KR101337274B1 - Apparatus and method for wire saw cutting of eco-friendly type(s.w.s) - Google Patents

Abstract

The purpose of the present invention is to cut blocks such as concrete in an environmentally friendly way by injecting high pressure cooling water through a nozzle and subsequently collecting the cooling water with a dust collector. The present invention is capable of saving cooling water and cutting blocks in an environmentally friendly way in comparison with conventional methods which generate a great deal of dust particles and excessively use cooling water as the entire contact area between a wire saw (W) and a block (B) is exposed to the outside without being sealed; and cause environmental pollutions due to low cooling efficiency for a cutting position caused by pressure drop.

Description

Eco-friendly wire saw cutting device and method (S.W.S.) {APPARATUS AND METHOD FOR WIRE SAW CUTTING OF ECO-FRIENDLY TYPE (S.W.S)}

In the present invention, while cutting a block such as concrete, the coolant is injected at a high pressure through a nozzle while the injected coolant is recovered by a dust collector, thereby being environmentally friendly.

In general, a technique for cutting a block such as concrete using a wire saw uses a cutting equipment as shown in FIG.

That is, as shown, the wire saw W is installed to surround the block B, and then cuts the block B while rotating by the cutting equipment S. FIG.

At this time, since a lot of heat is generated in the contact portion between the wire saw (W) and the cutting portion (B), the cooling water is injected to the contact portion through the high-pressure injector (I) to cool it.

In addition, the cutting portion of the block (B) is discharged a lot since the dust collector (C) is used to collect it.

The cutting block is cut by this configuration, but the above-described prior art has the following problems.

That is, in the prior art, since all of the contact portions between the wire saws W and the blocks B are not sealed and are exposed, a lot of dust is generated, excessive use of the coolant, and the cooling effect at the cutting position is reduced due to the pressure drop. It was not environmentally friendly.

In other words, since the coolant is directly discharged to the outside after being injected into the contacting area, it is difficult to reuse it, and thus a lot of coolant is required as well as the coolant mixed with the dust is discharged directly to the outside, thereby polluting the environment. It is not.

On the other hand, the wire saw and the cutting equipment itself for driving the same is a well-known technique, in particular because it is described in detail in the following prior art document, the redundant description is omitted.

Japanese Laid-Open Patent No. 1996-276419 Japanese Laid-Open Patent No. 1994-008093 Korean Unexamined Patent No. 10-2005-0014522 Korean Unexamined Patent No. 10-2007-0108484 Korea Patent Registration No. 10-0534191 Korea Patent Registration No. 10-0806573 Korea Patent Registration No. 10-0534191 Korea Patent Registration No. 10-0711059 Korean Patent Registration No. 10-0898151 Korean Patent Registration No. 10-0958984

The present invention is to solve the above-described problems by installing an airtight cover on the block to spray the coolant therein or to collect the sprayed coolant to prevent the coolant or dust is discharged to the outside to perform environmentally friendly cutting operation An object of the present invention is to provide an environmentally friendly wire saw cutting device and method.

The present invention solves the problem of a large amount of dust generated and excessive use of the coolant and a decrease in the cooling effect at the cutting position due to pressure drop, since all of the contact portions between the wire saws W and the block B are not sealed and are exposed. In an apparatus and method for the purpose of saving the cooling water and thereby cutting the concrete more efficiently in a more environmentally friendly dimension.

The present invention for achieving the above object is a cutting device for cutting the block (B) by the wire saw (W) by a wire saw cutting device, Sealed cover 100 is attached to one side of the block (B) Including, but the closed cover 100 is attached to one side of the block (B) to inject the coolant to the wire saw (W) side, the high-pressure injector (I) is in communication with the coolant saw (W) And a nozzle built-in cover 100A in which the nozzle unit 500 spraying toward the side is mounted, and the nozzle unit 500 includes a fixed nozzle unit 510 fixed to the inside of the nozzle built-in cover 100A and the nozzle built-in type. And a movable nozzle unit 520 installed to be movable inside the cover 100A, wherein the fixed nozzle unit 510 includes an injection nozzle N1 installed inside the nozzle built-in cover 100A, and the injection nozzle. The nozzle while in communication with (N1) It includes a nozzle holder 511 fixed to one side of the long cover (100A) and connected to the high-pressure injector (I), the movable nozzle unit 520 penetrates the nozzle built-in cover (100A) while the coolant is introduced It is installed on the nozzle tube (H2), one side of the nozzle tube (H2) while communicating with the nozzle tube (H2), and the support (521) as installed on one side of the support (521) It is characterized by an environmentally friendly wire saw cutting device including an injection nozzle (N2) in communication with and injecting the coolant.
At this time, the hermetic cover 100 is attached to the other side of the block (B) and communicates with the nozzle-integrated cover (100A) to collect the sprayed cooling water is discharged to the dust collector (C) side after collecting the cover 100B It is also possible to include).
In addition, the collecting cover (100B) is formed so as to contact the block (B) after the wire saw (W) is penetrated, while cutting the block (B) is installed inside the collecting cover (100B) It is also possible to further include a wire saw guide 400 for guiding the movement of the wire saw (W).
In addition, the wire saw guide 400 supports the guide roller 410 in contact with the wire saw (W), and the support portion 430 installed on one side of the block (B) as supporting the guide roller 410 It is also possible to include.
In addition, further comprising a connector 420 installed between the guide roller 410 and the support 430, one side of the connector 420 is fixed to the support 430, the other of the connector 420 The side may be installed so that the guide roller 410 is rotatable.
In addition, the connector 420 includes a vertical member 421 and a horizontal member 422 perpendicular to each other, one side is fixed to the support 430 of the cutting block (B) and the other side the guide roller 410 is Is installed rotatably, the vertical member 421 and the horizontal member 422 are mutually coupled by pin coupling while the elastic member 423 is installed between the vertical member 421 and the horizontal member 422 It is also possible to adjust the angle.
In addition, it is also possible to include a sensing bar 523 installed on one side of the support 521.
In addition, the sealed cover 100 is attached to a portion where the wire saw (W) is in contact with the block (B) to seal the inside while the nozzle unit (500) for injecting coolant to the wire saw (W) side is embedded Alternatively, the injected cooling water may be collected and discharged to the dust collector C side.
In addition, the present invention is a method for cutting a block using the cutting device, when the wire saw (W) cuts the block (B), the nozzle unit 500 embedded in the nozzle built-in cover (100A) to cool the water Spraying, the sprayed cooling water is another feature in an eco-friendly wire saw cutting method that is collected in the collecting cover (100B) and discharged to the dust collector (C).

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The features and advantages of the present invention will become more apparent from the following detailed description based on the accompanying drawings.

Prior to that, terms and words used in the present specification and claims should not be construed in a conventional and dictionary sense, and the inventor may properly define the concept of the term in order to best explain its invention It should be construed as meaning and concept consistent with the technical idea of the present invention.

By the present invention as described above there is an effect that the cooling water or dust is not discharged to the outside can perform the environmentally friendly cutting operation.

The present invention solves the problem of a large amount of dust generated and excessive use of the coolant and a decrease in the cooling effect at the cutting position due to pressure drop, since all of the contact portions between the wire saws W and the block B are not sealed and are exposed. Apparatus and method to save, the effect of saving the cooling water and thus the concrete more efficiently in a more environmentally friendly dimension.

1 is a conceptual diagram showing a conventional cutting device;
2a and 2b is a conceptual diagram showing a cutting device according to an embodiment of the present invention,
3 and 4 is a conceptual diagram showing a cutting device according to another embodiment of the present invention.

BRIEF DESCRIPTION OF THE DRAWINGS The objectives, specific advantages, and novel features of the present invention will become more apparent from the following detailed description taken in conjunction with the accompanying drawings, in which: FIG. In the present specification, in adding reference numerals to the components of each drawing, it should be noted that the same components as much as possible, even if shown in different drawings. In addition, the terms "first", "second", "one side", "other side", etc. are used to distinguish one component from another component, and the component is limited by the terms. It doesn't happen. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

2A and 2B are conceptual views illustrating a cutting device according to an embodiment of the present invention, and FIGS. 3 and 4 are conceptual views illustrating a cutting device according to another embodiment of the present invention.

The present invention is a cutting device in which the wire saw (W) cuts the block (B) by the wire saw cutting device (S), as shown in Figures 2 to 4, is attached to one side of the block (B) A sealed cover 100 is included.

At this time, the hermetic cover 100 is attached to one side of the wire saw (W) in contact with the block (B) is built in the nozzle unit 500 for spraying coolant to the wire saw (W) side, or the The injected coolant is collected and discharged to the dust collector (C) side.

That is, the hermetic cover 100 is attached to a portion where the wire saw W is in contact with the block B, and seals the inside thereof. As shown in FIG. 2A, the upper surface of the block B is the wire saw. When it is in contact with (W), the sealing cover 100 is installed on the upper surface of the block (B). The nozzle unit 500 is built in the hermetic cover 100 to spray cooling water in the wire saw (W) direction.

At this time, since the hermetic cover 100 is disposed on the wire saw (W) as described above, and the inside thereof is sealed, the cooling water may be circulated to the dust collector (C) side described below without being discharged to the outside. Solve environmental pollution problems such as technology.

In addition, the hermetic cover 100 may be attached to one side of the block B so that the injected coolant is collected and discharged to the dust collector C side.

In other words, the hermetic cover 100 of the present invention may incorporate the nozzle unit 500 to inject coolant or to collect the injected coolant to circulate the dust collector C side.

To this end, the hermetic cover 100 is attached to one side of the block (B) is a nozzle built-in cover (100A) is built in the nozzle unit 500 for injecting cooling water to the wire saw (W) side, and the block (B) The second cover is attached to the other side and may be in communication with the nozzle built-in cover (100A) may include a collecting cover (100B) for discharging to the dust collector (C) after the sprayed coolant is collected.

That is, the nozzle unit 500 is mounted by the nozzle built-in cover 100A to inject cooling water into the wire saw W, and the injected cooling water is collected in the collecting cover 100B and then the dust collector C ) To be purified.

On the other hand, the nozzle built-in cover (100A) and the collecting cover (100B) as described above is attached to one side of the block (B) as shown in the box shape, but the inside is empty, the nozzle unit 500 This may be installed or the coolant may be collected.

In addition, the nozzle built-in cover 100A and the collecting cover 100B may be directly or indirectly fixed to the block B by various fasteners (for example, direct fasteners such as bolts or indirect fasteners such as adhesives). Of course, it is also possible to be installed to move.

In addition, the nozzle built-in cover 100A and the collecting cover 100B may be installed to communicate with each other, or the cooling water may be collected in the collecting cover 100B along the cut surface of the block B.

On the other hand, the nozzle unit 500 embedded in the nozzle built-in cover (100A) may be in communication with the high pressure injector (I) to allow the cooling water to be sprayed to the wire saw (W) side, such a high pressure injector (I) is conventional Duplicate descriptions in the same relationship with will be omitted.

In addition, it is also possible to further include a wire saw guide 400 for guiding the movement of the wire saw (W) for cutting the block (B) installed in the collecting cover (100B).

In this case, the collecting cover 100B may be formed to contact the block B after the wire saw W penetrates.

That is, when the wire saw (W) and the cutting equipment (S) is installed on the left side of the block (B) as shown, while the wire saw (W) is in contact with the top and bottom of the block (B) The collecting cover 100B is installed on the left side of the block B in the drawing and is connected to the dust collector C through the connecting pipe H1.

By this configuration, the wire saw (W) is formed to contact the block (B) after the wire saw (W) penetrates, so as to guide the movement of the wire saw (W) for collecting water as described above The wire saw guide 400 is installed inside the cover 100B.

In this case, the wire saw guide 400 supports the guide roller 410 in contact with the wire saw (W), and the support portion 430 installed on one side of the block B as supporting the guide roller 410. May include

That is, the wire saw (W) is to cut the block (B) while rotating clockwise or counterclockwise by the cutting equipment (S), at this time, the wire saw (W) and the block (B) It is necessary to contact at an appropriate angle.

To this end, the guide roller 410 adjusts the movement path and the contact angle of the wire saw (W) to enable more stable cutting.

In addition, the guide roller 410 is supported by the support 430, in which the support 430 may be fixed to the block (B) by various configurations, for example, a fastener (F), such as bolts It can be fixed by.

On the other hand, further comprising a connector 420 is installed between the guide roller 410 and the support 430, one side of the connector 420 is fixed to the support 430, the other of the connector 420 The side may be installed so that the guide roller 410 is rotatable.

That is, as shown, the connector 420 includes a vertical member 421 and a horizontal member 422 perpendicular to each other, one side of which is fixed to the support 430 of the block B, and the other side of the connector roller 420. 410 may be rotatably installed.

That is, the guide roller 410 may be rotatably installed at the end of the vertical member 421 of the connector 420 through a well-known configuration such as pin coupling.

In addition, the connector 420 is a shape that is bent in the letter b as a whole including a vertical member 421 and a horizontal member 422 perpendicular to each other as shown in the figure can be combined by a pin to adjust the angle have.

To this end, the vertical member 421 and the horizontal member 422 are pin-coupled to be mutually rotatable by the pin (P) while the elastic member 423 is installed between the vertical member 421 and the horizontal member 422 It is also possible to adjust the angle by the.

That is, although the vertical member 421 and the horizontal member 422 are mutually rotatable by pin coupling, the elastic member 423 restricts the displacement so that the vertical member 421 and the horizontal member 422 are specified. You can keep the angle.

Meanwhile, as shown in FIG. 2B, a circulation pump CP may be mounted on one side of the pipe facing the dust collector C to allow the flow to the dust collector C side.

Meanwhile, as shown in FIGS. 3 and 4, the nozzle unit 500 includes the fixed nozzle unit 510 and the nozzle built-in cover 100A, which are fixed to the inside of the nozzle built-in cover 100A. It may include a movable nozzle unit 520 is installed to be movable inside.

That is, since the coolant is sprayed intensively at a specific position of the block B cut by the fixed nozzle unit 510, the position of the wire saw W may be changed by the progress of the cutting operation. The coolant is jetted by the movable nozzle unit 520.

To this end, the fixed nozzle unit 510 communicates with the injection nozzle N1 installed inside the nozzle built-in cover 100A and the spray nozzle N1 and is fixed to one side of the nozzle built-in cover 100A. It may include a nozzle holder 511 connected to the high pressure injector (I).

That is, since the nozzle holder 511 is fixed to the nozzle built-in cover 100A and the injection nozzle N1 is connected to the nozzle holder 511, the nozzle holder 511 is fixed at the fixed position as described above. Cooling water can be sprayed.

At this time, it is also possible to firmly fix the nozzle holder 511 by installing a fastener 512, such as a nut, on the nozzle holder 511.

In addition, the movable nozzle unit 520 is installed on one side of the nozzle tube (H2) and the nozzle tube (H2) through which the coolant flows while penetrating the nozzle-integrated cover (100A), and the nozzle tube (H2). And a support nozzle 521 communicating with the supporter 521, and an injection nozzle N2 communicating with the supporter 521 and injecting coolant to be installed on one side of the supporter 521.

That is, the nozzle tube (H2) installed in a user or an automated machine and the like is movable to penetrate through the nozzle built-in cover (100A), and then the support (521) is installed at the end of the nozzle (H2), and the support (521) One or a plurality of injection nozzles N2 are installed at one side.

At this time, the nozzle tube (H2), the support 521 and the injection nozzle (N2) may be installed to communicate with each other to allow the cooling water to be injected and injected.

On the other hand, it is also possible to adjust the position of the movable nozzle unit 520 including a sensing bar 523 installed on one side of the support 521.

That is, as described above, the wire saw (W) is changed in position as the cutting operation progresses, and the movable nozzle unit 520 is moved to correspond to this, wherein the movable nozzle unit 520 is a block ( The position must be adjusted so that it does not touch B).

To this end, after installing the sensing bar 523, the movable nozzle unit 520 is moved until the sensing bar 523 touches the cutting block B.

On the other hand, the sensing bar 523 may be installed to face the block (B) having a bar shape as shown.

In this case, as shown in FIG. 4, the movable nozzle unit 520 may have one movable nozzle unit 520A and 520B, respectively, in the upper and lower sides of the drawing, and the fixed nozzle unit 510 may also be installed in the vertical direction. By this, one fixed nozzle unit 510A, 510B can be installed.

Meanwhile, FIGS. 3 and 4 show that the nozzle built-in cover 100A is installed on the top, bottom, and right sides of the block B, and the above-mentioned catchment type cover 100B is not shown but is illustrated. Of course, it can be installed on the left side.

The block B can be cut | disconnected by the cutting device of this invention demonstrated above.

That is, when the wire saw W cuts the block B as mentioned above, the nozzle unit 500 built in the nozzle built-in cover 100A sprays cooling water.

At this time, the injected cooling water is collected in the cover for collecting water (100B) and is discharged to the dust collector (C) to prevent environmental pollution and reduce the amount of cooling water used.

On the other hand, the high-pressure injector (I) uses a high-pressure pump of 125HP horsepower, the size of its own engine, the commercial pressure is 400bar (kg / ㎠), the nozzle diameter is 1.2min, the amount of water supplied (1.2 liters per minute) Can be used.

In addition, the number of the nozzle unit 500 is installed 4 to 5 depending on the characteristics of the target object is sprayed at 90 (kg / ㎠) per one at the time of dispersion injection of a commercial pressure of 400bar (kg / ㎠) and one row of water The consumption is 0.3 liters and a total injection volume of 1.2 liters per minute is available.

According to the present invention, when the concrete strength and reinforcement is required for a time, cooling and dust suppression effects are possible by adjusting the pressure of the nozzle unit 500.

At this time, the time required for cutting concrete is 1600rpm rotation (per minute) with 380bar hydraulic pressure of 140HP driving equipment, and the water supply of cutting speed is 1.2 liters per minute and 72 liters of time for 60 minutes of continuous work. Can be used.

On the other hand, cement mix ratio of construction work is based on the mixing ratio of 55% per 1㎥, so the target object is concrete cutting, so the water of sludge (wastewater) induction of concrete cutting is set to use 100% per 1㎥ Since the area per m2 of the target object is a circular 11 mm of diamond wire, the amount of cutting dust (m2) is 0.011 m3, and the amount of sprayed water is 11 liters.

At this time, the high-pressure spray wire saw (S.W.S.) cutting method can be cut without excessive induction water close to the cement mixing ratio because the cutting water of 1㎡ is about 11 liters.

In addition, since the sludge is treated as waste treatment by the induction of the sealing cover 100 of the present invention and the suction storage of the dust collector (C), the cutting device of the present invention is designed to be environmentally friendly.

On the other hand, since the cutting device of the present invention is movable, it is simply designed according to the site conditions (objectives), and is designed as an engine type or an electric type.

The movable nozzle unit 520 of the present invention is installed in the hermetic cover 100 at a predetermined interval and is designed to control the cooling water and dust by adjusting the insertion depth according to the flow of cutting and from cutting small structures to cutting large structures. It is designed to be cut to a minimum of feed water.

In addition, when cutting the high reinforcement of reinforced concrete, the supply water due to the increase in the cooling water (cutting time) is guided to the closed cover 100 so that the cooling water leakage does not occur.

In addition, in the underwater operation, the supply control of the high-pressure sprayer (I) and the closed cover 100 and the collector (C) can work without affecting the environmental pollution prevention.

On the other hand, the movable nozzle unit 520 may be installed to be adjusted in the bolted manner of the cap after penetrating through the nozzle built-in cover (100A) and injected in accordance with the cutting speed of concrete, but is to be adjusted by the sensing bar 523 Can be.

Meanwhile, reference numeral 300, which is not described, refers to a distributor and distributes the cooling water from the high-pressure injector I, which is a well-known technique, and thus detailed description thereof will be omitted.

Although the present invention has been described in detail through specific examples, this is for explaining the present invention in detail, and the present invention is not limited thereto, and a person having ordinary skill in the art within the technical idea of the present invention. It is obvious that modifications and improvements are possible.

It is intended that the present invention cover the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents.

100: airtight cover 100A: nozzle built-in cover
100B: collecting cover 300: distributor
400: wire saw guide 410: guide roller
420: connector 421: vertical member
422 horizontal member 423 elastic member
500: nozzle unit 510: fixed nozzle unit
511: nozzle holder 520: movable nozzle unit
521: support 523: detection bar

Claims (11)

In the cutting device in which the wire saw W cuts the block B by the wire saw cutting device S,
Including a closed cover 100 is attached to one side of the block (B),
The hermetic cover 100 is attached to one side of the block (B) to inject coolant to the wire saw (W), and communicates with the high-pressure injector (I) to inject the coolant to the wire saw (W) side It includes a nozzle built-in cover (100A) in which the unit 500 is built,
The nozzle unit 500 includes a fixed nozzle unit 510 fixed inside the nozzle built-in cover 100A and a movable nozzle unit 520 movably installed inside the nozzle built-in cover 100A.
The fixed nozzle unit 510 communicates with the injection nozzle N1 installed inside the nozzle built-in cover 100A, and communicates with the spray nozzle N1, and is fixed to one side of the nozzle built-in cover 100A and is a high pressure injector. A nozzle holder 511 connected to (I),
The movable nozzle unit 520 is installed on one side of the nozzle tube H2 through which the cooling water flows while penetrating through the nozzle built-in cover 100A, and communicates with the nozzle tube H2. Eco-friendly wire saw cutting device characterized in that it comprises a support (521) and the spray nozzle (N2) which is installed on one side of the support (521) in communication with the support (521) for spraying coolant. The method of claim 1,
The hermetic cover 100 is attached to the other side of the block (B) and communicates with the nozzle built-in cover (100A) to collect the cover 100B for collecting the discharged to the dust collector (C) after the sprayed coolant is collected Eco-friendly wire saw cutting device comprising a. delete 3. The method of claim 2,
The collecting cover 100B is formed to contact the block B after the wire saw W passes therethrough,
Eco-friendly wire saw cutting device is installed in the collecting cover (100B) further comprises a wire saw guide for guiding the movement of the wire saw (W) for cutting the block (B).
5. The method of claim 4,
The wire saw guide 400 includes a guide roller 410 in contact with the wire saw W, and a support 430 installed on one side of the block B as supporting the guide roller 410. Eco-friendly wire saw cutting device characterized in that.
The method of claim 5, wherein
Further comprising a connector 420 is installed between the guide roller 410 and the support 430,
One side of the connector 420 is fixed to the support 430,
The other side of the connector 420 is eco-friendly wire saw cutting device, characterized in that the guide roller 410 is rotatably installed.
The method according to claim 6,
The connector 420 includes a vertical member 421 and a horizontal member 422 orthogonal to each other, one side of which is fixed to the support 430 of the cutting block B, and the other side of which the guide roller 410 is rotatable. Installed,
The vertical member 421 and the horizontal member 422 are mutually coupled by pin coupling, and the angle is adjusted by the elastic member 423 installed between the vertical member 421 and the horizontal member 422. Eco-friendly wire saw cutting device.
delete The method of claim 1,
Eco-friendly wire saw cutting device characterized in that it comprises a sensing bar (523) installed on one side of the support (521).
The method of claim 1,
The hermetic cover 100 is attached to a portion where the wire saw (W) is in contact with the block (B) to seal the inside while the nozzle unit (500) for spraying coolant to the wire saw (W) side is built-in,
Or the sprayed coolant is collected and discharged to the dust collector (C) side.
A method of cutting a block using the cutting device according to any one of claims 1 to 2 or 4 to 7 or 9 to 10.
When the wire saw W cuts the block B, the nozzle unit 500 embedded in the nozzle built-in cover 100A sprays the coolant,
The sprayed coolant is collected in the collecting cover (100B) and then discharged to the dust collector (C) Eco-friendly wire saw cutting method characterized in that.

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