KR19980038092A - Yellow clay construction structure using mica crushed stone and its construction method - Google Patents

Abstract

The present invention relates to a yellow clay construction structure using ocher, and in particular, the mica crushed stone is installed at a predetermined height on the entire surface of the concrete base to be constructed, and hot water pipes are arranged at regular intervals on the upper surface thereof, and hot water pipes are arranged. The present invention is to put the mica crushed stone in the space part again to suppress the flow of the pipe, and then to laminate the ocher layer mixed with the crushed mica particles on the upper side thereof. In other words, by reproducing the far-infrared radiation effect, it is possible to maintain a comfortable living space.

Description

Yellow clay construction structure using mica crushed stone and its construction method

The present invention relates to an ocher room construction structure using ocher, and in particular, to construct a loess room construction structure using mica crushed stone to maintain a comfortable living space by regenerating heat storage and far-infrared radiation effects of conventional ondol in a modern residential environment. It is about a method.

Due to the urban concentration of the population and the limitation of limited housing space, housing is now losing its function as a safe home. In other words, as the residential environment was changed to accommodate a large population in a limited space, the structure pursued higher floors, and as the gap between industrial specialization and economic class became larger, even neighboring interests understood this as interference. Due to the habit of living, the blocking of living space is progressing rapidly.

In other words, in the case of apartments, which are the typical residential forms of modern people, most of them are made of concrete walls, they only play a role of dividing the space, but the thermal conductivity is greatly reduced, and the supply of intelligence is blocked as it is far from the ground. By living in the form of being exposed to electromagnetic waves as it is, the resistance to disease is greatly reduced.

Therefore, the movement to return to the environment of traditional hanok has been actively performed recently. As an example, the construction method for constructing ocher on the concrete floor is widely used. According to this construction method, a certain height of gravel was laid on the concrete floor, and a hot water pipe was constructed thereon, and then the loess was covered with a certain thickness so that the warmth was transmitted to the skin.

However, the floor surface constructed in this way is not able to provide more than the role and function of the concrete packed with ocher, which is that the ocher constituted layered on the concrete hardens over time, causing cracks. Due to the thermal expansion, the gap progresses to a greater extent, which leads to various problems such as not only the thermal conductivity is lowered, but also the noise is transferred to the upper portion.

The present invention has been proposed in order to solve these problems, the main purpose is to provide a loess room closest to the traditional hanok structure so that the living environment can be maintained as a high quality rest space.

Another object of the present invention is to provide a high quality ocher construction structure that is easy to construct and semipermanently maintained.

1 is a cross-sectional view illustrating the installation structure of the ocher earth construction of the present invention

Explanation of symbols for main parts of the drawings

10; Concrete substrate, 12; Insulation, 14; Heat shield, 16; Mica crushed stone, 18; Hot water pipe, 20; Ocher layer, 22; Mica particles, 24; Ocher,

The present invention for achieving the above objects effectively, and the mica crushed stone is installed at a predetermined height over the entire surface of the concrete base to be constructed; Hot water pipes disposed at regular intervals on an upper surface thereof; A mica body stone placed in a space portion in which a hot water pipe is arranged; And, it is characterized by consisting of an ocher layer laminated on top and mixed with crushed mica particles small.

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

The accompanying drawings show a preferred construction cross section of the loess of the present invention, the bottom of the structure to be constructed. In other words, while maintaining a constant indoor temperature on the concrete base layer 10, which maintains a smooth bottom surface, the insulating material 12 is laminated to effectively protect the upper layer from the outside air.

If the ground of the structure to be installed is a solid ground constructed of lightweight concrete, the structure of the heat insulating material 12 may be omitted, but the heat insulating layer 12 is configured to obtain a more stable ondol effect.

The heat storage plate 14 is covered with an upper surface of the heat insulation layer 12. The heat storage plate 14 covering the top of the heat insulation layer 12 prevents heat generated from the upper layer portion from being lowered to the bottom and at the same time. An aluminum sheet may be preferably used as it plays an important role in supplying radiant heat to the upper layer.

Thus, the mica crushed to a certain size is evenly spread on the upper surface of the heat storage plate 14 completed. At this time, the mica crushed stone 16 is composed of quartz, dolomite, biotite as main constituent minerals, and a large amount of germanium as a mineral containing trace amounts of feldspar, tourmaline, zecon, garnet, phosphorus and opaque minerals. It should contain

The particle size of such mica crushed stone 16 is preferably maintained in a size of about 8 to 25mm, the construction height is to be constructed so as to maintain a thickness of 20 to 45mm. Mica crushed stone (16) consisting of the above components have a predetermined far-infrared radiation effect, heat storage effect, sound insulation effect, etc., when the particle size is 8mm or less, heat radiation effect and radiation effect is reduced, and the particle size is 25mm This is because the heat storage effect is lowered due to excessive space.

Then, the hot water pipes 18 are arranged on the upper portion of the mica crushed stone 16 at regular intervals, and the mica crushed stone 16 is placed again in the space in which the hot water pipes 18 are arranged so that the flow of the pipe is suppressed. do.

In this way, water is sufficiently injected into the upper portion of the hot water pipe 18 whose flow is suppressed by the body stones so that the mica crushed stone 16 can contain an appropriate amount of water, and then the crushed mica particles 22 smaller than the upper side thereof. ), The ocher layer 20 is mixed to a thickness of 25 ~ 30mm.

The ocher layer 20 is a mixed material kneading a mixture ratio of mica particles 22 and ocher in a mixing ratio of 4: 6 to 5: 5, which maintains various particle sizes of 0.5 to 15 mm, in the space of the mica crushed stone 16. It is desirable to keep it thick so that it can be compacted while being filled sufficiently. The mica particles 22 mixed with ocher not only have excellent thermal conductivity, but also have a relatively low coefficient of thermal expansion, so that the ocher layer 20 can maintain a predetermined strength and suppress cracking during drying. In addition, in order to reduce the air by increasing the adhesive force of the ocher layer 20 and shortening the curing time, in order to mix cement in the mixed material, a particle size of 0.5 to 10 mm or 0.5 mm or less Excitation fine mica particles 22 can be used.

Through this process, the ocher layer 20 formed on the mica crushed stone 16 is slowly dried at a temperature of 15 to 30 ° C. In this drying process, fine cracks may occur on the surface of the ocher layer 20, which is not a progressive crack but a minimal surface change due to moisture drying. Therefore, the crack part may be left as it is, but it is preferable to lightly coat the ocher solution 24 on the dried surface in order to improve the commercial property.

As described in detail through the above embodiment, the mica crushed stone is installed at a predetermined height on the entire concrete base surface to be constructed, and hot water pipes are arranged at regular intervals on the upper surface thereof, and the hot water pipes are arranged in the space part again. The present invention is to put the mica crushed stone to suppress the flow of the pipe, and then to laminate the ocher layer mixed with the crushed mica particles on the upper side, the heat storage and far-infrared radiation effect of conventional ondol in modern residential environment By reproducing to maintain a comfortable living space.

Claims (7)

Mica crushed stone 16 which is installed at a predetermined height over the entire surface of the concrete base layer 10 to be constructed; Hot water pipes 18 disposed on the upper surface at regular intervals; A mica body stone placed in the space portion in which the hot water pipe 18 is arranged; And, the ocher layer 20 is laminated on the upper side and mixed with the crushed mica particles 22 small; Ocher construction using mica crushed stone, characterized in that consisting of. According to claim 1, wherein the ocher layer (20) is a mica, characterized in that the kneading mixture of mica particles 22 and the loess maintaining a particle size of 0.5 to 15mm at a mixing ratio of 4: 6 to 5: 5. Yellow clay construction structure using crushed stone. According to claim 1, wherein the mica crushed stone 16 is composed of quartz, dolomite and biotite as main constituent minerals, and includes minerals containing trace amounts of feldspar, tourmaline, zecon, garnet, phosphorus and opaque minerals. Ocher construction using mica crushed stone, characterized in that it contains a large amount of germanium. Spreading mica evenly crushed to a predetermined size on a concrete base to be constructed to a predetermined height; Arranging hot water pipes at regular intervals on top of the mica crushed stone; Placing mica crushed stone back into the space in which the hot water pipes are arranged so that the flow of the pipe is suppressed; Spraying water sufficiently above the hot water pipe whose flow is inhibited by the siemstone so that the mica crushed stone can contain an appropriate amount of water; Stacking the ocher layer having smaller crushed mica particles on the upper side to a thickness of 25 to 30 mm; A drying step of slowly drying the ocher layer formed on the mica crushed stone at a temperature of 15 to 30 ° C. through such a process; Ocher construction method using mica crushed stone characterized by consisting of. The method of claim 4, further comprising laminating an insulating material on the concrete base layer to be constructed and covering the heat storage plate on an upper surface thereof. The method of claim 4, wherein the particle size of the mica crushed stone is maintained at about 20 to 25 mm, and the construction height is 20 to 45 mm to maintain the thickness. 5. The method of claim 4, further comprising the step of lightly coating the ocher solution on the surface of the ocher layer generated during the drying process.