KR101197154B1 - construction method of loess mortar - Google Patents

Abstract

The present invention relates to a construction method of loess mortar, the construction method of loess mortar according to the present invention is a step of attaching a reinforcing member for attaching a reinforcing member of the mesh shape formed in a lattice structure on the wall or ceiling of the building, and the wall of the building To coating the ocher mortar with a predetermined thickness such that the small particles of loess mortar cover the surface of the reinforcing member on the reinforcing member attached to the ceiling, wherein the applying step comprises applying the loess mortar on the reinforcing member 0.8 to 1.2 mm. A first coating step of naturally drying after the coating and a second coating step of naturally drying the ocher mortar to a thickness of 2.3 to 2.7 mm on the first coating layer to which the ocher mortar is applied, and the ocher It characterized in that it comprises a third coating step of naturally drying after applying a thickness of 0.3 ~ 0.7mm mortar mortar applied on the second coating layer mortar.

Description

Construction method of loess mortar

The present invention relates to a method for constructing ocher mortar, and more particularly, to a method for constructing ocher mortar which can be used as an interior material of a building without cracking or breaking after curing according to construction.

In general, the cement building is a highly durable building, but since it pursues only practicality and good looks, it does not consider the effect on the human body of the cement building. Is toxic and slowly harms our health. In particular, cement is strongly alkaline, and when you move to a new house, you may experience swelling, headaches, and chemical syndromes such as neurosis. In addition, the cold side makes it easy to feel tired and the ground can not receive a lot of side effects are appearing.

In contrast, about 200 million microorganisms live in the loess, causing various enzymes to circulate. Among these microorganisms are microorganisms such as moss, fungus, actinomycetes, etc., which break down organic matter.

Organic matter decomposed by the microorganism is used as a medicine for treating diseases of humans as well as animals and plants. It is well known that microorganisms in loess are synonymous with antidotes that have excellent weakness such as detoxifying pollutants such as heavy metals and removing poisons emitted from the human body.

Ocher is a fine particle containing numerous minerals such as silica, alumina, iron, magnesium, sodium, and potassium, and is a living soil having microorganisms and minerals that are beneficial to the human body, and not only emits a lot of far infrared rays and anions, but also antibacterial, It is a very beneficial mineral for the human body with deodorizing effect.

Also, ocher is mainly composed of fine sand and has a large amount of calcium carbonate. This calcium carbonate has a viscous force that is not easily broken and has the property of changing to clay when water is added. Ocher contains quartz, feldspar, mica and calcite, and these materials are oxidized together with iron to produce various colors such as purple, red, gray and pale green as well as yellow.

The efficacy of such ocher is the microorganism and enzyme action, purifying power, degradable ocher is used as a detoxifying agent and antidote to remove the poison of the human body. It is known to be effective in preventing various aging diseases such as aging and chronic fatigue of the human body by activating absorption, metabolism and blood circulation in the human body by radiating far infrared rays. It can remove indoor odor and prevent mold and can maintain body temperature. It provides a comfortable living environment by maintaining the most suitable moisture.

In addition, it is well known that there is an excellent sound insulation effect and heat energy saving effect (heat storage) and neutralizes the toxic effect of cement. Also, among the microorganisms in loess, there are microorganisms such as moss, mold, actinomycetes, bacteria, etc. In addition, organic matter decomposed by microorganisms is used as a medicine for treating diseases of humans as well as all animals and plants.

In addition, the microorganisms in the loess detoxify pollutants such as heavy metals, and the loess contains various weak elements, which not only enhances detoxification but also has antimicrobial and hemostatic effects and coagulants.

In particular, when bricks made of ocher are used indoors, they promote blood circulation by far infrared rays, detoxify by microorganisms and enzymes, remove indoor odors, prevent mold, and dehumidify and antibacterial. It has a neutralization effect of cement toxin, excellent soundproofing effect and heat energy saving effect (heat storage) and transforms living space into life space.

As the human benefits of such loess are widely known, in recent years, loess is favored in buildings.

However, conventionally, when the ocher is made of mortar and cured (constructed), there is a problem of cracking. In other words, after mixing water and ocher to make ocher mortar, and mortar work on the interior wall or floor to cure over time, cracks are generated due to water evaporation, and as a result, it can be used as indoor interior material for easy breakage. There is a problem that can not be.

The present invention is to solve the problems as described above, by producing an ocher mortar by mixing the additives in the ocher powder purified by the underwater buoyancy purification method, so that the cracks do not occur even after construction with various efficacy of the ocher It is an object of the present invention to provide a construction method of loess mortar that can be used as interior finishing material of buildings.

In order to achieve the above and other objects of the present invention, according to an embodiment of the present invention, the step of attaching a reinforcing member for attaching a reinforcing member of the mesh shape formed in a grid structure on the wall or ceiling of the building, and the wall of the building to And applying the loess mortar to a predetermined thickness such that the small particles of loess mortar cover the surface of the reinforcing member on the reinforcing member attached to the ceiling, wherein the applying step comprises applying the loess mortar on the reinforcing member of 0.8 to 1.2 mm. A first coating step of naturally drying after applying to a thickness, a second coating step of naturally drying after applying ocher mortar to a thickness of 2.3 to 2.7 mm on the coating layer to which the ocher mortar is first applied, and the ocher mortar The construction of ocher mortar, characterized in that it comprises a third coating step of applying the ocher mortar to a thickness of 0.3 ~ 0.7mm on the secondary applied coating layer and then naturally dry This method is provided.

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The grid size of the reinforcing member is characterized in that 3 to 5mm in length and width.

According to the ocher finish for building interior according to an embodiment of the present invention and its construction method, there is an effect that can be used without cracking or chipping with time after construction.

In addition, it generates far-infrared rays, prevents the growth of microorganisms according to the characteristics of the loess having antimicrobial power, improves the efficiency of heating and cooling by excellent thermal insulation effect, excellent deodorizing effect and has a number of positive effects on the health of the human body.

1 is a process diagram showing each step of the ocher mortar manufacturing method according to an embodiment of the present invention step by step.
Figure 2 is a block diagram schematically showing a construction method of loess mortar according to an embodiment of the present invention.
Figure 3 is an enlarged view of the part of the loess mortar layer according to the construction method using loess mortar according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, the ocher finish for building interiors and its construction method according to an embodiment of the present invention will be described in more detail.

1 is a process diagram showing each step of the ocher mortar manufacturing method according to a preferred embodiment of the present invention step by step, Figure 2 is a block diagram schematically showing a construction method of loess mortar according to an embodiment of the present invention preferred Figure 3 is a partially enlarged view of the loess mortar layer according to the construction method using loess mortar according to an embodiment of the present invention.

Referring to Figure 1, the manufacturing method of the loess mortar according to an embodiment of the present invention is the refining step (S10) for separating the ocher gemstone by particle size, and mixing the ocher powder and additives purified in the refining step (S10) It comprises a mixing step (S20).

Purification step (S10) by diluting the ocher raw material in the brine contained in a container of a predetermined size to separate the diluted ocher powder by particle size and to separate the foreign matter present in the ocher powder.

Here, the ocher powder purified in the refining step (S10) is purified through several steps by the underwater buoyancy purification method.

At this time, the particle size of the ocher powder purified by the underwater buoyancy purification method is preferably 5㎛ ~ 10㎛, the particle size of the ocher powder to be purified in each step is summarized in Table 1 below.

Underwater buoyancy purification stage Particle size of ocher powder Primary refining 30 μm Secondary purification 18㎛ Tertiary tablets 10 탆 4th tablet 8㎛ 5th tablet 5㎛ 6th tablet 3㎛

Here, the underwater buoyancy purification method is easy to separate light and heavy foreign substances contained in ocher ore, not only to extract the ocher powder by particle size according to the precipitation time, but also to purify high purity ocher powder. to be.

In the mixing step (S20), the ocher powder and the additive refined in the purification step (S10) are mixed in a ratio of 1: 1 (50% of ocher powder and 50% of additive).

Here, the additive added to the ocher powder is preferably a grain adhesive so as to improve the adhesion between the ocher particles to improve the adhesion.

Mixing ratio Primary coating layer Second coating layer 3rd application layer Adhesive to wallpaper Ocher powder: additive Application state Bonding state 30:70 Good Bad Bad Good 40:60 Good Good Bad Good 50:50 Good Good Good Good 60:40 Bad Bad Bad Bad 70:30 Bad Bad Bad Bad

That is, referring to Table 2 above, when the additive is mixed in an amount of more than 1: 1 with respect to the ocher powder, a partial flow of the ocher mortar occurs after construction, and the ocher powder is added with respect to the additive 1: If it is mixed at a ratio of 1 or less, it is impossible to apply the loess mortar and the construction becomes impossible.

As such, in the refining step (S10) to increase the purity of the loess powder by removing the foreign matter contained in the loess, the radiation of far-infrared is smoothed, the antibacterial power is improved, in particular by purifying the foreign matter by underwater buoyancy purification method Seamless mixing of ocher powder and additives is possible.

As described above, as a method for constructing the manufactured ocher mortar on the building, referring to FIGS. 2 to 3, first, the reinforcing member attaching step of attaching the reinforcing member S to the wall or the ceiling of the building (S100). ), And the coating step (S200) of applying the loess mortar to a predetermined thickness so that the small particles of loess mortar cover the surface of the reinforcing member (S).

In the reinforcing member attachment step (S100), the ocher mortar does not flow down when the ocher mortar is applied to the wall or the ceiling of the building, and the ocher mortar is cracked by adjusting the shrinkage force, surface tension, and expansion force of the ocher mortar when the ocher mortar is dried. Attach the reinforcing member (S) to prevent.

Such a reinforcing member (S) has a mesh-like structure in which a plurality of lattice is arranged, the material is made of synthetic resin, hemp, cotton, natural fiber, etc., the lattice size of the reinforcing member (S) 3 to 5 It is preferable that it is mm.

The coating step (S200) is the first coating step (S210) and the natural drying after applying the small particles of ocher mortar to cover the surface of the reinforcing member, and on the coating layer coated with ocher mortar in the first application step (S210) A second coating step (S220) of naturally drying the ocher mortar after applying, and a third coating step (S230) of applying the ocher mortar on the coating layer on which the ocher mortar is applied in the second coating step (S220) and then naturally drying it. It is made, including.

Here, the coating thickness of the ocher mortar applied on the reinforcing member S in the first coating step (S210) is preferably 0.8 ~ 1.2mm and the drying time is 6-8 hours.

It is preferable that the coating thickness of the ocher mortar applied in the second coating step (S220) is 2.3 to 2.7 mm and the drying time is 8 to 10 hours.

The coating thickness of the ocher mortar to be applied in the third coating step (S230) is 0.3 to 0.7mm, the drying time is preferably 4 to 6 hours.

As described above, when the ocher mortar according to the present invention is manufactured and constructed in a building, cracks do not occur over time and are not easily broken.

In addition, it generates far-infrared rays after construction, prevents the growth of microorganisms according to the characteristics of the yellow soil with antibacterial ability, improves the efficiency of cooling and heating by excellent heat insulation effect, and has excellent deodorizing effect, so that it has various positive effects on human health. have.

Although the preferred embodiments of the present invention have been described with reference to the accompanying drawings, it will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit of the invention It can be understood that it is possible.

S: reinforcing member
S10: purification step
S20: Mixing Step
S100: reinforcing member attachment step
S200: application step
S210: first application step
S220: second coating step
S230: third application step

Claims (6)

delete delete delete A reinforcing member attaching step of attaching a reinforcing member having a mesh shape formed in a lattice structure on a wall or a ceiling of a building;
And applying the loess mortar to a predetermined thickness so that the small particles of loess mortar cover the surface of the reinforcing member on the reinforcing member attached to the wall or the ceiling of the building.
The application step,
After applying the ocher mortar to the thickness of 0.8 ~ 1.2㎜ on the reinforcing member and the first drying step to naturally dry, and after applying the ocher mortar to a thickness of 2.3 ~ 2.7mm on the first applied coating layer ocher mortar And a second coating step of naturally drying, and a third coating step of naturally drying the ocher mortar to a thickness of 0.3 to 0.7 mm on the second coating layer of the ocher mortar. Construction method of mortar.
delete The method of claim 4,
The lattice size of the reinforcing member is a construction method of ocher mortar, characterized in that 3 to 5 mm in width and width.

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