KR101568960B1 - The manufacturing method of construction materials using fallen leaves of street tree and red clay - Google Patents

Abstract

The present invention relates to a method for manufacturing a construction material by using fallen leaves of street trees and red clay. Particularly, the method includes the steps of: firstly grinding fallen leaves of street trees into the size of 200 mesh or smaller and drying the fallen leaves; secondly grinding the dried leaves into the size of 250-300 mesh again; preparing red clay powder in the size of 200-300 mesh; producing a red-clay leaf mixture by mixing the red clay powder and the leaf powder at a weight ratio of 1 : 5-7; adding a natural adhesive into the red-clay leaf mixture and stirring the same; and shaping the red-clay leaf mixture into a panel for construction. As fallen leaves are mixed with red clay to be manufactured into the construction material, costs for disposing of fallen leaves are saved. In addition, the method is eco-friendly and economic as fallen leaves can be reused. Furthermore, functions unique to red clay can be complemented and maximized.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of manufacturing a building material using roadside leaves and loess,

The present invention relates to a method for manufacturing a building material using a roadside litter and loess, and more particularly, to a method for manufacturing a building material by reducing the processing cost of a fallen lobe and recycling it as a building material, thereby being environmentally friendly and economical. Further, The present invention relates to a method of manufacturing a building material using roadside leaves and loess.

As is well known, yellow loess is used in various fields such as beauty or food, because it has the effect of keeping the freshness of the food by keeping the living body warm by stimulating and activating the molecules in the living body when the large amount of far infrared rays are absorbed into the living body.

In particular, loess is excellent in radiation effect and anti-microbiality, and when used as an interior material for buildings, it promotes metabolism, restores fatigue, and with insulation, warmth and soundproof effects, it is cool in summer, warm in winter, It is possible to prevent the occurrence of cracks and other disadvantages.

In the case of traditional buildings, loess is widely used for walls and roofs, but loess is weak in its own strength, so it is usually necessary to form wall by dough reinforced with vegetable fiber such as straw. Since it is fragile and the surface strength is low, it is easily weathered. Therefore, there is a lot of restrictions on the use as an interior material of a building, such as a work requiring overlaying.

Meanwhile, as of 2012, 5.6 million trees have been planted nationwide, and this trend is increasing every year.

In the above tree line, a great amount of leaves is generated every year, and a lot of labor is required to treat the leaves. Most of the collected leaves are incinerated or partly used as compost or fuel, Which is a secondary environmental problem.

Korea Practical Registration No. 20-0234846

Accordingly, it is an object of the present invention to provide a method of manufacturing a building material by mixing discarded roadside leaves with yellow soil so as to reduce the disposal cost of the leaves, and to recycle the same as building material, thereby being environmentally friendly and economical. Further, And to provide a method of manufacturing a building material using the roadside leaves and the loess having the effect of complementing the functions and maximizing the functions.

Another object of the present invention is to further increase the cohesive force of the loess and to reduce the weight of the loess by further mixing the additional powder such as sawdust and rice husk and improve the heat insulation, The present invention provides a method for manufacturing building materials using roadside leaves and loess.

Another object of the present invention is to provide a waterproof flame retardant solution which, when a building panel is used as a facade of a building, absorbs moisture by the rain or the like and becomes hydrophilic, The present invention provides a method of manufacturing a building material using roadside leaves and loess to prevent fire from spreading and prevent fire from occurring.

According to an embodiment of the present invention, the above objects can be accomplished by a method for preparing a plant by firstly pulverizing a leaf litter into a size of 200 mesh or less and drying the same. Secondly pulverizing the dried leaf litter to a size of 250 to 300 mesh; Preparing a loess powder having a size of 200 to 300 meshes; Mixing the loess powder with the litter powder at a weight ratio of 1: 5 to 7 to prepare a loess leaf litter mixture; Adding a natural adhesive to the loess litter mixture and stirring; And molding the loess leaf litter mixture into a building panel.

Drying the building panel; And a step of attaching moisture-proof paper to the rear surface of the building panel and attaching a fabric to the front surface.

The mixing of the loess powder and the litter powder may further comprise an additive powder in which one or more of the reeds, the pine needles, the chaff or the sawdust is mixed, wherein the weight ratio of the loess powder to the additive powder is 1: ~ 2. ≪ / RTI >

Meanwhile, the step of adding a natural adhesive to the loess litterfall mixture and stirring may be performed by adding a water repellent flame retardant mixed with a water repellent agent and a flame retardant.

Here, the water-repellent flame retardant may be mixed with sodium phosphate, ammonium phosphate, water and liquid sodium silicate (Korean Industrial Standard KS M1415) in an amount of 3% by weight, 1.6%, 93.5% and 1.9% by weight.

On the other hand, the above-mentioned roadside leaves can be mixed with any one or two or more of ginkgo trees, cherry trees, maple trees, and plaster trees.

The forming method may be any one of a forming method using a plate-shaped mold or a continuous forming method using a roller.

According to the method for manufacturing a building material using the roadside litter and the loess according to the present invention, it is possible to reduce the disposal cost of the litter and to recycle it as a building material by mixing the discarded roadside leaves with the loess, It is economic and economical, and it has the effect of complementing and maximizing the inherent functions of loess.

In addition, by mixing the loess powder and the litter powder in an optimal weight ratio, the load of the building panel can be minimized while maximizing the function of the loess.

Further, by further mixing additive powders such as sawdust and rice husk, the cohesive force of the loess can be increased, the weight can be reduced, and fine pores can be formed to improve the heat insulation, heat insulation and sound absorption ability.

Furthermore, by adding a water-repellent flame retardant solution, when the building panel is used as the exterior material of a building, the hydrophilic loess of the loess can absorb the moisture to reduce the strength, prevent the surface cracking from repeatedly wet and dry As well as prevention and spread of fire.

In addition, all of the subsidiary materials are natural-friendly materials, and if they are left in a natural state without being subjected to a separate disposal process, they are rotten, naturally discarded, do not cause environmental pollution, and have an advantage of resource recycling.

1 is a flowchart of a method of manufacturing a building material using a roadside litter and loess according to an embodiment of the present invention.

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

Referring to FIG. 1, a method of manufacturing a building material using a roadside litter and loess according to an embodiment of the present invention includes: firstly crushing a roadside litter to a size of 200 mesh or less; Secondly pulverizing the dried leaf litter to a size of 250 to 300 mesh; Preparing a loess powder having a size of 200 to 300 meshes; Mixing the loess powder with the litter powder at a weight ratio of 1: 5 to 7 to prepare a loess leaf litter mixture; Adding a natural adhesive to the loess litter mixture and stirring; And molding the loess litterfall mixture into a building panel.

Drying the building panel; The method may further include the step of attaching moisture-proof paper to the rear surface of the building panel and attaching a fabric to the front surface.

Each step will be described below.

First, the roadside leaves are first crushed to a size of 200 mesh or less and then dried (S11).

The above-mentioned roadside leaves are mixed with any one or two or more of ginkgo, cherry, maple or plum tree.

The above-mentioned first and second pulverization of the roadside leaves are intended to facilitate secondary pulverization for the litter powder having the required particle size, and to facilitate mixing with the loess powder.

Next, the dried leaf litter is secondly pulverized to a size of 250 to 300 mesh (S12).

As described later, when the loess powder is mixed with the litter powder at a ratio of about 1: 5 to 7, the particle size of the litter powder is selected by experiment. Considering the range in which the function of the loess particles is effectively exerted through the pores of the loess, the blending ratio with the loess powder and the particle size are considered together.

In the third step, yellow loess powder having a size of 200 to 300 meshes is prepared (S13).

As described above, when the particle size of the loess powder is smaller than or larger than the above range, mixing with the litter powder is not smooth and cracking of the manufactured building panel is likely to occur.

In the fourth step, the loess powder is mixed with the litter powder at a weight ratio of 1: 5 to 7 to prepare a loess mixture (S14).

When the specific gravity of the loess is high, the weight of the building material increases and the bonding force of the building material itself becomes weak. On the contrary, when the loess density is low, the strength of the building material becomes weak, .

Therefore, when the loess powder is mixed with the litter powder in the above-mentioned weight ratio, the optimum range that can exert the function of the loess is minimized while the load of the building panel is minimized.

Here, the functional added powder may be further added to the litter powder obtained by crushing the above-mentioned roadside leaves.

The additive powder may be any one or a mixture of two or more of reed pine, pine needles, sawdust or rice husk.

Among the above-mentioned additive powders, the reed and pine needles have a longer solar storage time than other ones and have strong adhesive strength. Sawdust and rice hulls have the effect of minimizing the cracks by absorbing moisture and shrinkage force during shrinkage due to drying of the loess. Sawdust and rice husk with light weight compared to loess act on seaweed extract to increase cohesion of loess The weight can be reduced, and fine pores are formed to act to enhance the heat insulation, heat insulation and sound absorption ability.

Here, the loess powder and the additive powder are preferably mixed at a weight ratio of 1: 1 to 2 dml.

In the fifth step, a natural adhesive agent is added to the loess litter mixture and stirred (S15).

The natural adhesive is mixed at a ratio of 3 to 5% based on the total weight.

If the amount of the adhesive is too large, the hardness of the building panel increases and the binding force of each powder is excessively large. As a result, There is a problem that the function inherent to the particles is deteriorated.

As the natural adhesive, various ones can be used. For example, magnesium, seaweed extract, daphnia or salicylic acid can be used.

Magnesium enhances the quality of the product, blood circulation and fatigue in the human body, and duster and willow liquid remove all mold and odor.

Seaweed extracts can be obtained by boiling seaweed extracts such as mugwort, which belongs to red algae.

On the other hand, when a natural adhesive agent is added to the loess litterfall mixture and stirred, the flame retardant mixed with the water repellent agent may be mixed.

As a result, it is possible to complement the fact that the building panel containing the loess material is vulnerable to moisture, as well as the prevention of the spread of fire. That is, when the building panel is used as the exterior material of the building, when it comes into contact with moisture by rain or the like, the hydrophilic yellow soil absorbs moisture and lowers its strength or surface cracks may occur repeatedly, It is possible to prevent this by mixing the flame retardant.

The water-repellent flame retardant solution may be prepared in various types. For example, 3% by weight of sodium phosphate, 1.6% by weight of ammonium phosphate, 93.5% by weight of water and liquid sodium silicate KS M1415) in an amount of 1.9% by weight.

The water-repellent flame retardant is added at a ratio of 1: 0.8 to 1 based on the weight of the loess leaf litter mixture, followed by stirring.

After the addition of the water-repellent flame retardant solution and stirring, a drying process may be performed to reduce the water content so as to be suitable for molding, if necessary.

Alternatively, sodium phosphate, ammonium phosphate and liquid sodium silicate may be mixed at the above ratios in a proportion of 6-7% by weight based on the weight of the loess leaf litter mixture, and the required moisture may be added and stirred.

In this case, when the water content increases, agitation and molding are easy, but it causes cracking in drying, and when water is insufficient, stirring and molding are difficult. Therefore, the water addition ratio should be adjusted according to stirring and molding means.

In the sixth step, the clay leaf mixture is molded to produce a building panel (S16).

It is preferable that the releasing paper is laid on the bottom and side surfaces of the mold before the agglomerated loess mixture is put into the mold. This is to facilitate separation of the dried ocher plate and the forming mold.

It is preferable to remove the bubbles by applying a constant pressure to the mixture, since the loess mixture is injected into the mold and compression molding is performed. If the bubbles are not sufficiently removed in the loess mixture, it will cause cracks during drying.

The molding method may be a molding method using a plate-shaped mold or a continuous molding method using a roller.

Thereafter, the molded building panel is dried (S17), and a moisture-proof paper can be further adhered to the rear surface of the building panel, and a fabric can be attached to the front surface (S18).

Molded architectural panels are dried by natural drying for 2-3 days, then the construction panel and the molding frame are separated and the release paper attached to the building panel is removed.

In case of hot air drying, it is necessary to dry both sides of the building panel at the same time to prevent deformation due to drying, and the temperature of hot air is suitably about 1 to 2 hours at 150 to 200 ° C.

If the temperature of the hot air is excessively high and drying proceeds rapidly, it may cause cracking or deformation of the panel.

After the hot-air dried building panels are sufficiently cooled at room temperature, the surface of the panel can be polished or the like, and the protective paper and fabric can be attached to the surface after the finishing work.

On the back and side of the dried building panel, moisture proof paper is attached to prevent the penetration of moisture.

As a result, along with the water-repellent flame retardant solution, the fragility of the loess according to the moisture is reinforced through the adhesion of the moisture-proofing paper, and the function unique to the loess is exhibited.

The molding standard of the building panel is 2 ~ 60 ㎝ in width and 1 ~ 2 ㎝ in thickness. It can be molded according to the standard of interior or exterior material. It can be manufactured in various sizes Of course.

S11: first step S12: second step
S13: Third step S14: Fourth step
S15: fifth step S16: sixth step
S17: Seventh Step S18: Step 8

Claims (7)

Firstly crushing the leaves of the trees in a size of 200 mesh or less and drying the leaves;
Secondly pulverizing the dried leaf litter to a size of 250 to 300 mesh;
Preparing a loess powder having a size of 200 to 300 meshes;
Mixing the loess powder with the litter powder at a weight ratio of 1: 5 to 7 to prepare a loess leaf litter mixture;
Adding a natural adhesive to the loess litter mixture and stirring;
Molding the loess leaf litter mixture into a building panel;
Drying the building panel;
A step of attaching moisture-proof paper to the back surface of the building panel and attaching a fabric to the front surface of the building panel; delete The method according to claim 1,
Mixing the loess powder with the litter powder comprises:
Wherein the weight ratio of the loess powder to the additive powder is 1: 1 to 2, wherein the weight ratio of the loess powder to the additive powder is 1: 1-2. Material manufacturing method. The method according to claim 1,
The step of adding and stirring a natural adhesive to the loess littlet-
A water repellent agent, and a flame retardant; and adding the water-repellent flame retardant to the mixture. 5. The method of claim 4,
Wherein said water-repellent flame retardant is a mixture of sodium phosphate, ammonium phosphate, water and liquid sodium silicate (Korean Industrial Standard KS M1415) at a weight of 3%, 1.6%, 93.5% and 1.9% Method of manufacturing used building material. The method according to claim 1,
Wherein the above-mentioned roadside leaves are mixed with one or more of ginkgo trees, cherry trees, maple trees or plaster wood. The method according to claim 1,
Wherein the forming method is provided by any one of a forming method using a flat mold or a continuous molding method using a roller.

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