KR200181978Y1 - Structure for mounting a air vent in the discharge construction - Google Patents

Abstract

Disclosed is an air vent installation structure of a waterproof construction according to the present invention.

According to the present invention, the asphalt layer 12, the heat insulating layer 14, and the protective mortar layer 16 are sequentially stacked on top of the main slab layer 10, and the air vent 30 is disposed on the protective mortar layer 16. The bottom surface is covered with a roofing sheet waterproof layer 20 through the bonding material 18 in a fixed state at a predetermined interval, and the non-installed portion of the air vent 30 is the roofing sheet waterproof layer 30 is bonded It is structured to be integrally attached to the protective mortar layer 16 through the ash 18, the air vent 30 is installed at a predetermined interval above the protective mortar layer 16, the internal moisture to the air vent 30 Since it escapes to the outside through the air pocket phenomenon of the roofing sheet waterproof layer 12 and to prevent damage to the waterproof layer.

Description

Structure for mounting a air vent in the discharge construction}

The present invention relates to an air vent installation structure of waterproof construction, and more particularly to an air vent installation structure of waterproof construction in which the air vent is installed so that a predetermined space is formed between the roofing sheet waterproof layer and the protective mortar layer.

In recent years, in response to the expansion and contraction of the base material, an insulating method for avoiding condensation between the waterproof layer and the base material, evaporation of water vapor, and the like, and an insulating waterproof method for installing the insulating material between the waterproof layers have been widely used.

In general, when the floor construction of the building covers the asphalt sheet on the main slab layer, then the insulation is laid and finished with a protective mortar layer. These building structures have been damaged over time, hardening the existing waterproof layer, which can not withstand the contraction and expansion of vibration or concrete, and destroyed, followed by waterproof construction for repair. Therefore, in order to solve this problem, a waterproof construction using a synthetic polymer roofing sheet (hereinafter referred to as 'roofing sheet') is being performed.

In the conventional waterproof construction using a roofing sheet, as shown in FIG. 1, the bottom reaches the bottom between the asphalt layer 102 and the heat insulation layer 104 located on the top of the main slab layer 100, and the top of the roof is external. Install the air vent 120 to protrude into the, the heat insulation layer

The top protection mortar layer 106 of 104 is covered with a roofing sheet waterproof layer 110 with a bonding material 108. Here, the air vent 120 serves to prevent the air pocket from occurring between the protective mortar layer 106 and the roofing sheet waterproof layer 110.

By the way, the water that penetrated into the interior due to the cracks of the wall and the partial breakage of the waterproof layer is collected between the asphalt layer 102 and the heat insulation layer 104, but when the sun is exposed to the moisture is the roofing sheet waterproof layer There was a problem of breaking (110). That is, since the amount of water vapor evaporating to a weak portion of the protective mortar layer 106 is greater than the amount of water vapor passing through the air vent 120, the air vent 120 does not serve as a protective mortar layer. Not only air pockets are generated by the water vapor which escapes to the weak portion of 106, but eventually the roofing sheet waterproof layer 110 is damaged.

Therefore, the present invention was conceived in view of the problems of the air vent installation structure of the conventional waterproof construction, and the air vent installation of the waterproof construction that can fundamentally block the damage of the waterproof layer by allowing most of the internal moisture of the waterproof layer to escape through the air vent. The purpose is to provide a structure.

In order to achieve the above object, the present invention, an asphalt layer, a heat insulating layer, a protective mortar layer are sequentially stacked on top of the main slab layer, and a lower surface of the air vent is fixed to the upper portion of the protective mortar layer at predetermined intervals. It is covered with a roofing sheet waterproof layer through a bonding material in a state, and the non-installed part of the air vent has a structure in which the roofing sheet waterproof layer is integrally attached to the protective mortar layer through the bonding material.

The air vent is attached to the bottom plate, it is characterized in that the fixing mortar layer with a predetermined interval through the fixing fixture in the state in which the fitting member is inserted into the bottom end of the plate.

Preferably, the air vent and the roofing sheet waterproof layer are contacted with a sealing material.

The present invention having such a structure, the air vent is installed at a predetermined interval above the protective mortar layer to prevent the water vapor generated in the protective mortar layer to escape through the air vent to prevent the air pocket phenomenon of the roofing sheet waterproof layer. Will be.

1 is a schematic view showing a waterproof construction according to the prior art,

Figure 2 is a schematic view showing the air vent installation structure of the waterproof construction according to the present invention,

Figure 3 is a detailed cross-sectional view to enlarge the installation structure of the air vent according to the present invention,

4 is a perspective view of an air vent according to the present invention.

Explanation of symbols on the main parts of the drawings

10: main slab layer 12: asphalt layer

14: heat insulation layer 16: protective mortar layer

18: bonding material 20: roofing sheet waterproof layer

30: air vent 32: plate

34: fitting member 36: fixture

38: sealing material

Hereinafter, with reference to the accompanying drawings, preferred embodiments of the present invention will be described in detail.

Figure 2 is a schematic view showing the air vent installation structure of the waterproof construction according to the present invention, Figure 3 is a detailed cross-sectional view to enlarge the installation structure of the air vent according to the present invention.

In the air vent installation structure according to the present invention, as shown in FIG. 2, the asphalt layer 12, the heat insulation layer 14, and the protective mortar layer 16 are sequentially stacked on top of the main slab layer 10. While the lower surface of the air vent 30 is fixed to the upper part of the protective mortar layer 16 at a predetermined interval by the roofing sheet waterproof layer 20 through the bonding material 18, the air vent ( The roofing sheet waterproof layer 20 is integrally attached to the protective mortar layer 16 through the bonding material 18 in the non-installed portion 30.

Referring to FIG. 3, the air vent 30 has a plate 32 attached to the bottom thereof, and the fastener 36 is inserted in a state in which the fitting member 34 is inserted into the bottom end of the plate 32. The protective mortar layer 16 is fixedly installed at a predetermined interval. Here, the interval between the plate 32 of the air vent 30 and the roofing sheet waterproofing layer 20 is preferably 2 to 5 mm. The upper portion of the air vent 30 is bent 180 ° so that rain water does not flow.

As shown in FIG. 4, the plate 32 of the air vent 30 has a plurality of holes 32a formed along the front end thereof such that the fixture 36 is inserted and fixed. Here, it is preferable that the plate 32 should be about 3 mm in thickness, and, of course, it should be a flat surface without bending. In addition, the plate 32 may be formed in a columnar or other shape rather than a rectangle.

The fitting member 34 is a member for maintaining the distance between the plate 32 of the air vent 30 and the roofing sheet waterproof layer 20, the center is penetrated so that the fixture 36 passes. In addition, a portion of the air vent 30 and the roofing sheet waterproofing layer 20 that is in contact with the air vent 30 is coated with a sealing material 36 to prevent penetration of water.

In the present embodiment, the air vent 30 and the protective mortar layer are fixed by the fastener 36 while the fitting member 34 is inserted between the plate 32 and the protective mortar layer 16 of the air vent 30. A space is formed between the spaces 16, and the internal moisture is evaporated in the space to become water vapor and to escape through the air vent 30 to the outside. Therefore, since the internal humidity is mostly escaped to the air vent 30, it is possible to prevent the air pocket phenomenon of the roofing sheet waterproof layer 12.

According to the air vent installation structure of the waterproof construction according to the present invention as described above, the air vent is installed at a predetermined interval above the protective mortar layer, the internal moisture is evaporated to escape to the outside through the air vent roofing sheet waterproof layer It is possible to fundamentally prevent the air pocket phenomenon and damage of the waterproof layer.

Claims (2)

An asphalt layer 12, a heat insulating layer 14, and a protective mortar layer 16 are sequentially stacked on the top of the main slab layer 10, and a lower surface of the air vent 30 is disposed on the protective mortar layer 16. The roofing sheet waterproof layer 20 is covered with the roofing sheet waterproof layer 20 through the bonding material 18 in a fixed state at a predetermined interval, and the roofing sheet waterproof layer 30 is bonded to the roofing sheet waterproof layer 30. Air vent installation structure of waterproof construction installed integrally with the protective mortar layer (16) through. The method of claim 1, The air vent 30 has a plate 32 attached to the lower portion of the air vent 30 and a predetermined distance from the protective mortar layer 16 through a fixing means with the fitting member 34 inserted into the bottom end of the plate 32. Air vent installation structure of the waterproof construction, characterized in that the fixed installation.