KR102144221B1 - Workpiece cutting device using laser - Google Patents

Abstract

The present invention relates to an apparatus for cutting a workpiece using a laser, which is implemented to cut a plate material such as an iron plate using the laser. The apparatus for cutting the workpiece using the laser comprises: a stage on which the workpiece is seated on an upper part thereof; a front-rear movement unit which is formed in an H shape, wherein one side is connected and installed an upper part of one side of the stage and the other side is connected and installed at an upper part of the other side of the stage, and which moves in the front-rear direction along the stage; and a laser unit connected to a lower part of the front-rear movement unit and moving in the left-right direction along the lower part of the front-rear movement unit, and irradiating a laser beam to the workpiece seated on the stage to cut the workpiece into a predetermined shape.

Description

Workpiece cutting device using laser {WORKPIECE CUTTING DEVICE USING LASER}

The present invention relates to a workpiece cutting apparatus using a laser, and more particularly, to a workpiece cutting apparatus using a laser implemented to cut a plate material such as an iron plate using a laser.

The laser cutting machine is a device that cuts steel materials into products of a certain shape.

In the cutting and processing of steel materials using a conventional laser cutting machine, the steel material (especially in the case of a steel plate) is seated on an upper part of a cutting table prepared in the workshop, and is transferred horizontally along the processing direction. A laser cutting machine according to a conventional method is prepared on the upper part of the steel material being transferred, and the steel material being transferred is cut into a shape desired by the operator according to the operation of the laser cutting machine.

In the case of such a conventional laser cutting machine, there is a disadvantage in that the steel material seated on the top cannot move or be strongly fastened during the cutting process, so it has a limitation in precise processing.

On the other hand, the above-described background technology is the technical information acquired by the inventor for the derivation of the present invention or acquired in the derivation process of the present invention, and is not necessarily a known technology disclosed to the general public before filing the present invention. .

Korean Patent Registration No. 10-1395728 Korean Patent Publication No. 10-2018-005979

One aspect of the present invention provides an apparatus for cutting a workpiece using a laser, which is implemented to be fastened and fixed using a plurality of fasteners installed at each edge of the plate when cutting a plate material of a material such as an iron plate using a laser.

The technical problem of the present invention is not limited to the technical problem mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

An apparatus for cutting a workpiece using a laser according to an embodiment of the present invention includes: a stage on which the workpiece is seated; A front-rear moving part formed in a "H" shape, one side is connected and installed on one side of the stage, the other side is connected and installed on the other side of the stage, and moves in a front-rear direction along the stage; And a laser unit connected to the lower part of the front-rear moving part and moving in a left-right direction along the lower part of the front-rear moving part, and irradiating a laser beam with the work piece seated on the stage to cut the work piece into a predetermined shape. .

In one embodiment, the stage includes a body forming an outer shape; A first moving rail formed in a front-rear direction on one side of the main body to connect and install a lower portion of one side of the front-rear moving part to move in the front-rear direction; A second moving rail formed in the front-rear direction on the other side of the main body to connect the lower part of the other side of the front-rear moving part to move in the front-rear direction; A seating groove recessed between the first moving rail and the second moving rail of the main body; And a support needle extending in the vertical direction from the seating groove and spaced apart from other support needles to support the workpiece seated in the seating groove.

In one embodiment, the front-rear moving part is formed to extend in the front-rear longitudinal direction, is connected to the upper portion of the first moving rail to move in the front-rear direction along the first moving rail in response to a cutting process ; A second moving frame extending in the longitudinal direction of the front and rear, connected to the upper part of the second moving rail, and moving in the front and rear direction along the second moving rail in response to a cutting process; And a connection frame that is connected and installed between the first moving frame and the second moving frame, and the laser unit is connected to the lower portion to move in the left and right direction in response to the cutting process.

In one embodiment, a workpiece cutting device using a laser according to an embodiment of the present invention is provided in a plurality of pieces along the circumference of a portion where the workpiece is seated in the stage, and when cutting the workpiece by the laser unit, the It may further include a workpiece fixing unit for fastening and fixing the workpiece so as to prevent the workpiece seated on the stage from moving.

In one embodiment, the workpiece fixing portion is formed in a "a" shape and is installed so that one side of the bent upper portion faces the workpiece, and a seating portion on which the workpiece is seated on the upper one side; A fastening part that is connected to the other lower part so as to be rotatable with the other upper part of the seating part, and which bites and fastens the workpiece seated on the upper one side of the seating part to one lower part; And an upper portion of the seating portion and a lower portion of the fastening portion, respectively, and formed in a triangular shape of an elastic material so as to be fastened without causing scratches when fastening the workpiece.

In one embodiment, the workpiece fixing part may further include an elastic support part installed in a space between a lower portion of one side of the seating portion and an upper portion of the stage, and supporting the seating portion by an elastic force.

In one embodiment, the seating portion, a vertical frame extending in the vertical direction; And a horizontal frame extending in a horizontal direction, connected to and installed on the upper part of the vertical frame so as to be rotatable, and connected to and installed on the other side of the upper part so that the lower part of the other side of the fastening part is rotatable, and the elastic support part is installed at the lower one side. Can include.

In one embodiment, the elastic support portion, a support frame for supporting a lower side of the horizontal frame; A first vertical frame installed under one side of the support frame to absorb vibration transmitted through the support frame, and a second vertical frame installed under the other side of the support frame to absorb vibration transmitted through the support frame A vertical frame including a frame; One side is connected to be rotatably installed on the top of the first vertical frame, the other side is connected to be rotatably installed under the second vertical frame, and one side is rotatable to the bottom of the first vertical frame It includes a second connection frame that is connected and installed so that the other side is rotatably connected to the top of the second vertical frame, and the first connection frame and the second connection frame are rotatable in a "X" shape. A connecting frame connected to each other; And a frame support connected to and installed at a portion where the first connection frame and the second connection frame meet to support the first connection frame and the second connection frame.

In one embodiment, the first vertical frame or the second vertical frame is formed in a "T" shape, and is installed at one side or the other lower side of the support frame to support the upper support frame; An upper connecting bundle which is connected to be rotatably connected to a lower part of the upper support and is connected to one side of the first connecting frame or the other side of the second connecting frame on a surface facing another vertical frame; An elastic part installed under the upper connection bundle to reduce vibration transmitted through the upper connection bundle by using an elastic force; A lower connection bundle installed on the lower side of the elastic part and connected to one side of the second connection frame or the other side of the first connection frame so as to be rotatable on a surface facing the other vertical frame; And a lower support part which is formed in a "ㅗ" shape and is connected to the lower part of the lower connection bundle so as to be rotatable to support the lower connection bundle.

In one embodiment, the elastic support portion, the upper support plate formed in the shape of a rectangular plate to support the lower one side of the horizontal frame; Four upper vibration absorbing units installed at each lower corner of the upper support plate to absorb vibration transmitted from the lower clamp; Four upper support frames extending downwardly from the four upper vibration absorbing parts to support the upper vibration absorbing part; An upper intermediate plate formed in the shape of a square plate, connected to and installed at each corner so that a lower portion of the upper support frame is rotatable, and spaced apart from the upper support plate; A lower intermediate plate formed in the same plate shape as the upper intermediate plate, and the upper intermediate plate is supported by being spaced apart from the upper side by a plurality of intermediate support frames formed on each side; Four intermediate vibration absorbing units installed between the upper intermediate plate and the lower intermediate plate to support the upper intermediate plate by using an elastic force; Four lower support frames extending downward from each corner of the lower intermediate frame to support the lower intermediate frame; Four lower vibration absorbing units respectively rotatably connected to the lower portions of the four lower support frames and absorbing vibration transmitted from the lower support frames; And a lower support plate formed in the shape of a square plate, and in which the lower vibration absorbing units are respectively installed at upper portions of each corner.

According to one aspect of the present invention described above, when cutting a plate material of a material such as an iron plate using a laser, each edge of the plate material is fastened and fixed, thereby providing an effect of performing precise processing of the plate material by a laser device. .

The effects of the present invention are not limited to the above-mentioned effects, and various effects may be included within a range that is apparent to a person skilled in the art from the contents to be described below.

1 is a view showing a schematic configuration of a workpiece cutting apparatus using a laser according to an embodiment of the present invention.
2 is a view showing the stage and the front and rear moving parts of FIG. 1.
3 is a view showing the structure of a seating groove and a support needle.
4 is a view showing a schematic configuration of a workpiece cutting apparatus using a laser according to another embodiment of the present invention.
5 and 6 are views showing an embodiment of the fixing part of the workpiece of FIG. 4.
7 is a view showing another embodiment of the fixing part of the workpiece of FIG. 4.
8 is a view showing an example of the elastic support of FIG. 7.
9 is a diagram illustrating a first vertical frame or a second vertical frame of FIG. 8.
10 is a view showing the elastic portion of FIG. 9.
11 is a view showing another example of the elastic support of FIG. 7.
12 and 13 are views showing a connection relationship between an upper intermediate plate and a lower intermediate plate of FIG. 11.

For a detailed description of the present invention described below, reference is made to the accompanying drawings that illustrate specific embodiments in which the present invention may be practiced. These embodiments are described in detail sufficient to enable a person skilled in the art to practice the present invention. It is to be understood that the various embodiments of the present invention are different from each other but need not be mutually exclusive. For example, specific shapes, structures, and characteristics described herein may be implemented in other embodiments without departing from the spirit and scope of the present invention in connection with one embodiment. In addition, it is to be understood that the location or arrangement of individual components within each disclosed embodiment may be changed without departing from the spirit and scope of the present invention. Accordingly, the detailed description to be described below is not intended to be taken in a limiting sense, and the scope of the present invention, if appropriately described, is limited only by the appended claims, along with all scopes equivalent to those claimed by the claims. In the drawings, like reference numerals refer to the same or similar functions over several aspects.

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

1 is a view showing a schematic configuration of a workpiece cutting apparatus using a laser according to an embodiment of the present invention.

Referring to FIG. 1, a workpiece cutting apparatus 10 using a laser according to an embodiment of the present invention includes a stage 100, a front-rear moving part 200, and a laser unit 300.

In the stage 100, the work piece 1 is seated on the upper side, and one lower side of the front and rear moving part 200 is connected to the upper one side, and the other lower side of the front and rear moving part 200 is connected to the other upper side. It is installed and moves back and forth

The front and rear moving part 200 is formed in a "H" shape, one side is connected and installed on one side of the stage 100, the other side is connected and installed on the other side of the stage 100, and corresponds to the cutting process Thus, it moves in the front-rear direction along the stage 100, and the laser unit 300 is connected and installed at the lower part to move in the left-right direction in response to the cutting process.

The laser unit 300 is connected to the lower part of the front-rear moving part 200 and moved in the left-right direction along the lower part of the front-rear moving part 200, and a laser beam is applied to the workpiece 1 seated on the stage 100. By irradiation to form the incision groove (1a) shown in Figure 3 to cut the workpiece (1) in a predetermined shape.

The laser unit 300 of the present invention is a device that performs laser processing (Laser　Beam　Machining) processing a material by a focused laser beam, and mainly uses a laser as a high-density heat source, and when using a laser Since it is processed by heating at high speed, it has a narrow heat-deformed layer, it is easy to process very hard or fragile materials, and it is non-contact, so there is no wear of tools. In addition, it is possible to finely process parts with complex shapes, and there is no noise and vibration during work, and the work environment is clean. When a laser beam is irradiated on the surface of an object, the temperature of the material surface rises rapidly, melting near the surface and evaporating at the same time, thereby removing the material and processing. Various lasers such as 　 carbon dioxide, 　 ruby, 　 YAG 　 laser are used according to the characteristics of the material and processing process. These lasers are mainly used for cutting materials, drilling holes, welding, heat treatment, and engraving of surfaces, and their application range is gradually expanding.

The workpiece cutting device 10 using a laser having the configuration as described above is cut according to the movement of the front and rear moving unit 200 or the laser unit 300 to cut the workpiece 1 in response to the cutting process. It is moved in response to the coordinates for and can cut the workpiece 1 in the shape received from the user.

2 is a view showing the stage and the front and rear moving parts of FIG. 1.

Referring to FIG. 2, the stage 100 includes a body 110, a first moving rail 120, a second moving rail 130, a seating groove 140, and a support needle 150.

The main body 110 forms the overall appearance of the stage 100, a first moving rail 120 is formed on one side of the upper part, a second moving rail 130 is formed on the other side of the upper part, and the first movement A seating groove 140 is formed in the space between the rail 120 and the second moving rail 130.

The first moving rail 120 is formed in a front-rear direction from one side of the main body 110 so that a lower part of one side of the front-rear moving part 200 is connected and installed to move in the front-rear direction.

The second moving rail 130 is formed in the front-rear direction from the other side of the main body 110 so that the lower part of the other side of the front-rear moving part 200 is connected and installed to move in the front-rear direction.

Referring to FIG. 3, the seating groove 140 is formed recessed between the first moving rail 120 and the second moving rail 130 of the main body 110, and the support needle 150 is densely formed in the corresponding space. It is installed to support the workpiece 1 so that the cut-out portion falls to the floor along with cutting.

The support needle 150 is formed extending in the vertical direction from the seating groove 140, and is closely spaced apart from other support needles to support the workpiece 1 seated in the seating groove 140.

That is, the support needle 150 supports the lower side of the workpiece 1, but forms a spaced space to efficiently discharge heat due to laser processing so that heat is efficiently discharged, as well as according to cutting. The cut and separated part can be prevented from interfering with laser cutting by allowing it to fall to the bottom of the seating groove 140 through the spaced space.

Referring to FIG. 2, the front and rear moving unit 200 includes a first moving frame 210, a second moving frame 220 and a connection frame 230.

The first moving frame 210 extends in the longitudinal direction of the front and rear, is connected to the upper portion of the first moving rail 120 and moves in the front and rear direction along the first moving rail 120 in response to the cutting process.

The second moving frame 220 is extended in the longitudinal direction of the front and rear, is connected to the upper portion of the second moving rail 130 and moves in the front and rear direction along the second moving rail 130 in response to the cutting process.

The connection frame 230 is connected and installed between the first moving frame 210 and the second moving frame 220, and the laser unit 300 is connected and installed at the bottom to move in the left and right directions in response to the cutting process. .

That is, the front-rear moving part 200 having the configuration as described above, while moving in the front-rear direction along the first moving rail 120 and the second moving rail 130 formed on the main body 110 of the stage 100 By moving the laser unit 300 to a position required for the cutting process, when the movement by the first moving frame 210 and the second moving frame 220 is referred to as X-axis movement, the connecting frame 230 The movement by is corresponding to the Y-axis movement, and the laser unit 300 can be accurately moved to the corresponding coordinates according to the user's input of the cutting coordinates.

4 is a view showing a schematic configuration of a workpiece cutting apparatus using a laser according to another embodiment of the present invention.

4, a workpiece cutting device 20 using a laser according to another embodiment of the present invention includes a stage 100, a front and rear moving part 200, a laser unit 300, and a workpiece fixing part 600. ). Here, the stage 100, the front-rear moving part 200, and the laser unit 300 are the same as those of FIG. 1, and thus description thereof will be omitted.

The workpiece fixing part 600 is installed around a portion of the stage 100 on which the workpiece 1 is seated, that is, along the seating groove 140, and the workpiece 1 by the laser unit 300 The workpiece 1 is fastened and fixed so as to prevent the workpiece 1 seated on the stage 100 from moving during cutting.

The workpiece cutting device 20 using a laser having the configuration as described above, by fastening and fixing each edge of the plate material when cutting a plate material of a material such as an iron plate using a laser, precise processing of the plate material by the laser device is possible. Can be done.

5 and 6 are views showing an embodiment of the fixing part of the workpiece of FIG. 4.

Referring to FIG. 5, a workpiece fixing part 600 according to an embodiment includes a seating part 610, a fastening part 620, and a wound preventing part 630.

The seating portion 610 is formed in a "a" shape and is installed so that one side of the bent upper portion faces the workpiece (1), and the workpiece (1) is seated on one side of the upper portion, and a fastening portion ( The lower part of the other side of the 620 is connected and installed so as to be rotatable.

At this time, the seating portion 610 and the fastening portion 620 are not simply connected by a rotating shaft, but have an elastic body (not shown in the drawing for convenience of explanation) such as a spring at a portion connected such as a clothespin. Therefore, it would be desirable to be formed to automatically fasten the workpiece 1 only with elastic force without being supplied with a driving force from the outside.

The fastening part 620 is connected and installed so that the other lower part is rotatable with the other upper part of the seating part 610, and fastened by biting the workpiece 1 seated on the upper one side of the seating part 610 to the lower one side do.

A plurality of wound prevention parts 630 are respectively installed along an upper surface of one side of the seating part 610 and a lower surface of one side of the fastening part 620, and can be fastened without being scratched when the workpiece 1 is fastened. It is formed in a triangular shape of an elastic material such as rubber or plastic so that it can be used.

The workpiece fixing unit 600 having the configuration as described above is installed along the mounting groove 140 to fasten the workpiece 1 to efficiently prevent the workpiece 1 from moving during processing. In addition, by minimizing the scratches that may occur on the workpiece 1, it is possible to minimize defects that may occur on the product along with the precision of processing.

7 is a view showing another embodiment of the fixing part of the workpiece of FIG. 4.

Referring to FIG. 7, a workpiece fixing part 600a according to another embodiment includes a seating part 610, a fastening part 620, a wound preventing part 630, and an elastic support part 400, 500.

Here, the fastening part 620 and the wound preventing part 630 are the same as those of FIG. 5, and thus description thereof will be omitted.

The elastic support parts 400 and 500 are installed in the space between the lower portion of the seating portion 610a, that is, the lower portion of the horizontal frame 612 and the upper portion of the stage 100, and support the seating portion 610 by an elastic force. do.

In one embodiment, the seating portion 610a according to another embodiment may include a vertical frame 611 and a horizontal frame 612.

The vertical frame 611 is formed extending in the vertical direction, and the horizontal frame 612 is connected and installed at the top so as to be rotatable.

The horizontal frame 612 is formed extending in the horizontal direction, is connected to be rotatably installed on the upper part of the vertical frame 611, and is connected to and installed on the other side of the upper side so that the other lower side of the fastening part 620 is rotatable, Elastic support parts 400 and 500 are installed on one side of the lower part.

The workpiece fixing portion 600a having the configuration as described above not only serves as a fastener for fastening the workpiece 1, but also on the workpiece 1 or the device body according to the seating of the workpiece 1 By effectively absorbing the shock or vibration that may occur, the precision of the processing can be improved, and the durability of the equipment can be further improved with water.

8 is a view showing an embodiment of the elastic support of FIG. 7.

Referring to FIG. 8, the elastic support part 400 according to an embodiment includes a support frame 410, a vertical frame 420, a connection frame 430, and a frame support 440.

The support frame 410 is installed under the horizontal frame 612 to support the horizontal frame 612, the lower one side is elastically supported by the first vertical frame 421, and the other lower side is the second It is elastically supported by the vertical frame 422.

At this time, the support frame 410 may form a fastening hole 411 for fastening to a fastening means such as a bolt formed on the lower side of the horizontal frame 612.

The vertical frame 420 is installed under one side of the support frame 410 to absorb the vibration transmitted through the support frame 410, and the first vertical frame 421 and the other lower portion of the support frame 410 It includes a second vertical frame 422 that is installed and absorbs the vibration transmitted through the support frame 410, the first vertical frame 421 and the second vertical frame 422 and the first connection frame 431 It is connected and installed by the second connection frame 432.

The connection frame 430 is a first connection frame 431 that is connected and installed so that one side is rotatable on the upper part of the first vertical frame 421 and the other side is connected so as to be rotatable under the second vertical frame 422 ), and a second connection frame 432 that is connected and installed so that one side is rotatable under the first vertical frame 421 and the other side is connected so as to be rotatable above the second vertical frame 422, , The first connection frame 431 and the second connection frame 432 are connected to each other so as to be rotatable in an "X" shape.

At this time, the first connection frame 431 and the second connection frame 432 are elongated in the longitudinal direction in response to the extension or contraction of the first vertical frame 421 or the second vertical frame 422 in the vertical direction. Alternatively, by being formed to be contracted, the first vertical frame 421 or the second vertical frame 422 may be freely expanded or contracted.

The frame support 440 is connected and installed so that the first connection frame 431 and the second connection frame 432 are rotatable at a portion where the first connection frame 431 and the second connection frame 432 meet. It supports the connection frame 431 and the second connection frame 432.

At this time, the first connection frame 431 and the second connection frame 432 form a groove for fastening to another connection frame at a portion connected to the frame support 440, and bolts, etc. to the frame support 440 It is preferable to rotate and slide in the longitudinal direction by forming an elongated through hole (not shown in the drawing for convenience of explanation) in the longitudinal direction so that it can be connected and installed through the fastening means of.

The elastic support 400 having the configuration as described above is installed on the upper portion of the main body 110, and the configurations of the vertical frame 420, the connection frame 430, and the frame support 440 described above are applied to external impacts, etc. It may further include a case 450 formed in the form of a box with an open upper side to protect it from.

In this case, it is preferable that a portion of the upper side of the vertical frame 420 installed on the lower side of the support frame 410 is installed so as to be exposed to the upper side of the case 450.

9 is a diagram illustrating a first vertical frame or a second vertical frame of FIG. 8.

The first vertical frame 421 and the second vertical frame 422 according to the present invention correspond to a configuration that is symmetrical to each other. Hereinafter, only the first vertical frame 421 is illustrated in FIG. 9, but the following descriptions The same will be applied to the second vertical frame 422.

9, the first vertical frame 421 or the second vertical frame 422, upper support (4211, 4221), upper connection bundles (4212, 4222), elastic parts (4213, 4223), lower connection It includes bundles 4214 and 4224 and lower supports 4215 and 4225.

The upper support portions 4211 and 4221 are formed in a "T" shape, are installed on one side of the support frame 410 or under the other side to support the support frame 410 with an upper flat surface, and the upper connection bundle 4212 , Connect and install a semicircular protrusion formed on the upper side of 4222) so as to be rotatable using fastening means such as bolts and nuts.

The upper connection bundles 4212 and 4222 are connected and installed so that the upper part is rotatable under the upper support parts 4211 and 4221, and the semicircular protrusion formed on the surface facing the other vertical frame 420 is provided with bolts and nuts. To be able to rotate on one side of the first connection frame 431 (in the case of the upper connection bundle 4212) or the other side of the second connection frame 432 (in the case of the upper connection bundle 4222) using the fastening means of Connected and installed.

The elastic parts 4213 and 4223 are installed under the upper connection bundles 4212 and 4222 to reduce the vibration transmitted through the upper connection bundles 4212 and 4222 by using elastic force, and the lower connection bundles 4214 and 4224 ) Is installed.

The lower connection bundles 4214 and 4224 are installed on the lower side of the elastic parts 4213 and 4223, and one side of the second connection frame 432 on a surface facing the other vertical frame 420 (lower connection bundle 4214) In the case of) or the other side of the first connection frame 431 (in the case of the lower connection bundle 4224), it is connected and installed to be rotatable, and a semicircular protrusion formed on the lower side is It is connected and installed on the upper part of the lower support parts 4215 and 4225 so as to be rotatable.

The lower support parts 4215 and 4225 are formed in a "ㅗ" shape, and are connected and installed to be rotatable under the lower connection bundles 4214 and 4224 to support the lower connection bundles 4214 and 4224.

The first vertical frame 421 or the second vertical frame 422 having the above-described configuration is connected and installed so that each configuration is rotatable, and by freely absorbing and attenuating vibration or shock transmitted from the outside, It can efficiently absorb vibration or shock transmitted from the direction.

10 is a view showing the elastic portion of FIG. 9.

Referring to FIG. 10, the elastic parts 4213 and 4223 include cylindrical parts 4216 and 4226, upper plates 4217 and 4227, lower plates 4218 and 4228, and elastic bodies 4219 and 4229.

The cylindrical portions 4216 and 4226 are formed in a cylindrical shape with an empty inside, and the lower portions of the upper support portions 4211 and 4221 are inserted through the through holes formed in the upper portion, and the lower support portions 4215, through the through holes formed in the lower portion. The upper part of the 4225 is inserted, the upper plates 4217 and 4227 are located at the upper part of the inner space, the lower plates 4218 and 4228 are located at the lower part of the inner space, and the upper plates 4217 and 4227 and the lower plate ( The elastic bodies 4219 and 4229 are located in the space between the 4218 and 4228.

The upper plates 4217 and 4227 are positioned above the inner space of the cylindrical portions 4216 and 4226, and the lower portions of the upper support portions 4211 and 4221 are fixedly installed, and the elastic bodies 4219 and 4229 are positioned at the lower side. do.

The lower plates 4218 and 4228 are spaced apart from the upper plates 4217 and 4227, the upper portions of the lower support portions 4215 and 4225 are fixedly installed, and the elastic bodies 4219 and 4229 are positioned on the upper side.

At this time, the upper plates 4217 and 4227 and the lower plates 4218 and 4228 are formed in an elongated shape in the vertical direction, so that they do not rotate in the left and right directions in the vertical sliding movement, and the upper support portions 4211 and 4221 or It is preferable to move the lower support portions 4215 and 4225 in the vertical direction.

The elastic bodies 4219 and 4229 are inserted into the space between the upper plates 4217 and 4227 and the lower plates 4218 and 4228 to prevent vibration between the upper plates 4217 and 4227 and the lower plates 4218 and 4228. Use to reduce.

The elastic parts 4213 and 4223 as described above attenuate the overall vibration according to the present invention by attenuating the vibration or impact transmitted from the upper or lower side of the elastic parts 4213 and 4223 by using the elastic bodies 4219 and 4229. To improve the detection performance.

11 is a view showing another embodiment of the elastic support of FIG. 8.

Referring to FIG. 11, the elastic support part 500 according to another embodiment includes an upper support plate 510, four upper vibration absorbing parts 520, four upper support frames 530, an upper intermediate plate 540, It includes a lower intermediate plate 550, four intermediate vibration absorbing portions 560, four lower supporting frames 570, four lower vibration absorbing portions 580, and a lower supporting plate 590.

The upper support plate 510 is formed in the shape of a square plate supporting the lower portion of the horizontal frame 612, and each corner is supported by the upper vibration absorbing part 520.

At this time, the upper support plate 510 serves to transmit the vibration or shock transmitted from the horizontal frame 612 to the upper vibration absorbing unit 520.

In this case, the upper support plate 510 may form a fastening hole 513 for fastening to a fastening means such as a bolt formed under the horizontal frame 612.

The upper vibration absorbing part 520 is installed at each lower corner of the upper support plate 510 to absorb the vibration transmitted from the horizontal frame 612, and by an upper support frame 530 connected to the lower part so as to be rotatable. It is spaced apart and supported on the upper side of the upper intermediate plate 540.

Here, since the upper vibration absorbing unit 520, the intermediate vibration absorbing unit 560, or the lower vibration absorbing unit 580 is the same as the components of the elastic units 4213 and 4223 described above in FIG. 10, a description thereof will be omitted. To However, a plate as shown in FIG. 11 is formed on the upper and lower sides of the vibration absorbing parts 520, 560, and 580, and the upper or lower support frame of the upper support frame 530 ( The lower part of the 570 is connected and installed so as to be rotatable.

The upper support frame 530 is formed extending downwardly from each vibration absorbing part 520 to support the upper vibration absorbing part 520 spaced apart from the upper side of the upper intermediate plate 540.

The upper intermediate plate 540 is formed in the shape of a square plate, is connected and installed so that the lower part of the upper support frame 530 is rotatable at each corner, and is spaced apart from the lower side of the upper support plate 510, and each It is installed to be spaced apart from the upper side of the lower intermediate plate 550 by a plurality of intermediate support frames 511 connected to the surface, and supported by the elastic force by the intermediate vibration absorbing part 560.

That is, the upper intermediate plate 540 serves as an intermediate transmission means for transmitting vibration or shock transmitted from the upper side to the intermediate vibration absorbing unit 560.

The lower intermediate flat plate 550 is formed in the same flat shape as the upper intermediate flat plate 540, and the upper intermediate flat plate 540 is supported by being spaced apart from the upper side by a plurality of intermediate support frames 511 formed on each side, An intermediate vibration absorbing part 560 is installed between the upper intermediate plate 540 and the upper intermediate plate 540.

At this time, the upper intermediate plate 540 or the lower intermediate plate 550 is connected to and installed in the sliding groove 512 formed in the vertical direction above and below the intermediate support frame 511, and is connected to each other along the sliding groove 512. It can be slid in a direction closer to or away from each other (see FIGS. 12 and 13).

The intermediate vibration absorbing part 560 is installed between the upper intermediate plate 540 and the lower intermediate plate 550 to support the upper intermediate plate 540 using an elastic force (see FIG. 12 ).

The lower support frame 570 is formed extending downward from each corner of the lower intermediate frame to support the lower intermediate frame.

The lower vibration absorbing part 580 is connected to each of the four lower support frames 570 so as to be rotatable, and absorbs vibration transmitted from the lower support frame 570.

The lower support plate 590 is formed in the shape of a square plate, and lower vibration absorbing portions 580 are respectively installed on the upper portions of each corner.

Here, the lower support frame 570, the lower vibration absorbing unit 580 or the lower support plate 590 is symmetrical with the upper support plate 510, the upper vibration absorbing unit 520 or the upper support frame 530 described above. Since the structure corresponds to the same component, a description thereof will be omitted.

The elastic support 500 having the configuration as described above is connected and installed so that each configuration is rotatable, and by freely absorbing and attenuating vibrations or shocks transmitted from the outside, it efficiently absorbs vibrations or shocks transmitted from any direction. Can be absorbed.

The above-described embodiments are for illustrative purposes only, and those of ordinary skill in the art to which the above-described embodiments belong can easily transform into other specific forms without changing the technical idea or essential features of the above-described embodiments. You can understand. Therefore, it should be understood that the above-described embodiments are illustrative and non-limiting in all respects. For example, each component described as a single type may be implemented in a distributed manner, and similarly, components described as being distributed may also be implemented in a combined form.

The scope to be protected through the present specification is indicated by the claims to be described later rather than the detailed description, and should be interpreted as including all changes or modified forms derived from the meaning and scope of the claims and the concept of equivalents thereof. .

10: workpiece cutting device using a laser 100: stage
110: main body 120: first moving rail
130: second moving rail 140: seating groove
150: support needle 200: front and rear moving parts
210: first moving frame 220: second moving frame
230: connection frame 300: laser unit
400: elastic support 410: support frame
420: vertical frame 430; Connecting frame
440: frame support 500: elastic support
510: upper support plate 520: upper vibration absorber
530: upper support frame 540: upper middle plate
550: lower intermediate plate 560: intermediate vibration absorbing unit
570: lower support frame 580: lower vibration absorber
590: lower support plate 600: fixed part of the workpiece
610: mounting portion 620: fastening portion
630: wound prevention part

Claims (10)

A stage on which the workpiece is seated on the upper part;
A front-rear moving part formed in a "H" shape, one side is connected and installed on one side of the stage, the other side is connected and installed on the other side of the stage, and moves in a front-rear direction along the stage; And
A laser unit connected to the lower part of the front-rear moving part and moving in a left-right direction along the lower part of the front-rear moving part, and irradiating a laser beam with the work-piece seated on the stage to cut the work piece into a predetermined shape,
A work piece is installed along the periphery of the part where the work piece is mounted on the stage, and the work piece is fastened and fixed to prevent the work piece seated on the stage from moving when the work piece is cut by the laser unit. Further comprising a fixing portion,
The workpiece fixing part,
A seating portion formed in a "a" shape and installed so that one side of the bent upper part faces the workpiece, and on which the workpiece is seated on the upper one side;
A fastening portion that is connected to and installed so that the other lower portion is rotatable with the other upper portion of the seating portion, and that bites and fastens the workpiece seated on the upper one side of the seating portion to one lower portion; And
Each of the upper one side of the seating portion and the lower side of the fastening portion includes a wound preventing portion formed in a triangular shape of an elastic material so that it can be fastened without causing scratches when fastening the workpiece,
The workpiece fixing part,
It is installed in the space between the lower one side of the seating portion and the upper portion of the stage, further comprising an elastic support portion for supporting the seating portion by an elastic force,
The seating part,
A vertical frame extending in the vertical direction; And
It includes a horizontal frame extending in a horizontal direction, connected to and installed on the upper part of the vertical frame so as to be rotatable, connected to and installed on the other side of the upper part so that the lower part of the other side of the fastening part is rotatable, and the elastic support part installed on the lower side and,
The elastic support part,
A support frame supporting a lower side of the horizontal frame;
A first vertical frame installed under one side of the support frame to absorb the vibration transmitted through the support frame, and a second vertical frame installed under the other side of the support frame to absorb the vibration transmitted through the support frame A vertical frame including a frame;
One side is connected to be rotatable above the first vertical frame and the other side is connected to be rotatably installed under the second vertical frame, and one side is rotatable under the first vertical frame It includes a second connection frame that is connected and installed so that the other side is rotatably connected to the top of the second vertical frame, and the first connection frame and the second connection frame are rotatable in a "X" shape. A connecting frame connected to each other; And
A workpiece cutting apparatus using a laser, comprising a frame support that is connected to a portion where the first connection frame and the second connection frame meet to support the first connection frame and the second connection frame.
delete delete delete delete delete delete delete The method of claim 1, wherein the first vertical frame or the second vertical frame,
An upper support part formed in a "T" shape and installed under one side or the other side of the support frame to support the support frame;
An upper connection bundle having an upper part rotatably connected to the lower part of the upper support part and connected to one side of the first connection frame or the other side of the second connection frame on a surface facing another vertical frame;
An elastic part installed under the upper connection bundle to reduce vibration transmitted through the upper connection bundle by using an elastic force;
A lower connection bundle installed on the lower side of the elastic part and connected to one side of the second connection frame or the other side of the first connection frame so as to be rotatable on a surface facing the other vertical frame; And
A workpiece cutting device using a laser, which is formed in a "ㅗ" shape and includes a lower support part rotatably connected to the lower part of the lower connection bundle to support the lower connection bundle.


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