CN219621982U - Waterproof node of prefabricated window - Google Patents

Abstract

The utility model relates to a waterproof node of a prefabricated window, which is arranged on a structural beam and is arranged close to a structural column, and the waterproof node comprises: the under-window wall is fixedly arranged on the structural beam, and the top of the under-window wall is provided with a prefabricated window; the first waterproof layer is arranged between the under-window wall and the structural column; and the induction seam is formed on the under-window wall and communicated with the first waterproof layer, and a second waterproof layer is arranged in the induction seam, so that the under-window wall is simple in structure and convenient to install.

Description

Waterproof node of prefabricated window

Technical Field

The utility model relates to the field of constructional engineering, in particular to a waterproof node of a prefabricated window.

Background

In actual construction, an installation space is reserved for a window, and a prefabricated window is usually standardized in size, so that the reserved space is usually large enough when the installation space is arranged, so that the window can be placed in the installation space, then a window lower wall is arranged below the preset position of the window, a guide seam is required to be reserved for the window lower wall so as to prevent cracking in the pouring process, then a steel plate is arranged on the periphery of the guide seam, rainwater cannot enter, the whole appearance of a building is affected by the steel plate, and rainwater sometimes enters from the gap between the steel plate and the window lower wall. In rainy season, the outdoor windowsill is eroded for a long time by the rainwater, and the rainwater flows into the room through the induced seam, so that the indoor wall surface is wetted, and the phenomenon is particularly obvious in some old communities, and the living environment and the living quality of residents are affected.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the waterproof node for the prefabricated window, which is waterproof by arranging a waterproof layer under the window, and has the advantages of simple structure and strong waterproof effect.

The technical scheme who realizes above-mentioned purpose is a waterproof node of prefabricated window, sets up on the structural beam, and is close to the setting of structural column, waterproof node includes:

the under-window wall is fixedly arranged on the structural beam, and the top of the under-window wall is provided with a prefabricated window;

the first waterproof layer is arranged between the under-window wall and the structural column; and

the induction seam is formed in the under-window wall and communicated with the first waterproof layer, and a second waterproof layer is arranged in the induction seam.

Further, a reverse ridge is formed on one side, close to the outside, of the structural beam, and the under-window wall is plugged with the reverse ridge.

Further, the top of the wall under the window is provided with a waterproof part, and the waterproof part is arranged indoors and is attached to the side wall of the prefabricated window.

Further, a seat slurry layer is arranged between the under-window wall and the structural beam.

Further, the first waterproof layer is a building sealant layer arranged between the under-window wall and the structural column.

Further, the building sealant further comprises a rock wool board arranged between the building sealant layer and the structural column, and the building sealant layer partially coats the rock wool board.

Further, the building sealant comprises a plurality of foaming polyethylene rods which are arranged vertically between the building sealant layer and the structural columns, and the foaming polyethylene rods are partially coated by the building sealant layer.

Further, the second waterproof layer is a building sealant layer arranged in the induction seam.

Furthermore, a rock wool plate is further arranged in the induction seam, and the rock wool plate is coated by the building sealant layer.

Furthermore, a plurality of foaming polyethylene rods are further vertically arranged in the induction joints, and the foaming polyethylene rods are covered by the building sealant layer.

Compared with the prior art, the utility model has the following beneficial effects:

through bottom and the top at the wall under the window of prefabricated window set up waterproof section and waterproof piece, play the waterproof effect in horizontal gap, through setting up rock wool board joint filling, foaming polyethylene stick, building sealant three waterproof between structural column and prefabricated wall under the window, effectually played outside possible infiltration entering indoor, through setting up rock wool board joint filling, foaming polyethylene stick, building sealant four waterproof between prefabricated wall under the window, played vertical gap ground waterproof effect effectively.

Drawings

Fig. 1 is a schematic structural view of a waterproof node of a prefabricated window according to the present utility model.

Fig. 2 is a side view of a waterproof node of a prefabricated window according to the present utility model.

Legend description: 1. prefabricating a window; 2. a wall under the window; 3. a structural column; 4. a structural beam; 5. a reverse bank; 6. and a first waterproof layer.

Detailed Description

The utility model will be further described with reference to the drawings and the specific examples.

Referring to fig. 1, a waterproof node of a prefabricated window is disposed on a structural beam 4 and is disposed near a structural column 3, the waterproof node comprising: a window wall 2 fixedly arranged on the structural beam 4, wherein the top of the window wall 2 is provided with a prefabricated window 1; a first waterproof layer 6 provided between the under-window wall 2 and the structural column 3; and a inducing seam formed on the under-window wall 2 and communicated with the first waterproof layer 6, wherein a second waterproof layer is arranged in the inducing seam.

In the utility model, the waterproof node is often used in a partition house or a large glass curtain wall structure, outdoor rainwater can be effectively blocked through the waterproof node, when the under-window wall 2 is constructed, the position of the induced seam is reserved, the induced seam can dredge the internal stress of the under-window wall 2, preferably, one end of the induced seam is arranged outdoors, one end of the induced seam is arranged indoors, a second waterproof layer is arranged in the induced seam, so that the rainwater cannot enter the room from the induced seam, the prefabricated window 1 is fixedly arranged at the top of the under-window wall 2, preferably, a first waterproof layer 6 is further arranged between the structural column 3 and the under-window wall 2, and the rainwater cannot enter the induced seam through the first waterproof layer 6 and the second waterproof layer.

Referring to fig. 2, further, a reverse ridge 5 is formed on a side of the structural beam 4 near the outdoor, and the under-window wall 2 is plugged with the reverse ridge. The bottom elevation of the reverse ridge is lower than the top elevation of the structural beam, the reverse ridge is placed on the reverse ridge through the under-window wall 2, and when raining, rainwater can only permeate into the gap between the reverse ridge and the under-window wall, but cannot flow up and permeate into the gap between the under-window wall 2 and the structural beam 4, so that rainwater cannot enter from the gap between the under-window wall 2 and the structural beam 4.

Further, the top of the under-window wall 2 is provided with a waterproof part, and the waterproof part is arranged indoors and is attached to the side wall of the prefabricated window 1, so that rainwater can be prevented from entering from the bottom of the prefabricated window 1.

Further, a grout seat layer is arranged between the under-window wall 2 and the structural beam 4. The grout layer improves the strength of the connection between the under-window wall 2 and the structural beam 4.

Further, the first waterproof layer 6 is a building sealant layer arranged between the under-window wall and the structural column.

Further, the building sealant further comprises a rock wool board arranged between the building sealant layer and the structural column, and the building sealant layer partially coats the rock wool board. The rock wool board plays a role in heat preservation, flame insulation and sound absorption so as to improve living experience of indoor personnel.

Further, the building sealant layer comprises a plurality of foaming polyethylene rods which are arranged vertically between the building sealant layer and the structure, and the foaming polyethylene rods are partially coated by the building sealant layer. The foamed polyethylene rod can fill gaps and strengthen waterproofness.

Preferably, the rock wool board is attached to two side walls of the first waterproof layer 6, the foaming polyethylene rods are arranged between the two rock wool boards, and the building sealant fills gaps between the rock wool board and the first waterproof layer 6 and the foaming polyethylene rods, so that the first waterproof layer 6 is waterproof and has the effects of absorbing sound and buffering impact.

Further, the second waterproof layer is a building sealant layer arranged in the induction seam.

Furthermore, a rock wool plate is further arranged in the induction seam, and the rock wool plate is coated by the building sealant layer. The rock wool board plays a role in heat preservation, flame insulation and sound absorption so as to improve living experience of indoor personnel.

Furthermore, a plurality of foaming polyethylene rods are further vertically arranged in the induction joints, and the foaming polyethylene rods are covered by the building sealant layer. The foamed polyethylene rod can fill gaps and strengthen waterproofness.

Preferably, the rock wool board is attached to two side walls of the second waterproof layer, the foaming polyethylene rods are arranged between the two rock wool boards, the building sealant fills gaps between the rock wool board, the second waterproof layer and the foaming polyethylene rods, so that the second waterproof layer is waterproof and has the effects of absorbing sound and buffering impact.

The following describes a procedure for using the waterproof node of the prefabricated window according to the present utility model.

When constructing window wall 2, reserve the position of induced seam, induced seam can dredge the internal stress of window wall 2, and preferably, the one end of induced seam sets up in the off-premises, and one end sets up in the room, through in induced seam intussuseption packing rock wool board, foaming polyethylene stick and building sealant are in order to form the second waterproof layer for the rainwater can't follow induced seam gets into in the room, will prefabricated window 1 fixed mounting in the top of window wall 2, preferably, the structural column 3 with fill rock wool board, foaming polyethylene stick and building sealant between the window wall 2 are in order to form first waterproof layer 6, through first waterproof layer 6 with the second waterproof layer has guaranteed that the rainwater can not follow in the induced seam.

The present utility model has been described in detail with reference to the embodiments of the drawings, and those skilled in the art can make various modifications to the utility model based on the above description. Accordingly, certain details of the illustrated embodiments are not to be taken as limiting the utility model, which is defined by the appended claims.

Claims (10)

1. Waterproof node of prefabricated window sets up on the structural beam, and is close to the setting of structural column, characterized by, waterproof node includes:

the under-window wall is fixedly arranged on the structural beam, and the top of the under-window wall is provided with a prefabricated window;

the first waterproof layer is arranged between the under-window wall and the structural column; and

the induction seam is formed in the under-window wall and communicated with the first waterproof layer, and a second waterproof layer is arranged in the induction seam.

2. A water resistant node for a prefabricated window according to claim 1, wherein: and a reverse ridge is formed on one side of the structural beam, which is close to the outside of the room, and the under-window wall is plugged with the reverse ridge.

3. A water resistant node for a prefabricated window according to claim 1, wherein: the top of wall under the window is formed with waterproof portion, waterproof portion set up in indoor and with prefabricated window's lateral wall laminating mutually.

4. A water resistant node for a prefabricated window according to claim 1, wherein: and a seat slurry layer is arranged between the under-window wall and the structural beam.

5. A water resistant node for a prefabricated window according to claim 1, wherein: the first waterproof layer is a building sealant layer arranged between the under-window wall and the structural column.

6. A water resistant node for a prefabricated window according to claim 5, wherein: the building sealant layer is arranged on the structural column, and the building sealant layer is arranged on the structural column.

7. A water resistant node for a prefabricated window according to claim 5, wherein: the building sealant layer is characterized by further comprising a plurality of foaming polyethylene rods which are arranged between the building sealant layer and the structural columns in a vertical mode, and the foaming polyethylene rods are partially coated by the building sealant layer.

8. A water resistant node for a prefabricated window according to claim 1, wherein: the second waterproof layer is a building sealant layer arranged in the induction seam.

9. A water resistant node for a prefabricated window according to claim 8, wherein: and a rock wool plate is further arranged in the induction seam, and the rock wool plate is coated by the building sealant layer.

10. A water resistant node for a prefabricated window according to claim 8, wherein: a plurality of foaming polyethylene rods are further vertically arranged in the induction joints, and the foaming polyethylene rods are covered by the building sealant layer.