KR20200038829A - the block for a building with the binding structure - Google Patents

Abstract

The present invention relates to a binding structure applied to a prefabricated wall block having an uneven portion in upper and lower portions to be constructed in a prefabrication manner and, more specifically, to a prefabricated wall block of a known structure having a binding recess portion and a protrusion portion in upper and bottom portions. In the binding structure, a pair of inwardly recessed insertion grooves are formed in each of the binding recess portion and the protrusion portion so as to face each other. When the wall blocks are constructed by using binding bars inserted into the insertion grooves, upper and lower wall blocks are integrally bound and supported through the binding bars. The wall blocks bound through the binding bars are completely prevented from moving in longitudinal and transverse directions, thereby enhancing the bonding force between the constructed blocks. Accordingly, support strength against longitudinal and transverse pressures applied to the wall can be significantly increased, thereby enhancing strength and seismic resistance of the entirety of the building. The binding bars enable precise assembly between the blocks without gaps, thereby eliminating the need for application of separate bonding mortar to improve workability.

Description

{The block for a building with the binding structure}

The present invention relates to a binding structure applied to a prefabricated wall block having an uneven portion up and down so that it can be constructed prefabricated,

More specifically, in a prefabricated wall block of a known structure having an indentation and a projection for binding to the upper and lower portions, a pair of inserting grooves recessed inwardly into the indentation and projection for binding are configured to face each other. And, when the construction of the wall block by using a binding bar fitted therein, the upper and lower wall blocks so as to be integrally supported through the binding bar,

The wall block bound through the binding bar completely inhibits the flow in the vertical and horizontal directions, thereby strengthening the bonding force between the constructed blocks, thereby significantly increasing the supporting strength against the vertical and horizontal pressure applied to the wall, thereby increasing the strength of the entire building. And it is possible to improve the seismic resistance, as well as to be able to be precisely assembled and constructed between the blocks through the binding bar, so that the application of a separate mortar for adhesion is unnecessary, thereby improving the workability of the prefabricated wall block. It is about.

In general, for the exterior of the building structure, the exterior exposed portion and the internal partition portion, except for the window and window, are made of a wall, and the interior or exterior wall is formed by combining with concrete blocks and cement mortar.

However, as described above, the method of forming a vertical wall by masonry of concrete blocks with cement mortar requires not only skilled labor by cement mortar, but also high self-load of the completed building, so basic construction must be ensured from the beginning. Thereby, there was a problem that a lot of construction cost is required.

In addition, earthquake resistance of buildings and structures is emerging due to the catastrophe caused by earthquakes worldwide, and Korean design standards also require earthquake resistance as a requirement for certain structures.

A wall made of a conventional concrete block is formed by masonry through flat attachment between upper and lower blocks by cement mortar that simply acts as an adhesive. Therefore, when breakage occurs frequently and does not have seismic performance, vertical and horizontal vibrations are transmitted to the building structure, there are various problems, such as the connection between blocks being separated and the wall easily destroyed.

In consideration of this, the prefabricated building wall block having irregularities on the top and the bottom is known so that it can be constructed prefabricatedly. However, by applying the simple coupling type of the irregularities, it can cope with the external force in a small lateral direction to some extent, but the external force increases. In this case, it is easy to break the coupling portion, and in particular, it has a structure that has no effect on the external force in the vertical direction due to the absence of the locking structure, thereby exposing a problem that it cannot sufficiently respond to external forces in various directions such as earthquakes.

The object of the present invention is to improve the strength and seismic resistance of the entire building by allowing the flow to the vertical and horizontal to be completely suppressed to strengthen the bonding force between the constructed blocks and to greatly increase the supporting strength against the vertical and horizontal pressure applied to the wall. Will be there,

In addition, since it is possible to precisely assemble and construct between blocks, application of a separate adhesive mortar is unnecessary, and the present invention proposes a binding structure of a prefabricated wall block to improve workability.

The present invention to achieve the above object

In the prefabricated wall block of a known structure having indentations and projections for binding to the top and bottom,

The upper and lower wall blocks are integrally bound through the binding bar when constructing the wall block by using a binding bar fitted to the pair of inserting grooves that are inwardly recessed in the indentation portion and the protruding portion, respectively. It is characterized by being able to be supported.

As described above, according to the present invention, the constructed bar is fitted so that the bar for binding is commonly engaged with the insertion groove of the upper and lower wall blocks. The bonding strength is strengthened, and as a result, the support strength against the longitudinal and horizontal pressure applied to the wall can be greatly increased, thereby improving the strength and seismic resistance of the entire building.

In addition, it is possible to precisely and precisely assemble between blocks through a binding bar, and flow is prevented after assembly, so that application of a separate adhesive mortar is unnecessary, thereby improving workability.

1 is a perspective view showing the configuration of a wall block to which the present invention is applied.
Figure 2 is an exploded perspective view showing main parts showing the assembly process of the wall block to which the present invention is applied.
Figure 3 is a side view showing an assembly process of the binding bar according to the present invention.
4 and 5 are enlarged cross-sectional views of main parts showing an assembly process of a binding bar according to the present invention.
6 is an exploded perspective view of an inverted wall block and a binding bar to help understand the assembly process of the binding bar according to the present invention.
Figure 7 is a perspective view of a main portion showing the masonry of the wall using the present invention block.

Hereinafter, the present invention will be described in detail with reference to the drawings.

The projection (4) for binding is provided in the form of male and female coupling to the concave portion (3) for binding of the wall block located at the lower side when multi-stage construction is provided on the upper surface of the body (2) of the rectangular parallelepiped. In the wall block (1) of a known structure having a),

A set of bar inserting grooves (10) constituting recesses in opposite states to the outer surface of the engaging protrusion (4) and extending the bar connection request (11) to the inner end;

A pair of bar connecting grooves 20 configured to concave concave to the inner surface of the concave concave portion 3 and extend the bar separation request 21 to the inner end;

A binding bar (30) having a predetermined width (W) for binding the upper and lower wall blocks (1) that are commonly fitted into the bar insertion groove (10) and the bar connection groove (20);

It is configured at the end of the engaging projection (4) and the end of the engaging projection (4) for bundling when vertically masonry of the wall block (10) is spaced apart from the bottom of the indentation (3) for binding to provide a space for reinforcing material 50 It is made by including each of the cutting portion 40 to be possible.

※ Unexplained code in the drawing

(S) shows the rod-shaped reinforcement material.

In the above, the depth of the bar insertion groove 10 is the same as the width (W) of the binding bar 30 so that the binding bar 30 does not protrude to the surface of the protrusion 4 for binding when the binding bar 30 is inserted. It is constructed relatively deeply.

In addition, the depth of the bar connection groove 20 is the binding bar 30 when the insertion of the binding bar 30, the binding bar 30 does not go all the inside of the bar connection groove 20, and about half of the bar insertion groove 10 It remains within, and the binding bar 30 is configured to be relatively shallower than the width W of the binding bar 30 so that it can be engaged with the bar insertion groove 10 and the bar connection groove 20.

3 is an exemplary side view showing the assembly process of the binding bar according to the present invention, and FIGS. 4 and 5 are enlarged cross-sectional views showing the assembly process of the binding bar according to the present invention. As follows.

The wall block (1) to which the present invention is applied is to hold the foundation level from the ground to be built, and then to the wall block (1) of the first row on the side, and to butt construction.

As shown in FIG. 7, the construction of the wall block 1 constructed in the first row is carried out in a staggered manner so that the middle portion of the wall block 1 of the second row comes over the contact surface of the wall block 1 constructed in the first row. It is revealed that the construction is carried out in such a way that the projection 4 for the binding of the second row wall block 1 is fitted to the indentation 3 for the same as the general prefabricated wall block.

On the other hand, the present invention is to the bottom surface of the concave portion (3) for binding by a cutting portion (40) formed at the end of the concave portion (4) for binding in the process of fitting the projection (4) for binding to the concave portion (3) for binding It is not closely adhered to the end, and as shown in FIG. 3, a space for forming a space for receiving the reinforcement 50 is provided, whereby the rod-like reinforcement S such as a reinforcing bar can be inserted laterally to reinforce the wall.

In addition, it is characterized in that the binding is made between the upper and lower wall blocks through the binding bar 30 in the process of fitting the projection 4 for binding to the concave inlet portion (3). same.

Before the masonry, the bar inserting groove 10, which is concave in the projecting portion 4 for binding of the wall block 1, has a binding bar 30 that can be made of a synthetic resin having excellent metal or strength, and is inserted as shown in FIG. It is to be fitted in the concave inlet portion (3) of the wall block (1) in the lower row in the state.

At this time, since the binding bar 30 does not protrude to the outside of the binding protrusion 4, the binding protrusion 4 and the binding recess 3 are in close contact and the bar insertion groove 10 and the bar connection groove 20 ) Constitutes an inclined passage leading to a straight state as in FIG. 4.

In this state, if an arbitrary tool is inserted into the bar connection request 11 extending to the end of the bar insertion groove 10, and the binding bar 30 is pushed downward as shown in FIG. 5, the binding bar 30 ) Slides in the bar insertion groove 10 and is inserted into the bar connection groove 20.

When the binding bar 30 reaches the bottom of the bar connection groove 20, the movement is stopped, and at this time, about half of the width (W) of the binding bar 30 enters the bar connection groove 20. As shown in Figure 5, the other half remains in the bar insertion groove 10 and remains there.

In this way, the binding bar 30 applied to the wall block 1 of the upper row is fitted to the wall block 1 of the lower row to construct the wall,

In this way, when the binding bar 30 is engaged with the bar insertion groove 10 and the bar connection groove 20, the upper and lower wall blocks 1 bound to the binding bar 30 are forward, backward, left and right, up and down, in any direction. It is possible to maintain a solid binding force against external forces, thereby forming a solid wall having excellent earthquake resistance and support strength.

In addition, the flow between the wall blocks 1 is minimized through the binding bar 30 and it can be precisely assembled and constructed without gaps, so that the application of a separate adhesive mortar is unnecessary.

On the other hand, if you want to remove any wall block (1) in order to repair the wall or remove some of the wall, insert any tool into the bar separation request (21) that is configured to extend into the bar connection groove (20) to the end When pushed upward, the binding bar 30 is completely immersed in the initial position of the bar insertion groove 10 while completely exiting the bar connection groove 20, and the upper and lower wall blocks 1 are released and easily separated. It is possible.

In the above, although one embodiment of the present invention has been described, those who have ordinary knowledge in the technical field to which the present invention pertains are also modified and modified within the scope of the present invention without departing from the technical scope of the present invention. Of course it is.

1: Wall block
2: body
3: Indentation for binding
4: projection for binding
10: Bar insertion groove
11: Request for connecting bar
20: Bar connection groove
21: Bar separation required
30: bound bar
40: cutting section
50: space for reinforcing material

Claims (3)

The projection (4) for binding is provided in the form of male and female coupling to the concave portion (3) for binding of the wall block located at the lower side when multi-stage construction is provided on the upper surface of the body (2) of the rectangular parallelepiped. In the wall block (1) of a known structure having a),
A set of bar inserting grooves (10) constituting recesses in opposite states to the outer surface of the engaging protrusion (4) and extending the bar connection request (11) to the inner end;
A pair of bar connecting grooves 20 configured to concave concave to the inner surface of the concave concave portion 3 and extend the bar separation request 21 to the inner end;
A binding bar (30) having a predetermined width (W) for binding the upper and lower wall blocks (1) which are commonly fitted into the bar insertion groove (10) and the bar connection groove (20);
It is configured at the end of the projection 4 for binding, and the end of the projection 4 for binding is spaced apart from the bottom of the concave portion 3 for binding when the wall block 10 is vertically constructed, thereby providing a space for reinforcing material 50 The binding structure of the prefabricated wall block, characterized in that each comprises a cutting portion (40) to be. The method according to claim 1, wherein the bar insertion groove 10 is
The binding structure of the prefabricated wall block, characterized in that the entire width (W) of the binding bar 30 to be inserted is configured to a depth capable of being inserted. The method according to claim 1, The bar connection groove (20)
The binding structure of the prefabricated wall block, characterized in that only a part of the width (W) of the binding bar 30 is configured to a depth that can be inserted.

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