KR102107664B1 - finishing frame structure of waterproof corners of concrite structure - Google Patents

Abstract

The present invention seats the PE sheet at the corner of the waterproof sheet to cushion the load transmitted when the construction equipment is moved, eliminates the process of pouring ingot concrete as much as the height of the beam of the concrete structure, and waterproofs the vertical and supporting plates while receiving the PE sheet. It is seated at the corner of the sheet to protect the waterproof sheet, so it prevents damage to the waterproof sheet when filling the soil and improves workability by making the height of the beam and the vertical plate height applied differently at each construction site. By protruding a number of reinforcing ribs on the outer surface, the soil is buried to increase the binding force with the ground formed, as well as to improve the flexural strength and the bonding plate of the vertical plate is bent inward as much as the thickness of the waterproof sheet. Prevents sagging of the waterproof sheet due to the load, and the through hole and binding piece on the horizontal support plate Castle is plain to one side, so increasing the comfort gyeolchakryeok combination of concrete and a plurality of support ribs are formed on the waterproof layer is a corner portion closing the frame structure of the concrete structure for preventing the coupled convenience deformation and stably support the weight of the construction equipment.

Description

Finishing frame structure of waterproof corners of concrite structure

The present invention relates to a finishing frame structure of a corner portion of a waterproof layer of a concrete structure, more specifically The PE sheet is seated on the corner of the waterproof sheet to cushion the load transmitted when the construction equipment is moved, eliminate the process of pouring ingot concrete as much as the height of the beam of the concrete structure, and the corner of the waterproof sheet while the vertical and supporting plates accept the PE sheet. As it is seated on the part and protects the waterproof sheet, it prevents damage to the waterproof sheet when filling the soil and improves the workability by making the height of the beam applied vertically and the vertical plate height of the vertical plate part differently applied at each construction site. By protruding a number of reinforcing ribs, the soil is buried to increase the binding strength with the ground, as well as to improve the flexural strength and the bonding plate of the vertical plate is bent inwardly as much as the thickness of the waterproof sheet. It prevents sagging of the waterproof sheet, and through holes and binding pieces are formed on the horizontal support plate. It relates to a finishing frame structure of a waterproof layer corner portion of a concrete structure that increases the binding force with muscle concrete and forms a number of support ribs on one side of the coupling piece to stably support the load of construction equipment and prevent deformation of the coupling piece.

In general, building structures, such as buildings, are made of concrete and reinforcing bars, and are used by installing various interior and exterior materials inside and outside. Apply a waterproof material to the roof or slab of these structures with a predetermined thickness or bond the waterproof sheet with adhesive. A waterproof layer was formed.

The waterproof layer formed by applying the waterproofing material as described above is suitable for structures constructed where there is no climate change, but in severe climate changes, this structure contracts and expands repeatedly, so that when concrete structures crack, moisture infiltrates from the ground. This has caused many problems, such as shortening the life of the entire structure.

Recently, in order to solve the above problems, a waterproof layer is mainly constructed using a waterproof sheet, and in this regard, as a prior art, a waterproofing method of an underground building has been registered in Korean Patent Registration No. 10-1234723.

In the above registered patent, a first waterproof layer is constructed on the surface of the support concrete, a second waterproof layer and a first protective layer are attached to the upper surface of the first waterproof layer, and a slab concrete and a wall concrete are installed on the first protective layer. After that, it is characterized in that the construction of a third waterproof layer on the surface of the wall concrete.

However, the waterproofing method as described above is difficult to install the waterproof sheet on the bent portion of the outer wall of the concrete wall, and it takes a lot of time during the waterproofing construction. There was a problem of moisture penetration.

In addition, even if the waterproof layer is constructed as described above, a means for supporting the corner portion of the waterproof layer is not provided, which causes not only a lifting phenomenon but also a decrease in durability.

Republic of Korea Registered Patent Publication No. 10-1234723 (2013.02.13. Registered)

This is made in consideration of the conventional problems as described above, and the object of the present invention is to prevent damage to the waterproof sheet by cushioning the load transmitted when moving the construction equipment by placing the PE sheet on the corner of the waterproof sheet. It is to provide a finishing frame structure of the corner portion of the waterproof layer of the structure.

In addition, another object of the present invention is to eliminate the process of pouring the concrete without the height of the beam of the concrete structure and the vertical plate portion and the support plate portion are seated at the corner of the waterproof sheet to protect the waterproof sheet, so the workability is further improved and when filling the soil It is to provide a finishing frame structure of a corner portion of a waterproof layer of a concrete structure that prevents damage to the waterproof sheet.

In addition, another object of the present invention is to provide a finishing frame structure of a corner portion of a waterproof layer of a concrete structure that improves workability by manufacturing a height of a vertical plate portion and a height of a beam applied differently for each construction site.

In addition, another object of the present invention is to provide a finishing frame structure of a waterproof layer corner portion of a concrete structure that is configured to separate the supporting plate portion from the vertical plate portion to facilitate transport and storage and improve constructability.

In addition, another object of the present invention is to form a plurality of reinforcing ribs protruding on the outer surface of the vertical plate portion to increase the binding force with the ground formed by the soil being buried, as well as to improve the flexural reinforcement, the waterproof layer corner portion finishing frame structure of the concrete structure In providing.

In addition, another object of the present invention is to provide a finishing frame structure of a waterproof layer corner portion of a concrete structure that prevents sagging of a waterproof sheet due to a load when a bare concrete is placed, because the bonding plate of the vertical plate portion is bent inward by the thickness of the waterproof sheet. .

In addition, another object of the present invention is to form a through hole and a binding piece on a horizontal support plate to increase the binding force with a rootless concrete, and a number of support ribs are formed on one side of the coupling piece to stably support the load of construction equipment and prevent deformation of the coupling piece. It is to provide a finishing frame structure of a corner portion of a waterproof layer of a concrete structure.

In the waterproof frame corner portion of the concrete structure of the present invention, the finishing frame structure is constructed by attaching a waterproof sheet to one side of a top surface and a beam of a slab, and laying concrete on the top surface of the waterproof sheet, and reclaiming soil from the outside of the structure. In the concrete structure,

A PE sheet seated at the corner of the waterproof sheet to protect the waterproof sheet by relieving the load when the construction equipment is moved;

A vertical plate is provided in close contact with the vertical surface of the waterproof sheet, and a coupling plate is provided on the upper end of the PE sheet to be seated at one end of the PE sheet. The vertical plate portion is provided with a fixed plate in close contact with the vertical wall of the;

A coupling piece is provided to be combined with the coupling plate to be integrated, and a horizontal support plate is provided in which a receiving space is formed to accommodate the PE sheet, so that one side is seated on the top surface of the PE sheet and the other side is seated on the top surface of the waterproof sheet, so that the bare concrete Support plate portion for supporting the pouring; And

It characterized in that the fixing member for fixing the fixing plate of the vertical plate portion to the vertical wall of the concrete structure.

In addition, the length of the vertical plate portion is formed to correspond to the height of the beam of the concrete structure.

At least one or more protrusions are formed on the outer surface of the vertical plate to prevent deformation of the vertical plate portion, and a reinforcement rib is further provided to form a binding force with the ground.

In addition, the bonding plate is bent as much as the thickness of the waterproof sheet and extends vertically by the height of the bare concrete so that no load is transmitted to the waterproof sheet when pouring the bare concrete.

The support plate portion is formed detachably from the vertical plate portion.

The support plate portion is formed in the longitudinal direction so that at least one vertical plate portion can be continuously connected.

At least one through hole is formed in the horizontal support plate to be integrated with the rootless concrete and further provided with a through hole to enable a tight construction.

The end portion of the horizontal support plate is made of a shape folded upwards is further provided with a binding piece to increase the binding force with the baseless concrete.

It is formed at a predetermined interval on one side of the coupling piece is further provided with a support rib to prevent deformation of the coupling piece while supporting the load of the construction equipment.

In addition, a connecting member for continuously connecting the finishing frame in which the vertical plate portion and the supporting plate portion are integrated is further provided.

According to the present invention, the PE sheet is seated at the corner of the waterproof sheet to cushion the load transmitted when the construction equipment is moved, thereby preventing damage to the waterproof sheet.

In addition, according to the present invention, as the height of the beam of the concrete structure is eliminated, the process of pouring the concrete is removed, and the vertical plate portion and the support plate portion are accommodated in the PE sheet, while being seated at the corner of the waterproof sheet to protect the waterproof sheet. It is effective to prevent damage to the waterproof sheet in advance when filling the soil.

In addition, according to the present invention, there is an effect of improving the workability by manufacturing the height of the vertical plate portion and the height of the beam applied differently for each construction site.

In addition, according to the present invention, since the support plate portion is configured to be separated from the vertical plate portion, there is an effect of facilitating transport and storage and improving constructability.

In addition, according to the present invention, by protruding a plurality of reinforcing ribs on the outer surface of the vertical plate portion, there is an effect of not only increasing the binding force with the ground formed by the soil being buried, but also improving the bending reinforcement force.

In addition, according to the present invention, since the bonding plate of the vertical plate portion is bent inward as much as the thickness of the waterproof sheet, there is an effect of preventing the sagging of the waterproof sheet due to the load during pouring of bare concrete.

In addition, according to the present invention, a through hole and a binding piece are formed on a horizontal support plate to increase the binding force with a rootless concrete, and a plurality of support ribs are formed on one side of the coupling piece, thereby stably supporting the load of construction equipment and preventing deformation of the coupling piece. There is.

1 is an installation state diagram of an embodiment of the present invention.
2 is a perspective view of one embodiment of the present invention.
3 is a side cross-sectional view of an embodiment of the present invention.
4 is an enlarged side cross-sectional view of portion 'A' of an embodiment of the present invention.
5 is a state diagram of the vertical plate of one embodiment of the present invention is formed to correspond to the height of the beam formed of 600mm.
6 is a perspective view of another embodiment of the present invention.
7 is a side cross-sectional view of another embodiment of the present invention.
8 is an installation state diagram of another embodiment of the present invention.
9 is a state diagram in which the vertical plate portion which is an embodiment of the present invention is continuously installed and the supporting plate portion is installed in the longitudinal direction.
FIG. 10 is a state diagram in which a finishing frame in which the vertical plate portion and the support plate portion of one embodiment of the present invention are integrated is continuously installed and connected with a connecting member.

Advantages and features of the present invention, and methods for achieving them will be clarified with reference to one embodiment described below in detail together with the accompanying drawings. However, the present invention is not limited to the embodiments disclosed below, but may be implemented in various different forms, and only the present embodiments allow the disclosure of the present invention to be complete, and the general knowledge in the technical field to which the present invention pertains. It is provided to fully inform the holder of the scope of the invention, and the invention is only defined by the scope of the claims. The same reference numerals refer to the same components throughout the specification.

Hereinafter, the present invention will be described in detail based on the accompanying drawings. First, as shown in Figures 1 to 4, after applying an adhesive to the top surface of the slab 10 formed on a concrete structure and one side of the beam 20 formed on the slab 10, the adhesive The 3 ~ 6mm thick waterproof sheet 30 is adhered to the upper surface and fixed.

The height of the beam 20 may be variously formed from 300 to 900 mm, but the height of the beam 20 will be described based on 300 mm.

The waterproof sheet 30 is manufactured and used as a sheet product having a waterproof property such as urethane sheet, EPDM sheet, PVC sheet, etc., and is not particularly limited in the present invention.

When the waterproof sheet 30 is bonded to the slab 10 and the beam 20 as described above, the PE sheet 100 is seated on the upper surface of the corner of the waterproof sheet 30.

The PE sheet 100 serves to protect the waterproof sheet 30 by alleviating the load transmitted through the vertical plate portion 200 and the support plate portion 300 when moving construction equipment such as a fork lane.

Here, the PE sheet 100 is formed with a width corresponding to the receiving space 321 of the support plate 300.

When the PE sheet 100 is seated on the corner portion of the waterproof sheet 30 as described above, the vertical plate of the vertical plate portion 200 on the outer surface of the waterproof sheet 30 adhered to one side of the beam 20 ( 210) to be in close contact with each other, so that the bonding plate 220 formed vertically extended by bending inwardly in the direction in which the baseless concrete 40 is poured over the vertical plate 210 is seated at one end of the PE sheet 100. do.

When the height of the beam 20 formed on the slab 10 is 600 mm, the vertical plate 210 should be manufactured to correspond to the height of the beam 20, as shown in FIG. 5. If the height of the beam 20 is 900mm, it may be manufactured to a height corresponding to it.

Here, the coupling plate 220 is preferably formed to be bent as much as the thickness of the waterproof sheet 30, which is the downward direction of the waterproof sheet 30 due to the load of the bare concrete 40 when pouring the bare concrete 40 This is to prevent the phenomenon.

In addition, the fixing plate 230 bent inward by the thickness of the waterproof sheet 30 to the lower portion of the vertical plate 210 is in close contact with the outer wall of the concrete structure, fixed with a fixing hole 410 formed in the fixing plate 230 By fixing the member 400, the vertical plate portion 200 is fixed to the concrete structure.

Here, the fixing member 400 is preferably formed of a fixing screw.

In addition, the coupling plate 220 is coupled to the coupling piece 310 formed by a 'U' is fitted from the top.

Here, the coupling piece 310 is formed to a height corresponding to the height of the rootless concrete 40 installed on the upper surface of the waterproof sheet 30, while increasing the binding force with the coupling plate 220, the rootless concrete 40 is outside It plays a role of preventing it from flowing out.

The horizontal support plate 320, which is horizontally bent at the lower end of the coupling piece 310, has an end bent to form a receiving space 321 at the bottom, and one side of the horizontal support plate 320 is a PE sheet 100. It is seated on the upper surface and the other side is seated on the upper surface of the waterproof sheet 30, and serves to support the rootless concrete 40 to be poured.

A plurality of through-holes 330 are formed through the horizontal support plate 320 to fill the through-holes 330 upon pouring of the non-reinforced concrete 40 to further increase the binding force between the horizontal support plate 320 and the in-removed concrete 40. You can.

A binding piece 340 is formed at the end of the horizontal support plate 320 so as to be folded upward, so that the binding force can be increased when the bare concrete 40 is placed, and the binding piece 340 is acute to increase the binding force even more It is preferably formed.

Support ribs 350 are formed at regular intervals on one side of the coupling piece 310.

The support rib 350 serves to prevent the deformation of the coupling piece 310 by stably supporting the load when the construction equipment moves to the upper portions of the vertical plate portion 200 and the support plate portion 300.

The vertical plate portion 200 may be manufactured to be integrated with the support plate portion 300, and the support plate portion 300 may be separated from the vertical plate portion 200 to facilitate transportation and storage, and at the same time, to improve the constructability. .

As described above, since the finishing frame made of the vertical plate portion 200 and the supporting plate portion 300 is installed on the corner portion of the waterproof sheet 30 and the upper portion of the PE sheet 100, the upper and vertical surfaces of the waterproof sheet 30 are covered. Since the pouring process of the vertical part of the pouring process of the ingot-free concrete 40 that is poured with a thickness of 8 to 15 cm can be omitted, an enhanced effect of remarkably increasing workability can be obtained, and PE at the upper corner of the waterproof sheet 30 The sheet 100 absorbs a part of the load of the construction equipment, thereby enabling stable work.

In addition, FIGS. 6 to 8 show another embodiment of the present invention, the waterproof sheet 30 is in close contact with the beam 20 formed on the upper surface of the slab 10 and the outer portion of the slab 10 at a right angle At least one reinforcing rib 240 may be protruded on the vertical plate 210 that is constructed and in close contact with the vertical surface of the waterproof sheet 30.

The reinforcing rib 240 may be formed in the vertical or horizontal direction on the vertical plate 210, and the reinforcing rib 240 as described above improves the binding force with the ground buried by filling the outside of the concrete structure. At the same time, it plays a role in improving the bending reinforcement.

In addition, the support plate portion 300 is preferably formed to be the same length of the vertical plate portion 200 in close contact with the outer surface of the beam 20, as shown in Figure 9, the support plate portion 300 It is formed longer than the length of the vertical plate portion 200 may be connected to at least one vertical plate portion 200 continuously.

Therefore, by forming the support plate portion 300 in the longitudinal direction, the construction cost of the finishing frame can be greatly reduced, and the construction time can be shortened to secure product competitiveness.

In addition, as shown in FIG. 10, when the finishing frames in which the vertical plate portion 200 and the supporting plate portion 300 of the same length are integrally constructed are continuously constructed, the connection formed by the letter 'c' is connected to the connecting portion of each finishing frame. It is also possible to connect the members 500 by connecting them, and by combining the connecting members 500, the manufacturing cost can be shortened and the workability can be greatly improved.

As described above, although the present invention has been described with reference to specific examples, it is not necessarily limited thereto, and it is apparent to those skilled in the art that various modifications and modifications are possible without departing from the scope and spirit of the present invention. It is natural that the modifications fall within the scope of the appended claims.

10: slab 20: Bo
30: waterproof sheet 40: bare concrete
50: Floor 100: PE sheet
200: vertical plate portion 210: vertical plate
220: bonding plate 230: fixing plate
240: reinforcement rib 300: support plate
310: connecting piece 320: horizontal support plate
330: through 340: binding flight
350: support rib 400: fixing member
410: fixing hole 500: connecting member

Claims (10)

In the concrete structure of the waterproofing sheet is adhesively applied to the upper surface of the slab and one side of the beam, and a bare concrete is placed on the upper surface of the waterproofing sheet, and the soil is buried from the outside of the structure.
A PE sheet seated at the corner of the waterproof sheet to protect the waterproof sheet by relieving the load when the construction equipment is moved;
A vertical plate is provided in close contact with the vertical surface of the waterproof sheet, a bending plate is formed on the upper side of the vertical plate to be seated at one end of the PE sheet, and a concrete structure is formed under the vertical plate by bending the thickness of the waterproof sheet. The vertical plate portion is provided with a fixed plate in close contact with the vertical wall of the;
A coupling piece is provided to be combined with the coupling plate to be integrated, and a horizontal support plate is provided in which a receiving space is formed to accommodate the PE sheet, so that one side is seated on the top surface of the PE sheet and the other side is seated on the top surface of the waterproof sheet, and is made of bare concrete. Support plate portion for supporting the pouring; And
A fixing member for fixing the fixing plate of the vertical plate portion to the vertical wall of the concrete structure is configured,
The bonding plate is formed by bending the thickness of the waterproof sheet that is in close contact with the vertical surface of the beam, and extends vertically by the height of the bare concrete to prevent the load from being transmitted to the waterproof sheet when pouring the bare concrete. Finishing frame structure.
The method according to claim 1,
The length of the vertical plate portion is a waterproof frame corner portion finishing frame structure of the concrete structure, characterized in that formed to correspond to the height of the beam of the concrete structure.
The method according to claim 1,
At least one or more protrusions are formed on the outer surface of the vertical plate to prevent deformation of the vertical plate portion, and a reinforcing rib for forming a binding force with the ground is further provided.
delete The method according to claim 1,
The support plate portion is a waterproof frame corner portion of the concrete structure, characterized in that formed separately from the vertical plate frame frame.
The method according to claim 1,
The supporting plate portion is a waterproof frame corner portion of the concrete structure, characterized in that formed in the longitudinal direction so that at least one vertical plate portion can be continuously connected.
The method according to claim 1,
At least one through-hole formed on the horizontal support plate and integrated with a bare concrete to further provide a through hole to enable a tight construction. The waterproof frame corner frame frame structure of the concrete structure.
The method according to claim 1,
The end frame of the horizontal support plate has a shape that is folded upward, and a waterproofing frame corner portion finishing frame structure of the concrete structure is further provided with a binding piece to increase the binding force with the bare concrete.
The method according to claim 1,
A waterproof frame corner section finishing frame structure of a concrete structure, which is formed at a predetermined interval on one side of the coupling piece and further includes a support rib for preventing deformation of the coupling piece while supporting the load of construction equipment.
The method according to claim 1,
The vertical frame portion and the support plate portion integral finishing frame structure of the waterproof layer corner portion of the concrete structure, characterized in that further comprising a connecting member for continuously connecting the finishing frame.

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