KR101956094B1 - Separator of scrap for laser cutter - Google Patents

Abstract

The present invention relates to a scrap sorting device for a laser cutter. Accordingly, a technical gist of the present invention is to cut non-magnetic scraps such as copper, aluminum, and SUS in addition to magnetic scraps (metal, iron) which is recovered by a magnetic force, and sort the cut non-magnetic scraps separately into a storage box divided by a multi-stage diffraction plate, so that the sorting is precisely performed according to a type of the material in comparison with conventional sorting so as to remarkably improve recyclability, and inconvenience that a worker has to manually perform the sorting one by one is resolved by automation so as to remarkably improve workability and sorting productivity. In other words, according to the present invention, since a cutting speed and laser specifications are differently set for each of copper, aluminum, and SUS when laser cutting is performed, when such a laser setting value (setup value) is determined, a program interlocked with the laser setting value adjusts an opening/closing angle of the multi-stage diffraction plate by an automatic opening/closing structure, not a manual opening/closing structure, so that materials are fundamentally prevented from being mixed. The scrap sorting device includes: a main hopper; a plurality of gates; a magnetic block; a first recovery box; a multi-stage diffraction plate; and second to fourth recovery boxes.

Description

Separator of scrap for laser cutting machine

In the present invention, non-magnetic scraps such as copper, aluminum, and SUS are separately sorted into a storage box divided by a multi-stage partition plate after cutting, in addition to magnetic scrap (metal, iron) that can be recovered by magnetic force, The present invention relates to a scraper discriminating apparatus for a scraper for a laser cutting machine, which is capable of remarkably improving workability and screening productivity by eliminating the need for an operator to manually select a scraper manually.

That is, according to the present invention, cutting speed and laser specifications are different for each type of laser cutting in copper, aluminum, and SUS. When the laser setting value (setting value) is determined, The angle is not a manual opening / closing structure but an automatic opening / closing structure, thereby preventing a mixing problem at the source.

In general, a laser cutting machine is a device for cutting various glass substrates, metal, and non-metal panels using a laser according to applications or specifications.

Therefore, as a basic principle, the laser cutting machine is a method in which a laser is used to heat a cut substrate to a softening point or less and then cooled, thereby maximizing the expansion / compression force inside the cut substrate to minimize loss of material.

Such a laser thermal cutting method can be largely classified into a laser full cutting method and a scribing and laser breaking method.

When cutting the substrate using the above laser cutting methods, the shape of the laser beam irradiated on the substrate is variously utilized such as a spot shape, an ellipse shape, a U-shaped curve or a V-shaped curve.

When cutting the substrate using a laser, the shape and the energy distribution of the laser beam must be different depending on various conditions such as the material of the substrate to be cut, the thickness of the substrate to be cut, the shape of the cut line, the processing speed and the quality of the cut surface.

When the shape and energy distribution of the laser beam satisfying the condition is determined, the shape and energy distribution of the laser beam corresponding to the corresponding condition can be obtained by using the optical system designed to meet this condition.

Meanwhile, such a laser cutting machine is required to cut metal or non-metallic steel plates in connection with railway vehicles, automobiles, and various kinds of telecommunication equipment. Scraps generated at this time are collectively dropped by a collection box provided below the work table in the laser cutting machine.

However, such a conventional laser cutting operation is required to continuously cut various types of materials after laser setting, so that the scrap can not be separated and operated separately every time during the operation, resulting in a magnetic or non-magnetic material The scrap is left mixed with the scrap. This eventually causes troubles that the worker has to pick out one by one. Especially, it is difficult to precisely sort the scraps and the recyclability is deteriorated.

1. Korean Registered Patent No. 10-1420663 (Nov.

The present invention has been made to solve the above-mentioned problems, and it is a technical object of the present invention to provide a non-magnetic scrap such as copper, aluminum, SUS, etc. in addition to magnetic scrap (metal, iron) So that the recyclability can be greatly improved by precisely sorting according to the type of the material in comparison with the past, and it is possible to solve the troubles that the worker has to manually select individually by the automatic method, thereby remarkably improving the workability and sorting productivity And an object of the present invention is to provide a scrap sorting apparatus for a laser cutting machine.

That is, according to the present invention, cutting speed and laser specifications are different for each type of laser cutting in copper, aluminum, and SUS. When the laser setting value (setting value) is determined, And it is an object of the present invention to prevent the problem of mixing intrinsically due to the automatic opening / closing structure, not the manual opening / closing structure.

In order to achieve the above object, the present invention provides a sorting device (A) for sorting magnetic scrap or non-magnetic scrap, which is formed below a work table (1) of a laser cutting machine, A plurality of gates 20 are formed on the upper portion of the main hopper 10 so as to be rotated by a hinge 21 to adjust a downward discharge angle of the main hopper 10, A magnetic block 30 is formed on the lower opening side of the gate 20 so as to attach or detach magnetic scrap according to attractive force and repulsive force respectively and a main hopper 10 is disposed below the magnetic block 30 The main hopper 10 includes a first hopper 40 and a second hopper 40. The first hopper 40 has a first hopper 40 through which the main hopper 10 is slidably drawn, Second, third and fourth are formed so as to be recovered recovering (60,70,80) to a selected non-magnetic type in accordance with the scrap.

In this embodiment, the multi-stage partition plate 50 includes a three-row rotary blade 51 at the uppermost side, a double-row rotary blade 52 at the intermediate side, and a single rotary blade When the non-magnetic material scraps are collected by the second collection box 60, the middle rotation blade 51-1 of the three-row rotation blades in the state of being removed by the first collection box 40 is rotated in the orthogonal direction The left and right turning blades 51-2 are symmetrical with respect to each other and the portion closer to the middle turning blade 51-1 is formed to be inclined downward toward the central portion, And the single rotating blade 53 is rotated in the orthogonal direction so that the nonmagnetic scrap is collected in the second collection box 60. [

The multistage sectional plate 50 may be formed by a three-row rotating blades 51 on the uppermost side, a two-row rotating blades 52 on the middle side, and a single rotating blade When the non-magnetic material scraps are collected by the third collection box 70, the middle rotation blade 51-1 of the three-row rotation blades is rotated in the orthogonal direction with the first collection box 40 being removed The left and right turning blades 51-2 of the third row turning blades are symmetrical with respect to each other so that the portion which is close to the middle turning blade 51-1 is formed to be inclined downward toward the central portion, And the single rotating blade 53 is rotated so that one end of the single rotating blade 53 is tilted downward toward the third collection box 70 so that the nonmagnetic scrap is collected into the third receptacle 70 do.

In this embodiment, the multi-stage partition plate 50 is provided with a three-row rotating blades 51 on the uppermost side, a two-row rotating blades 52 on the middle side, When the non-magnetic body scrap is collected by the fourth collection box 80, the middle rotation blade 51-1 of the three-row rotation blades in the state of being removed by the first collection box 40 is rotated in the orthogonal direction The left and right turning blades 51-2 are symmetrical with respect to each other and the portion closer to the middle turning blade 51-1 is formed to be inclined downward toward the central portion, The single non-magnetic scrap is recycled to the fourth collection box 80 while one end of the single rotation blade 53 rotates to be tilted downward toward the fourth collection box 80 while being rotated symmetrically with respect to the funnel- .

At this time, the single rotating blade 53 is an optional embodiment and further includes an extension plate 55 which is drawn out by a cylinder 54 on the bottom surface, so that when the non-magnetic scrap is sorted, 4 collection box 80 as shown in FIG.

As described above, according to the present invention, non-magnetic scrap such as copper, aluminum, SUS, etc., other than magnetic scrap (metal, iron) capable of being recovered by magnetic force, is sorted into a storage box divided by a multistage sectional plate after cutting, The recyclability can be greatly improved by precisely sorting according to the kind of the product, and the troubles that the worker has to manually select are solved by the automatic method, and the workability and screening productivity are remarkably improved.

That is, according to the present invention, cutting speed and laser specifications are different for each type of laser cutting in copper, aluminum, and SUS. When the laser setting value (setting value) is determined, There is an effect that the problem of mixing is fundamentally prevented due to the automatic opening / closing structure, not the manual opening / closing structure.

1 is a diagram illustrating an example of a sorting apparatus according to the present invention,
FIG. 2 is an exemplary view showing a magnetic block according to FIG. 1,
FIGS. 3 to 5 are diagrams showing a state of use of the sorting apparatus according to the present invention,
Fig. 6 is an example of a collection box according to the present invention,
FIGS. 7 to 9 are views showing that a slope panel is provided in the recovery box shown in FIG. 6 and the scrap is discharged separately after the dust is separated from the perforated plate by the vibrator.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The present invention will be described in detail below with reference to the accompanying drawings.

1 to 9, the sorting device A of the present invention is formed below the work table 1 of the laser cutting machine to sort magnetic or non-magnetic scraps by type.

In the sorting device A, a main hopper 10 is formed on a lower portion 2 of a grill net of a work table, and a plurality of gates 20 are formed on a hinge 21 at an upper portion of the main hopper 10. So as to adjust the downward discharge angle.

At this time, a magnetic block 30 is formed on the opening side of the lower side of the gate 20 so as to attach or detach the magnetic scrap according to attraction and repulsion force, respectively.

Accordingly, the magnetic block is formed as an electromagnet so that the attractive force and the repulsive force are alternately operated by an electrical signal.

In the lower part of the magnetic block 30, there is formed a first collection box 40 through which the main hopper 10 is pierced and drawn out by a sliding method.

At this time, a multistage sectional plate 50 is formed on the bottom opening of the lower opening of the main hopper 10, and the non-magnetic scrap 50 is selected as the second, third, and fourth collection boxes 60, Are collected to be sorted by type.

In this embodiment, the multi-stage partition plate 50 includes a three-row rotary blade 51 at the uppermost side, a double-row rotary blade 52 at the intermediate side, and a single rotary blade 53 are formed.

At this time, when the non-magnetic body scrap is collected by the second collection box 60, the middle rotation blade 51-1 of the three-row rotation blade rotates in the orthogonal direction in a state of being removed by the first collection box 40, The left and right turning blades 51-2 of the three-row turning blades are symmetrical with respect to each other and are formed so that the portion that is close to the middle turning blade 51-1 is inclined downward toward the center portion.

Thus, the two-row rotating blades 52 are rotated symmetrically to form a funnel shape having an upward light-convergence, and the single rotating blade 53 is rotated in the orthogonal direction so that the non-magnetic scrap is collected in the second collection box 60 .

The multistage sectional plate 50 may be formed by a three-row rotating blades 51 on the uppermost side, a two-row rotating blades 52 on the middle side, and a single rotating blade When the non-magnetic material scraps are collected by the third collection box 70, the middle rotation blade 51-1 of the three-row rotation blades is rotated in the orthogonal direction with the first collection box 40 being removed And the left and right turning blades 51-2 of the third row of turning blades are symmetrical with respect to each other so that the portion that is close to the middle turning blade 51-1 is formed to be inclined downward toward the center portion.

At this time, the two-row rotary blades 52 are rotated symmetrically with each other to form a funnel shape having an upward light-narrowing cone, and the single rotating blade 53 rotates so that one end thereof is inclined downward toward the third collection box 70, Scrap is formed to be recycled to the third receptacle 70. [

In the meantime, the multi-stage partition plate 50 is formed by a three-row rotary blades 51 on the uppermost side, a two-row rotary blades 52 on the middle side, When the non-magnetic body scrap is collected by the fourth collection box 80, the middle rotation blade 51-1 of the three-row rotation blades in the state of being removed by the first collection box 40 is rotated in the orthogonal direction And the left and right turning blades 51-2 of the third row of turning blades are symmetrical with respect to each other so that the portion near the middle turning blade 51-1 is formed to be inclined downward toward the center portion.

At this time, the two-row rotating blades 52 are rotated symmetrically to form a funnel shape having an upward light-narrowing, and the single rotating blade 53 rotates so that one end thereof is tilted downward toward the fourth collection box 80, The scrap is formed to be collected in the fourth collection box 80.

At this time, the single rotating blade 53 is an optional embodiment and further includes an extension plate 55 which is drawn out by a cylinder 54 on the bottom surface, so that when the non-magnetic scrap is sorted, 4 collection box 80 as shown in FIG.

Meanwhile, the first to fourth collecting cases are formed such that a slope panel 90 is formed therein, and the scrap collected while being vibrated by a vibrator is gathered toward the front part, Dirt or foreign matter is formed to fall below the bottom of the slope panel.

At this time, the slope panel 90 is formed such that the piercing plate 91 is detachably attached to the casing 92, and is easily replaced and replaced. The pier plate is formed to be detachably attached to the casing with a one-touch fastener.

The one-touch fastener is largely composed of a fastener (100) and a pusher (200).

The fastener 100 is bent in a direction orthogonal to both ends of the support plate 110 formed with the through holes 111 so that the plurality of fastening plates 120 extending horizontally with respect to the support plate 110 are formed do.

At this time, the interval between the horizontal supporting plate and the pressing plate is formed such that the operator's fingers can be detected and stopped and the supporting plate can be gripped and pulled based on the supporting frame.

In addition, the contact plate may have a slot formed in the left and right direction on the surface thereof, and an auxiliary presser plate may be formed to be drawn out in a sliding manner along the longitudinal direction of the slot, so that the contact area against the edge of the casing may be improved.

The presser foot 200 is formed such that the guide shaft 210 is passed through the through hole 111 of the support plate and then the screw coupling part 211 is coupled to the fixing nut 240 provided on the perforated plate 91 do.

Thus, the control plate 220 is formed on the other side of the guide shaft 210 opposed to the screw coupling portion 211.

The tension spring 230 inserted through the axial direction of the guide shaft 210 is disposed between the support plate 110 and the intermittent plate 220 and is supported by the support plate 220 110 and the adhered plate 120 are always pressed toward the casing 92 so that the adhered plate 120 closely contacts the rim of the filter casing 20.

That is, the fixture 100 has a structure in which the support plate 120 integrally formed with the fastening plate 110 moves forward and backward in the axial direction with respect to the guide shaft 210 through the through hole 111, And is formed so as to be in close contact with or spaced from the casing 92.

At this time, when the entire fixture is separated, the through hole 111 is formed so that the fixture 100 rotates in the circumferential direction with respect to the axis of the guide shaft 210 to exchange and install the casing 92.

The support plate has an area corresponding to the thickness of the perforated plate, and the adherent plate has an area corresponding to the edge area of the casing, so that the casing can be easily detached when rotated 90 °.

The cushioning plate 120 of the fixture is formed to have a cushioning member 130 of rubber or silicone attached on the surface of the fastening plate 120 which is in close contact with the casing 92 so as to increase the elastic pressing force during mounting and to prevent contact noise during close contact.

In addition, the fastening plate 120 of the fixture is formed in a hemispherical shape in cross-section so that the opening and closing performance is enhanced during rotation for the exchange of the casing 92, and the elasticity is doubled when mounted so that the adhesion is doubled.

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 and their equivalents. Of course, such modifications are within the scope of the claims.

10 ... main hopper 20 ... gate
30 ... Magnetic block 40 ... 1st recovery bin
50 ... multi-stage die plate 51 ... 3-row circular saw blade
51-1 ... Gaudé day 51-2 ... left day
51-3 ... Right-side turning edge 52 ... 2-column turning edge
53 ... Single turning blade 60 ... 2nd withdrawal tray
70 ... 3rd collection bin 80 ... 4th collection bin

Claims (5)

A sorting device (A) for sorting magnetic scrap or non-magnetic scrap formed under a work table (1) of a laser cutting machine according to the sorting, wherein the sorting device (A) A plurality of gates 20 are formed on an upper portion of the main hopper 10 so as to adjust a downward discharge angle while being rotated by a hinge 21, A magnetic block 30 is formed on the side of the magnetic billet 30 so as to attach or detach the magnetic scrap according to attraction and repulsion force respectively. The main hopper 10 is inserted into the lower side of the magnetic block 30 from the side, And a multistage sectional plate 50 is formed on the bottom surface of the lower opening of the main hopper 10 so that the second, third, and fourth collecting chambers 60 , 70, 80) The selected non-magnetic element scrap is recovered by type,
The multistage sectional plate 50 is formed with a three-row rotating blades 51 on the uppermost side, a two-row rotating blades 52 on the middle side, a single rotating blade 53 on the lowermost side, When the non-magnetic scrap is collected by the collection box 60, the middle rotation blade 51-1 of the three-rotation rotation blade rotates in the orthogonal direction in a state of being removed by the first collection box 40, The left and right turning blades 51-2 are symmetrical with each other and the portion which is close to the middle turning blades 51-1 is formed so as to be inclined downward toward the central portion. The two-row turning blades 52 are symmetrical with each other, , And the single rotating blade (53) is rotated in the orthogonal direction so that the nonmagnetic scrap is collected into the second collection box (60). delete 2. The apparatus of claim 1, wherein the multi-stage die plate (50)
A three-row rotating blade 51 is formed on the uppermost side, a two-row rotating blade 52 is formed on the intermediate side, a single rotating blade 53 is formed on the lowermost side, The middle turning edge 51-1 of the three-row turning edge rotates in the orthogonal direction and the left and right turning edge 51-2 of the third heat turning edge, And the two-round rotating blades 52 are symmetrical to each other and are rotated so as to form a funnel-shaped lower funnel-like funnel, while the two rotating blades 52 are rotated to be symmetric with respect to the center rotating blade 51-1, (53) is rotated so that one end thereof is inclined downward toward the third collection box (70), so that the non-magnetic scrap is collected into the third receptacle (70). 2. The apparatus of claim 1, wherein the multi-stage die plate (50)
And a single rotating blade 53 is formed on the lowermost side to form a non-magnetic body 51. The non-magnetic body 51 is formed with a single returning blade 53, The middle turning edge 51-1 of the three-row turning edge rotates in the orthogonal direction and the left and right turning edge 51-2 of the third heat turning edge, And the two-round rotating blades 52 are symmetrical to each other and are rotated so as to form a funnel-shaped lower funnel-like funnel, while the two rotating blades 52 are rotated to be symmetric with respect to the center rotating blade 51-1, And the non-magnetic scrap is recycled to the fourth collection box (80) while one end of the first scraper (53) is rotated to be inclined downward toward the fourth collection box (80). 5. The method according to any one of claims 3 to 4, wherein the single rotating blade (53) further comprises an extension plate (55) drawn out by a cylinder (54) on the bottom surface, (70) or the fourth collection bin (80). The apparatus for sorting scrap for a laser cutter according to claim 1,

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