the position indicating member 51 also ascends. As a result, as shown in FIG. 3, the lower sensor 53 senses the position indicating member 51 do.

Then, the control unit reduces the descending speed of the main lifting unit 30 so that the lower end of the perforation 21 stably contacts the upper surface of the object 70.

At this time, the lower hood elevating portion 45 raises the lower hood portion 44 so that the upper surface of the lower hood portion 44 is brought into contact with the lower surface of the object to be processed 70.

4, the drill 22 of the perforation 21 passes through the object to be processed 70 and passes through the through-hole 30, And then inserted into the lower hood portion 44. As shown in Fig.

At this time, the machined chip 71 generated at the upper part of the object 70 is sucked through the upper hood part 41 by the perforation 21, (71) is sucked through the lower hood (44).

The machined chip 71 thus sucked is moved to the dust collecting part 60 and is collected.

4, when the through hole is completely formed in the object 70 by the descent of the perforation 21, the moving hood 43 is positioned on the upper surface of the object 70 3, so that the position indicating member 51 is further raised than that shown in FIG. 3, so that the upper sensor 54 is detected .

The position indicating member 51 remains as it is and the sensor unit 52 constituted by the lower sensor 53 and the upper sensor 54 descends together with the perforation 21 while the upper sensor 54 The position indicating member 51 is detected.

Then, the control unit stops the descent of the main lifting unit 30 and then raises the lifting unit 21 so that the perforation 21 moves away from the object to be processed 70, So that the fixing portion 15 is moved away from the object to be processed 70 and the lower hood elevating portion 45 is lowered so that the lower hood portion 44 is also moved away from the object to be processed 70.

In this case, the worker can move the object 70 with the through hole to the next step.

The control unit automatically adjusts the vertical moving speed of the perforating unit 21 by adjusting the vertical speed of the main elevating unit 30 so that the drill 22 of the perforating unit 21 automatically It is possible to easily form through holes in the same object 70 to be processed.

The drilling machine of the present invention is not limited to the above-described embodiments, and can be variously modified and embodied within the scope of the technical idea of the present invention.

10: base portion, 11: centering device, 15: processing fixing portion, 16: fixed elevating portion,
20: machining part, 21: drilling, 22: drill, 23: motor,
30: Main lift,
The present invention relates to a hood for an automotive vehicle, which includes a hood, a duct portion, an upper hood portion, a fixed hood portion, a moving hood portion, a lower hood portion,
50: sensing part, 51: position indicating member, 52: sensor part, 53: lower sensor, 54: upper sensor,
60: dust collecting part,
70: object to be processed, 71: machining chip

Claims (9)

A base portion on which an object to be processed is disposed;
A machining portion disposed at an upper portion of the base portion, the machining portion being rotatably rotated by a motor to form a through hole in the object to be machined;
A main lifting unit for adjusting the height of the perforation with respect to the object;
And a duct portion for sucking a machining chip generated from the object to be machined by the perforation,
The duct portion
An upper hood portion disposed at an upper portion of the object to be processed to suck processed chips generated at the upper portion of the object by the perforation;
And a lower hood portion disposed at a lower portion of the object to be processed and sucking a machining chip generated in the object to be machined penetrated by the drilling. The method according to claim 1,
Wherein the upper hood portion is mounted on the perforation while surrounding an outer circumferential surface of the perforation,
Wherein the upper hood portion is formed with an open lower portion to suck machined chips generated during machining of the object by the drilling. The method of claim 2,
A control unit for controlling the main lift unit;
And a sensing unit for sensing a height of the perforation with respect to the object to be processed,
Wherein the perforations are raised and lowered with respect to the object by the main lift,
Wherein,
Wherein the lowering speed of the main lift portion is reduced as the height of the perforation sensed by the sensing portion is adjacent to the object to be processed. The method of claim 3,
The upper hood portion
A fixed hood part fixedly coupled to the perforation and lifted and raised together with the perforated part;
And a movable hood portion mounted on the lower portion of the fixed hood portion so as to be able to move up and down, the lower surface contacting the upper surface of the object,
The moving hood portion rises with respect to the fixed hood portion while contacting the upper surface of the object to be processed,
Wherein the sensing unit senses the height of the moving hood unit with respect to the fixed hood unit and detects the height of the perforation with respect to the object to be processed. The method of claim 4,
The sensing unit includes:
A position indicating member mounted on the moving hood unit;
And a sensor unit mounted on the perforation to sense the height of the position indicating member. The method according to claim 1,
Wherein the perforation portion is inserted into the hard hood portion disposed below the object to be processed after passing through the object to be processed. The method according to claim 1 or 6,
And a lower hood lifting unit mounted on the base to lift and lower the lower hood,
Wherein the lower hood portion is raised by the lower hood lifting portion when the perforated portion forms the through hole in the object to be processed, and is brought into contact with the lower surface of the object to be processed. The method according to claim 1,
And a dust collecting part connected to the duct part and collecting the machined chips sucked through the upper and lower hood parts. The method according to claim 1,
A processing and fixing unit disposed on the upper portion of the object to be pressed and fixing the object to be processed disposed on the upper portion of the base;
Further comprising a fixed elevating portion mounted on the machining portion to elevate the machining stop portion.

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