KR101198241B1 - Water dispersing apparatus - Google Patents

Abstract

PURPOSE: A water scattering device using a non-motorized rotary body is provided to widely scatter water discharged through a drain pipe. CONSTITUTION: A water scattering device using a non-motorized rotary body comprises a rotary body(26). The rotary body is rotatably installed on the bottom outlet or outlet pipe(23) of a drain pipe(22). The rotary body is formed in a watermill structure and has multiple wings. The rotary body is rotated by water falling from the drain pipe.

Description

Water dispersing apparatus using a non-powered rotor

The present invention relates to a water scattering apparatus, and more particularly, in a civil construction structure such as a bridge, a building structure such as a general high-rise building, and other various moldings, installed in a pipe through which water flows, such as a drainage pipe, to discharge water from the pipe. A water scattering device that scatters widely.

Today, many bridges are being constructed to pass over terrain such as plains, mountains, and rivers.The bridges are structures that allow pillars, or bridges, to support the top slabs that form the bridges, which are superstructures. After that, the construction is carried out by supporting the upper slabs on the piers.

In such a bridge, a large amount of water, such as rainwater or washing water, flows into the road surface of the top of the bridge due to rainy weather, snow removal, and washing.At this time, when a large amount of water is introduced, a vehicle accident may occur. May be restricted.

Therefore, the bridge top plate is usually installed to drain the water, the bridge drainage system is constructed as a structure that collects the water flowing into the road surface of the bridge through the water collecting port and then discharged to the lower side of the bridge through the drain pipe. .

1 is a view showing a drainage system installed in a bridge, as shown in the general drainage system is a structure in which the drain pipe 22 is connected to a plurality of catches (not shown) installed on the top plate 12 of the bridge (10) The water discharged from the bottom of the bridge through the water collecting port flows along the drain pipe and then falls down the bridge through the drain pipe end outlet.

At this time, the downpour discharged from the drain pipe 22 falls to a specific point around the bridge. When a large amount of water collected from the bridge top plate 12 pours intensively into one place through the drain pipe, Falling water can cause damage.

In particular, when only the drainage pipe is installed and the water is intensively poured in a specific direction and point, if the dropping point is a bluff of a river or a cropland, the civil complaints are caused by the crushing of the ground or the fall of the crop.

Accordingly, the construction of a concrete block 14 at a point where the water falls as shown in FIG. 2 in a separate structure at the fall point of the ground minimizes the occurrence of damage caused by falling water.

At this time, the drainage pipe 22 is installed near the ground as shown in Figure 2 in the land, such as farmland, blunt, and the river is only installed up to just below the upper structure.

However, the cost of constructing the concrete block 14 at each drop point is very high, and if a large number of concrete blocks are installed at the exposed points of the ground, the natural environment may be damaged and there is a problem of damaging the landscape. .

Of course, when the drain pipe is extended to reach the ground or extends downward to a predetermined height above the ground, damage due to falling water can be minimized.In this case, however, the amount of construction of the drain pipe increases, and the cost of installing concrete blocks is high. It will increase greatly.

In the case of rivers, the cost is reduced by installing directly under the upper structure, but the amount of falling water flowing into and out of the river is high due to rainfall. It may fall to the buttocks and cause the same complaint.

In addition, since the drainage pipe extending to the ground is a facility that is always in contact with water and air, it must be constructed of expensive materials that do not cause rust. In this case, the cost increases even more.

The drain pipe is a facility that is constructed after the completion of the construction of the top slab, which is the pier and the road surface. Expensive equipment must be used, and construction costs are inevitably increased due to material costs, highway installation, equipment costs, and labor costs required for fixing and installation.

In order to solve the above problems, a scattering apparatus has been proposed in which a fan blade or a propeller-type rotating body is installed at an outlet of the drain pipe end so that water discharged through the drain pipe outlet is scattered by the rotor.

The rotating body of the scattering apparatus is composed of a center portion rotatably assembled on a central axis installed vertically and vertically at the outlet of the drain pipe, and a plurality of wings installed lying horizontally on the center portion in the shape of a fan blade or a propeller blade. do.

However, the fan blades or propeller-shaped rotors have a structure in which the wings are laid horizontally with respect to the direction in which water falls through the drain pipe, that is, vertically downward (the wings are laid horizontally with respect to the direction in which the water falls). Structure), there is a problem that water actually slips along the wing surface and then falls off the wing tip as it is.

In other words, the water slipped down to the tip of the wing does not spread or spread outward to the outside of the tip of the wing and falls down directly from the tip of the wing.

In a situation where the amount of water discharged through the drain pipe is not constant, if the amount of water is high and the flow rate is high, the water may bounce off the surface of the wing and then fall, but in this case, the water may not spread widely but falls directly below.

Observing the amount of water falling in the actual phenomenon is a lot of cases that fall into the drain pipe is filled with a considerable amount of water, the horizontal propeller shape is difficult to function properly by hitting the water bomb on the front.

In this way, since water cannot spread widely beyond the diameter of the rotor from the tip of one wing to the tip of the opposite wing, a rotor having a diameter as large as the width must be used to obtain the effect of water spreading as much as desired width. For the installation and fixation of this large rotor, the diameter of the drain pipe must be increased and a facility for rotating under the wind pressure must be installed.

If the diameter of the drain pipe is too large, the landscape around the bridge will be greatly harmed. Therefore, in the case of road construction companies, the standard size of the diameter is usually limited to 100mm ~ 150mm. Of course, when the rotor is enlarged, it may not be possible to increase the size of the rotor.

In addition, the existing method has to use the drainage pipes and the transverse wind pressure, but the transverse wind pressure cannot be used, and the water must spread more widely by being rotated when the non-powered rotor hits the water. In the situation where the amount of water discharged through is not constant, moreover, since the wing is laid in the transverse direction with respect to the dropping direction of the water, in reality, only the rotating body is rotated little and only water flows or bounces out along the wing surface (rotating body). Is difficult to turn).

In addition, since the central axis to which the rotating body is assembled should be installed perpendicular to the drain pipe, it is not easy to vertically install the central axis at the end of the drain pipe opened downward, and many parts for supporting the central axis and the entire rotating body There is a need.

In addition, there is a problem that the supply of lubricating oil according to the installation of the bearing periodically, resulting in environmental problems, use restrictions due to the freezing of winter lubricating oil.

Accordingly, the present invention has been invented to solve the above problems, by dropping the water discharged through the drain pipe widely from civil structures such as bridges, building structures such as general high-rise buildings, and other various moldings from the falling water point It is an object of the present invention to provide a water scattering device to minimize the occurrence of damage caused by.

It is another object of the present invention to provide a water scattering apparatus that can improve various problems caused by using a conventional fan blade or propeller-type rotating body.

In order to achieve the above object, the present invention has a waterwheel type wing structure rotatably installed under the outlet of the pipe from which water is discharged so that the water discharged from the pipe is rotated while hitting the surface of the wing It is configured to include a non-powered rotating body, the rotating body is composed of a plurality of wings arranged in the circumferential direction on the outer peripheral surface of the center portion and the center portion, the center portion is installed eccentrically from the center of the pipe, The wing is composed of a bucket structure having a space discharged after the water is received, the outer end of each wing is formed in a bent structure so that each wing is subjected to the wind pressure, so that the water hit the surface of the wing by rotating the rotating body Provided is a water scattering apparatus using a non-powered rotor, characterized in that it is to be widely scattered.

Here, the pipe is a drainage pipe for draining water from the structure, the rotor is characterized in that to scatter the water falling from the drainage pipe.

In addition, the pipe is a drainage pipe for the bridge drainage is located in the outlet immediately below the upper plate of the bridge installed at a certain height from the ground, the rotor is to disperse the water falling from the bridge to the ground through the outlet of the drainage pipe It features.

In addition, the outlet portion of the pipe is formed in a structure extending in the oblique direction, characterized in that the rotating body is disposed below the outlet portion of the pipe extending in the oblique direction.

In addition, the pipe is installed to extend to the ground, the rotor is installed so as to be rotatably supported on a support bracket fixed to the ground characterized in that it is widely scattered water discharged from the pipe to the ground.

In addition, an upper tube is installed to be disposed above the rotating body, and an upper bracket fixed to extend downward from the upper tube is coupled to the support bracket so that the upper tube is supported by the upper bracket and the support bracket, and the upper tube Characterized in that the outlet portion of the pipe is placed inward.

In addition, the pipe is characterized in that the drain pipe for draining water from the structure.

In addition, the center shaft is fixedly installed in a support bracket extending downwardly from the outlet of the pipe so that the center axis is horizontally arranged, and the center part is rotatably assembled on the center axis, and the circumferential direction on the outer peripheral surface of the center part. It is characterized by consisting of wings arranged radially.

In addition, each wing is characterized in that formed in a bucket structure having a space that is discharged after the water is received.

In addition, the outlet portion of the pipe is formed in a structure extending in the oblique direction, characterized in that the rotating body is disposed below the outlet portion of the pipe extending in the oblique direction.

Accordingly, according to the water scattering apparatus of the present invention, the damage caused by the falling water at the drop point by scattering the water discharged through the drain pipe in a wide range of civil engineering structures such as bridges, building structures such as general high-rise buildings, and other various moldings It can be minimized.

In addition, the present invention can improve the various problems caused by using a conventional fan blade or propeller type rotor because the rotor having a water wheel type wing structure is used.

In addition, the water scattering apparatus of the present invention can also be used for the purpose of supplying the water scattered wide when the ground is installed close.

1 is a perspective view showing a conventional bridge drainage system.
2 is a view in which a drain pipe extends near the ground and a concrete block is installed in a conventional bridge drainage system.
3 and 4 are front views showing the bridge drainage system to which the water scattering apparatus according to the present invention is applied.
5 is an enlarged perspective view of a state in which a water scattering device according to the present invention is installed at an outlet of a drain pipe.
6 is a side view of the water scattering apparatus according to the present invention.
FIG. 7 is a cross-sectional view taken along the line 'A-A' of FIG. 6.
8 is a side view of the water scattering apparatus according to the present invention.
FIG. 9 is a cross-sectional view taken along the line 'B-B' of FIG. 8.
FIG. 10 is a cross-sectional view taken along the line 'C-C' of FIG. 9.
11 is a view showing an embodiment in which the support bracket is installed in a bent structure in the water scattering apparatus according to the present invention.
12 is a view showing an embodiment in which the water scattering apparatus according to the present invention is installed to the inclined drain pipe outlet.
13 and 14 are front and side views respectively showing a water scattering apparatus according to another embodiment of the present invention.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be readily apparent to those skilled in the art to which the present invention pertains.

The present invention rotatably installs a non-powered rotor having a wing rotatably around an outlet of a pipe from which water is discharged, so that the rotor is rotated by water that is discharged from the pipe and falls, and water can be scattered widely. It relates to a scattering device.

Here, the pipe may be a drain pipe for draining water from the structure, and in particular, the pipe may be a drain pipe for drainage of a bridge located at an outlet portion directly below a top plate of a bridge installed at a certain height on the ground.

3 and 4 are front views illustrating a bridge drainage system to which the water scattering apparatus according to the present invention is applied, and FIG. 5 is an enlarged perspective view of a state in which the water scattering apparatus according to the present invention is installed at the outlet of the drainage pipe.

6 is a side view of the water scattering apparatus according to the present invention, FIG. 7 is a cross-sectional view taken along the line 'A-A' of FIG. 6, and FIG. 8 is a side view of the water scattering apparatus according to the present invention.

9 is a cross-sectional view taken along the line 'B-B' of FIG. 8, FIG. 10 is a cross-sectional view taken along the line 'C-C' of FIG. 9, and FIG. 11 is a support bracket in the water scattering apparatus according to the present invention. It is a figure which shows the Example provided with this bending structure.

12 is a view showing an embodiment in which the water scattering apparatus according to the present invention is installed to the inclined drain pipe outlet.

First, as shown in Figures 3 and 4, the water scattering apparatus 24 according to the present invention can be installed in the outlet of the drain pipe 22 to drain and drop the water collected from the bridge (10) Bars may be applied as part of bridge drainage system.

Of course, in the present specification, the present invention will be described with an example of a water scattering apparatus included as part of a bridge drainage system as shown in Figures 3 and 4, the water scattering apparatus of the present invention, as well as civil engineering structures such as the illustrated bridge, It can be installed in drainage pipes of building structures and other various sculptures such as general high-rise buildings, and can be usefully applied as part of their drainage facilities.

3 and 4, a drain pipe 22 is connected to each of the plurality of catch ports 21 installed in the bridge 10, and the drain pipes 22 connected to each catch port 21 are partially joined. After being merged into one drain pipe again.

At this time, the water scattering apparatus 24 of the present invention is installed at the bottom outlet of the drain pipe 22 where water is finally discharged.

The water scattering device 24 may be installed below the bottom of the drain pipe bottom outlet extending directly to the lower side of the upper plate of the bridge 10. When the upper plate of the bridge is installed at a predetermined height from the ground, the water scattering device is also from the ground. It is located high up.

Accordingly, the water drained from the drain pipe 22 is widely scattered by the water scattering device 24 from a high place immediately below the top of the bridge 10, and then spreads to the ground.

The water scattering device 24 may be installed directly at the bottom outlet of the drain pipe 22, but as shown, an outlet pipe 23 formed at the bottom of the bottom pipe 22 in a funnel shape at an upper side thereof. After this additional installation, it is also possible to be installed at the lower end of the outlet tube (23).

The outlet pipe 23 is connected to the upper end of the funnel shape by a bracket having a triangular leg shape at the bottom outlet of the drain pipe 22, or fixed to the bridge of the bridge 10 or the wall of the structure to be applied to the lower pipe The part may be fixedly installed by a separate bracket.

The water scattering apparatus 24 includes a rotating body 26 rotatably installed at the lower outlet 22 or the outlet pipe 23 of the drain pipe 22, which becomes the drain pipe outlet, and the rotating body 26 is a drain pipe. It is provided with a watermill structure having a plurality of wings 28 to be rotated by the water falling after being discharged from the (22).

That is, the rotating body 26 is a non-powered rotating body rotated by a force generated by the water discharged from the drain pipe 22 hitting the blade without a separate power device, in particular in the present invention cylindrical like a watermill blade On the outer circumferential surface of the center portion 27, a rotating body 26 having a plurality of wings 28 arranged at predetermined intervals along the circumferential direction is used.

The rotating body 26 is supported by a support bracket 25 installed to extend downwardly at the outlet of the drain pipe, and is rotatable on the central shaft 25a fixedly disposed to be substantially horizontally disposed on the support bracket 25. Are assembled.

The rotating body 26 has a center portion 27 rotatably fitted to the central axis 25a, and a plurality of wings 28 formed at regular intervals along the circumferential direction on the outer circumferential surface of the center portion 27. At this time, the wings 28 have a structure arranged radially extending around the center portion 27, the water discharged from the drain pipe 22 hit the wing 28, the rotor 26 is It can be rotated like a watermill.

In addition, while the rotor 26 is rotated, water impinging on the blade 28 may be scattered while being moved and spread widely in the rotational direction of the rotor by the blade.

In a preferred embodiment, each vane 28 of the rotor 26 may be formed in a concave bucket structure having a space where water is received and then discharged, in this case a bucket of vanes 28 while the rotor is rotated. The water contained in the space is sprayed widely.

The illustrated example is an embodiment of the present invention, the size of the bucket space in the blade 28 of the rotor 26 can be variously changed so that water can be scattered after properly received, the shape of the blade and bucket Also in the shape of the water can be carried out in a variety of changes to a shape that can be poured well.

In addition, the angle and the like of the wing 28 in the center portion 27 can be properly adjusted so that water flows naturally to the inclined surface of the wing 28 in the horizontal rotating body 26, and the rotating body 26 The wing 28 may be formed in a bent structure that can be subjected to wind pressure so that can be rotated by the wind. That is, as shown in Figure 5, the wing is formed with a bent structure of the outer end of each wing as the inclined surface extends outward from the bottom surface of the wing constituting the bucket structure.

As described above, in the water scattering device 24 of the present invention, the rotor 26 is horizontally disposed, and the blades 28 are radially arranged along the circumferential direction on the outer peripheral surface of the center portion 27, and the wings are external. The bar is a structure that can be rotated by wind as it is installed to have a bending structure exposed to the bar, and the rotor 26 has an advantage of being able to rotate more smoothly when wind pressure is applied together with water pressure.

In addition, the rotor 26 is rotated from the center of the drain pipe 22, as shown in Figures 3 and 4 so that the water can be smoothly rotated by the water discharged from the drain pipe 22 To one side Eccentrically  Is installed.

for teeth Support bracket (25)  As shown in Figs. 5, 7 and 8 at the center of the outlet side pipe 23 or the drain pipe 22 To one side Eccentric  Installed to extend downward from the position, or as shown in FIG. To one side  Folded Support bracket (25)  Can be used.

In this case, since the water discharged from the drain pipe 22 falls to an eccentric position in the central axis 25a of the rotating body 26 and hits only one wing, the rotating body 26 may be smoothly rotated.

And, the water scattering device 24 of the present invention can be installed in the outlet of the drain pipe 22 extending vertically as shown in Figures 3 and 4, as shown in Figure 12 drain pipe 22 May be installed in a state in which the exit portion of the outlet portion extends in the inclined direction.

In this case, since the water of the drain pipe 22 is naturally discharged downward in the direction eccentric from the center of the rotor 26, the rotor 26 may be smoothly rotated.

Thus, according to the water scattering apparatus according to the present invention, by rotating the rotating body by the force of the water discharged from the drainage pipe and at the same time generated by scattering the widely discharged water is generated when water is concentrated in a specific point on the ground Fall water damage can be minimized and crop damage and civil complaints can be prevented.

In addition, it is not necessary to install the drainage pipe to the ground for a long time, thus reducing the material cost of drainage pipes and bands, equipment cost required for installation work, labor costs, etc., and it is also necessary to install concrete blocks that receive water from the ground. none.

In addition, since the rotating body is installed in a form similar to a watermill, it can act as a sculpture, and can enhance the surrounding landscape while making the viewer feel friendly and nostalgic.

In addition, compared with the conventional fan blades or propeller-type rotating body, the width of water can be more scattered, and the rotating body can be rotated more smoothly, the larger the diameter of the rotating body to enlarge or drain It is not necessary to increase the diameter of the pipe, and it becomes possible to install a drain pipe and a rotating body in accordance with the standard.

In addition, since the central axis can be simply installed horizontally with only the support bracket, the rotating body can be easily installed, and the number of parts can be reduced.

13 and 14 are front and side views of the water scattering apparatus according to another embodiment of the present invention, respectively.

The embodiment of the illustrated water scattering apparatus is installed to be located below the outlet of the drain pipe 22, but the embodiment is installed on the ground, extending the drain pipe 22 (which can be a water supply pipe) to the ground long The water scattering device 24 is installed below the outlet of the drain pipe 22.

At this time, the rotatable body 26 is rotatably supported on the lower bracket 33 fixed to the ground, and the rotatable body 26 is not different in configuration from the embodiments of FIGS. 5 to 11.

13 and 14, the upper tube 31 may be installed to be disposed above the rotating body 26, and the upper tube 31 is fixed while the upper tube 31 is fixed to the drain pipe 22. The upper bracket 32 is fixedly installed to extend downward from the lower bracket 33 to be coupled to the central shaft 25a assembled with the rotating body 26.

Accordingly, the upper tube 31 is supported by the lower bracket 33 and the upper bracket 32 coupled thereto, and is disposed such that the outlet portion of the drain pipe 22 is inserted into the upper tube 31.

At this time, the position of the outlet of the drain pipe 22 and the rotor 26 are set so that the outlet of the drain pipe 22 is located in an eccentric direction from the center of the rotor 26.

The water scattering device as described above can spread widely the water discharged through the drain pipe 22 around the rotating body 26, can be useful for gardens, crops for supplying water to the surrounding plants. In this case, the drain pipe is a water supply pipe for supplying water and may be a drain pipe of a building installed extending from the surrounding building to the ground.

The embodiments of the present invention have been described in detail above, but the scope of the present invention is not limited thereto, and various modifications and improvements of those skilled in the art using the basic concepts of the present invention defined in the following claims are provided. Forms are also included in the scope of the present invention.

10 bridge 11 bridge
12: top plate 22: drainage pipe
23: outlet pipe 24: water splashing device
25: support bracket 25a: central axis
26: rotating body 27: the center portion
28: wing 31: upper tube
32: upper bracket 33: lower bracket

Claims (10)

It has a waterwheel type wing structure and is rotatably installed under the outlet portion of the pipe from which water is discharged, so that the water discharged from the pipe is rotated while hitting the surface of the wing, and rotated under wind pressure. The water wheel type wing structure is configured to include a non-rotating rotor that is exposed and installed,
The rotating body is composed of a plurality of wings disposed in the circumferential direction on the outer peripheral surface of the center portion and the center portion,
The center portion is installed eccentrically from the center of the pipe,
Each wing is composed of a bucket structure having a space that can be discharged after the water is received, by the inclined surface extending outward from the bottom surface of the wing constituting the bucket structure so that each wing receives the wind pressure, A water scattering apparatus using a non-powered rotor, characterized in that the outer end is formed in a bent structure, so that the water hit the surface of the wing to be widely scattered by the rotation of the rotating body.
The method according to claim 1,
And the pipe is a drain pipe for draining water from the structure, and the rotor is configured to scatter water falling from the drain pipe.
The method according to claim 1 or 2,
The pipe is a drainage pipe for the bridge drainage is located in the outlet immediately below the upper plate of the bridge installed at a certain height from the ground, the rotor is to disperse the water falling from the bridge to the ground through the outlet of the drainage pipe Water scattering device using a non-powered rotating body.
The method according to claim 1,
And an outlet portion of the pipe is formed to extend in an inclined direction, and the rotor is disposed below the outlet portion of the pipe extending in an inclined direction.
The method according to claim 1,
The pipe is installed to extend to the ground, the rotating body is installed so as to be rotatably supported on the lower bracket fixed to the ground water using a non-powered rotor, characterized in that to widely spread the water discharged from the pipe to the ground Scattering device.
The method according to claim 5,
An upper tube is installed to be disposed above the rotating body, and an upper bracket fixed to extend downwardly from the upper tube is coupled to the lower bracket so that the upper tube is supported by the upper bracket and the lower bracket, and the inner side of the upper tube Water scattering device using a non-powered rotor, characterized in that arranged so that the outlet portion of the pipe.
The method according to claim 5 or 6,
The water scattering apparatus using a non-powered rotating body, characterized in that the pipe is a drain pipe for draining water from the structure.
The method according to claim 1,
Water scattering apparatus using a non-powered rotating body, characterized in that the central axis is fixed to the horizontally arranged on the support bracket extending downward from the outlet of the pipe, the center portion of the rotating body is rotatably assembled on the central axis. .

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