KR101464472B1 - Hydrogen peroxide forming-apparatus for norganic porous aggregate using stone sludge - Google Patents

Abstract

The present invention relates to a hydrogen peroxide foaming apparatus for an inorganic porous aggregate using stone sludge. The technical point of the present invention is to provide an apparatus for generating bubbles by injecting pressed hydrogen peroxide at a high-pressure to a sludge composition obtained by mixing basalt powder sludge, cement, hardener and a cohesive agent in order to give a predetermined shape to basalt of a sludge state by reusing waste basalt stone sludge, especially, waste stones of a sludge state generated during a stone treating process. Thus, an objective of the present invention is to provide a hydrogen peroxide foaming apparatus for inorganic porous aggregate using stone sludge, which is capable of foaming the porous aggregate having a multivesicular structure which is a descent structure of basalt.

Description

A hydrogen peroxide-forming apparatus for nano-porous porous aggregate using stone sludge.

The present invention relates to an apparatus for foaming hydrogen peroxide in an inorganic porous foamed aggregate using stone dust sludge, more particularly, to a method for recovering basalt waste sludge from a sludge- A sludge composition containing basalt stone sludge, cement, hardener, flocculant, and the like is formed by compression-spraying hydrogen peroxide at a high pressure to form bubbles so as to form a foamed aggregate having a polyhedral structure, which is a native structure of basalt The present invention relates to an apparatus for foaming hydrogen peroxide of an inorganic porous foamed aggregate using a stone sludge.

Generally, basalt is one of the rock types that occupies most of the volcanic lava. It is composed of slag-like pores formed by the gas that has escaped from the lava, It is a volcanic rock.

These basalt rocks are widely distributed in Jeju Island in Korea. They are excellent in absorption, sound absorption, adsorption, antibacterial power, purification and water purification, and are widely used in building materials, garden stones or artworks. However, The basalt waste powder or the sludge, which is a waste to be treated, has been discarded as it is because of its inadequate physical condition.

Korean Patent No. 10-0488440 discloses a cement additive and a cement composition using the same, and the cement composition is foamed by using a plastic foam and a non-plastic foam.

Among these foaming methods, non-foaming foaming is foaming using a gas generated by a chemical reaction. The gas used is mainly oxygen, hydrogen, carbon dioxide, water vapor, and the representative example of oxygen generation is a reaction of hydrogen peroxide with manganese dioxide ALC (Lightweight Foam Concrete) generates hydrogen in the reaction of metal aluminum powder and alkali (calcium oxide or Portland cement), and the bubble However, the use of aluminum powder is difficult to handle because of the danger of explosion when the hydrogen is generated by foaming, compared with the method using oxygen. Especially, There is no energy consumption, relatively inexpensive, and safe. To use a hydrocarbon as a foaming agent is advantageous.

The process of manufacturing the porous foamed aggregate by using the hydrogen peroxide usually includes a primary mixing step of uniformly mixing the cement, a curing agent and a coagulant, a secondary mixing step of mixing the primary mixture and the water, a secondary mixing step of mixing the secondary mixture and the hydrogen peroxide , A molding step for putting the third mixture into a mold, a curing step for curing at room temperature, and a demolding step for separating the product.

However, in the third mixing step, the bubbles generated by the reaction of the second mixture with the hydrogen peroxide mostly disappear in the mixing process, or the bubbles are generated partially due to the rapid bubbling. In order to solve this problem, To which hydrogen peroxide is first added, and then a second mixture is added.

However, since the second mixture can not be uniformly injected at a time, the first mixture reacts with the hydrogen peroxide rapidly, and the later mixture does not react with the hydrogen peroxide. Therefore, Foam is being produced.

In order to solve this problem, the mixture must be injected into the mold at almost the same time in a short period of time. For this purpose, the viscosity of the mixture is increased by increasing the specific gravity of water.

Disclosure of Invention Technical Problem [8] Accordingly, the present invention has been made in view of the above problems, and it is an object of the present invention to provide a basalt stone sludge sludge sludge for recycling basalt waste sludge, A device for generating bubbles by compression-spraying hydrogen peroxide at a high pressure on a sludge composition obtained by mixing cement, hardener, flocculant and the like is provided to produce a foamed aggregate having a multi-pore structure which is a native structure of basalt, It is an object of the present invention to provide a hydrogen peroxide expanding device for porous foamed aggregate.

In order to achieve the above object, the present invention provides a sludge sludge treatment apparatus comprising: a mold 100 having an embankment shape so as to contain a mixture of quicklime and basalt stone sludge and a blend; A distributor 210 having a plurality of spray nozzles 211 for spraying hydrogen peroxide downward is formed inside the mold 100. The distributor 210 is disposed at an upper end of the mold 100 The slider 240 is coupled to the upper end of the up-down lifter 220 so that the lifter can be moved easily by the sliding bar 230, A jetting part 200 having a rotation support 250 formed at one side of the bar 230; A pressure vessel 310 is formed to supply hydrogen peroxide by a supply pipe 311 connected to the distributor 210 of the spraying unit 200 and a high pressure pump 310 for supplying pressure to the pressure vessel 310 so that hydrogen peroxide is injected at a high pressure, And a supply unit 300 composed of a pump 320.

At this time, the spraying unit 200 is formed with the spraying nozzles 211 of the distributor 210 in multiple directions so that the sprayed hydrogen peroxide is uniformly sprayed onto the composition.

Also, the distributor 210 is formed to reciprocally rotate or rotate freely 360 degrees with respect to the up-down lifter 220 in order to uniformly inject hydrogen peroxide into the composition.

Therefore, the present invention aims at recovering sludge such as waste sludge or waste powder generated in a stone processing process such as basalt to maintain intrinsic characteristics and strength of the stone, and by using a hydrogen peroxide sprayed at a high pressure, It has the effect of making foamed aggregate.

In addition, compared with the conventional method of mixing the aggregate composition using non-sintered foams such as aluminum, the production process of the composition is reduced and productivity is increased, and the effective chemical reaction of the composition and hydrogen peroxide by the high- And it is advantageous to produce high quality foamed aggregate.

1 is a view showing an apparatus for foaming hydrogen peroxide of an inorganic porous foamed aggregate using a stone sludge according to the present invention,
FIG. 2 is a cross-sectional side view schematically showing a cross section of an inorganic porous porous aggregate material using a stone sludge according to the present invention. FIG.
3 is a view showing a distributor of an inorganic porous porous aggregate material using a stone sludge according to the present invention.

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

2 is a cross-sectional side view schematically showing a cross section of an inorganic porous foamed aggregate material using a stone dust sludge according to the present invention. Fig. 2 is a cross- 3 is a view showing a distributor of an inorganic porous porous aggregate material using a stone sludge according to the present invention.

Accordingly, the present invention mainly comprises a mold 100, a jetting unit 200, and a supplying unit 300.

As shown in FIG. 1, the mold 100 is formed in a box shape so as to contain a mixture of quicklime and basalt stone sludge and a blend.

At this time, the stone sludge may be replaced with another stone by replacing basalt.

In addition, the above-mentioned combination uses an inorganic binding curing agent having a constant particle size used for civil engineering and construction, and it is preferable to use a combination composed of a curing agent, a flocculant, a catalyst, water and the like which are conventionally used.

The dispenser 200 includes a dispenser 210 having a plurality of spray nozzles 211 for spraying hydrogen peroxide downward on the inner side of the mold 100. The dispenser 210 is connected to the mold 100 Down lifter 220 is provided to adjust the height of the lifter 220 in a state of being spaced apart from the upper end of the lifter 220 by a predetermined distance and the slider 220 is moved to the upper end of the lifter 220 by a sliding bar 230, And a rotation support 250 is formed on one side of the sliding bar 230. [

At this time, as shown in FIG. 2, the distributor 210 is formed with multiple injection nozzles 211 of the distributor 210 so that the injected hydrogen peroxide is uniformly sprayed onto the composition.

By arranging the injection nozzles 211 in a non-uniform direction, the injection direction of the hydrogen peroxide is irregularly injected in any direction, and the mixture of the compositions is uniformly mixed so that the chemical reaction between the hydrogen peroxide and the composition Bubble generation) can be performed well.

At this time, the distributor 210 is formed to rotate reciprocally or 360 degrees with respect to the up-down lifter 220 by a predetermined angle to uniformly inject hydrogen peroxide into the composition.

That is, the distributor 210 reciprocates or freely rotates in both directions with the up-and-down lifter 220 formed at the center of the upper surface of the distributor 210 as a central axis, so that the compositions are uniformly mixed. The connected supply pipe 311 can connect the supply pipe 311 to the lifter 220 to prevent twisting or deformation of the supply pipe when the distributor rotates and it is obvious to a person skilled in the art that the change can be made by anyone skilled in the art.

At this time, the up-down lifter 220 is formed to be adjustable in height by a hydraulic cylinder (automatic type) or a rack pinion gear (manual type) which is conventionally used. In order to efficiently spray hydrogen peroxide, 15 mm to 25 mm apart.

3, the up-down lifter 220 includes a slider 240 formed at an upper end thereof and a sliding bar 230 having a tunnel corresponding to the slider 240, 100 to facilitate movement of the dispenser 210 according to the size and type of the dispenser 210.

The rotation support 250 is coupled to one end of the sliding bar 230 and formed in a direction perpendicular to the ground to support the distributor 210 and is rotatable about a center axis desirable.

The supply unit 300 is provided with a pressure vessel 310 for supplying hydrogen peroxide by a supply pipe 311 connected to the distributor 210 of the injection unit 200 and a pressure vessel 310 for spraying hydrogen peroxide Pressure pump 320 that provides pressure to the fluid.

At this time, the pressure vessel 310 is preferably provided with a separate cut-roll valve so as to control the injection quantity and the injection time of the hydrogen peroxide injected from the injection nozzle 211.

In addition, the pressure vessel 310 can control the injection intensity of the hydrogen peroxide to mix the mixture evenly. The pressure vessel 310 strongly controls the intensity of the injection to form a sufficient bubble during the chemical reaction of the mixture with the hydrogen peroxide It is desirable to set the pressure of the pressure vessel 310 to be injected at about 100 bar.

The present invention aims at recovering sludge such as waste sludge or waste powder generated in the processing of stone such as basalt to obtain a multi-pore structure by hydrogen peroxide sprayed at a high pressure while maintaining intrinsic characteristics and strength of the stone, It has the effect of making foamed aggregate.

In addition, compared with the conventional method of mixing the aggregate composition using non-sintered foams such as aluminum, the production process of the composition is reduced and productivity is increased, and the effective chemical reaction of the composition and hydrogen peroxide by the high- And it is advantageous to produce high quality foamed aggregate.

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 invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

100 ... < / RTI >
210 ... dispenser 211 ... injection nozzle
220 ... up-down lifter 230 ... sliding bar
240 ... slider 250 ... rotation support
300 ... supply part 310 ... pressure vessel
311 ... supply pipe 320 ... high pressure pump

Claims (3)

A mold 100 having an embankment shape so as to contain a mixture of quicklime and limestone sludge and a blend;
A distributor 210 having a plurality of spray nozzles 211 for spraying hydrogen peroxide downward is formed inside the mold 100. The distributor 210 is disposed at an upper end of the mold 100 The slider 240 is coupled to the upper end of the up-down lifter 220 so that the lifter can be moved easily by the sliding bar 230, A jetting part 200 having a rotation support 250 formed at one side of the bar 230;
A pressure vessel 310 is formed to supply hydrogen peroxide by a supply pipe 311 connected to the distributor 210 of the spraying unit 200 and a high pressure pump 310 for supplying pressure to the pressure vessel 310 so that hydrogen peroxide is injected at a high pressure, A supply part 300 composed of a pump 320;
Wherein the inorganic porous porous aggregate is produced by the method comprising the steps of:
The apparatus according to claim 1, wherein the jetting unit (200)
Characterized in that the injection nozzle (211) of the distributor (210) is formed in multiple directions in order to uniformly spray the hydrogen peroxide to be sprayed onto the composition.
3. The apparatus of claim 2, wherein the distributor (210)
Wherein the hydrogen peroxide solution is formed to be reciprocally rotated or rotated 360 degrees with respect to the up-down lifter 220 by a predetermined angle so that the injected hydrogen peroxide is uniformly injected into the composition.

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