KR20160061671A - Upper frame of laser processing apparatus - Google Patents

Abstract

According to the present invention, an upper frame structure of a laser machining apparatus is installed above a worktable on which a machining target is placed. A laser head unit to emit a laser beam to the machining target is movably installed under the upper frame structure. The upper frame structure has a first space, a second space, and a third space. In the first space, a laser oscillator which generates a laser beam and transfers the laser beam to the laser head unit is installed. The second space is separated from the first space and a control unit, which controls movement of the laser head unit, is installed in the second space. The third space is separated from the second space and electronic parts, which electrically control the laser machining apparatus, are installed in the third space.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an upper frame structure of a laser processing apparatus,

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an upper frame structure of a laser processing apparatus, and relates to an upper frame structure of a laser processing apparatus in which components of a processing apparatus are integrally installed in an upper frame.

2. Description of the Related Art Generally, a laser processing apparatus that performs processing such as cutting or punching an object to be processed by using a laser includes a laser oscillator for outputting a laser beam, a laser head for irradiating a laser beam, , An electric box in which electrical components for electrically controlling the processing apparatus are incorporated, and a control unit for controlling the movement of the laser head portion.

Conventionally, a laser oscillator for outputting a laser beam, a control unit for controlling the movement of the laser head unit, and electric parts for electrically controlling the processing apparatus are installed in separate boxes, and a laser processing apparatus main body, a laser oscillator box, Electric parts box, etc. are installed in the work place to process the object to be processed. Since these elements are installed separately in the work space occupying a considerable volume, the installation area of the processing device is expanded and the utilization of the space is decreased. There is a problem that the cost of purchasing a workplace rises to secure an area.

In addition, in the conventional laser processing apparatus, since the box containing the laser oscillator and the control unit is installed on the ground, the laser oscillator frequently fails due to vibration transmitted through the ground, dust generated in the work site, , And the durability of the laser oscillator also deteriorates.

SUMMARY OF THE INVENTION It is therefore an object of the present invention to solve the problems of the prior art by providing components of a laser processing apparatus which are vulnerable to the surrounding environment to be integrally provided in an upper frame provided on the upper side of the object to be processed, And to improve the durability of the components, and to provide an upper frame structure of the laser processing apparatus.

In order to achieve the above object, the upper frame structure of the laser machining apparatus of the present invention is provided on the upper side of a processing table for supporting an object to be processed, and a laser head for irradiating a laser beam onto the object is movably installed A first space provided with a laser oscillator for outputting a laser beam and transmitting a laser beam to the laser head; A second space separated from the first space by a first blocking wall and provided with a control unit for controlling the movement of the laser head part; And a third space separated from the second space by the second blocking wall and provided with electric parts for electrically controlling the laser processing apparatus.

The upper frame structure of the laser processing apparatus according to the present invention may further include a fourth space separated from the third space by a third blocking wall and provided with a linear driving unit for linearly moving the laser head portion .

In the upper frame structure of the laser processing apparatus according to the present invention, the third space and the fourth space may be arranged parallel to each other.

In the upper frame structure of the laser processing apparatus according to the present invention, the laser oscillator is supplied with cooling water cooled by an external chiller, cooled inside thereof, passed through an external air dryer, And the humidity inside it can be removed.

In the upper frame structure of the laser processing apparatus according to the present invention, the first space may be a space which is insulated from the outside.

In the upper frame structure of the laser processing apparatus according to the present invention, the first space and the second space are included in a single first case member, and the first space and the second space are formed in the first case member By a first blocking wall.

In the upper frame structure of the laser processing apparatus according to the present invention, the first case member may be integrally coupled to the second case member including the third space.

According to the upper frame structure of the laser machining apparatus of the present invention, the installation area of the machining apparatus can be reduced to increase the utilization of the space in the workplace, and the durability of the components of the laser machining apparatus can be improved.

Further, according to the upper frame structure of the laser machining apparatus of the present invention, it is possible to meet various demands of customers who purchase the machining apparatus, and the model of the machining apparatus can be diversified.

Further, according to the upper frame structure of the laser machining apparatus of the present invention, it is possible to prevent the components built in the laser oscillator from being corroded or damaged, and to prolong the service life of the components.

Further, according to the upper frame structure of the laser machining apparatus of the present invention, temperature fluctuation inside the first space does not affect other adjacent spaces, so that temperature control within the upper frame structure can be facilitated.

1 is a schematic view of a laser processing apparatus including an upper frame structure according to an embodiment of the present invention,
Fig. 2 is a plan view of the upper frame structure of the laser machining apparatus of Fig. 1;

Embodiments of an upper frame structure of a laser machining apparatus according to the present invention will now be described in detail with reference to the accompanying drawings.

FIG. 1 is a schematic view of a laser processing apparatus including an upper frame structure according to an embodiment of the present invention, and FIG. 2 is a plan view of an upper frame structure of the laser processing apparatus of FIG.

Referring to FIGS. 1 and 2, the upper frame structure 100 of the laser processing apparatus according to the present embodiment includes components of the processing apparatus integrally installed in the upper frame, and includes a first space 110, A second space 120, a third space 130, and a fourth space 140.

First, the upper frame structure 100 of the laser machining apparatus of this embodiment is provided on the upper side of the processing table 11 that supports an object to be processed (not shown). The upper frame structure 100 may be manufactured separately from the processing table 11 and only the upper frame structure 100 itself may be sold.

In addition, a laser head 12 for irradiating a laser beam onto the object is movably provided at a lower portion of the upper frame structure 100. The laser head 12 can perform laser processing such as cutting an object to be processed by irradiating a laser beam to an object to be processed supported on the processing table 11 or forming a hole in the object to be processed.

The first space 110 is provided with a laser oscillator 13 for outputting a laser beam and delivering the laser beam to the laser head 12. The first space 110 in the upper frame structure 100 is divided into a separate space separate from the second space 120, the third space 130 and the fourth space 140. In this embodiment, Is located at the front of the side of the structure (100).

The laser oscillator 13 installed in the first space 110 can receive the cooling water cooled by the external chiller 20, and the interior thereof can be cooled.

The chiller 20 and the laser oscillator 13 can be connected by a cooling hose. The cooling water cooled by the chiller 20 is supplied to the laser oscillator 13 to cool the inside of the laser oscillator 13. Thereafter, the cooling water circulated in the laser oscillator 13 has a circulation path to return to the chiller 20, and the inside of the laser oscillator 13 can be maintained at a constant temperature through the circulation path.

In addition, the laser oscillator 13 installed in the first space 110 can receive the humidity-depleted air passing through the external air dryer 30, and the humidity inside the laser oscillator 13 can be removed.

The air dryer 30 and the laser oscillator 13 can be connected to each other by an air hose. The humidity-free air in the air dryer 30 is supplied into the laser oscillator 13 through an air hose, The air supplied to the inside can be used to remove the humidity inside the laser oscillator 13. Accordingly, the electronic components in the laser oscillator 13 can be maintained in a dried state, thereby reducing the failure of the laser oscillator 13 and improving durability.

Meanwhile, it is preferable that the first space 110 is a space insulated from the outside. The inside of the laser oscillator 13 can be maintained at a constant temperature by the supply of the cooling water of the chiller 20, but the temperature inside the first space 110 can be changed while the fan installed in the laser oscillator 13 is operated. It is preferable that the first space 110 is a space that is insulated from the outside so that a temperature variation inside the first space 110 does not affect another adjacent space.

The laser oscillator 13 of the present embodiment may be a fiber laser oscillator and the laser oscillator 13 and the laser head 12 may be connected by fiber for transferring the laser beam.

The second space 120 is provided with a control unit 14 for controlling the movement of the laser head part 12 and is separated from the first space 110 by the first blocking wall 151.

The control unit 14 is a controller for controlling the movement of the laser head portion 12 in the x-axis direction and the y-axis direction, and the control unit 14 can control the laser head portion 12 have. Conventionally, this control unit 14 occupies a space separate from the upper frame structure 100 and is installed in the workplace. In the present embodiment, a space for installing the control unit 14 in the upper frame structure 100 is provided, and the utilization of the space in the workplace can be enhanced.

The first space 110 and the second space 120 are included in the single first case member 101 and the space between the first space 110 and the second space 120 in the first case member 101 A first blocking wall 151 is provided and the first space 110 and the second space 120 are separated from each other by the first blocking wall 151. [ The second space 120 of this embodiment is located at the rear of the side of the upper frame structure 100 and is located at the rear of the first space 110.

As described above, in the present embodiment, only the first space 110 may be formed as a space that is insulated from the outside, or the first space 110 and the second space 120 may be formed as an outer, have.

The third space 130 is provided with electrical components 15 for electrically controlling the laser processing apparatus and is separated from the second space 120 by the second blocking wall 152.

The electrical component 15 installed in the third space 130 means components for electrically controlling the laser processing apparatus such as a driver, a switch, a circuit breaker, a circuit board, a relay, and the like. Conventionally, the electric components 15 are installed in separate electric boxes and occupy a space separate from the upper frame structure 100 and installed in the workplace. In this embodiment, a space for installing the electric parts 15 in the upper frame structure 100 is provided, thereby increasing the utilization of the space in the workplace.

A second blocking wall 152 is provided between the second space 120 and the third space 130 and the second space 120 and the third space 130 are separated by the second blocking wall 152. [ And are separated from each other. The third space 130 of the present embodiment is located at a rear portion of the upper frame structure 100 and at a rear portion of the fourth space 140.

The fourth space 140 is provided with a linear driving unit 16 for linearly moving the laser head 12 and separated from the third space 130 by a third blocking wall 153.

The linear drive unit 16 installed in the fourth space 140 includes a motor for providing a driving force, a pinion gear coupled to the laser head 12, a rack gear engaged with the pinion gear, And a linear motion guide for guiding the motion. Since the structure of the linear driving unit 16 is well known to those skilled in the art, a detailed description thereof will be omitted.

The third space 130 and the fourth space 140 are included in the second case member 102 and the third space 130 and the fourth space 140 are formed in the second case member 102, 3 barrier wall 153 is provided and the third space 130 and the fourth space 140 are separated from each other by the third blocking wall 153. [ The fourth space 140 of the present embodiment is located in the front part of the upper frame structure 100 and in the front part of the third space 130.

The first case member 101 including the first space 110 and the second space 120 may be integrally coupled to the second case member 102 including the third space 130. [

The third space 130 and the fourth space 140 of the present embodiment may be arranged in parallel with each other. The third space 130 and the fourth space 140 are each formed to be long along the longitudinal direction of the upper frame structure 100 and are respectively disposed at the front portion and the rear portion of the upper frame structure 100, It is possible to increase the space utilization inside the portable terminal 100.

The upper frame structure of the laser processing apparatus configured as described above is provided integrally with the upper frame provided on the upper side of the object to be processed, the components of the laser processing apparatus vulnerable to the surrounding environment, It is possible to increase the utilization and improve the durability of the components.

Further, the upper frame structure of the laser processing apparatus configured as described above is manufactured separately from the processing table for supporting the object to be processed, so that it can be adapted to various demands of customers who purchase the processing apparatus, The effect can be obtained.

In addition, the upper frame structure of the laser processing apparatus configured as described above can prevent the components built in the laser oscillator from being corroded or damaged by supplying the moisture-depleted air into the laser oscillator, It is possible to obtain an effect that can be extended.

In addition, the upper frame structure of the laser processing apparatus configured as described above is formed as a space in which the first space is insulated from the outside, so that temperature fluctuations inside the first space do not affect other adjacent spaces, It is possible to obtain an effect of facilitating the temperature control of the liquid crystal display device.

The scope of the present invention is not limited to the above-described embodiments and modifications, but can be implemented in various forms of embodiments within the scope of the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the appended claims.

11: Machining table
12: laser head part
13: laser oscillator
14: control unit
15: Electrical parts
100: upper frame structure of the laser processing apparatus
110: First space
120: Second space
130: Third space

Claims (7)

A laser head for irradiating a laser beam onto an object is movably provided in a lower portion of the processing table,
A first space provided with a laser oscillator for outputting a laser beam and transmitting a laser beam to the laser head;
A second space separated from the first space and provided with a control unit for controlling movement of the laser head portion; And
And a third space separated from the second space and provided with electric parts for electrically controlling the laser processing apparatus. The method according to claim 1,
And a fourth space separated from the third space by a third blocking wall and provided with a linear drive unit for linearly moving the laser head portion. 3. The method of claim 2,
Wherein the third space and the fourth space are disposed parallel to each other. The method according to claim 1,
The laser oscillator includes:
The cooling water cooled by the external chiller is supplied to cool the inside of the cooling water,
And the humidity of the inside of the upper frame structure is removed by receiving the air whose humidity has been removed through the external air dryer. The method according to claim 1,
Wherein the first space is a space that is insulated from the outside. The method according to claim 1,
Characterized in that the first space and the second space are included in a single first case member and the first space and the second space are separated by a first blocking wall in the first case member. The upper frame structure of the processing apparatus. The method according to claim 6,
Wherein the first case member is integrally coupled to a second case member including the third space.

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