KR100561715B1 - Concrete structure dry cutting device and it's cutting method - Google Patents

Abstract

The present invention is a diamond cutting tool (including wire saws, wall saws, core drill) heat generated when cutting the structure without using the cooling water and cooling air, cutting the structure with a dry diamond cutting tool, and water conservation in indoor work There is no need, and the concrete dust generated when cutting the structure can realize the dust collecting and dust-free work by the dust collecting cover and the dust collector, so it can be installed by the environmentally friendly method that does not affect the surrounding structure and the natural environment, as well as the cooling water and The purpose of the present invention is to provide a dry cutting device and a cutting method for a concrete structure that can reduce the cost of the treatment of cooling air, thereby significantly reducing the construction cost.

A steel diamond wire according to the present invention for achieving the above object, a bead in which a diamond tip is inserted and inserted into the diamond wire, and interposed between the beads, at least a portion of which has a non-heat resistance, A diamond cutting tool comprising a wire main body formed of a sleeve having an unevenness formed thereon, a driving device for driving the wire main body through the main pulley, and an auxiliary pulley mounted on the structure; Dust collecting means located above the cutting portion of the structure; A hydraulic unit for supplying hydraulic pressure to the diamond cutting tool; It is arranged at a certain distance from the diamond cutting tool, characterized in that consisting of a safety fence formed with a predetermined height and thickness.

In addition, the concrete structure dry cutting method according to the present invention for achieving the above object is to install the concrete structure dry cutting device of claim 1 to the structure to be cut, wound the diamond cutting tool on the structure and rotated at high speed with a hydraulic motor At the same time as cutting the structure, debris or dust generated in the structure cut by the diamond cutting tool is collected through the dust collecting cover, characterized in that the structure is cut and dismantled by collecting the dust through the dust collector hose.

Dry, Diamond Cutting Tools, Structures, Cutting

Description

Concrete structure dry cutting device and it's cutting method

1 is a schematic diagram showing a state of cutting a pillar with a conventional diamond saw,

Figure 2 is a schematic diagram showing a state of cutting the structure with a diamond wire saw according to the present invention,

3 is a front view showing a state of cutting the structure with a diamond wire saw according to the present invention,

Figure 4 is a side view showing a state of cutting the structure with a diamond wire saw in accordance with the present invention,

5 is a cross-sectional view showing a state of cutting a structure with a diamond wire saw according to the present invention,

6 is a plan view showing a wire body of a diamond wire saw according to the present invention,

7 is a schematic diagram showing a state of cutting a structure with a diamond wall saw according to the present invention,

Figure 8 is a schematic diagram showing a state of drilling a structure with a diamond core drill according to the present invention.

Explanation of symbols on the main parts of the drawing

100: diamond cutting tool 110: diamond wire

112: beads 114: sleeve

116: wire body 118: main pulley

120: drive device 122: auxiliary pulley

140: Waltso 150: core drill

200: dust collecting means 210: dust collecting cover

220: dust collector hose 230: dust collector

300: hydraulic unit 400: safety fence

410: embossing C: cutting part

W: Structure

The present invention dry concrete cutting device and cutting method {CDC method; The present invention relates to a concrete structure dry cutting device and it's cutting method, and more particularly, to a dry structure cutting device and a cutting method for cutting a structure using a dry diamond cutting tool without using coolant and cooling air. .

In general, the use of the diamond saw method as a dismantling method of the concrete structure has attracted attention in recent years.

In this type of diamond saw method, as shown in FIG. 1, a diamond saw is connected to the cutting target structure 1, and then the drive pulley 3 is transferred by a hydraulic cylinder while rotating the drive pulley 3 at high speed. It is a method of cutting the structure (1) by giving tension to the wire (5).

Conventional diamond saw method as described above is a low noise, dust-free, vibration-free method, there is no limitation on the cutting depth or cutting angle of the structure, not only damage the existing structure, but also accurate diagnosis, and can be installed underwater There is an advantage to this.

However, the conventional diamond saw method as described above has the following problems.

First, the conventional diamond saw method is not only generates a lot of heat in the diamond wire saw cutting device when cutting the structure, but also generates dust, to prevent the wire saw to cool the wire saw using a large amount of coolant of 600 liters or more per hour As such, since separate cooling water is used for cooling the wire saw, a separate facility for cooling water treatment is required.

Second, in the conventional diamond saw method, the sludge generated by the coolant used for cutting while cutting the concrete structure incurs a separate sludge treatment cost, and a separate downfall prevention facility must be installed and operated due to the use of the coolant. As a result, there is a problem in that it takes a lot of additional processing costs than necessary to cut the structure.

In particular, when there are streams and the like adjacent to the structure to be cut when cutting the structure, there is a serious problem that the stream is contaminated due to sludge caused by the use of cooling water due to the cutting of the structure, thereby destroying the ecosystem.

Accordingly, the present invention has been made to solve the problems described above, the heat generated when cutting the structure with the diamond cutting tool, without using the cooling water and cooling air, cutting the structure with a dry diamond cutting tool, indoors No water maintenance is required in the work, and the concrete dust generated during the cutting of the structure can realize the dust collecting and dust-free work by the dust collecting cover and the dust collector, so it can be constructed by the environmentally friendly method that does not affect the surrounding structure and the natural environment. In addition, the purpose of the present invention is to provide a dry cutting device and a cutting method for concrete structures that can significantly reduce construction costs by reducing the cost of cooling water and cooling air.

A steel diamond wire according to the present invention for achieving the above object, a bead in which a diamond tip is inserted and inserted into the diamond wire, and interposed between the beads, at least a portion of which has a non-heat resistance, A die cutting tool comprising a wire main body formed of a sleeve having an unevenness formed thereon, a driving device for driving the wire main body through the main body pulley, and an auxiliary pulley mounted on the structure; Dust collecting means located above the cutting portion of the structure; A hydraulic unit for supplying hydraulic pressure to the diamond cutting tool; It is arranged at a certain distance from the diamond cutting tool, characterized in that consisting of a safety fence formed with a predetermined height and thickness.

In addition, the concrete structure dry cutting method according to the present invention for achieving the above object is to install the concrete structure dry cutting device of claim 1 to the structure to be cut, wound the diamond cutting tool on the structure and rotated at high speed with a hydraulic motor At the same time as cutting the structure, debris or dust generated in the structure cut by the diamond cutting tool is collected through the dust collecting cover, characterized in that the structure is cut and dismantled by collecting the dust through the dust collector hose.

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

Figure 2 is a schematic diagram showing a state of cutting the structure with a diamond wire saw according to the invention, Figure 3 is a front view showing a state of cutting the structure with a diamond wire saw according to the invention, Figure 4 is a diamond according to the invention Figure 5 is a side view showing a state of cutting the structure with a wire saw, Figure 5 is a cross-sectional view showing a state of cutting the structure with a diamond wire saw in accordance with the present invention, Figure 6 shows a wire body of a diamond wire saw in accordance with the present invention 7 is a schematic view showing a state of cutting a structure with a diamond wall saw according to the present invention, and FIG. 8 is a schematic view showing a state of drilling a structure with a diamond core drill according to the present invention.

As shown in these figures, the dry cutting device for concrete structures according to the present invention includes a forced diamond wire 110, beads 112 in which a diamond tip is embedded and inserted into the diamond wire 110, and the beads. Interposed between the 112 and at least a portion of the non-heat-resistant efficacies, the wire body 116 consisting of a sleeve 114 with irregularities formed on the surface and the wire body 116 through the main pulley 118 A diamond cutting tool 100 comprising a driving device 120 for driving the wire body 116 and an auxiliary pulley 122 mounted to the structure W; Dust collecting means (200) located above the cutting portion (C) of the structure (W); A hydraulic unit 300 for supplying hydraulic pressure to the diamond cutting tool 100; The diamond cutting tool 100 is disposed at a predetermined distance and is composed of a safety fence 400 formed at a predetermined height and thickness.

That is, the dry cutting device for a concrete structure according to the present invention is a device in which the diamond cutting tool 100, the dust collecting means 200, the hydraulic unit 300, and the safety fence 400 are organically combined.

Here, the diamond cutting tool 100 is interposed between the forced diamond wire 110, the bead 112, the diamond tip is inserted and inserted into the diamond wire 110, and the beads 112, at least A part has a non-heat-resistant efficacy, the wire main body 116 which consists of the sleeve 114 in which the unevenness | corrugation was formed, and the wire main body 116 is driven through the main pulley 118 to drive the wire main body 116. Is made of a drive device 120 and the auxiliary pulley 122 mounted to the structure (W),

The diamond tip has an inclusion amount of 0.03wt%, and the solvent metal is composed of diamond particles having a Fe-Ni alloy as a main component and a metal bond having a graphite content of 0.1wt% to 2.0wt%.

In addition, the particle diameter of graphite contained in the said metal bond is comprised by 1/10 of the particle diameter of a diamond particle.

That is, the diamond tip of the diamond cutting tool according to the present invention contains 0.03 wt% of inclusions, and the metal bonds of 0.1 wt% to 2.0 wt% of diamond particles and graphite (graphite) content of which the main component of the solvent metal is Fe-Ni. It is formed.

For graphite contained in the metal bond, the particle diameter is 1/10 of the diamond particle diameter, the metal bond composition includes the above graphite, contains Ni-Sn intermetallic compound, and the diamond tip is embedded in the body. It is preferable embodiment to make the protrusion height in main body cross section 3.0 mm, etc.
Here, the diamond tip is conventionally a metal bond and diamond polishing particles mainly composed of hard particles such as tungsten and cobalt, etc., and graphite in which diamond polishing particles are mixed in metal bonds is used.
In this type of thing, as the abrasion of the diamond tip progresses due to the cutting powder during the drilling, it has an autogenous action in which diamond abrasive grains appear in sequence.
In the case of dry drilling using a diamond tip of graphite, when the tip is strongly pressed into a concrete structure, frictional heat is generated largely unlike in the wet case, and compressed air is difficult to flow in a narrow cylindrical groove. Therefore, the cooling effect is also weak, and the grinding part becomes high temperature.
In the air, diamond abrasive particles start to undergo thermal damage when they are 600 ° C or higher, and when they reach 900 ° C, gasification, crushing, and abrasion of the diamond abrasive grains are inhibited before the metal bond wears.
For this reason, it was not possible to press strongly and to drill quickly.
Therefore, in order to continue to cause autogenous action, what is easy to wear on a metal bond may be used, but such a thing was generally soft and had the difficulty of weakening the tip strength.

That is, in cutting for dry use, it becomes impossible to avoid that a cut surface becomes high temperature.

In particular, the tip of the diamond particles is 900 ° C, and sometimes reaches 1100 ° C, depending on the occurrence of sparks during use and damage of the diamond tip surface.

In such a high temperature state, carbonization of diamond particles, influence of impurities, and the like appear as deterioration of the physical properties of the particles, resulting in low temperature strength.

On the other hand, in the high-temperature air, the damage to the diamond particles, as well as the mechanical properties deteriorate, and it occurs also parallel chemical changes which the CO ₂ by oxidation.

The chemical oxidation action described above takes advantage of the specificity of the diamond cutting tool 100 to be cut and uses the cutting environment as a non-oxidative situation.

In addition, the mechanical property degradation described above solves the problem by specifying the inclusion amount and the solvent metal in the selection conditions of the diamond particles and using the particles having high temperature strength.

In order to use the cutting environment as a non-oxidative situation, it is preferable to flow an inert gas such as N ₂ gas into the replacement of compressed air, but such a gas source cannot be easily obtained at the work site. It is difficult to enter the contact surface particles to cut.

If a suitable amount of graphite is mixed in the metal bond, the graphite particles present on the surface of the metal bond are oxidized to a temperature of 500 ° C. to 600 ° C. lower than that of the diamond particles to be converted into carbon dioxide gas CO 2.

CO ₂ is generated continuously during cutting because new graphite is released and carbonated as metal bond wears out.

Thus, the diamond tip is cut in carbon dioxide gas.

At this time, it is preferable to form a complete anoxic state, but it is not practically necessary.

It is because it is enough to suppress the oxidation of the diamond particles in the air to the extent practically available.

As it described above, the addition amount of graphite is more but the blocking effect of CO ₂ on the oxygen in the air, what to 0.1wt% ~2.0wt% in the metal bond as the specific amount of graphite in the 0.1wt% there is insufficient CO ₂ In addition, the performance as a solid lubricant is inferior, and at 2.0 wt%, the metal bond is too soft to wear out.

Moreover, as a particle diameter of graphite, 1/10 of the particle diameter of the diamond particle to be used is preferable.
In the case of diamond abrasive grains having high high temperature strength, the TTI (Thermal Toughness Index) according to the pot mill method is usually used. Even if attention is paid to the TTI value of the temperature, an appropriate abrasive grain cannot be selected only by the simple TTI value.
Here, when the inclusion amount and the solvent metal of the diamond abrasive grains are specified, the diamond abrasive grains having high high temperature strength can be selected.
That is, when the main components of the solvent metal of the diamond abrasive grains are Fe-Co and Ni-Mn, the strength is low, the Fe-Ni is strong and the content of inclusions is 0.03 wt%. You can get it.
As described above, Co ₂ generates a cutting width from a concrete structure which is continuously drilled by using high-strength diamond abrasive grains.

When graphite that is comparable to diamond particles is used, when cutting soft concrete structures such as mortar, the cutting powder increases and sharpness is improved, but when cutting hard materials such as concrete with aggregates, the life of the bond itself is short. Lose.

Therefore, the fine powder of 1/10 is expected to have a solid lubricating performance of graphite.

The diamond cutting tool 100 according to the present invention having the configuration as described above is formed of a diamond tip heat-resistant material, thereby efficiently absorbing friction heat when cutting the diamond cutting tool 100 structure (W), As concrete debris generated during cutting is attached to the surface of the diamond wire 110 and efficiently conveyed and recovered, there is an effect of cutting the structure in a dry environment without supplying and quenching the cutting point. .

The dust collecting means 200 includes a dust collecting cover 210 covering the auxiliary pulley 122 of the diamond cutting tool 100, a dust collecting hose 220 having one end connected to the dust collecting cover 210, and the dust collecting hose. It consists of a dust collector 230 connected to the other end of 220.

The dust collecting means 200 covers the auxiliary pulley 122 of the diamond cutting tool 100 with the dust collecting cover 210 or installs the dust collecting cover 210 above the auxiliary fleece 122. ) To effectively collect the cutting debris generated when cutting with the diamond cutting tool 100, the cutting debris and dust collected by the dust cover 210 to the dust collector 230 through the dust collecting hose 220 The dust is collected to completely process the cutting chips generated when cutting the structure (W).

On the other hand, the safety fence 400 is a structure in which the embossing 410 is formed in at least one surface in an uneven shape.

The safety fence 400 is a protective measure for minimizing damage caused by the malfunction of the diamond cutting tool 100, and if necessary, the surface of the structure (W) by embossing the surface of the diamond cutting tool (100). Absorb and block out the noise generated when cutting.

Hereinafter, the dismantling of the structure using the concrete structure dry cutting device having the configuration as described above will be described.

Dry construction method of the concrete structure according to the present invention is to install the concrete structure dry cutting device of claim 1 on the cutting target structure (W), the diamond cutting tool 100 is wound around the structure (W) and the hydraulic motor (not shown) At the same time as cutting the structure (W) by rotating at a high speed with the debris or dust generated from the structure (W) cut by the diamond cutting tool 100 is collected through the dust collecting cover 210, the dust collecting hose 220 Pass the dust collector 230 to cut and disassemble the structure.

That is, in the dry construction method of the concrete structure according to the present invention, in the cutting of the structure (W), after installing the diamond cutting tool 100 in the structure (W), while supplying the hydraulic pressure by the hydraulic unit 400, Cutting the (W) and at the same time operating the dust collecting means (200).

At this time, the frictional heat generated when cutting the structure (W) between the cutting portion (C) and the diamond cutting tool 100 of the structure (W) is absorbed by the diamond tip of the diamond cutting tool (100) diamond cutting tool (100) The temperature rise of) is prevented, and the cutting debris generated during cutting is collected by the dust collecting cover 310 to the dust collector 330 through the dust collecting hose 320, so that cooling water is unnecessary.

Therefore, the dry cutting device and the cutting method of the concrete structure according to the present invention is more advanced than the method using the cooling water when cutting the structure using a diamond wire saw as in the prior art, and the conventional cooling water treatment is a separate fall prevention facility and There is no need for a sludge treatment plant.

Hereinafter, the cutting of the structure using a wall saw or a core drill in addition to the cutting of the structure using the diamond wire saw as described above.

In the dry cutting device for concrete structures according to the present invention, the wall saw 140 does not use water at all by the dry cutting method like the wire saw, so it does not pollute the site with scattered water as in the prior art, and the waste water maintenance, treatment and disposal are also required. There is no advantage.

In addition, the dust of the wall saw 140 is completely recovered by the strong dust collector inside the dust cover, and does not scatter.

In addition, the wall saw 140 is suitable for cutting the double line for the slits, can put a double line as two cutter blades at a time, and can also facilitate the construction of the three.

In addition, since the core drill 150 does not use water at all, dust generated at the time of drilling is absorbed as a strong dust collector, so that it does not scatter around, and the long core hole can also be clean and secure.

Instantly remove the concrete powder, and in particular, because it is drilled under no load, the cutting surface is clean, high speed, high efficiency can be constructed.

As described above, the concrete structure dry cutting device according to the present invention has the following effects.

First, the present invention is not limited to the shape of the structure and can be cut regardless of the shape, it is possible to remotely control and narrow, and because it does not use the cutting coolant, the resistance is small and can drive the diamond cutting tool at high speed The work efficiency is improved.

Second, the present invention completely excludes waste water remediation and treatment disposal caused by using water, and since no water is used, no personnel and costs are caused due to scattering and spillage of effluent, maintenance, and waste water treatment disposal. And it can greatly reduce the cost, and because it does not use water, there is an advantage that can be perfected as dust cover, dust collection cover and powerful dust collector.

Third, the present invention by blocking the problems caused by using the coolant at the source, it is possible to further increase the workability of the cutting site, and can minimize the damage caused by cutting the structure even in the surrounding environment can work environmentally There is an advantage.

Claims (7)

delete A wire body made of a forced diamond wire, a bead in which a diamond tip is embedded and inserted into the diamond wire, and a sleeve interposed between the beads, at least a portion of which has non-heat resistance, and a sleeve having irregularities formed on a surface thereof; A diamond cutting tool comprising a driving device for driving the wire body through the main body through the main pulley, and an auxiliary pulley mounted on the structure; Dust collecting means located above the cutting portion of the structure; A hydraulic unit for supplying hydraulic pressure to the diamond cutting tool; In the concrete structure dry cutting device is disposed at a predetermined distance from the diamond cutting tool, consisting of a safety fence formed in a predetermined height and thickness, The diamond tip has an inclusion amount of 0.03wt%, the concrete is characterized in that the solvent metal is composed of diamond particles mainly composed of Fe-Ni alloy and a metal bond of graphite (grapite) content of 0.1wt% to 2.0wt% Structure dry cutting device. The method of claim 2, Dry particle cutting device, characterized in that the particle diameter of the graphite contained in the metal bond, consisting of 1/10 of the particle diameter of the diamond particles. delete delete delete delete

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