KR101001769B1 - the finishing construction with prevention of dew condensation effect for underground structure - Google Patents

Abstract

The present invention relates to a finishing method of an underground structure having a condensation preventing effect, the rod-shaped spacer 10 is integrally attached to the reinforcement (11) (11 ') on both sides of the heat insulating material (12); It is provided with a plate-shaped finish panel 20 to which the finishing board 21 and the insulation board 22 are integrally attached; A surface cleaning step (S1) for removing foreign matter on the wall surface of the underground structure to be constructed; Spacer attachment step (S2) for attaching a plurality of the spacer 10 with an adhesive 30 on the surface of the structure of the underground structure; While attaching the finishing panel 20 to the attached spacer 10 with an adhesive (30 '), and finished with the finishing panel attachment and fixing process (S3) for fixing the finishing panel 20 with the fixing member 40 Since the spacer 10 and the finishing panel 20 are easily attached by the adhesive 30, 30 ′, the finishing construction of the underground structure is easy, and the air is shortened, and the underground structure and the finishing panel ( Condensation of the underground structure can be prevented by heat insulation between the air layer 20 and the heat insulation board 22 of the finishing panel 20.

Finishing, panels, boards, condensation prevention, underground structures, adhesives, cement, insulation

Description

{The finishing construction with prevention of dew condensation effect for underground structure}

The present invention relates to a finishing method of an underground structure having a condensation preventing effect, the bar-shaped spacer having a reinforcing material integrally attached to both sides of the heat insulating material; A plate-shaped finishing panel is provided; Uniformly clean the wall surface of the underground structure, remove foreign matter; Placing the spacer on the surface of the cleaned underground structure and attaching the spacer at regular intervals with an adhesive; While attaching the finishing panel to the attached spacer with an adhesive, it is completed by fixing the finishing panel with a fixing member, the fixing of the spacer is easily made by the adhesive, it is easy to finish the construction of the underground structure, the air is shortened By condensing the air layer between the underground structure and the finishing panel and the finishing panel, condensation of the underground structure can be prevented.

In general, underground structures include underground parking lots, underground warehouses, underground malls, and the surface of these underground structures is likely to cause condensation due to temperature differences between the exterior and the interior. Since the water generated by the phenomenon is not easily removed due to the nature of the underground space, there are many ways to fundamentally prevent the occurrence of such condensation.

Among many methods of preventing condensation of underground structures, heat insulation walls such as walls and panels are erected at regular intervals on the walls of underground structures to form condensation walls that form an air layer between the walls and the insulation walls to prevent condensation. .

In order to form a heat insulating wall for the double wall, a brick is conventionally formed to form a heat insulating wall.

In addition, as a method of forming a double wall, a support such as a separate square pipe or channel is formed, the support is fixed to the wall with a nail or an anchor, and the heat insulation panel is fixed to the support to form a heat insulation wall. There is a way.

In addition, in recent years, such as the 'underground wall finishing member and construction method thereof' disclosed in the Korean Patent Registration No. 0703515, a method of installing the panel at a predetermined interval by using a finishing member composed of various members is provided at a predetermined interval. Is disclosed.

In addition, as in the 'internal wall panel installation structure of the underground double wall' disclosed in the Korean Utility Model Registration No. 0430324, a vent board and an inner wall board are formed inside, and a runner is installed in an underground structure, and the vent board and A method of connecting the inner wall plate and the ventilation plate by a joint member composed of various frames while providing the inner wall plate is disclosed.

However, the method of forming the air layer while forming the double wall has a problem that the method of laying bricks takes a lot of time, and the method of installing the support takes a lot of time and requires a lot of manpower. And, while installing the support to damage the wall of the existing underground structure, since the support is usually a metal material, there is a problem that the problem occurs in durability and strength because it is corroded over time.

In addition, when using the finishing member, or when using the ventilation plate and the inner wall plate, many and various parts for the panel installation is necessary, the installation structure is complicated, a skilled person is required to install the product, There was a problem that the unit price was high.

Therefore, the present invention, in order to solve the above problems, the bar-shaped spacer having a reinforcing material attached to both sides of the heat insulating material; A plate-shaped finishing panel is provided; Placing the spacer on the surface of the underground structure to be constructed and attaching the adhesive at regular intervals; While attaching the finishing panel to the attached spacer with an adhesive, it is completed by the fixing of the finishing panel with a fixing member, the fixing of the spacer is easily made by the adhesive, it is easy to finish the construction of the underground structure, shorten the air And, by the air layer between the underground structure and the finishing panel, by the insulation by the finishing panel, to prevent condensation of the underground structure.

In addition, the reinforcing material of the spacer is used by cutting the seed board or cement board excellent in strength and water resistance, the reinforcement board of the finishing panel, inorganic lightweight boards such as seed board, calcium board, magnesium board, silica silica board Alternatively, the cement board may be used alone, or a finishing panel having a structure in which an insulation board is integrally attached to the finishing board as described above may be used, or the finishing board may be integrally attached to both surfaces of the insulation board. Old finish panels are used to increase insulation, durability and strength.

Therefore, the present invention, the bar-shaped spacer having a reinforcing material attached to both sides of the heat insulating material; A plate-shaped finishing panel is provided; Placing the spacer on the surface of the underground structure to be constructed and attaching the adhesive at regular intervals; While attaching the finishing panel to the attached spacer with an adhesive, it is completed by the fixing of the finishing panel with a fixing member, the fixing of the spacer is easily made by the adhesive, it is easy to finish the construction of the underground structure, shorten the air And, by the air layer between the underground structure and the finishing panel, by the insulation by the finishing panel, there is an effect of preventing condensation of the underground structure.

In addition, the reinforcing material of the spacer is used by cutting the seed board or cement board excellent in strength and water resistance, the reinforcement board of the finishing panel, inorganic lightweight boards such as seed board, calcium board, magnesium board, silica silica board Alternatively, the cement board may be used alone, or a finishing panel having a structure in which an insulation board is integrally attached to the finishing board as described above may be used, or the finishing board may be integrally attached to both surfaces of the insulation board. Using a finish panel of the old type, the heat insulation is increased, and the durability and strength are high.

The present invention relates to a finishing method of an underground structure having a condensation preventing effect, the rod-shaped spacer 10 is integrally attached to the reinforcement (11) (11 ') on both sides of the heat insulating material (12); It is provided with a plate-shaped finish panel 20 to which the finishing board 21 and the insulation board 22 are integrally attached; A surface cleaning step (S1) for removing foreign matter on the wall surface of the underground structure to be constructed; Spacer attachment step (S2) for attaching a plurality of the spacer 10 with an adhesive 30 on the surface of the structure of the underground structure; While attaching the finishing panel 20 to the attached spacer 10 with an adhesive (30 '), and finished with the finishing panel attachment and fixing process (S3) for fixing the finishing panel 20 with the fixing member 40 Since the spacer 10 and the finishing panel 20 are easily attached by the adhesive 30, 30 ′, the finishing construction of the underground structure is easy, and the air is shortened, and the underground structure and the finishing panel ( By the insulation between the air layer 20 and the insulation board 22 of the finishing panel 20, condensation of the underground structure can be prevented.

When the structure of the spacer 10 and the finishing panel 20 according to the present invention is roughly described with reference to Figures 2 and 3, first, the spacer 10 is formed in a long rod shape in the longitudinal direction, the heat insulating material (12) It is the structure which attached reinforcement material 11 (11 ') to both surfaces.

In addition, the heat insulating material 12 of the said spacer material 10 uses normal foamed polystyrene, or it is used by having a fireproof coating coated on the unit particle of foamed polystyrene, and having flame retardancy, Moreover, in the surface of the said heat insulating material Formed with fine bends or rough surfaces, the surface area is increased, so that the reinforcement 11 (11 ') is firmly fixed to the heat insulator by the adhesive.

The reinforcement materials 11 and 11 ′ attached to both surfaces of the heat insulating material 12 protect the heat insulating material 12 and have an overall appearance and strength, and include a seed board (CRC board, fiber reinforced cement). Reinforcement material (11 ') (11') which processed the board of non-flammable material which does not burn in fire, such as board) and cement board, and has high strength, high water resistance and does not lose strength even in moisture and maintains appearance When the reinforcing material (11) (11 ') attached to each side of the heat insulating material (12) with an adhesive, respectively, constitutes the spacer 10 in the form of a rod, the length of the spacer 10 is applied, It is desirable to form at the height of the walls of the underground structure.

Next, the finish panel 20 is formed in a plate shape, according to the structure, has three embodiments, the first embodiment of the finish panel 20, shown in Figures 2 to 4 As described above, the insulating board 22 has a structure in which finish boards 21 and 21 'are attached to both surfaces.

When explaining the heat insulation board 22 and the finishing board 21, 21 'in detail, the heat insulation board 22 is made of a conventional foamed polystyrene, or fire-resistant coating is coated on the unit particles of the foamed polystyrene flame retardant It is used to have, and the surface of the heat insulator is formed with a fine curved or rough surface, to increase the surface area, so that the finishing board 21 (21 ') is firmly fixed to the heat insulating board 22 by the adhesive.

The finishing boards 21 and 21 ′ attached to both sides of the insulation board 22 protect the insulation board 22 and have an overall appearance and strength, and include a seed board (CRC board, fiber). Inorganic lightweight boards such as reinforced cement boards), calcium boards, magnesium boards, and silica sand boards, or finishing boards 21 in a state in which a board of a non-flammable material having high strength is burned without being burned, such as a cement board. (21 '), by using an adhesive on both sides of the insulating board 22, the finishing boards 21 (21') are attached, respectively, to form a plate-shaped finishing panel 20.

Subsequently, as shown in FIG. 5, the second embodiment of the finishing panel 20 has a structure in which the insulating board 22 and the finishing board 21 are attached, and the insulating board 22 and the finishing board ( The material and structure of the 21 is the same as the heat insulating material 21 and the finishing board 21 (21 ') of the finishing panel 20, according to the first embodiment.

And the third embodiment of the finish panel 20, as shown in Figure 6, consisting of a finish board 21, the material and structure of the finish board 21 according to the first embodiment, finish It is the same as the finishing boards 21 and 21 'of the panel 20.

On the other hand, the outer surface of the finishing board 21, 21 'of the finishing panel 20, a coating layer may be further formed, the coating layer is heat resistance of each outer surface of the finishing board (21) (21') In order to increase, the coating layer is formed by a method such as ceramic coating, fluorine resin coating, or fluorine ceramic coating to increase heat resistance and make the appearance beautiful.

Next, with the spacer 10 and the finishing panel 20, the finishing method of the underground structure having a condensation prevention effect will be described sequentially by the process diagram of FIG.

First, the finishing method of the underground structure having the anti-condensation effect, the construction of the general underground structure, for example, underground parking lot, underground shopping mall, underground warehouse, underground machine room, such as the construction of the underground wall surface where condensation can easily occur It is.

First, the surface cleaning step (S1) is a process of cleaning the surface of the underground structure, that is, the wall surface. If there is a protruding part, the nail is removed, and the nail is removed. The surface is uniform throughout, and the surface of the structure itself to clean up so that there is no foreign matter, for reference, the surface of the underground structure is preferably installed in a state that is waterproofed by a waterproofing agent or the like.

And the spacer attachment step (S2), as shown in Figure 2, is a step of attaching the spacer 10 provided on the surface of the structure arranged in a predetermined interval using the adhesive 30, the underground structure The width of the spacer 10 is to be attached upright along the entire height of the wall (standing upright to the floor, rather than attaching horizontally, the workability is better, it is advantageous to reinforce the strength of the structure), or While maintaining the spacing slightly wider than the width, the adhesive 30 for attaching the spacer 10 is preferably a cement adhesive, even if the wall is somewhat uneven, the adhesive applied to the spacer 10 ( By adjusting the thickness to apply 30, the spacer 10 can be attached perpendicular to the basement floor.

Subsequent finishing panel attaching and fixing process (S3) is a step of attaching the provided finishing panel 20 while applying the adhesive 30 ′ to the attached spacer 10. Attachment is preferably carried out after the adhesive 30 applied for curing the spacer 10 is hardened, and the finishing panel 20 is weighted, nails, pieces, while attaching the finishing panel 20 By fixing with a fixing member 40, such as Taka, to fix the finishing panel 20 until the adhesive (30 ') is cured, the fixing member 40 is good in appearance because it does not appear from the outside, It is preferable to use a taka that does not appear outside even after fixing.

As described above, when the finishing panel 20 is attached and fixed by using the adhesive 30, 30 ′ and the fixing member 40, a space is generated in the underground structure and the finishing panel 20, and the space is an air layer. To form.

For reference, the adhesives 30 and 30 'used for attaching the spacer 10 and the finishing panel 20 are conventional adhesives such as silicone adhesives, urethane adhesives, epoxy adhesives, or organic adhesives, or Inorganic adhesives such as cement adhesives, or cements are mixed with the organic and inorganic adhesives, and examples of the organic and inorganic adhesives include water glass or acrylic polymer adhesives, in particular, the cement adhesives, or When the cement is added to the organic / inorganic adhesive, not only the adhesive strength is good, but also the surface of the underground structure is uneven due to its own volume of the adhesive 30, 30 '. ′) To maintain the perpendicularity to the bottom of the spacer 10 and the finishing panel 10 by adjusting the coating thickness.

And the finishing process (S4), as shown in Figure 4, clean the surface of the attached and fixed finish panel 20, and the surface of the heat insulating panel 20 with a surface finish material 60 such as paint and coating agent In the process of finishing the surface, if the finishing panel 20 has its own coating layer, the surface of the finishing panel 20 is wiped clean and finished.

Finally, the joint processing step S5 is a step of filling the joints generated between the neighboring finishing panels 20, as shown in Fig. 4, and includes a conventional caulking material or a 'T' shaped cross section. Using a joint finishing material 50, such as a joint closing member having a joint, the joint is treated, this joint processing step (S5), in the closing panel attachment and fixing step (S3), the closing panel 20 to be attached When the construction is performed so that there is no gap, the joint treatment process (S5) may be omitted, and the finishing method of the underground structure having the condensation prevention effect is completed.

The construction structure according to the finishing method of the underground structure having a condensation prevention effect in this way, the spacer 10 and the finishing panel 10 is attached by an adhesive 30 (30 '), the bottom of the spacer 10 It is easy to vertically attach to, do not damage the surface of the existing underground structure, and the air for the wall construction of the underground structure is shortened by fast construction, the underground structure and the finishing panel 10 by the spacer 10 Since the insulation is made by the formation of the air layer and the insulation board 22 of the finishing panel 20, it is possible to prevent the occurrence of condensation due to the temperature difference at the same time as the finishing of the underground structure.

In addition, the finish panel 20 is economical by reducing energy consumption by excellent heat insulation and insulation and sound insulation, the spacer 10 and the finish panel 20 is made of a reinforcement material (excellent compressive strength and flexural strength) 11) (11 ') and the finishing boards 21 and 21' (21 '), because it is resistant to external forces and impact, and has a high durability, the material of the spacer 10 and the finishing panel 20 is corrosion-resistant Since it does not occur, there is a characteristic that durability and strength are maintained even with time.

Moreover, even if a fire occurs after the anti-condensation construction, due to the coating layer having a high heat resistance and the finish board 21 (21 ') of the non-combustible material, the outside does not burn, and the fire does not easily spread, and the finish panel 20 Even if the temperature rises sharply and the finish boards 21 and 21 'burn, the fireproof coating is applied to the insulation board 22 therein. There is a characteristic.

For reference, the structure and features of the adhesive, the heat insulating material and the heat insulating board 22 used in the production of the spacer 10 and the heat insulating panel 20, the coating layer applied to the finishing panel 20 in sequence same.

First, the reinforcing member 11 (11 ') and the heat insulating material 12 of the spacer 10 is attached, and the finishing boards 21 (21') and the heat insulating board 22 of the finishing panel 20 are attached. In the description of the adhesive, the adhesive may be formed by mixing cement with an ordinary adhesive, an organic / inorganic adhesive, or an organic / inorganic adhesive. Examples of the organic / inorganic adhesive include water glass or an acrylic polymer. Adhesives, and the like, by adding cement to the organic / inorganic adhesive, it is possible to improve adhesive performance.

In addition, although the heat insulating material 12 of the spacer 10 or the heat insulating board 22 of the finishing panel 20 may use ordinary expanded polystyrene, a flame retardant heat insulating material, that is, foam A flame retardant insulation material in which a high heat resistant fireproof coating material is applied to polystyrene may be used. When this is explained in detail, foamed polystyrene foamed or cut to a predetermined size or less may be coated with a fireproof coating material, and then molded and compressed to a predetermined thickness using an adhesive or the like. It is manufactured in the same way as the foamed polystyrene insulation, and it is economical by reducing energy consumption. Moreover, it does not emit harmful substances to the human body such as formalin, radon, halogen compounds, etc. in combustion. It is characterized by excellent strength and durability and weather resistance.

In addition, as the fireproof coating material applied to the heat insulating material 12 and the heat insulating board 22, inorganic non-combustible materials such as cement, clay, gypsum, waste gypsum, lime diatomaceous earth, magnesia oxide, alumina oxide, and titanium oxide, ammonium phosphate, borax Non-durable flame retardants such as boric acid, sulfamic acid, semi-durable flame retardants such as insoluble phosphates or borates of tin, zinc, aluminum and oxides of tin, ferric, zinc, silicon and THPC and TEM Durable flame retardant materials such as condensates of M (TMM), etc., but recently, water glass with high thermal stability and no pollution problem is uniformly dispersed in polymer solution in nano size and coated on foam polystyrene. Even if the expanded polystyrene is not supplied with oxygen and the expanded polystyrene burns in the coated interior, the coating of the refractory coating remains in the form of particles and the exterior It has a characteristic that does not discharge poisonous gas.

In addition, the coating layer applied to the finishing panel 20 is a coating that is resistant to heat resistance such as ceramic coating, fluororesin coating, and the like, may be referred to as a fluorine ceramic coating for fluorine resin coating on ceramic coating, if necessary. It is characterized by forming a beautiful appearance, improving the hardness of the surface, and enhances heat resistance, abrasion resistance, weather resistance, and non-absorption.

1 is a process chart according to the finishing method of the underground structure having a condensation preventing effect according to the present invention.

Figure 2 is a perspective view of the construction constructed according to the finishing method of the underground structure having the condensation prevention effect of the present invention.

Figure 3 is a construction sectional view constructed according to the finishing method of the underground structure having the condensation prevention effect of the present invention.

4 is an enlarged view of a portion A of FIG. 3;

5 is a cross-sectional view of the construction applied to the finishing panel according to another embodiment of the present invention.

6 is a cross-sectional view of the construction applied to the finishing panel according to another embodiment of the present invention.

[Description of Code for Major Parts of Drawing]

10: spacer 11, 11 ′: reinforcement

12: insulation 20: finishing panel

21, 21 ′: Insulation board 22: Reinforcement board

40: fixing member 50: joint finishing material

60: surface finish

Claims (6)

A bar-shaped spacer in which foamed polystyrene unit particles are coated with a reinforcement member 11 (11 ') composed of a water-resistant and flame-retardant RAL board on both sides of a flame-retardant coating material coated with a fireproof coating material ( 10); In the form of a plate, finish boards 21, 21 'selected from seed boards, calcium boards, magnesium boards and silica sand calcium boards on both sides of a fire-resistant coating 22 coated with a refractory coating on the expanded polystyrene unit particles. Is provided with a closing panel 20 is integrally attached; A surface cleansing step (S1) of making the wall surface of the underground structure uniform and removing foreign matters; A spacer attachment step (S2) of attaching a plurality of spacers (10) with an organic / inorganic adhesive (30) on the surface of the structure of the underground structure; While attaching the finishing panel 20 to the attached spacer 10 with an organic / inorganic adhesive 30 ', the fixing panel 20 is fixed with a fixing member 40 such as a taka that is not exposed to the outside after fixing. Finishing panel attaching and fixing process (S3); After the finishing panel attaching and fixing process (S3), after finishing the surface to form a coating layer formed of a coating selected from paint or ceramic coating, fluorine resin coating, fluorine ceramic coating finish (S4) and; A joint processing step (S5) of filling the joint finishing material 50 between the neighboring finishing panels 20; Finishing method of underground structures having a condensation prevention effect, characterized in that the construction is completed through. delete delete delete delete delete

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