KR200385812Y1 - Building roof dehumidification system - Google Patents

Abstract

 The present invention relates to a building roof dehumidification device designed to remove moisture penetrating into the waterproof layer without removing the waterproof layer such as urethane, which is used to remove the moisture on the roof, which penetrates from the conventional waterproof layer to the roof slab layer. Pipe protection fixing is inserted into at least one through hole of a predetermined interval, and a pipe having a waterproof layer and a predetermined height is inserted, and silicon is injected into the gap between the waterproof layer bottom and the pipe and wraps around the lower part of the pipe projected by the waterproof layer. It is characterized in that the jaw and the upper opening of the pipe is provided with rainwater and impurities prevention means.

Description

Building roof dehumidifier {Building roof dehumidification system}

The present invention relates to a building rooftop moisture removal device for effectively removing the ingress of moisture, such as rain water due to the aging of the roof waterproofing layer of the slab building.

In general, the rooftop slab is repeatedly expanded and contracted at temperatures of 60 to 70 ° C in summer and 10 ° C or less in winter, so that cracks of 1 mm or more occur in the slab all around the slab from 3 to 4 years, and the surface of the slab is cracked or damaged. do.

Therefore, the rooftop waterproofing not only prevents leakage but also protects the rooftop slab layer, thereby extending the life of the building. Therefore, the rooftop waterproofing method as shown in FIG. 1 provides the insulation 110 to the rooftop slab layer 100. It is a general construction method that is composed of a mortar layer 120 and a waterproof layer 130 thereon.

However, the waterproof coating layer used on the roof has a thickness of about 1 ~ 2mm and shrinks and expands according to the summer and winter temperatures, and this causes the waterproof layer itself to crack and to be rebuilt after several years even if the waterproofing is performed.

In this way, if the building is old, the existing waterproof layer is walked and the waterproofing is re-worked, but the construction cost is high, and most of the existing constructions are overlaid on the existing waterproof layer to increase the load of the building itself, thereby causing the structural stability of the building.

In addition, academically, the perfect insulation layer says that there is no stationary air, a waterproof material that can withstand shrinkage and expansion with realistic semi-permanent insulation effect.

However, as the waterproofing agent itself has excellent coating properties, it is known that the service life can be extended for more than a few years if the construction conditions are properly met. This is because the concrete is dried for 20 days at room temperature of 20 ~ 25 ° C. It should be less than 5%, but in Korea, where four seasons are clear, it is difficult to meet this construction condition.

Therefore, the present invention was devised in view of the above-mentioned conventional problems, and the first object is to remove moisture to the outside by using at least one or more pipes that penetrate the existing waterproof layer and are connected to the slab layer.

A second object of the present invention is to install a moisture removing rotary fan on the top as a means for effectively discharging the internal moisture through the perforated pipe.

Objects of the present invention as described above are at least one or more through holes of a predetermined interval through the roof top slab layer;

A pipe inserted into the through hole and protruding above the roof waterproof layer;

Waterproofing silicon for airtightness between the through-hole and the pipe;

Pipe guard fixing jaw surrounding the lower circumference of the pipe protruding to the roof waterproof layer;

Rainwater and impurity inlet preventing means installed at the pipe end;

The rainwater and impurity inflow prevention means, the fan is provided on the upper end of the rotating fan rotated by natural wind;

As another embodiment of the rotating fan is provided by the upper end of the pipe and provided with a T-shaped tube perpendicular to the pipe and having branch holes on both sides.

 Hereinafter will be described in more detail by the accompanying drawings of preferred embodiments of the present invention.

1 is a cross-sectional view showing an example of a waterproof rooftop of a conventional building, Figure 2 is a state diagram showing an example of the use of the rooftop moisture removing device of the present invention, Figure 3 is installed on the pipe end of the present invention It is sectional drawing which shows another Example of rainwater inflow prevention means.

Building rooftop moisture removal device of the present invention, at least one or more through-holes 10 of a predetermined interval to pass through the slab layer 100 to the existing building provided with a waterproof layer 130;

A pipe 20 inserted into the through hole 10 and configured to protrude from the waterproof layer 130 at a predetermined interval;

Silicon (30) filled between the through hole (10) and the pipe (20) to maintain airtightness;

A pipe guard fixing jaw 30 surrounding the silicon and surrounding the lower circumference of the pipe 20 protruding into the waterproof layer 130;

Rainwater and impurity inflow prevention means for preventing the inflow of rainwater and impurities outside the upper end of the pipe 20 to increase the discharge of accumulated moisture 150 therein;

 As the rainwater and impurity inflow prevention means, the pipe 20 is provided on the top of the rotating fan 50 is rotated by natural wind;

As another embodiment of the rotating fan 50 is provided with an upper end portion of the pipe 20 and is formed of a T-shaped tube 51 formed at right angles to the pipe 20 and open at both sides.

Building rooftop moisture removal device of the present invention is configured as described above, due to the crack 140 of the waterproof layer 130 is a leak problem of the rooftop slab layer 100 of the conventional building as shown in FIG. At least one penetrating to the rooftop slab layer 100 without removing the waterproof layer 130 using urethane or other waterproofing agent, which is currently constructed as shown in FIG. The through-hole 10 of more than a predetermined interval is inserted through the pipe 20 configured to have a predetermined height and the bottom surface of the waterproof layer 130.

This is to solve the problem that the moisture 150 accumulated in the conventional case prevents the waterproof layer 130 from discharging the moisture 150 even if the surface temperature of the rooftop in summer is raised, thereby preventing the moisture 150 from being removed. By means of the pipe 20 to the internal moisture 150 is discharged to the outside by means.

In addition, in order to prevent external rainwater or impurities from flowing into the through hole 10 formed in the waterproof layer 130, as shown in FIG. 2, silicon 30 is used on the contact surface between the waterproof layer 130 and the pipe 20. To maintain.

In addition, the jaw is fixed as a means for preventing the pipe 20 from being shaken or the pipe 20 itself being damaged by being kicked by an object or foot that was inadvertently carried by the person who moved the rooftop while being kept airtight with silicon. 30).

The fixing jaw (30) is preferably wrapped around the bottom circumference of the pipe 20 protruding from the waterproof layer 130 by using a straw made of concrete and firmly fixed at a certain height, but due to the carelessness of the person moving the rooftop. It is also possible to protect the lower circumference of the pipe 20 by penetrating the waste tire through the pipe 20 in order to fear the injury caused by falling, and also a predetermined thickness that can absorb the impact on the fixed jaw 30 made of concrete. It is also possible to reduce the injuries by attaching the rubber to the upper surface or by forming the concrete itself in a hemispherical shape to minimize the obstacles in the movement.

As a means for preventing rain water or impurities from entering through the upper opening of the pipe 20 and accumulating in the pipe, the rotating fan 50 is provided on the upper surface of the opening to rotate by natural wind. As a result of forced circulation of the air in the pipe 20, the effect of removing moisture 150 accumulated in the rooftop slab layer 100 was increased.

In addition to the rotating fan 50 specified in the preferred embodiment of the present invention, it is also possible to use a cylindrical cover having a predetermined circumference opening to prevent rainwater and impurities from being introduced, and also perpendicular to the pipe 20 as shown in FIG. 3. It is also possible to use the T-shaped tube 51 which has a hole branched on both sides and the residual moisture in the pipe 20 is discharged out of the air by rising air together with the air flowing through the branched hole. For example.

The use of the rooftop moisture removal device of the present invention constructed and acting as described above solves the problem of accumulating moisture in the gap created by the contraction and expansion of the building, which promotes the aging of the building in the long term, and overcoats the waterproof layer. Has the effect of fundamentally solving the hassle of rebuilding by harming the structural stability of the building due to cumulative construction or removing the waterproof layer.

1 is a cross-sectional view showing an example of a waterproof layer on a roof of a conventional building;

Figure 2 is a use state showing an example of the use of the building rooftop moisture removal device of the present invention,

Figure 3 is a cross-sectional view showing another embodiment of the rainwater inflow prevention means installed at the pipe end of the present invention.

[Description of Signs on Major Parts of Drawings]

10 through hole 20 pipe

30 silicon 40 fixed jaw

50: rotating fan 51: T-shaped tube

Claims (3)

Rainwater is provided in the pipe 20 and the end openings of the pipe 20 inserted into the at least one through hole 10 penetrating from the waterproof layer 130 and connected to the bottom slab layer 100 and protruding at a predetermined interval from the rooftop waterproof layer 130. It is provided with a means for preventing impurity, the lower end is composed of a fixing jaw (40) surrounding the outer circumference of the pipe to block the flow of the pipe 20, to prevent damage due to external pressure and to maintain the airtight with the waterproof layer 130 Building rooftop dehumidifier, characterized in that. The building rooftop moisture removal device according to claim 1, wherein the rainwater and impurity inflow preventing means is provided with a rotating fan that effectively increases the external discharge of moisture accumulated between the slab layer and the waterproof layer and rotates by natural wind. The building rooftop moisture removal device according to claim 1, wherein the rainwater and impurity inflow preventing means comprises a T-shaped pipe (51) having branch holes on both sides of an upper end of the pipe (20).