KR20210144225A - Block structure for building walls - Google Patents

Abstract

The present invention relates to a block structure for a building wall in which the durability of a building wall is maximized, comprising: a block; a connection plate in a metal plate shape: a fixing bolt penetrating a connection hole of the connection plate; and a fixing nut for fixing the block.

Description

Block structure for building walls

The present invention relates to a block structure for a wall of a building, and in particular, after constructing a metal support to support the building at each side and spacing of the building, the block is constructed by the fastening method of the fixing bolt and the fixing nut to the side of the support. It relates to a block structure for the wall of a building.

In general, the wall construction of a concrete building uses a form made of wood or aluminum to install the formwork for the inner and outer walls to accommodate the reinforcing bars reinforced at the interval corresponding to the thickness of the wall to be constructed, and pouring and curing the concrete After making it happen, the process of removing the form is repeated.

This has the disadvantage that it takes too much construction time, so concrete blocks are widely used as a component material for constructing a wall or wall of a building to dramatically reduce the construction period.

In this way of constructing a building using concrete blocks, a metal support is installed to support the building at each side or spaced apart, and then a number of concrete blocks are contacted in the length or height direction from the support to complete. The ribs are protruding from both ends of the inner and outer walls of the block, and it is a common form to install it by the fitting method.

As a representative technology for such concrete blocks, there is No. 20-0435778 for the registration room, and No. 20-0435778 for the registration room is constructed with concavo-convex parts and protrusions formed on the top, bottom, left and right sides, respectively, and combined by the protrusions and concavities and convexities. Although there is an effect of improving the force, the coupling force is lowered due to the limitation of the fitting method, and a space is necessarily generated between the blocks.

Accordingly, there is an urgent need to develop a technology that maximizes durability as well as insulation and sound insulation of the wall of a building while maintaining constructability.

An object of the present invention devised to solve the above problems is, after constructing a metal support to support the building at each side and spacing of the building, a plurality of blocks are continuously in contact with the side of the support, and a plurality of blocks It is constructed by fastening a fixing bolt and a fixing nut to the connecting plate in this contacting part, so it has good constructability compared to the existing method of pouring and curing concrete to construct the wall of the building, thus significantly shortening the construction period and reducing the size and construction of the building. The goal is to provide a block structure for the wall of a building that can be constructed regardless of the environment of the site, improving the convenience of use, and maximizing the durability of the wall of the building by firmly fixing the block compared to the method in which the block is inserted.

The above object is achieved by the following configuration provided in the present invention.

The block structure for the wall of a building according to the present invention is a block structure for a wall of a building that is constructed on the side of the support after constructing a support of a metal material to support the building at each side and spacing of the building. Blocks in which the open part is formed, and a plurality of connection grooves are formed in the upper and lower directions, respectively, in the longitudinal and lateral directions except for the opening part, and the outer side continuously contacts to form the wall surface of the building next to the support; A connection plate in the form of a metal plate in which the outer side is grounded on the inner surface of the open part of the block, respectively, and the connection hole is formed at the same position as the upper and lower connecting grooves, and the upper and lower ends extend in the same way as the upper and lower ends of the block: It is made in the form of a bolt penetrating the connection hole of the connection plate that is respectively grounded on the inner surface of the open part of the block facing the outside. a fixing bolt penetrating through, the head portion is grounded on a connection plate located on the other block of the blocks in contact with the outside, and the shaft portion is located in the connection groove; It is characterized in that it includes; a fixing nut that is fastened to the screw portion with a connecting plate through which the screw is penetrated at the tip of the fixing bolt to fix the fixing bolt and the connecting plate to fix the block in contact with the outside.

It is characterized in that the fixing nut is fixed to the connecting plate through which the screw portion of the fixing bolt is penetrated in the same area as the connection hole on the horizontal line.

It is characterized in that the heat insulating material made of Styrofoam is introduced into the opening of the block.

The heat insulating material is based on 100 parts by weight of expanded polystyrene particles, 50 to 65 parts by weight of emulsion resin, 10 to 20 parts by weight of silica airgel, 10 to 20 parts by weight of white charcoal powder, 10 to 15 parts by weight of magnesium hydroxide, 10 to 15 parts by weight of antimony trioxide. It is characterized in that it is formed by stirring and then molding 10 to 15 parts by weight of the fluorine water repellent agent.

It is characterized in that a sealing body made of synthetic resin is provided between the blocks in contact with the outside.

The sealing body is made by immersing 20 to 40 parts by weight of a binder in which liquid polyurethane, organic peroxide curing agent and magnesium oxide are mixed in a weight ratio of 8: 1.5: 0.5, based on 100 parts by weight of chloroprene rubber, in chloroprene rubber. do.

The present invention made in this way is constructed by fastening the fixing nut to the fixing bolt that is located in the connection groove and penetrates the connection plate, and has good constructability compared to the conventional method of pouring and curing concrete to construct the wall of the building, so that the construction period It significantly shortens the size of the building and enables construction regardless of the size of the building or the environment of the construction site, improving the convenience of use, and has the effect of maximizing the durability of the wall of the building as the block is firmly fixed compared to the method in which the block is inserted.

In addition, the insulation performance, cement toxicity blocking function, and flame retardant function are provided or significantly improved due to the composition of the insulating material and the sealing body, so that the wall of the building is of good quality compared to the wall of the building constructed by the existing concrete pouring method. This has the effect of dramatically increasing added value.

1 is an exemplary view showing a preferred form of a wall of a building using the block structure for a wall of a building of the present invention;
2 is a perspective view showing a preferred embodiment of the present invention;
3 is an exemplary view showing a preferred embodiment of the present invention;
4 is an exemplary view showing a preferred form in which the present invention works;
5 is a perspective view showing a preferred form of a connecting plate according to the present invention;
6 is a perspective view showing a preferred form of the fixing bolt according to the present invention;
7 is a cross-sectional view showing a preferred embodiment of the present invention;
8 is an exemplary view showing a preferred form in which a fixing bolt is provided on the connecting plate of the present invention;
9 is an exemplary view showing a preferred form in which the present invention works;
10 is an exemplary view showing a preferred form in which the heat insulator of the present invention is provided;
11 is an exemplary view showing a preferred form in which the sealing body of the present invention is provided.

Hereinafter, a preferred embodiment of the present invention will be described in more detail based on the accompanying drawings.

1 is an exemplary view showing a preferred form of a building wall using the block structure for a building wall of the present invention, Fig. 2 is a perspective view showing a preferred form of the present invention, Fig. 3 is an exemplary view showing a preferred form of the present invention, , Fig. 4 is an exemplary view showing a preferred form in which the present invention works, Fig. 5 is a perspective view showing a preferred form of the connecting plate according to the present invention, and Fig. 6 is a perspective view showing a preferred form of the fixing bolt according to the present invention. , FIG. 7 is a cross-sectional view showing a preferred form of the present invention, and with reference to FIGS. 1 to 7 , the present invention is a support after constructing a metal support (1) to support the building at each side and spacing of the building. It relates to the block structure for the wall of a building constructed sideways of (1), and a block 10 constituting the wall of the building, and a connecting plate 20 that continuously connects the outside of the block 10 so that the outer shape of the wall of the building is made ), a fixing bolt 30, and a fixing nut 40 are included.

The block 10 is formed in a rectangular shape, and an opening 11 with an open center is formed, and a plurality of connection grooves 13 are formed in the vertical and lateral directions except for the opening 11, respectively, at the top and bottom, It is configured to continuously contact the outside to form the wall of the building next to the support (1).

Here, the connection groove 13 is a component for fixing the block by the connection plate 20 , the fixing bolt 30 , and the fixing nut 40 to be described later, and the connection groove 13 is the size of the block 10 . Accordingly, the number is made flexibly, and is formed at intervals of 30 cm as much as possible so that the block 10 can be firmly fixed between the blocks.

The material of the block 10 is preferably formed by pouring concrete in consideration of constructability and economic feasibility, but may be made of metal or a synthetic resin of rigidity depending on the purpose of the building.

In addition, it is natural that additional products such as exterior materials or heat insulators may be constructed together when the exterior of the building wall is completed through the block 10 .

The connecting plate 20 is respectively grounded on the inner side of the opening 11 of the block 10, which is in contact with the outside, and the connecting hole 21 is formed at the same position as the connecting groove 13 formed at the top and bottom, , the lower end is made in the form of a metal plate extending the same as the upper and lower ends of the block 10 .

The fixing bolt 30 penetrates the connection hole 21 of the connection plate 20 which is grounded on the inner surface of the opening 11 of the block 10, which is in contact with the outside, respectively, the screw part 31, the head part 33 ), is made in the form of a common bolt of the shaft portion (35).

The screw part 31 of the front end of the fixing bolt 30 passes through the connection hole 21 of the connection plate 20 located in the block 10 on one side of the block 10 in contact with the outside, and the head part 33 is It is grounded to the connecting plate 20 located on the other block 10 among the blocks 10 in contact with the outside, and the shaft part 35 is configured to be located in the connecting groove 13 .

The fixing nut 40 is a connecting plate 20 through which a screw is penetrated at the tip of the fixing bolt 30, and is fastened to the screw 31 to fix the fixing bolt 30 and the connecting plate 20, so that the outside is in contact with the block. (10) is configured to fix.

Therefore, it is located in the connection groove 13 and is constructed in such a way that the fixing nut 40 is fastened to the fixing bolt 30 passing through the connection plate 20, and the existing concrete is poured and cured to construct the wall of the building. Compared to the previous model, the construction period is significantly shortened, and the construction can be performed regardless of the size of the building or the environment of the construction site, improving the convenience of use. It will also have a maximizing effect.

Here, as shown in FIG. 8 , the fixing nut 40 is fixed to the connection plate 20 through which the screw part 31 of the fixing bolt 30 is penetrated in the same area as the connection hole 21 on a horizontal line, When the fixing bolt 30 passes through the connection hole 21 and is positioned in the connection groove 13 , the screw part 31 is directly fastened to the fixing nut 40 to facilitate construction.

For example, for a more convenient construction method, as shown in FIG. 9 , a pair of connecting plates 20 are spaced apart by the length of the connecting groove 13 of the block 10 in contact with the outside, and then, on the upper side of the connecting plate 20 . After passing the fixing bolt 30 through the formed connection hole 21 , the fixing nut 40 is fastened to the threaded part 31 of the penetrated fixing bolt 30 to the upper side of the connection plate 20 , the fixing bolt 30 . and the fixing nut 40 are fixed in advance.

The lower side of the connecting plate 20, the upper side of which is fixed by the fixing bolt 30 and the fixing nut 40, can be spread to both sides, and at this time, the fixing bolt 30 fixed to the fixing nut 40 is in contact with the outside. If it is positioned in the connection groove 13 of the block 10 and at the same time, another fixing bolt 30 is passed through the connection hole 21 on the lower side of the connection plate 20 and then another fixing nut 40 is tightened. The construction work of the wall of the building can be carried out easily.

On the other hand, as shown in FIG. 10 , the heat insulating material 50 made of Styrofoam is introduced into the opening 11 of the block 10 to provide thermal insulation performance of the wall of the constructed building.

In more detail, the heat insulating material 50 is based on 100 parts by weight of expanded polystyrene particles, 50 to 65 parts by weight of emulsion resin, 10 to 20 parts by weight of silica airgel, 10 to 20 parts by weight of white charcoal powder, 10 to 15 parts by weight of magnesium hydroxide. , 10 to 15 parts by weight of antimony trioxide, and 10 to 15 parts by weight of a fluorine water repellent agent are stirred and then molded.

In addition, the molding of the insulating material 50 is made by drying for about 2 to 5 hours in a drying furnace maintained at 40 to 60° C., and is made through a separate cutting process.

The cutting process of the insulator 50 is carried out by entering the opening 11 as well as the connecting plate 20 positioned in the opening 11 and the head of the fixing bolt 30 exposed to the outside of the connecting plate 20 . In consideration of the shape of the portion 33, the tip portion of the screw portion 31, and the fixing nut 40, it is preferable to cut the heat insulating material 50 so as not to be separated from the opening 11 of the block 10 by force fitting. do.

On the other hand, expanded polystyrene particles, which are the main components of the Styrofoam insulator 50, are made of raw material beads (Beads) by foaming polystyrene and then aged.

In the composition of the heat insulating material 50, the emulsion resin functions as a binder of the components in the heat insulating material, and any one or two or more types selected from water-dispersed polyurethane resin, ethylene vinyl acetate copolymer, polyvinyl alcohol, and polyvinyl acetate are mixed. It can guarantee dispersibility and strong adhesion, and also has excellent heat reflection and stain resistance, and excellent light resistance, heat insulation and durability.

In addition, the emulsion resin does not have a pollution problem because the diluent is water, and has characteristics that allow moisture distribution due to the presence of unique pores in the dry coating film, thereby suppressing the growth of mold chronically occurring on the wall of a building.

Silica airgel is a porous material composed of nano-silica particles with a diameter of 2 to 10 nm and dispersed nano-processing with a diameter of 1 to 100 nm. Compared to that, the thermal conductivity is very low, so it is evaluated as a very high value as an insulator. In addition, it has a strong oxidizing effect that can adsorb and oxidize organic compounds such as alkali salts generated on the cement wall.

White charcoal powder is charcoal that is quenched after high-temperature carbonization at 800 ~ 1200℃. In addition to deodorizing, moisture-proofing, and humidity control, it has anionic radioactivity, electromagnetic wave absorption and conductivity, and shows alkalinity to block strong alkali salts coming out of cement walls together with silica airgel. have the effect of

Magnesium hydroxide is used to neutralize acidic wastewater because it is harmless to the human body. It has a high endothermic decomposition point, so when added to other substances or reactions, it increases the ignition point and produces less smoke.

In addition, since it absorbs oxygen and generates water in a fire to remove combustible materials, it improves flame retardancy enough to be used as a fire prevention coating and minimizes smoke generation while preventing the drop of molten resin in case of fire. The spread of flame can be suppressed as much as possible.

Antimony trioxide has the function of a flame retardant and is configured to exhibit the flame retardant function of the heat insulating material 50 together with magnesium hydroxide.

The fluorine water repellent agent is configured to give water repellency to the insulating material 50, and when used as the insulating material 50 for the wall of a building, even if condensed water is generated due to a temperature difference with the outside, rapid water repellency is made so that it is possible to maintain high insulating performance at all times. .

Here, as shown in FIG. 11 , a sealing body 60 made of synthetic resin is provided between the blocks 10 in contact with the outside.

The sealing body 60 preferably contains chloroprene rubber having a thickness of 1 to 5 mm, and based on 100 parts by weight of chloroprene rubber, liquid polyurethane, organic peroxide curing agent, and magnesium oxide are 8: 1.5: 0.5 by weight It is made by immersing 20 to 40 parts by weight of the binder mixed in the ratio in chloroprene rubber.

Chloroprene rubber has a higher adhesive strength than general rubber, so that it is firmly attached to the block 10 in contact with the outside, and has excellent resistance to heat aging, so that the elasticity is maintained for a long period of time, thereby improving the sealing force between the blocks 10 and improving the insulation property will make it

In addition, the liquid polyurethane has the adhesive force of the block 10 in contact with the outside, and the content range of the organic peroxide curing agent is calculated in an optimal range for maintaining an appropriate curing time regardless of the external temperature.

In addition, magnesium oxide cross-links the chloroprene rubber to increase the bonding strength of the chloroprene rubber, thereby improving physical and chemical properties to provide excellent adhesion.

Therefore, due to the configuration of the insulating material 50 and the sealing body 60, the insulating performance, the blocking function of cement toxicity, and the flame retardant function are provided or significantly improved, so that it is comparable to the wall of a building constructed by the existing concrete pouring method. It is possible to construct a high-quality building wall surface, thereby exhibiting the effect of dramatically increasing added value.

10: block 11: open part
13: connection groove 20: connection plate
21: connection hole 30: fixing bolt
31: screw part 33: head part
35: shaft 40: fixing nut
50: insulation material 60: closed body

Claims (6)

In the block structure for the wall of a building constructed next to the support (1) after constructing the support (1) of a metal material to support the building at each side and spacing of the building,
The opening 11 is formed in a rectangular shape and the center is opened, and a plurality of connection grooves 13 are formed in the upper and lower directions, respectively, in the longitudinal and lateral directions except for the opening 11, so that the Block 10 continuously contacting the outside to form the wall of the building sideways;
The outer side is grounded on the inner surface of the opening 11 of the block 10, respectively, and the connecting hole 21 is formed at the same position as the upper and lower connecting grooves 13, and the upper and lower ends of the block 10 ) of the connecting plate 20 in the form of a metal plate extending the same as the upper and lower parts:
It is made in the form of a bolt penetrating the connection hole 21 of the connection plate 20 that is respectively grounded on the inner surface of the opening 11 of the block 10, which is in contact with the outside, so that the screw part 31 at the tip of the penetrating end is the outside. Penetrating the connection hole 21 of the connection plate 20 located in the block 10 on one side of the block 10 in contact, the head part 33 is the block 10 on the other side of the blocks 10 in contact with the outside. Grounded to the connecting plate 20 located in the, shaft portion 35 is a fixing bolt 30 located in the connecting groove (13);
It is fastened to the screw portion 31 with a connecting plate 20 through which a screw is penetrated at the tip of the fixing bolt 30 to fix the fixing bolt 30 and the connecting plate 20 to fix the block 10 in contact with the outside. A block structure for the wall of a building, characterized in that it includes; a fixing nut (40). According to claim 1,
A block structure for a wall of a building, characterized in that the fixing nut 40 is fixed to the connecting plate 20 through which the screw part 31 of the fixing bolt 30 is penetrated in the same horizontal position as the connection hole 21. According to claim 1,
A block structure for a wall of a building, characterized in that the heat insulating material (50) made of Styrofoam is introduced into the opening (11) of the block (10). 4. The method of claim 3,
The heat insulating material 50 is based on 100 parts by weight of expanded polystyrene particles, 50 to 65 parts by weight of emulsion resin, 10 to 20 parts by weight of silica airgel, 10 to 20 parts by weight of white charcoal powder, 10 to 15 parts by weight of magnesium hydroxide, antimony trioxide 10 to 15 parts by weight, 10 to 15 parts by weight of a fluorine water repellent agent, characterized in that it is formed by stirring A block structure for the wall of a building. According to claim 1,
A block structure for a wall of a building, characterized in that a sealing body (60) made of a synthetic resin is provided between the blocks (10) in contact with the outside. 6. The method of claim 5,
The sealing body 60 is made by immersing 20 to 40 parts by weight of a binder in which liquid polyurethane, organic peroxide curing agent and magnesium oxide are mixed in a weight ratio of 8: 1.5: 0.5 based on 100 parts by weight of chloroprene rubber. A block structure for the wall of a building, characterized in that

Images