KR101596384B1 - Edo-friendly insulation structure - Google Patents

Abstract

Disclosed is an eco-friendly insulation structure. The eco-friendly insulation structure of the present invention is a structure using eco-friendly materials. After filling with the eco-friendly materials, an insulating filler, which is sterilized, is placed in the structure to be overlapped. A horizontal lattice and a vertical lattice inside are inserted and combined. The eco-friendly insulation structure of the present invention can sufficiently prevent the insulation filler from escaping or being lost, prevent damage from harmful insects, block noise, and save energy by its insulation function.

Description

{EDO-FRIENDLY INSULATION STRUCTURE}

The present invention relates to a heat insulating structure, and more particularly, to a structure using an eco-friendly material, in which an adiabatic filler filled with an environmentally friendly material is positioned so as to double over the inside of the structure to prevent harmful insects, The present invention relates to an environmentally friendly heat insulating structure having excellent energy saving effect.

Generally, a concrete composition used for a structure such as a wall is manufactured by a method in which a plurality of reinforcing bars are buried in a lateral direction and a longitudinal direction, so that a heat insulating material is not installed inside the wall structure. And then an additional heat insulating material is attached to the inner or outer surface of the wall structure to perform the heat insulation construction of the building.

The wall structure of the building and the building to which the insulation is attached by applying the insulation material The surface of the cement, the insulation material, the paint and the various adhesives forms the surface, and substances harmful to various human bodies such as radon gas, formaldehyde, asbestos, Materials can not easily escape from an enclosed space and have a deleterious effect on the human body.

Accordingly, as shown in FIG. 1, a general eco-friendly building assembly method, which is popular in recent years, is a construction method in which a wall body 10 using an eco-friendly material of a building is produced in a separate place and assembled at a construction site. It can be produced in a place that is easy and less influenced by the external environment, thus it is possible to economically obtain a good quality member, and it is possible to mechanize the work, thereby reducing the overall construction cost, excellent workability and greatly shortening the construction period. I could have expected.

Among the structures used in the environmentally-friendly assembly method, the wall body 10 has a length and a length corresponding to one side of the building, and is fixed to the wall frame 20 having an empty interior by the support frame 21, And then filling the interior of the wall with a filler 30 or an eco-friendly material such as spatula or sawdust.

It is not only beneficial to the human body because it uses natural raw material such as sawdust or safflower, but also has excellent temperature and humidity control ability, can enjoy proper heat insulation effect according to the external temperature, It has the advantage of keeping the indoor environment more comfortable than the style house.

In this case, insects, worms, and insects may breed inside the walls using sawdust or combs. As a general measure, conventional spray type insecticides are used the most, and methods such as incense burning and electronic heating Has been used.

However, among these conventional methods, the use of insecticides has a factor of destroying the environment, which has already inhibited its use in developed countries. The incense burning method has a risk of fire, And there is a problem in use such as the necessity. In addition, there is a problem that insect pests are insect repellent or repellent effect is weak, and diseases are caused by exposure to pests.

In addition, in the conventional method of manufacturing an environmentally friendly heat insulating structure, a wall having an internal space is first applied, and then the interior is filled with sawdust or scabs. According to the skill of the operator and technical personnel, So that there is a problem that the insulation effect of the building is reduced and the cooling / heating ratio is increased and condensation phenomenon occurs.

As shown in FIG. 2, the filler 30 such as sawdust or staple filled in the space has a space 40 of a predetermined height A at the upper end due to the downward deflection due to the load after a predetermined time And gaps (50) of a predetermined height (B) may be formed in the wall due to condensation phenomena caused by changes in temperature during the summer and winter. When the space 40 and the gap 50 are formed, the heat insulation effect of the wall is remarkably deteriorated, and various defects are caused by shrinkage and expansion due to freezing of the water seeped in the space 40 and the gap 50 .

On the other hand, in the case of wood sawdust, which is a byproduct remaining after the tree is turned on at the sawmill, some of the wood sawdust is collected and recycled from the firewood or livestock farmers, but many of them are just being discarded. In view of the above, the above-described use method is not only inefficient, but also has an uneconomical problem such as wasteful use of resources and foreign currency. In addition, when disposing of sawdust, landfill or incineration disposal is very difficult to secure landfill sites as well as expenses for disposal.

Korean Patent No. 10-1436802, (2014.08.27) Korean Registered Patent No. 10-1205008, (2012.11.20)

Accordingly, an object of the present invention to solve such a problem is to provide a structure using an environmentally friendly material, in which an insulating filler, which is sterilized after an environmentally friendly material is filled, is placed so as to overlap with the inside of the structure, The present invention also provides an eco-friendly thermal insulation structure which is capable of sufficiently preventing the detachment or loss of the heat insulating filler, preventing harmful insects, and shielding and insulating the heat insulation.

According to an aspect of the present invention, A heat insulating filler which is located at the top of the front structure and is filled with a filling material containing 70% by volume or more of a narrow gypsum with a width of 2 to 10 mm, a length of 1 to 2 mm and a thickness of 1 to 1.5 mm in a trap net; And a rear structure covering the heat-insulating filler; And a heat-insulating structure.

The adiabatic filler may further include at least one of straw, rice straw or barley straw chopped to a length of 5 cm to 10 cm.

A plurality of transverse grids located at an upper end of the front structure and having a plurality of insertion grooves cut on the upper side and spaced apart from each other; And a plurality of vertical gratings having the same height as that of the horizontal gratings and having a fitting groove fitted in the upper end of the insertion groove to be inserted into the horizontal grating; , And the adiabatic filler may be placed in a receiving space between the horizontal grid and the vertical grid.

Further, the front structure and the rear structure may be composed of any combination of at least one of green, oak, stone, wood, wood, and charcoal.

Further, the front structure and the rear structure are characterized by being any one of a squirrel tree, pine tree, bamboo tree, and paulownia tree.

The sum of the depths of the insertion grooves and the fitting grooves may be equal to the height of the horizontal grid or the vertical grid.

The first and second vertical gratings may include a plurality of insertion grooves formed at an upper side of the second horizontal grid, and the second vertical grid may be formed at the upper end of the vertical grid, Wherein the first horizontal grid and the second vertical grid are formed in a manner such that an insertion groove is formed at an upper end of the insertion groove so as to be inserted into the second horizontal grid, And the second vertical grid are arranged to be offset from each other, and the heat insulating filler may be disposed in the second accommodation space between the second horizontal grid and the second vertical grid.

In addition, the horizontal grid and the vertical grid have a synthetic water quality and a plurality of through holes may be formed therein.

According to the eco-friendly thermal insulation structure of the present invention described above, the heat insulating filler having a predetermined size of curved narrow bobbins is entangled with each other, so that a large number of air layers are formed in the heat insulating filler to prevent sagging even after a long period of time , The overall load is reduced, so that the construction can be carried out easily, and the insulation effect can be further enhanced.

In addition, it is possible to easily construct the structure in a short time in accordance with the actual situation of the site, and it is possible to save time and labor cost by constructing the structure in a single place directly in the field, thereby reducing the construction cost. In addition, it is possible to increase the lifetime of the building by lightening the load, reduce the heating cost, and improve the durability against impact by the inner grid.

In addition, the sterilizing-treated eco-friendly material excellently removes moisture and deodorant, cleans the indoor air, prevents fungus and insect habit, promotes metabolism by the active energy of the human body, There is an effect that can be.

1 is a perspective view showing a conventional eco-friendly heat insulating structure.
2 is a cross-sectional perspective view of the environmentally-insulated structural body of FIG.
3 is an exploded perspective view showing a configuration of an environmentally friendly thermal insulating structure according to the present invention.
Fig. 4 is a perspective view showing the adiabatic filler of Fig. 3; Fig.
5 is an exploded perspective view showing the construction of an environmentally friendly thermal insulating structure according to an embodiment of the present invention.
6 is a perspective view taken along line AA in FIG.
7 is a perspective view showing a lattice in the constitution of an environmentally friendly thermal insulating structure according to another embodiment of the present invention.
8 is a perspective view illustrating a dome-type environmentally friendly thermal insulation structure according to another embodiment of the present invention.

For a better understanding of the present invention, a preferred embodiment of the present invention will be described with reference to the accompanying drawings. The embodiments of the present invention may be modified into various forms, and the scope of the present invention should not be construed as being limited to the embodiments described in detail below. The present embodiments are provided to enable those skilled in the art to more fully understand the present invention. Therefore, the shapes and the like of the elements in the drawings can be exaggeratedly expressed to emphasize a clearer description. It should be noted that in the drawings, the same members are denoted by the same reference numerals. Further, detailed descriptions of well-known functions and configurations that may be unnecessarily obscured by the gist of the present invention are omitted.

3, the eco-friendly thermal insulation structure 100 of the present invention includes a rectangular forward structural body 110 and a plurality of projections 110a and 120b which are positioned in the horizontal direction (drawing direction) inside the upper end of the forward structural body 110, A plurality of horizontal grooves 120 spaced apart from each other and having a plurality of insertion grooves 121 cut on the upper side thereof and a plurality of insertion grooves 121 having the same height as the horizontal grid 120, A plurality of vertical gratings 130 formed with a fitting groove 131 so as to be fitted to the upper end of the horizontal grid 120 and a vertical grating 130 and a heat insulating filler 140 positioned in the space S between the horizontal grid 120 and the vertical grid 130, And a rear structure 150 covering the heat insulating filler body 140 at an upper end thereof with the same size as the front structural body 110.

3, the upper and lower concepts of the eco-friendly thermal insulation structure 100 are described with reference to a state in which the eco insulation structure 100 is laid horizontally for convenience of explanation. In the eco-insulation structure 100 Is not a method of vertically standing up and filling a material at the upper end, but it can be used as a wall standing vertically after the assembly is completed by being laid horizontally, and also used as a roof or a floor in a laid-down state.

In this case, the front structural body 110 and the rear structural body 150 may be formed of a combination of any one or more of eco-friendly materials such as jade, stone, loess, wood, wood and charcoal, It is appropriate to use wood as the main material.

When the front structural body 110 and the rear structural body 150 are made of an eco-friendly material, any one of a squirrel tree, a pine tree, a bamboo tree, and a paulownia tree may be used. Preferably, Using the raw cotton, it can be expected to be strong in the moisture of the wood itself and purify the environmental hormone.

A predetermined accommodation space S is formed on the upper side of the front structural body 110 by the horizontal grid 120 and the vertical grid 130 to locate the heat insulating filler 140. In this case, 121 and the fitting grooves 131 are connected to each other so that the stacking state of the vertical gratings 130 can be stably maintained at the upper end of the horizontal gratings 120. [ Accordingly, it is possible to sufficiently prevent the separation or loss of the heat insulating filler 140 located in the receiving space S inside the horizontal grid 120 and the vertical grid 130. And can be fixed using a nail fixing member so that the insertion groove 121 is not separated from the fitting groove 131.

In this case, the sum of the depths of the insertion groove 121 and the fitting groove 131 is equal to the height of the horizontal grid 120 or the vertical grid 130 so that the horizontal grid 120 or the vertical grid 130, So that the rear structural body 150 can be firmly coupled without any clearance at the upper side thereof. Therefore, the depths of the insertion groove 121 and the fitting groove 131 are not necessarily the same, and it is preferable that the depths of the insertion groove 121 and the fitting groove 131 are different from each other.

Also, in the figure, a plurality of storage spaces S separated by the horizontal grid 120 and the vertical grid 130 are arranged to have a rectangular lattice structure, It can be changed in any form such as triangle, circle, rhombus, and diamond. For this purpose, the horizontal grating 120 and the vertical grating 130 may be arranged in a comb shape instead of horizontally and vertically.

Since the height of the horizontal grid 120 and the vertical grid 130 are somewhat lower than the length of the horizontal grid 120, the height of the heat-insulating filler 140 positioned in the accommodation space S is also low, It can be a hexahedral shape. In this case, if the height of the horizontal grid 120 and the vertical grid 130 is high, warpage, expansion and contraction of the environmentally friendly thermal insulation structure 100 can be prevented to some extent, but the thickness of the environmentally insulating thermal insulation structure 100 becomes thick It is appropriately selected at design time.

If the height of the heat insulating filler body 140 is too high than the height of the horizontal grid 120 and the vertical grid 130, it is difficult to assemble the backplane 150 So that it can be filled tightly in the inside of the accommodation space S.

In this case, as shown in FIG. 4, the adiabatic filler body 140 is formed by pouring fill material mixed with sawdust, coarse rice, or narrow coarse rice produced in mud, loess, rice straw and sawmill into a mesh, Lt; / RTI >

In addition, the heat-insulating filler 140 may be filled with a small sized rice bowl (not shown) having a size smaller than that of ordinary rice balls. The narrow rice bowl may have a size of 2 to 10 mm in width, 1 to 2 mm in length, ~ 1.5 mm. The shape of the air layer is curved so that the air layer is formed more than the ordinary rice balls. Also, since a large number of air layers are formed, sagging phenomenon is prevented even after elapse of a long time, and the overall load is also reduced, thereby enabling easy construction.

Therefore, it is preferable that the insulating filler 140 is filled with chopped straw, rice straw or barley straw in a total length of not less than 70 volume% and less than 5 cm to 10 cm in length. If the amount of the above-mentioned small pieces of coarse rice is less than 70% by volume, the effect of increasing the bonding force between the respective filling materials is insufficient, and the unit price of the product due to the addition of a small amount of the small amount of the small-

The straw, the rice straw or the barley straw is a cylindrical shape having a space in the inside thereof. The straw, the rice straw or the barley straw helps to maintain the formation of a narrow space in the inside of the heat insulating filler 140. In case of chopping length of 5 cm or more, It may not look good on the pavement.

In order to prevent insects, 80% or more of parasites or fungi in the sawdust are removed by dry sterilization, ultraviolet sterilization, hot air sterilization at a place where sunlight is well suited for insect filling material 140, Freeze-disinfection operation.

Therefore, it is effective to remove moisture and deodorant by the sterilized filling material, and it cleans the indoor air. It prevents fungus and insect habit, promotes metabolism by human active energy, There is an advantage to be able to.

Further, the heat insulating filler (140) has an advantage of the combed rice having the excellent antibacterial power and the cleansing power as the main component of the heat-insulating filler (140), and doubles the rice flour as a specific eco-friendly natural sub ingredient to further improve the low affinity And further, the antibacterial ability from the heat insulation, the sound absorption property and the insect pest is further improved.

Therefore, the eco-friendly thermal insulation structure 100 of the present invention takes environmental considerations into consideration, has a function of preventing the damage and decay of pests which may accompany it, and is excellent in energy saving effect by ultraviolet rays, noise shielding, It absorbs ultraviolet rays and harmful rays of sunlight and emits far infrared rays of negative ions to kill germs in the room and provide benefits to human body.

In addition, the present invention utilizes sawdust of a sawmill, which is not recycled in the prior art and is mostly buried in the ground, to be used as a material for building materials, and the advantages of reducing the landfill cost and land purchase cost In addition, there is an advantage that the profit of sales of the building materials using this can be increased.

5, the eco-friendly thermal insulation structure 100 includes a second lateral grid 220 and a second lateral grid 220 on the top of the interfitted horizontal grid 120 and the vertical grid 130, A second longitudinal grid 230 may be further included and an adiabatic filler 140 may be located in the second accommodation space S2 between the second lateral grid 220 and the second vertical grid 230. [ have.

In this case, the horizontal lattice 120 and the second horizontal lattice 220, and the vertical lattice 130 and the second vertical lattice 230 are staggered from each other. More specifically, 2 vertical grid 230 are located at the center of the accommodation space S, the heat insulating effect can be further enhanced.

That is, as shown in FIG. 6, when the eco-friendly thermal insulation structure 100 according to the present invention is vertically erected, it is possible to block external heat by the heat insulating filler 140 positioned alternately in two directions. In addition, even if the heat insulating filler body 140 is deflated to some extent after a lapse of a predetermined time, it is possible to block horizontal direct blowing due to staggered double placement, and the heat insulating effect can be further doubled.

Likewise, the second horizontal grid 220 includes a plurality of insertion grooves 221 cut on the upper side, and the second vertical grid 230 is inserted into the insertion grooves 220 And a heat insulating filler 140 is disposed in the receiving space S2 inside the second transverse grating 220 and the second transverse grating 230, It is possible to sufficiently prevent the detachment or loss of the battery.

In the case where the horizontal grid 120 and the vertical grid 130 are made of wood, when the environmentally friendly thermal insulation structure 100 is used upright due to inherent characteristics of the tree, contraction deformation due to environmental factors such as temperature and humidity The accommodating space S after being shrunk is entirely downward deflected so that the adiabatic filler 140 positioned in the accommodating space S is also submerged, Space may be generated and the heat insulating effect may be deteriorated.

In addition, the horizontal grid 120 and the vertical grid 130 may be shrunk to cause deformation or breakage of the structure, which shortens the life and function of the wooden house as a whole.

7, the horizontal lattice 120, the vertical lattice 130, the second horizontal lattice 220, the second vertical lattice 230, and the second vertical lattice 230 may be formed in the same manner as in the first embodiment of the present invention. May be a synthetic resin grid 320 having synthetic water.

In detail, the synthetic resin grid 320 has a constant relative weight due to the characteristics of materials, excellent heat insulation and warmth, low cost, excellent bending strength and structural strength. Also, since the shrinkage expansion rate according to the temperature change is low, it is possible to sufficiently prevent the detachment or loss of the heat insulating filler body 140 after long use.

In addition, the synthetic resin grid 320 may have a plurality of through holes 322 formed therein to realize weight reduction. Further, the synthetic resin grid 320 may have a fitting hole 321 formed on one side thereof, , It becomes possible to engage with each other between the grids.

8, the eco-friendly thermal insulation structure manufactured as a dome-shaped structure includes an oblong shaped front glass structure 510 and an upper upper portion of the oblong inner structure 510. [ An oblique horizontal grid 520 having a plurality of obliquely arranged insertion grooves 521 spaced from each other and fixed at an upper side and positioned at an outer circumferential direction in the vertical direction (upward direction in FIG. 8) A plurality of vertical gratings 530 having the same height as the horizontal transverse grating 520 and having a fitting groove 531 formed to fit into the upper end of the insertion groove 521, A heat insulating filler 140 positioned in the third accommodation space S3 between the grids 530 and an arcuate oblique rear structural body 140 having the same size as the front structural body 510 and covering the heat- (550).

The present invention having such a structure as described above can be manufactured quickly and easily at a low cost because of its simple structure, and it is possible to obtain a sufficient health promotion effect by the heat insulating effect and green factor of sawdust, It is possible to utilize it in a stable manner at the time of landfilling.

It should be noted that the embodiments of the environmentally friendly thermal insulation structure of the present invention described above are merely illustrative and that those skilled in the art will appreciate that various modifications and equivalent embodiments are possible without departing from the scope of the present invention. It will be possible. Therefore, it is to be understood that the present invention is not limited to the above-described embodiments. Accordingly, the true scope of the present invention should be determined by the technical idea of the appended claims. It is also to be understood that the invention includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

100: eco-friendly thermal insulation structure 110: front structure
120: horizontal grid 121, 521: insertion groove
130, 530: vertical grid 131, 531:
S: accommodation space 140: adiabatic filler
150: rear structure 220: second lateral grating
230: second vertical grating 510:
520: an oblique horizontal grid 550: an oblique rear structure
S2: second accommodation space S3: third accommodation space

Claims (9)

A rectangular forehead structure 110,
A plurality of horizontal gratings 120 located at the upper end of the front structural body 110 and having a plurality of insertion grooves 121 cut on the upper side and spaced apart from each other,
A plurality of vertical gratings 130 formed with a fitting groove 131 inserted into the upper end of the insertion groove 121 to be fitted into the horizontal grid 120,
An insulating filler 140 positioned in the space S between the horizontal grid 120 and the vertical grid 130,
And a rear structure 150 covering the horizontal grid 120, the vertical grid 130, and the heat insulating filler 140,
The heat-insulating filler (140)
A filling material containing not less than 70% by volume of a narrow briquettes having a width of 2 to 10 mm, a length of 1 to 2 mm and a thickness of 1 to 1.5 mm is poured into a mesh net,
Wherein the remainder further comprises at least one of sawdust, chopped straw, rice straw or barley straw having a length of 5 cm to 10 cm. delete delete The method according to claim 1,
The front structural body 110 and the rear structural body 150,
An eco-friendly insulating structure composed of any combination of at least one of eco-friendly materials such as jade, stone, loess, wood, wood and charcoal. The method according to claim 1,
The front structural body 110 and the rear structural body 150,
Wherein the plant is one of a bamboo tree, a pine tree, a bamboo tree, and a paulownia tree. The method according to claim 1,
The sum of the depths of the insertion groove 121 and the fitting groove 131,
Is formed to be equal to the height of the horizontal grid (120) or the vertical grid (130). A rectangular forehead structure 110,
A plurality of horizontal gratings 120 located at the upper end of the front structural body 110 and having a plurality of insertion grooves 121 cut on the upper side and spaced apart from each other,
A plurality of vertical gratings 130 formed with a fitting groove 131 inserted into the upper end of the insertion groove 121 to be fitted into the horizontal grid 120,
An insulating filler 140 positioned in the space S between the horizontal grid 120 and the vertical grid 130,
And a rear structure 150 covering the horizontal grid 120, the vertical grid 130, and the heat insulating filler 140,
A second transverse grating 220 and a second transverse grating 230 are formed on the top of the transverse grating 120 and the vertical grating 130,
The second lateral grating 220 is provided with a plurality of insertion grooves 221 cut on the upper side,
The second vertical grid 230 is formed with a fitting groove 231 to be fitted into the upper end of the insertion groove 221 so as to be inserted into the second horizontal grid 220,
The vertical grid 130 and the second vertical grid 230 are alternately arranged such that the intersection of the second horizontal grid 220 and the second vertical grid 230 is located at the central point of the accommodation space S ,
Wherein the heat insulating filler (140) is positioned in a second accommodation space (S2) between the second lateral grid (220) and the second vertical grid (230). The method of claim 1 or claim 7,
The horizontal lattice 120 and the vertical lattice 130 may be formed by,
And a plurality of through holes (322) are formed in the interior of the eco-friendly heat insulating structure. delete

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