KR101925205B1 - Drain Units for Rooftop - Google Patents

Abstract

The present invention relates to a semiconductor device comprising: a first drain pipe; A second drain line connected to the first drain line; A connecting portion connecting the first drain pipe to the second drain pipe and having a fixing portion formed at a boundary portion with the first drain pipe; And a drain spacing means fixed to the fixing portion. The roof drainage unit of the present invention is low in manufacturing cost and durable as well as capable of discharging condensed water on the heat insulating material layer and preventing water droplets condensed on the heat insulating material layer from escaping, It is possible to avoid such a problem.

Description

[0001] Drain Units for Rooftop [0002]

The present invention relates to a roof drainage unit, and more particularly to a roof drainage unit including a first drain pipe having a different diameter, a second drain pipe, a connecting portion connecting the first drain pipe and the second drain pipe, To a roof drainage unit.

Generally, a cement concrete is combined with a reinforcing steel or a steel frame to form a three-dimensional structure, and all completed buildings are formed with a roof structure corresponding to the outer upper surface at a final stage of a predetermined height of the object. The rooftop is a unique name according to the location and means a part corresponding to the upper outer surface of the continuous structure integrally connected from the foundation of the building.

The rooftop structure generally has a basic shape in the form of a flat floor, but its use is increasing in various ways depending on the purpose of use. However, since the rooftop structure is a structure corresponding to the outer surface of the entire structure, it is basically necessary to provide functional conditions for ensuring safe use of the inner space of the uppermost floor. In other words, safety from natural phenomena and disasters such as snow, rain, cold, heat, sunshine and wind must be ensured. Therefore, it is not only the most important thing to completely prevent the leakage of snow and rain water into the interior space below, but also the effects from external temperatures such as cold and heat. The function of minimizing, that is, the rooftop structure, is the part where the contact surface with the outside is large and exposed to the sun, and therefore, it is the part most affected by the difference in temperature. Therefore, the insulation is also an essential condition.

In addition, as the unit of the current building is enlarged, the utility and the economic value of the space on the roof are newly recognized, and the maintenance cost of the energy consumption due to the increase of the comfort of the indoor living environment is also increasing . In such a roof structure, the following matters should be considered in the form or method for preventing leakage and insulating insulation.

On the other hand, a generally known roof drain is installed on the roof top of a building to drain rainwater or sewage. When the drain pipe is installed on the outer wall of the building according to the structure of the building, The roof trough drain pipe and the roof trench drain pipe are connected to each other and the rainwater or the wastewater flowing into the inside of the line trough box is easily discharged through the drain pipe.

The conventional roof drain has a structure in which a waterproof layer is formed on a waterproofing blade surface of a bottom surface of a floor concrete, a mortar layer is formed on the waterproof layer, and a screen is fixed to the floor surface with a screw.

In the conventional roof installation structure for roof mounted in this manner, the area where the waterproof layer formed on the bottom surface and the surface in contact with the wall is small, so that the waterproof work can not be performed properly, and the waterproof layer is fixed There is a disadvantage that the bottom surface and the waterproof layer are separated from each other due to the joining between different materials and rainwater or sewage is introduced between the waterproof layer and the concrete slab layer and cracks are generated in the mortar layer on the roof top surface.

In order to solve the above-mentioned problem, in KR Patent Application No. 10-2015-0066115 (entitled "Rooftop Drain"), a variable flange portion on the upper side of a flange portion of a roof drain is provided in a waterproof layer above a slab layer And it is possible to adjust the quantity of the variable flange portion corresponding to the installation position of the drain for the roof without needing a separate coupling hole or the like according to the change of the finishing height of the roof floor, Thereby preventing the clogging of the filtering network for filtering the foreign matter and smoothing the flow of rainwater and sewage.

However, in the case of the roof drain unit disclosed in the above-mentioned patent documents, a large amount of cost is required for manufacturing a drain unit, and water droplets condensed on the heat insulating material layer can not escape therefrom.

Numerous papers and patent documents are referenced and cited throughout this specification. The disclosures of the cited papers and patent documents are incorporated herein by reference in their entirety to better understand the state of the art to which the present invention pertains and the content of the present invention.

The present inventors have found that the manufacturing cost of the roof drainage unit is low, durability is robust, and the water droplets condensed on the heat insulating material layer can be discharged. As a result, the water droplets condensed on the heat insulating material layer can not escape, And to develop a roof drainage unit that can prevent the above problems. As a result, the present invention has been accomplished upon discovering that it is possible to solve the above-described problem by separately forming a drain hole for discharging water droplets condensed in a heat insulating material layer at a connection portion connecting two drain pipes of different diameters.

It is therefore an object of the present invention to provide a roof drainage unit.

Another object of the present invention is to provide a manufacturing method of the above-described roof drain unit.

Other objects and advantages of the present invention will become more apparent from the following detailed description of the invention, claims and drawings.

The present invention provides a drain unit.

The present inventors have found that the manufacturing cost of the roof drainage unit is low, durability is robust, and the water droplets condensed on the heat insulating material layer can be discharged. As a result, the water droplets condensed on the heat insulating material layer can not escape, And to develop a roof drainage unit that can prevent the above problems. As a result, it has been confirmed that the aforementioned problem can be solved by separately forming a drain hole for discharging the condensed water in the heat insulating material layer at the connection portion connecting the two drain pipes having different diameters.

According to one aspect of the present invention, the present invention provides a semiconductor device comprising: a first drain pipe; A second drain line connected to the first drain line; A connecting portion connecting the first drain pipe to the second drain pipe and having a fixing portion formed at a boundary portion with the first drain pipe; And a drain spacing means fixed to the fixing portion.

As used herein, the term " rooftop " may refer to the uppermost portion of a building or similar structure, but is not limited thereto and is considered to include any place where waterproofing is required.

As used herein, the term " channel diameter " may mean both the outer diameter and the inner diameter size of the channel in the cross section of the bureau.

According to a preferred embodiment of the present invention, the sectional shape of the drain pipe of the present invention may preferably be circular, elliptical, rectangular, pentagonal or hexagonal, more preferably circular or rectangular, Lt; / RTI >

According to a preferred embodiment of the present invention, the diameter of the second drain pipe of the present invention may preferably be smaller than the diameter of the first drain pipe.

In the present invention, the diameter of the second drain pipe is smaller than the diameter of the first drain pipe. This is because it is possible to drain the water droplets condensed on the heat insulating material layer by joining the drain separating means to the connection portion which can be formed naturally by the difference between the diameter of the first drain pipe and the diameter of the second drain pipe.

According to a preferred embodiment of the present invention, the material for the roof drainage unit of the present invention is preferably metal, synthetic resin or wood, more preferably metal or synthetic resin, And most preferably a PVC resin.

According to a preferred embodiment of the present invention, the connecting portion of the present invention is preferably formed so as to connect one end of the first drain pipe and one end of the second drain pipe to each other, and the shape of the connecting portion is a hollow truncated cone The bottom surface of the truncated conical portion may be connected to one end of the first drain pipe and the top surface of the truncated conical portion may be connected to one end of the second drain pipe.

In the present invention, the connecting portion is in the form of a hollow truncated cone, the bottom surface of the truncated conical portion is connected to one end of the first drain pipe, and the truncated conical upper portion is connected to one end of the second drain pipe Configuration is a very important configuration. This is because, if the shape of the connecting portion is a hollow truncated cone, it is possible to prevent clogging caused by the diameter of the first drain pipe and the diameter of the second drain pipe.

According to a preferred aspect of the present invention, the fixing portion of the present invention is preferably a portion located at a portion where the first drain pipe and the connecting portion are connected to each other and fixing the drain separating means of the same diameter as the first drain pipe have.

According to a preferred embodiment of the present invention, the shape of the water separating means of the present invention is preferably in the shape of a channel, and a through hole or groove for one or more drainage is formed on the side surface, and the height may be 1-20 cm.

In the present invention, it is a very important constitution to include drainage spacing means. This is because it is possible to drain the water droplets condensed on the heat insulating material layer by forming a drain space between the hollow truncated conical-shaped connecting portion and the existing drain which can be formed naturally by the difference between the diameter of the first drain pipe and the diameter of the second drain pipe to be.

According to a preferred aspect of the present invention, the roof drain unit of the present invention is preferably constructed such that the second drain pipeline is inserted into a conventional drain installed on the bottom surface of the roof, and the second drain pipeline is installed between the roof drain unit and the existing drain And the accommodation separating means may be located.

According to another aspect of the present invention, there is provided a method of manufacturing a drainage unit for a roof top comprising the steps of:

(a) a first drain pipe and a second drain pipe having a diameter smaller than the diameter of the first drain pipe are connected to each other through a connecting portion, the shape of the connecting portion is a hollow truncated cone, The first drain pipe is connected to one end of the first drain pipe, the upper surface of the truncated conical part is connected to one end of the second drain pipe, A step of preparing a drain unit in which a fixing part for fixing the drainage spacing means of the drain unit is formed; And

(b) cutting a 1-20 cm-long channel out of the other end of the first drain pipe, and then forming a through hole or groove for at least one drainage on the side of the cut channel, .

In the present invention, it is possible to manufacture the drainage spacing means by cutting a 1-20 cm-long channel out of the other end of the first drain pipe and forming a through hole or groove for at least one drainage on the side of the cut channel It is a very important configuration. This is because not only the cost of mass production of the roof drain unit can be reduced by manufacturing the drainage separating means by cutting the other end of the first drain pipe, but also the length of the first drain pipe and the drain separating means As shown in FIG.

According to a preferred embodiment of the present invention, the height of the drain spacing means of the step (b) of the present invention can be preferably determined according to the height of the heat insulating layer.

The features and advantages of the present invention are summarized as follows:

(a) According to the present invention, there is provided a semiconductor device comprising: a first drain pipe; A second drain line connected to the first drain line; A connecting portion connecting the first drain pipe to the second drain pipe and having a fixing portion formed at a boundary portion with the first drain pipe; And a drain spacing means fixed to the fixing portion.

(b) The roof drainage unit of the present invention is inexpensive to manufacture, has durable durability, and is capable of discharging condensed water droplets to the heat insulating material layer, so that the condensed water droplets can not escape from the heat insulating material layer, Thereby providing an advantage that leakage phenomenon can be prevented.

Fig. 1 shows the appearance of a roof drainage unit according to the present invention.
Fig. 2 shows the installation procedure of the roof drain unit according to the present invention.
3 shows a construction of a roof drainage unit according to the present invention.
Fig. 4 shows a manufacturing method of a roof drainage unit according to the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

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

Fig. 1 shows a main configuration and a construction method of a roof drain unit 1 according to an embodiment of the present invention.

1, a roof drain unit 1 according to an embodiment of the present invention includes a first drain pipe 10, a second drain pipe 20, a connecting portion 30, a fixing portion 31, Receiving spacing means (40) and a drainage groove (41).

The first drain pipe 10 is located on the upper side of the connecting portion 30 to which a second drain pipe 20 described later is coupled and has a circular cross section and is exposed on the bottom surface of the building roof, Drain unit through the first drain.

The second drain pipe 20 is located on the lower side of the connecting portion 30 to which the first drain pipe 10 is coupled and has a circular section.

The connection portion 30 has the first drain pipe 10 connected to the upper side and the second drain pipe 20 connected to the lower side.

Here, the connecting portion 30 is formed in a hollow truncated cone shape, the bottom surface of the truncated conical portion is connected to one end of the first drain conduit 10, and the upper surface of the truncated conical portion is connected to the second drain conduit 20 so that the dirt introduced through the first drain pipe 10 can be discharged through the second drain pipe 20 without being caught by the connection part.

The fixing portion 31 is located at a portion where the first drain pipe 10 and the connecting portion 30 are connected.

The fixing portion 31 is formed in such a shape as to be capable of fixing a later-described water receiving and separating means 40 having the same diameter as that of the first drain pipe 10.

The drain spacing means 40 may be manufactured by cutting the end of the first drain pipe 10 and then forming a plurality of through holes or grooves for drainage on the side of the cut pipe.

The height of the drainage spacing means 40 is adjusted flexibly according to the situation of the roof bottom surface on which the roof drain unit 1 of the present invention is installed.

The drainage groove 41 is formed on the side surface of the drainage spacing means 40 and is a structure capable of draining water droplets condensed on the heat insulating material layer such as perforations and grooves to the outside of the building through the roof drainage unit 1 Any structure can be applied.

2 to 3 show a construction method of a roof drain unit 1 according to an embodiment of the present invention.

2 to 3, a method of constructing the roof drain unit 1 according to an embodiment of the present invention includes four steps, and a specific construction method is as follows.

Step 1: removing the waterproof layer around the existing drain 50;

Step 2: coupling the roof drain unit 1 to which the drainage spacing means 40 is mounted to the existing drain 50;

Step 3: installing insulation material around the existing drain (50) from which the waterproof layer has been removed; And

Step 4: After installing a drain cap on the drain unit (1) for roof, a step of waterproof coating is performed.

4 shows a manufacturing method of the roof drain unit 1 according to an embodiment of the present invention.

Referring to FIG. 4, the manufacturing method of the roof drain unit 1 according to an embodiment of the present invention includes three steps, and a specific manufacturing method is as follows.

The first drain pipe 10 is connected to the first drain pipe 20 and the second drain pipe 20 is connected to the first drain pipe 10 and the second drain pipe 20, (30) formed with a fixing portion (31) at a boundary portion between the connecting portion (30) and the connecting portion (30).

Step 2: Cutting the end of the first drain line 10; And

Step 3: The step of manufacturing the drainage spacing means 40 by forming drainage holes or drainage grooves for a plurality of drainages on the side of the cut channel.

Roof drain unit 1 First drain pipe 10
Connection to the second drain pipe 20
Separating means for holding 31 times of fixed portion 40
Drainage groove 41 Cutting line 42
Existing drain 50

Claims (10)

In the roof drain unit,
A first drain conduit;
A second drain line connected to the first drain line;
A connecting portion connecting the first drain pipe to the second drain pipe and having a fixing portion formed at a boundary portion with the first drain pipe; And
And a drain spacing means fixed to the fixing portion,
The shape of the drain pipe is circular,
The diameter of the second drain pipe is smaller than the diameter of the first drain pipe,
The connection portion is formed to connect one end of the first drain pipe and one end of the second drain pipe,
Wherein a shape of the connecting portion is a hollow truncated cone, a bottom of the truncated conical portion is connected to one end of the first drain pipe, a top of the truncated conical portion is connected to one end of the second drain pipe,
Wherein the fixing portion is located at a portion where the first drain pipe and the connecting portion are connected to each other and fixes a drain separating means having the same diameter as the first drain pipe,
Wherein the shape of the diaphragm spacing means is in the form of a channel and has at least one through hole or groove for drainage,
Wherein the roof drain unit has a second drain pipe inserted into a drain existing on a bottom surface of a roof, a drain separating means being located between the roof drain unit and the existing drain,
The roof drain unit includes: (a) a first drain pipe and a second drain pipe having a diameter smaller than the diameter of the first drain pipe are connected to each other through a connecting portion, the shape of the connecting portion is a hollow truncated cone, Wherein a bottom surface of the connection portion is connected to one end of the first drain pipe, an upper surface of the truncated conical portion is connected to one end of the second drain pipe, and a connection portion between the first drain pipe and the connection portion, Preparing a drain unit in which a fixing portion for fixing a drainage spacing means of the same diameter as the drain pipe is formed; And
(b) cutting a 1-20 cm-long channel out of the other end of the first drain pipe, and then forming a through hole or groove for at least one drainage on the side of the cut channel, , ≪ / RTI >
The height of the drain spacing means in the step (b) is determined according to the height of the heat insulating material layer
Roof drain unit.

delete delete The method according to claim 1,
Wherein the material of the roof drain unit is metal or synthetic resin.
delete delete delete delete delete delete

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