KR20220025596A - Acrylic window waterproofing structure for concrete water tank - Google Patents

Abstract

The present invention relates to an acrylic window waterproofing structure for a concrete water tank. The acrylic window waterproofing structure is installed on a step (S) formed along the inside of a step hole (H) formed in a concrete water tank (C), and comprises: an anchor bracket (10) including a plurality of anchors (11) embedded in the step (S) and a bracket plate (12) connected to the anchors (11) to closely contact the side of the step (S); a bracket rail (20) protruding from the surface of the bracket plate (12), and having a plurality of fastening holes opened upward; an acrylic window (30) overlapping the bracket plate (12) closely contacting the step (S); a fixing bracket (40) fixed to the bracket rail (20) to be mounted on the acrylic window (30), and for pressing the acrylic window (30) toward the bracket plate (12); a first packing sheet (50) interposed between the acrylic window (30) and the bracket plate (12); and a second packing sheet (60) interposed between the acrylic window (30) and the fixing bracket (40). Therefore, the acrylic window waterproofing structure does not use silicone when the acrylic window is waterproofed and constructed in the concrete water tank, thereby reducing the total construction period.

Description

Acrylic window waterproofing structure for concrete water tank }

The present invention relates to a waterproof structure of an acrylic window in a large concrete water tank such as an aquarium, and more particularly, the time required for waterproofing the acrylic window can be dramatically reduced, and the waterproofing ability can be maintained even after a long time. It relates to the waterproof structure of the tank.

In general, a large concrete tank, such as an aquarium, forms an artificial ecosystem that accommodates a large amount of water and many living marine life.

When the inside of the concrete tank is defined as a water zone composed of water and marine life, and the outside of the concrete tank is defined as an air zone with a passage for people to pass through, the concrete side wall between the water zone and the air zone contains a person passing through the passage. A number of window holes are formed so that the ecosystem inside the water zone can be observed, and an acrylic window is coupled to the window hole.

At this time, the water pressure applied to the acrylic window is considerable because the concrete tank contains tens of thousands to hundreds of thousands of liters of water. . In a typical aquarium, the thickness of the acrylic window has a thickness of 100mm ~ 500mm.

1 is a view for explaining that a thick acrylic window inserted into a stepped hole formed in a conventional concrete tank is supported spaced apart by a crush member, and FIGS. 2 to 4 are waterproofing the acrylic window on the step of the stepped hole of FIG. It is a drawing to explain a series of construction processes.

In order to waterproof a thick acrylic window of 100 mm or more in the step hole (H) formed in the concrete tank (C), the step of forming the waterproof layer (WP) along the inner peripheral surface of the step hole (H) and the step (S) is performed.

Next, as shown in FIG. 1, the acrylic window 1 is inserted into the stepped hole (H) and mounted on the stepped (S), and on the opposite vertical and horizontal planes between the acrylic window (1) and the stepped (S). The step of inserting the crushing member (2) is performed. At this time, the interposed chain member 2 fixes the acrylic window 1 so as not to move on the step S, and at the same time, a space D in the horizontal and vertical directions between the acrylic window 1 and the inner circumferential surface of the step S. ) to form

Next, as shown in Figure 2, after closing both ends of the separation space (D) in the horizontal and vertical directions with the first and second caulking forms (3) (3'), the non-shrinkable mortar is applied to the first and second caulking forms ( 3) After the input into the space (D) between (3'), the step of curing is performed. By this step, the non-shrink mortar is cured to form the grout layer 4 filling the space D in the horizontal and vertical directions.

Next, as shown in FIG. 3 , when the grout layer 4 is formed, the step of removing the first and second caulking foams 3 and 3 ′ is performed. By this step, first and second exposure grooves 3a and 3a' for exposing both ends of the grout layer 4 are formed between the inner circumferential surface of the step S and the acrylic window 1 . At this time, the depth and width of the first and second exposed grooves 3a and 3a' have a size of 30 mm.

Next, as shown in FIG. 4 , the first and second exposed grooves 3a and 3a' are filled with silicone and then cured, thereby sealing the first and second exposed grooves 3a and 3a'. , performing the steps of completing the second sealing end (5) (5'). At this time, the completed first and second sealing ends 5 and 5' have a width and a depth of 30 mm, similarly to the first and second exposed grooves 3a and 3a'.

By this series of processes, a concrete tank capable of accommodating tens of thousands to hundreds of thousands of liters of water and having an acrylic window 1 with a thickness of 100 mm or more is installed to be waterproof is completed.

On the other hand, the reason that the width and depth of the first and second sealing ends (5) (5') have a size of 30 mm is, from the first, 2 This is to protect the sealing ends 5 and 5' from being damaged. If the depth and width of the first and second sealing ends 5 and 5' is about 10 to 20 mm, the first and second sealing ends 5 and 5' are torn or damaged by the applied water pressure.

However, it takes a lot of time in the process of curing the first and second sealing ends 5 and 5' filled in the first and second exposed grooves 3a and 3a'. In general, silicone is used at room temperature in one day. The depth that can be hardened is only 1~2mm. Therefore, it took at least 20 to 30 days until the silicone filled in the first and second exposed grooves 3a and 3a' having a depth and width of 30 mm was completely cured, and accordingly, even if the other air was completed, the final concrete There was a problem that the completion of the tank had to be delayed until the first and second sealing stages were hardened.

The present invention was created to solve the above problems, and by not using silicone when waterproofing an acrylic window in a concrete water tank, it provides a waterproof structure of an acrylic window in a concrete water tank, which can dramatically reduce the total air aim to do

In order to achieve the above object, the acrylic window waterproof structure of the concrete water tank according to the present invention is installed on the step S formed along the inner side of the step hole H formed in the concrete water tank C, and the step An anchor bracket (10) comprising a plurality of anchors (11) embedded in (S) and a bracket plate (12) connected to the anchor (11) and in close contact with the side of the step (S); a bracket rail 20 protruding from the surface of the bracket plate 12 and having a plurality of fastening holes opened upward; an acrylic window (30) superimposed on the bracket plate (12) in close contact with the step (S); a fixing bracket 40 fixed to the bracket rail 20 and mounted on the acrylic window 30 to press the acrylic window 30 in the direction of the bracket plate 12; a first packing sheet 50 interposed between the acrylic window 30 and the bracket plate 12; and a second packing sheet (60) interposed between the acrylic window (30) and the fixing bracket (40).

In the present invention, the bracket rail 20 includes a rail body 21 fixed to protrude from the bracket plate 12 in a line, and a plurality of nuts 22 welded to the upper side of the rail body 21 . ) is included.

In the present invention, the fixing bracket 40 is connected to the first wing 41 in close contact with the rear side of the bracket rail 20 and the acrylic window 30 by being connected at right angles from the first wing 41 . ) and a second wing 42 that is in close contact with the surface side, and a bolt hole 43 formed in the second wing 42 through which a bolt B fastened to the bracket rail 20 passes.

In the present invention, a back bracket 70 protruding from the bracket plate 12 on the rear side of the bracket rail 20 is further included.

In the present invention, it further includes a grout closing block 90 filled between the back bracket 70 and the edge of the step (S).

According to the present invention, an anchor bracket 10 consisting of a plurality of anchors 11 embedded in the step S and a bracket plate 12 in close contact with the side of the step S, and the bracket plate 12 protruding from the The bracket rail 20, the acrylic window 30 superimposed on the bracket plate 12, the fixing bracket 40 fixed to the bracket rail 20 and pressing the acrylic window 30, and the acrylic window 30 By including the first packing sheet 50 interposed between the and the bracket plate 12 and the second packing sheet 60 interposed between the acrylic window 30 and the fixing bracket 40, acrylic in a conventional concrete tank There is no need to use the silicone used to waterproof the window, and accordingly, the time required for waterproofing the acrylic window can be dramatically reduced, and at the same time, it has the effect of maintaining a certain waterproof ability even after a long period of time. .

1 is a view for explaining that a thick acrylic window inserted into a stepped hole formed in a conventional concrete water tank is supported spaced apart by a crushing member;
2 to 4 are views for explaining a series of processes of waterproofing the acrylic window on the step of the step hole of FIG. 1;
5 is a side view for explaining the waterproof structure of an acrylic window of a concrete water tank according to the present invention;
6 is an exploded side view of the acrylic window waterproof structure of FIG. 5;
7 is a view for explaining that the anchor bracket, the bracket rail, and the back bracket of FIG. 6 form a single body;
Figure 8 is an assembly view of the acrylic window waterproof structure of Figure 6;

Hereinafter, an acrylic window waterproofing structure of a concrete water tank according to the present invention will be described in detail with reference to the accompanying drawings.

Hereinafter, what is described as "upper" or "upper" may include not only directly on in contact but also on non-contacting. Terms such as first, second, etc. may be used to describe various components, but the components should not be limited by the terms. The terms are used only for the purpose of distinguishing one component from another. The singular expression includes the plural expression unless the context clearly dictates otherwise. Also, when a part "includes" a component, it means that other components may be further included, rather than excluding other components, unless otherwise stated. In addition, terms such as "...unit" and "module" described in the specification mean a unit that processes at least one function or operation. In addition, in the drawings, the size of the components may be exaggerated or reduced for convenience of description. For example, since the size and thickness of each component shown in the drawings are arbitrarily indicated for convenience of description, the present invention is not necessarily limited to the illustrated bar.

5 is a side view for explaining the waterproof structure of the acrylic window of the concrete water tank according to the present invention, FIG. 6 is an exploded side view of the waterproof structure of the acrylic window of FIG. 5, and FIG. 7 is the anchor bracket, bracket rail and back bracket of FIG. It is a view for explaining what constitutes this one body, and FIG. 8 is an assembly view of the waterproof structure of the acrylic window of FIG. 6 .

As shown, the acrylic window waterproof structure of the concrete water tank according to the present invention is installed on the step S formed along the inner side of the step hole H formed in the large concrete water tank C when constructing an aquarium or swimming pool. will become

The waterproof structure includes an anchor bracket 10 comprising a plurality of anchors 11 embedded in the step S and a bracket plate 12 connected to the anchor 11 and in close contact with the side of the step S; a bracket rail 20 protruding from the surface of the bracket plate 12 and having a plurality of fastening holes opened upward; An acrylic window 30 superimposed on the bracket plate 12 in close contact with the step S; a fixing bracket 40 fixed to the bracket rail 20 and mounted on the acrylic window 30 to press the acrylic window 30 in the direction of the bracket plate 12; a first packing sheet 50 interposed between the acrylic window 30 and the bracket plate 12; a second packing sheet 60 interposed between the acrylic window 30 and the fixing bracket 40; a back bracket 70 protruding from the bracket plate 12 on the rear side of the bracket rail 20; a packing ball 80 for sealing between the bracket rail 20 and the fixing bracket 40; a grout closing block 90 filled between the back bracket 70 and the corner of the step S; and a waterproofing layer 100 formed on the surface of the ground closing block 90 and the fixing bracket 40 .

The anchor bracket 10, as shown in FIGS. 6 and 7, is composed of a bracket plate 12 with a flat surface and an anchor 11 protruding to the rear side of the bracket plate 12.

Anchor 11 may be implemented in various forms, for example, may be implemented as a bolt composed of a head and a screw body, and may be implemented by welding the screw body after inserting it into a hole formed on the rear surface of the bracket plate 12 . can,

The bracket plate 12 is made of a stainless material harmless to marine life, and has a smooth surface, so that it can maintain a sealing state when in close contact with the first packing sheet 50 to be described later.

This anchor bracket 10 is coupled to the formwork when pouring the concrete tank (C) with cement mortar, and then, when the formwork is removed after the cement mortar is cured, the anchor 11 is embedded inside the cured step (S). and the bracket plate 12 is in close contact with the stepped (S) surface.

As shown in FIG. 7 , the bracket rail 20 includes a rail body 21 fixed to protrude from the bracket plate 12 in a line, and a plurality of nuts 22 welded to the upper side of the rail body 21 . ) is included.

The rail body 21 has a length corresponding to the acrylic window, and is realized by processing a stainless plate harmless to marine life in a box shape, and thus an empty space is formed therein.

The nut 22 is fixed to the upper side of the rail body 21 , and a fastening hole is formed so that the bolt B passing through the fixing bracket 40 can be fastened.

The acrylic window 30 is mounted on the step S of the step hole H of the concrete tank C, and has a thickness of at least 100 mm to be used in an aquarium or a swimming pool.

As shown in FIG. 6 , the fixing bracket 40 is connected to the first wing 41 in close contact with the rear side of the bracket rail 20 and the first wing 41 at a right angle to the acrylic window 30 . ) and a second wing 42 that is in close contact with the surface side, and a bolt hole 43 through which a bolt (B) fastened to the bracket rail 20 as formed on the second wing 42 passes.

The second wing 42 presses the second packing sheet 60 to be described later as the bolt B penetrates the bolt hole 43 and is fastened to the fastening hole of the nut 22 of the bracket rail 20 .

The first packing sheet 50 is interposed between the acrylic window 30 and the bracket plate 12, and the second packing sheet 60 is between the acrylic window 30 and the fixing bracket 40, to be more precise, the fixing bracket. As interposed between the second wings 42 of (40), it is elastically deformed by an external force.

The back bracket 70 is spatially separated from the bracket rail 20 by protruding from the bracket plate 12 on the rear side of the bracket rail 20 as shown in FIGS. 6 and 7 . Accordingly, even if the grout mortar is filled between the back bracket 70 and the corner of the step S to form the grout finishing block 90 to be described later, the grout mortar can be prevented from moving toward the bracket rail 20. there is.

In addition, the back bracket 70 forms an insertion guide space 75 for inserting and positioning the first wing 41 of the fixing bracket 40 between the bracket rail 20 and the bracket rail 20 . Accordingly, when the first wing 41 is inserted into the insertion guide space 75 , the bolt hole 43 of the second wing 42 may be accurately opposed to the nut 22 of the bracket rail 20 . .

The packing ball 80 passes through the second wing 42 between the fixing bracket 40 and the bracket rail 20 and wraps the bolt (B) fastened to the nut 22 at the same time as the second wing (42). By being in close contact, water is prevented from penetrating into the space between the fixing bracket 40 and the bracket rail 20 through the bolt hole 43 . Accordingly, even if time passes, water does not penetrate around the bracket rail 20 made of a metal material, thereby preventing corrosion from proceeding around the bracket rail 20 .

The grout finish block 90 is implemented by filling the grout mortar between the back bracket 70 and the corner of the step S and then curing. The ground closing block 90 closes between the back bracket 70 and the corner of the step S, and at the same time, the acrylic window 30 mounted on the step S loses its own weight to the bracket rail 20 and the back. Even if the bracket 70 is pushed, the back bracket 70 is supported so that it is not pushed further.

The waterproof layer 100 is formed by coating and finishing the surfaces of the ground finish block 90 and the fixing bracket 40 with a FRP waterproof lining.

As described above, according to the present invention, the anchor bracket 10 comprising a plurality of anchors 11 embedded in the step S and the bracket plate 12 in close contact with the side of the step S, and the bracket plate 12 . A bracket rail 20 protruding from the acrylic window 30 superimposed on the bracket plate 12, a fixing bracket 40 fixed to the bracket rail 20 to press the acrylic window 30, and an acrylic window By including the first packing sheet 50 interposed between the 30 and the bracket plate 12 and the second packing sheet 60 interposed between the acrylic window 30 and the fixing bracket 40, conventional concrete It is not necessary to use the silicone used to waterproof the acrylic window in the water tank, and accordingly, the time required for waterproofing the acrylic window can be dramatically reduced, and at the same time, it is possible to maintain a certain waterproof ability even after a long period of time.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary, and it will be understood by those skilled in the art that various modifications and equivalent other embodiments are possible therefrom.

10 ... anchor bracket 11 ... anchor
12 ... Bracket plate 20 ... Bracket rail
21 ... rail body 22 ... nut
30 ... Acrylic window 40 ... Fixing bracket
41 ... 1st wing 42 ... 2nd wing
43... Bolt hole 50... First packing sheet
60 ... 2nd packing sheet 70 ... Back bracket
80 ... packing ball 90 ... grout closing block
100 ... waterproof layer

Claims (5)

As installed in the stepped (S) formed along the inner side of the stepped hole (H) formed in the concrete tank (C),
An anchor bracket (10) comprising a plurality of anchors (11) embedded in the step (S) and a bracket plate (12) connected to the anchor (11) and in close contact with the side of the step (S);
a bracket rail 20 protruding from the surface of the bracket plate 12 and having a plurality of fastening holes opened upward;
an acrylic window (30) superimposed on the bracket plate (12) in close contact with the step (S);
a fixing bracket 40 fixed to the bracket rail 20 and mounted on the acrylic window 30 to press the acrylic window 30 in the direction of the bracket plate 12;
A first packing sheet 50 interposed between the acrylic window 30 and the bracket plate 12; And
and a second packing sheet (60) interposed between the acrylic window (30) and the fixing bracket (40). According to claim 1, The bracket rail (20),
A rail body 21 fixed to protrude in a line from the bracket plate 12, and
Acrylic window waterproof structure of the concrete water tank, characterized in that it comprises a plurality of nuts (22) welded to the upper side of the rail body (21). According to claim 1, wherein the fixing bracket (40),
a first wing 41 that is in close contact with the rear side of the bracket rail 20;
a second wing 42 connected at right angles to the first wing 41 and in close contact with the surface side of the acrylic window 30;
The acrylic window waterproof structure of the concrete water tank, characterized in that it comprises a bolt hole (43) formed in the second wing (42) and through which the bolt (B) fastened to the bracket rail (20) is penetrated. The method of claim 1,
The acrylic window waterproof structure of the concrete water tank, characterized in that it further comprises a back bracket (70) protruding from the bracket plate (12) on the rear side of the bracket rail (20). The method of claim 1,
Acrylic window waterproof structure of a concrete water tank, characterized in that it further comprises a grout closing block (90) filled between the back bracket (70) and the edge of the step (S).

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