KR102271391B1 - Drainage apparatus having a vortex roof drain and vortex drop shaft - Google Patents

Abstract

The present invention relates to a drainage structure having a roof drain and a vortex drop shaft for improving drainage efficiency. More specifically, the present invention relates to a drainage structure having a roof drain and a vortex drop shaft for improving drainage efficiency, which improves a vortex roof drain (referred to as the VRD), which is to drain rainwater from a roof layer of a large building such as a semiconductor, a vortex drop shaft (referred to as the VDS), which is configured to reduce the number of shafts, by which a rainwater shaft is connected to a civil engineering duct, and improve drainage efficiency, and a connection shaft connected to the shaft. As such, in accordance with the present invention, the VRD is able to have an inclined surface and a vane for forming a vortex, form a vortex of rainwater discharged, and more accelerate the formation of vortex with an improved structure of the connection shaft. The VDS is able to make a stable flow of rainwater in both inflow conditions with a low flow rate and with a high flow rate, make the rainwater flow in a swirling direction as the rainwater nears an inner surface of the shaft due to the vortex, form an air-core in the central side of the shaft, separately discharge the air mixed through the VRD from the rainwater, and have a simple and the most economic structure with an inflow facility in comparison with any of the conventional rainwater drain structures.

Description

DRAINAGE APPARATUS HAVING A VORTEX ROOF DRAIN AND VORTEX DROP SHAFT to improve drainage efficiency

The present invention relates to a drainage structure having a roof drain for improving drainage efficiency and a pipe for forming a vortex.

Specifically, a vortex-forming roof drain (hereinafter, 'VRD') for storm drainage of large building roof layers such as semiconductors, and a vortex configured to reduce the number of pipes connected to storm water pipes to civil engineering pipelines and improve drainage efficiency It relates to a drainage structure having a loop drain for improving drainage efficiency and a pipe for forming a vortex by improving the structure of a pipe for forming drop (hereinafter, 'VDS') and a connecting pipe connected to the pipe.

The VRD according to the present invention has a slope and a vortex for forming a vortex to form a vortex of rainwater discharged, and can further promote vortex formation due to the improved structure of the connecting pipe, so the VDS is low The flow of rainwater can be stable under both flow rate and high flow rate inflow conditions, and because rainwater flows in the vortex direction while adjacent to the inner surface of the pipe due to the vortex, an air-core (void) can be formed at the center of the pipe, so VRD By allowing the exhaust of the air mixed through the rainwater to be exhausted separately from the rainwater, it is structurally simple and has the most economical structure as an inflow facility compared to any conventional stormwater drainage structure. It relates to a drainage structure having a pipe.

In general, tap water is used to clean the verandas of apartments and villas or to grow pots, and for this reason, a rainwater pipe connected to the upper and lower floors is provided on the veranda to discharge living sewage and rainwater due to washing and cleaning.

Such a rainwater pipe has a considerable height from the upper floor, and while living sewage or rainwater freely falls, the sound of the rainwater hitting the rainwater pipe acts as a noise, while the smell of sewage flows backward through the rainwater pipe.

In particular, the cause of noise in the rainwater pipe is that the falling water droplets are discharged as they collide with the wall, so noise is generated when the water droplets hit the floor or wall. The problem of noise and vibration is maximized as the rainwater treatment structure is large.

In particular, during construction, the problem of sound vibration may cause a problem of delaying the civil works for the connection of the civil pipe in the stratum.

Regarding rainwater treatment, Korean Patent Publication No. 10-1576528 describes a drainage device for rainwater pipes on the veranda.

In addition, as a technique for overcoming the problem of rainwater drainage, techniques such as Patent Publication No. 10-0305384, Patent Publication No. 10-2014-0040440, and Patent Publication No. 10-0408173 have been proposed.

Registered Patent Publication No. 10-1576528 (2015.12.10. Announcement) Registered Patent Publication No. 10-0305384 (2003.02.25. Announcement) Laid-Open Patent Publication No. 10-2014-0040440 (2014.04.03.) Registered Patent Publication No. 10-0408173 (2006.02.07. Announcement)

An object of the present invention is a loop drain (hereinafter, 'RD') for storm drainage rule of a roof layer of a large building such as a semiconductor, and a vortex configured to reduce the number of pipes connected to a storm pipe and to improve drainage efficiency. An object of the present invention is to provide a drainage structure having a loop drain and a vortex-forming drop pipe for improving drainage efficiency by improving the structure of a pipe for forming drop (hereinafter, 'VDS') and a connection pipe connected to the pipe.

A drainage structure having a loop drain and a vortex forming drop pipe for improving drainage efficiency according to the present invention was devised to achieve the above object,

a loop drain (VRD, 1) for forming a vortex to drain the accumulated rainwater of the loop;

a vortex forming pipe (VDS, 2) installed under the loop;

a pipe (4) extending downward from the VRD (1) and passing rainwater flowing in from the VRD (1);

It is characterized in that it comprises a; connecting pipe (3) connecting the pipe (4) from the VDS (2).

At this time, the VRD (1) is,

It is configured to include a drain body 11 and a cover 12,

The cover 12 has a cylindrical shape,

It has the shape of a disk and has an upper surface including a plurality of through holes having a certain length in the circumferential direction at fan-shaped intervals in the height direction,

A ring-shaped lower plate having an outer diameter larger than the upper surface is formed on the lower side of the upper surface,

The upper and lower surfaces have a shape in which the circumferential direction is finished through the side surfaces,

By forming a plurality of through-holes in the height direction on the side surface,

The cover (12) is characterized in that it is configured to have a shape of the upper and lower.

In addition, the cover 12,

It is characterized in that it is coupled to the edge along the circumferential direction to the outer diameter of the drain body (11).

In addition, the drain body 11,

a base 111 of a disk corresponding to the outer diameter of the cover 12; The base 111 is configured to include a plurality of partition walls 112 formed on the upper surface,

The partition wall 112 has an inclined direction so that rainwater drained through the drain body 11 can form a vortex,

The base 111 of the drain body 11 is characterized in that its upper surface is formed to have a downwardly inclined shape toward the center.

In addition, the connecting pipe (3),

a connector 41 connected to the pipe 4; an adjuster (42) extending from the other end of the connecting body (41); A derivative 43 extending from the other end of the modulator 42 and coupled to and communicating with the VDS 2;

The adjusting body 42 has an end not connected to the connector 41 having the same diameter as the connector 41 , and the end connected to the connector 41 has a smaller diameter than the connector 41 . is configured to improve the water pressure of rainwater passing through the regulator 42,

The derivative 43 has an end coupled to the regulator 42 having a size corresponding to the diameter of the regulator 42, and is configured in such a way that the width becomes narrower in the direction of the VDS (2) and the length increases in the VDS (2) direction. It is characterized in that by being coupled in a narrow direction with respect to (2), the rainwater transferred from the derivative (43) to the VDS (2) causes a vortex to be generated.

According to the drainage structure having a roof drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention, the VRD is provided with an inclined surface and a vortex-forming partition (vane) to form a vortex of rainwater discharged, and connect Because the improved structure of the piping can further promote vortex formation, VDS ensures that stormwater flows are stable in both low and high flow inlet conditions.

In addition, since rainwater flows in the vortex direction while adjacent to the inner surface of the pipe due to the vortex, an Air-Core (void) can be formed on the center of the pipe, so that the exhaust of the air mixed through the RD can be made separately from the rainwater, Compared to any conventional stormwater drainage structure, it is possible to propose a drainage structure that is structurally simple and has the most economical structure as an inflow facility.

1 schematically shows a drainage structure having a roof drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention.
2 is a view showing the configuration of a cover of a roof drain having a drainage structure having a pipe for dropping a vortex and a roof drain for improving drainage efficiency according to the present invention.
3 is a view showing the configuration of a drain body of a roof drain having a drainage structure having a roof drain for improving drainage efficiency and a pipe for forming a vortex according to the present invention.
4 to 5a show the structure of a vortex drop shaft (VDS, Vortex Drop Shaft) of a drainage structure having a roof drain and a vortex drop pipe for improving drainage efficiency according to the present invention in planar and lateral directions, respectively. it has been shown

The terms or words used in the present specification and claims should not be construed as being limited to their ordinary or dictionary meanings, and the inventor may properly define the concepts of the terms to best describe his invention. Based on the principle, it should be interpreted as meaning and concept consistent with the technical idea of the present invention.

Therefore, the embodiments described in the present specification and the matters shown in the drawings are only the most preferred embodiments of the present invention and do not represent all the technical ideas of the present invention, so various equivalents that can be substituted for them at the time of the present application It should be understood that there may be variations and examples.

Hereinafter, prior to the description with reference to the drawings, it is not shown or specifically described for the known configurations that are not necessary to reveal the gist of the present invention, that is, those skilled in the art that can be added obviously by those skilled in the art. reveal the sound

The present invention relates to a drainage structure having a roof drain for improving drainage efficiency and a pipe for forming a vortex.

Specifically, a vortex-forming roof drain (hereinafter, 'VRD') for rainwater drainage of the roof layer of large buildings such as semiconductors, and a vortex configured to reduce the number of pipes connected to the rainwater pipe and to improve drainage efficiency It relates to a drainage structure having a vortex-forming loop drain and a drop pipe for improving drainage efficiency by improving the structure of the pipe for forming drop (hereinafter, 'VDS') and the connecting pipe connected to the pipe.

The VRD according to the present invention has a slope and a vortex for forming a vortex to form a vortex of rainwater discharged, and can further promote vortex formation due to the improved structure of the connecting pipe, so the VDS is low The flow of rainwater can be stable under both flow rate and high flow rate inflow conditions, and because rainwater flows in the vortex direction while adjacent to the inner surface of the pipe due to the vortex, an air-core (void) can be formed at the center of the pipe, so VRD By allowing the exhaust of the air mixed through the rainwater to be exhausted separately from the rainwater, it is structurally simple and has the most economical structure as an inflow facility compared to any conventional stormwater drainage structure. It relates to a drainage structure having a pipe.

Prior to the description, the Air-Core (void) will be described as follows.

Air-Core refers to the white space formed by the vortex of the storm water pipe in [Table 1].

A drainage structure having a vortex-forming loop drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention is configured as shown in FIG. 1 of the accompanying drawings.

1 schematically shows a drainage structure having a roof drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention.

That is, according to the present invention, a drainage structure having a roof drain and a vortex-forming fall pipe for improving drainage efficiency includes: a vortex-forming roof drain (VRD, 1) for draining the accumulated rainwater of the roof (roof layer); a vortex forming pipe (VDS, 2) installed under the loop; a pipe (4) extending downward from the VRD (1) and passing rainwater flowing from the VRD (1); It is configured to include; a connection pipe (3) connecting the pipe (4) from the VDS (2).

At this time, the vortex-forming loop drain 1 includes a drain body 11 and a cover 12 , and the cover 12 is coupled to the upper side of the drain body 11 .

Specifically, the cover 12 has a diameter corresponding to the diameter of the drain body 11 and is coupled along the outer diameter circumferential edge of the drain body 11 .

First, the cover 12 will be described with reference to FIG. 2 of the accompanying drawings.

2 is a view showing the configuration of a cover of the roof drain of the drainage structure having a vortex-forming roof drain and a vortex-forming falling pipe for improving drainage efficiency according to the present invention.

The cover 12 has a cylindrical shape, has a disk shape, and has an upper surface including a plurality of through holes having a certain length in the circumferential direction at sector-shaped intervals in the height direction, and the lower side of the upper surface is lower than the upper surface. A ring-shaped lower plate having a large outer diameter is formed, and the upper and lower surfaces have a shape in which the circumferential direction is finished through the side surface, and a plurality of through holes in the height direction are formed in the side surface, so that the cover (12) It is configured to have the shape of a virtual sanggwanghahyeop.

Next, the drain body 11 will be described with reference to FIG. 3 of the accompanying drawings.

3 is a view showing the configuration of a drain body among the loop drains of the drainage structure having a vortex-forming roof drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention.

The drain body 11 includes a base 111 of a disk corresponding to the outer diameter of the cover 12; The base 111 is configured to include a plurality of partition walls (vane, 112) formed on the upper surface.

In this case, the base 111 may be coupled to the above-described pipe 4 including a hole therein, and a bolting hole for bolting to the pipe may be formed on one side of the upper surface of the base 111 .

In addition, the partition wall 112 has an inclined direction so that rainwater drained through the drain body 11 can form a vortex.

In this case, the base 111 of the drain body 11 may be formed so that its upper surface is inclined downward toward the center.

When rainwater accumulated on the upper surface of the roof layer is discharged through the RD (1) having the above-described structure, it is transmitted to the connecting pipe (3) through the pipe (4), and the rainwater is moved back to the VDS (2), at this time the connection The pipe 3 will be described with reference to FIGS. 4 to 5A of the accompanying drawings.

4 to 5a are views showing the structure of a vortex drop shaft (VDS, Vortex Drop Shaft) of a drainage structure having a vortex-forming loop drain and a vortex-forming drop pipe for improving drainage efficiency according to the present invention, respectively, in a plane and a side view. indicated in the direction.

The connecting pipe 3 according to the accompanying drawings includes a connecting body 41 connected to the pipe 4; an adjuster (42) extending from the other end of the connecting body (41); and a derivative 43 extending from the other end of the modulator 42 and coupled to and communicating with the VDS 2 .

At this time, the connecting body 41 is coupled in a manner using a flange of a method in which normal pipes are connected.

In addition, the end of the control body 42 not connected to the connector 41 has the same diameter as the connector 41 , and the end connected to the connector 41 has a smaller diameter than the connector 41 . configured to have

At this time, the region where the connector 41 and the adjuster 42 are coupled is in such a way that the end of the connector 41 is partially closed, so that the adjuster 42 having a small diameter can be coupled to the connector 41 . let it be

In addition, a separate cylinder is further provided on the outside of the adjuster 42 to compensate for the strength due to the decrease in the diameter of one end of the adjuster 42 .

The derivative 43 is configured to have a triangular shape when viewed from the top. Specifically, the end coupled to the regulator 42 has a size corresponding to the diameter of the regulator 42, but the VDS (2) The width becomes narrower in the direction and the length becomes longer so as to be coupled in a narrow direction with respect to the VDS (2).

Accordingly, the rainwater flowing into the connecting pipe 3 through the pipe 4 causes the flow rate and water pressure to increase in the regulator 42, and the rainwater with the increased flow rate is VDS in the narrow direction through the derivative 43. (2) As it moves inward, vortex formation is further promoted along the inner wall surface of the curved VDS (2).

In this case, as shown in [Table 1], as a vortex is continuously formed in the rainwater drained from the VDS(2), the central direction becomes a hollow state, which causes the VRD(1) to flow along with the rainwater. As the air can be discharged separately from the rainwater, the efficiency of drainage can be improved.

What has been described above using the drawings is to describe only the main points of the present invention, and it is obvious that the present invention is not limited to the configuration of the drawings as much as various designs are possible within the technical scope.

1: Vortex forming loop drain (VRD)
2: Piping for vortex forming drop (VDS)
3: Connection pipe
4: plumbing
41: connector
42: modulator
43: derivative
11: drain body
111: base
112: bulkhead
12 : Cover

Claims (5)

a vortex forming loop drain (VRD, 1) for allowing the accumulated rainwater of the loop to drain;
a vortex forming pipe (VDS, 2) installed under the loop;
a pipe (4) extending downward from the VRD (1) and passing rainwater flowing in from the VRD (1);
It includes a connecting pipe (3) connecting the pipe (4) from the VDS (2),
The VRD (1) is,
It is configured to include a drain body 11 and a cover 12,
The cover 12 has a cylindrical shape,
It has the shape of a disk and has an upper surface including a plurality of through holes having a certain length in the circumferential direction at fan-shaped intervals in the height direction,
A ring-shaped lower plate having an outer diameter larger than the upper surface is formed on the lower side of the upper surface,
The upper and lower surfaces have a shape in which the circumferential direction is finished through the side surfaces,
By forming a plurality of through-holes in the height direction on the side surface,
A drainage structure having a roof drain and a vortex forming drop pipe for improving drainage efficiency, characterized in that the cover (12) is configured to have a shape of an upper and lower narrow.
The method according to claim 1,
The cover 12,
A drainage structure having a loop drain and a vortex-forming drop pipe for improving drainage efficiency, characterized in that it is coupled to the edge along the circumferential direction to the outer diameter of the drain body (11).
The method according to claim 1,
The drain body 11,
a base 111 of a disk corresponding to the outer diameter of the cover 12; The base 111 is configured to include a plurality of partition walls 112 formed on the upper surface,
The partition wall 112 has an inclined direction so that rainwater drained through the drain body 11 can form a vortex,
The base 111 of the drain body 11 has a drainage structure having a roof drain and a vortex-forming drop pipe for improving drainage efficiency, characterized in that the upper surface thereof is formed to have a downwardly inclined shape toward the center. .
The method according to claim 1,
The connecting pipe (3) is,
a connector 41 connected to the pipe 4; an adjuster (42) extending from the other end of the connecting body (41); A derivative (43) extending from the other end of the modulator (42) and coupled to the VDS (2) to communicate;
The adjusting body 42 has an end not connected to the connector 41 having the same diameter as the connector 41 , and the end connected to the connector 41 has a smaller diameter than the connector 41 . is configured to improve the water pressure of rainwater passing through the regulator 42,
The derivative 43 has an end coupled to the regulator 42 having a size corresponding to the diameter of the regulator 42, and is configured in such a way that the width becomes narrower in the direction of the VDS (2) and the length increases in the VDS (2) direction. Roof drain and vortex forming plumbing for improving drainage efficiency, characterized in that by being coupled in a narrow direction with respect to (2), storm water transferred from the inductor 43 to the VDS (2) generates a vortex drainage structure with

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