KR101436096B1 - A valve for separation of first rain - Google Patents

Abstract

The present invention is characterized in that a side body is integrally formed in a vertical direction at an intermediate point between an upper body and a lower body which are connected in a line, and the upper, lower and side bodies have injection ports which can be connected to separate conduits, Wherein the valve body has a valve body protruding from a wall surface in parallel with a lower end of the side body, and the separating plate is rotatable about a central axis at a point where the side body is formed in the valve body, The other side of the separating plate is provided so as to be spaced apart from the inner wall of the valve body which is in contact with the other side of the separating plate and a bending portion having a discharge hole is provided at one end of the separating plate, And an initial good separating valve in which a bracket filled with air is installed at the lower end of the other side,

Description

[0001] The present invention relates to a valve for separation of initial rain,

The present invention relates to an early storm water separation valve, and more particularly, to an early storm water separating valve which is easily installed on a roof or a roof installed on a building or a roof of a building, To an initial good separation valve capable of collecting and storing water.

Currently, urban areas are packed with asphalt, concrete, and block blocks due to road maintenance and pedestrian safety. Therefore, it is difficult for rainwater to penetrate through the surface of the ground. Therefore, most rainwater can not penetrate into the soil below the ground Of the sewage treatment plant, or the sewer pipe to the river or the sewage treatment plant.

Due to such urbanization phenomenon, in recent summer, due to rainfall or heavy rainfall, the amount of rainwater that can be treated only by drainage facilities installed on roads or buildings is exceeded, rainwater is backwardly flowed and the roads are locked or unsettled, And floods in the rivers.

Therefore, it is necessary to expand the drainage facilities or improve the river in order to improve the processing capability of the rainwater. However, in this case, it is not easy due to financial difficulties due to the construction cost.

Another alternative is to store the rainwater that has flowed into the roof of the building or the ground when the building is constructed and expanded in a separate storage tank, thereby trying to solve the problem of the drainage of rainwater at a time.

In particular, these efforts are in line with the objective of recycling rainwater and securing various kinds of water in Korea, which has fallen into a water-scarce country. In recent years, efficient water circulation systems using rainwater have been introduced in developed countries The installation of storage tanks for collecting bar and rainwater will be further expanded.

On the other hand, in the case of the initial rainfall corresponding to the rainfall time of 1 to 5 minutes or the rainfall of 1 to 3 mm in the recycling of the rainwater in this way, the pollution sources and the foreign substances accumulated in the air or the ground are particularly included. It is necessary to perform natural drainage processing as in the conventional method, and only rainwater having passed a predetermined time should be stored and stored in a separate storage tank. This is due to the uneconomical nature of the pollutants or impurities contained in the initial rainfall, which are costly to collect separately and then re-treat separately.

In the case of rainwater recycling system, in the case of non-point pollution abatement facility, which is a large-scale treatment facility that removes pollutants or foreign matter after collecting rainwater in most storages, A method of separating contaminants by sedimentation through vortex or agglomeration, a screen method using net, and a method of removing organic substances by microorganisms.

However, since the rainwater recycling system using the nonpoint pollution abatement facility basically requires the water collecting tank, the treatment tank, and the storage tank, it is not suitable for a small building such as an apartment or a house, It is not easy to apply to the building of the present invention. Also, there is a problem that it is necessary to constantly maintain maintenance such as periodically replacing the filter medium or the mesh for separating the pollutant source.

Accordingly, the present invention has been made to achieve the above-mentioned object, and it is possible to store rainwater without contamination source after the initial rainwater is separately discharged after being easily installed in a storeroom or a sewer pipe installed on a roof or a roof of a building And it is an object of the present invention to provide an initial good separation valve capable of recycling rainwater without a separate water collecting tank and a treatment tank and capable of being used permanently after installation.

In order to achieve the above object, according to the present invention, a side body is integrally formed in a vertical direction at an intermediate point between an upper body and a lower body connected in a line, and the upper body, the lower body, The valve body having a support portion protruding from the wall surface in parallel with the lower end of the side body, and a separating plate rotatable around the point where the side body is formed in the valve body as a central axis Wherein one side of the separator plate is rotated between the upper and lower ends of the side body and the other side of the separator plate is spaced apart from the inner wall of the valve body adjacent to the separator plate, And the lower end of the other side of the separating plate is provided with a brace filled with air, Thereby providing an initial good separation valve.

Further, in the present invention, a guide portion having an inclined surface in a downward direction is formed on the upper inner wall of the valve body at a position where the other end of the separating plate contacts the end of the separating plate when the separating plate is rotated upward.

Further, in the present invention, an auxiliary guide portion having an inclined surface in a downward direction is further formed on an inner wall of an upper portion of the valve body opposite to the guide portion.

In addition, the present invention provides an initial good separation valve characterized in that a spherical body that linearly moves is inserted in a space formed from one side to the center of the inside of the separation plate.

In addition, the present invention provides an initial good separation valve characterized in that a '-shaped projection is provided on the other side of the separation plate, and a through hole is formed in the lower end of the projection to penetrate the separation plate.

Further, the present invention provides an initial good separation valve characterized in that upper and lower inner walls of the valve body are provided with auxiliary channels for preventing backflow of the storm.

As described above, the initial storm separation valve of the present invention can be easily installed in a storeroom or a sewer installed on a roof or a roof of a building, separately discharging initial storages, and then separating and discharging recyclable rainwater so as to be ready for use, It can be installed directly on an existing building without a large-scale facility construction, and an installation space for installing a rainwater collecting tank or a treatment tank in a building is not required, and the space utilization is also excellent.

Further, unlike the filter material or the filter net used in the conventional filtering method, the present invention is a new method using a permanently usable separating plate, , Thus creating another effect that can be used universally from small houses to apartments, large buildings, and large complexes.

FIG. 1 is an exploded perspective view of a valve according to the present invention,
Fig. 2 is a cross-sectional view showing a separating plate among constituent elements of the present invention
Figs. 3A and 3B are cross-sectional views showing the operating state of the valve of the present invention
4 is a perspective view showing the use state of the valve of the present invention

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, the present invention will be described in detail with reference to the attached drawings. However, the present invention is not limited to the embodiments shown in the drawings.

FIG. 1 is an exploded perspective view of a valve according to the present invention, and FIG. 2 is a cross-sectional view illustrating a separator plate of the present invention.

As shown in FIG. 1, the initial good separation valve 1 of the present invention includes a valve body 10, which is largely combined with a well-known conduit or a sewer installed on a roof or a roof of a building, And a separation plate 20 for separating rainwater from the stormwater and recycled rainwater and discharging them separately.

The valve body 10 is a T-shaped valve having a side body 10c formed in a vertical direction at a midpoint between the upper body 10a and the lower body 10b, 10a, 10b, and 10c are formed with injection ports 11a, 11b, and 11c, respectively, which can be coupled to separate conduits. In the valve body 10, a receiving portion 12 protruding from the wall surface is provided in the lower main body 10b in parallel with the lower end of the side main body 10c.

However, the upper and lower side bodies 10a, 10b, and 10c are divided in order to more specifically describe the valve body 10, and the valve body 10 is formed in a substantially molded state .

The valve body 10 is a tubular body having an empty space therein. The valve body 10 having a rectangular space is described as an example of the present invention. However, the valve body 10 may have a cylindrical shape, It is a fact that all of the tubular bodies having the same shape can be applied.

The separator plate 20 is rotatably installed at the point where the side surface body 10c is formed in the valve body 10. One side of the separator plate 20 is connected to the side surface of the side surface body 10c And the other side of the separator plate 20 is spaced apart from the inner wall of the valve body 10 by a predetermined distance so as to pass through the initial void.

The upper end of the separating plate 20 is provided with a bent portion 21 having a discharge hole 22 so that a predetermined amount of rainwater can be discharged from the upper end of the separating plate 20, The booster 23 is mounted on the water surface so that the separator plate 20 can be inclined in a direction other than horizontal in the normal direction, It will play an additional role.

The separation plate 20 is mounted on the valve body 10 and rotates to the left and right from the center axis as in the case of the ladder. In the case of the initial flow through the inlet 11a of the upper body 10a, Flows through the other side of the plate 20 and is discharged through the injection port 11b of the lower main body 10b. In the case of rainwater which does not contain the contamination source over time, And is discharged through the injection port 11c of the side body 10c.

As a method for installing the separator plate 20 on the valve body 10 in a rotatable manner, any known conventional coupling method can be applied. For example, as shown in the figure, a center portion of the separator plate 20 The rotation pin 30 passing through the valve body 10 is fixed to both the left and right sides of the valve body 10 so that the coupling can be performed in a rotatable state.

On the inner wall of the upper main body 10a of the valve body 10, a guide portion 13 having a predetermined inclined surface in a downward direction may be installed at a position where the other end of the separating plate 20 contacts the end when the other side of the separating plate 20 rotates upward The guide portion 13 is provided to allow the rainwater flowing through the upper body 10a to fall to the other upper end of the separating plate 20 along the inclined surface.

The auxiliary guide portion 14 may have a lower inclined surface on the inner wall of the upper body 10a on which the guide portion 13 is formed. 13 so that the rainwater flowing from the opposite side of the upper body 10a can be dropped to the separating plate 20 through the upper end of the guide portion 13. [

Further, an auxiliary water channel 15 penetrating the upper and lower bodies 10a and 10b may be additionally formed on the inner wall of the valve body 10. [ This is because when a large amount of rainwater is introduced or when the storage tank of the recycled rainwater is full, rainwater can not be discharged through the side surface body 10c and the reverse flow may be generated. 10c are discharged to the lower main body 10b.

The spherical body 25 may be inserted in the space 24 in the interior of the separating plate 20 so as to extend from one side to the center. The weight of the separating plate 20 is shifted to one side or the other side of the separating plate 20 as the separating plate 20 is moved to the left or right side in the space 24 so that the separating plate 20 can be maintained in a rotated state . The sphere 25 in the space portion 24 may be provided with a plurality of not only one side or both sides of the separation plate 20 in consideration of the weight of the bellows 23 therein.

A through hole 27 is formed at the lower end of the separating plate 20 so as to penetrate through the separating plate 20. The through hole 27 may be formed in the other side of the separating plate 20, This is to discharge the initial storm quickly as the initial storm is discharged through the through hole 27 of the projection 26 in the discharge of the other side of the separator 20.

FIGS. 3A and 3B are cross-sectional views illustrating an operation state of the valve according to the present invention. The operation of the valve according to the present invention will now be described.

3A, the separator plate 20 provided on the valve body 10 maintains a tilted state toward the other side than a horizontal state because the bore body 23 installed at the lower end of the separator plate 20 acts as a weight. The sphere 25 inserted into the space 24 of the separation plate 20 is also located near the other side.

When the initial clearance flows through the injection port 11a of the upper main body 10a in a state where the separation plate 20 is inclined to the other side as described above, the separation plate 20 is guided through the auxiliary guide part 14 and the guide part 13, And then is discharged to the outside via the injection hole 11b of the lower main body 10b through the through hole 27 of the protruding portion 26 or the spacing space on the other side of the separator plate 20. [

After a lapse of time, the rainwater having the first 1 to 5 minutes of rainfall or the rainfall of 1 to 3 mm, which is defined as the initial rainfall, is introduced into the valve body 10, , It is common that a larger amount of rainwater is introduced at a time than the initial rainfall.

When a large amount of recycled rainwater flows into the valve body 10, rainwater passing through the other side of the separator plate 20 forms a vortex in the receiving portion 12 of the lower body 10b. At this time, 20 is gradually elevated by the height of the water surface of the receiving portion 12 by means of the bobbin 23 installed at the lower end of the receiving portion 20 so that the receiving plate 20 is gradually tilted in one direction as it rotates. The sphere 25 inserted into the inner space portion 24 of the separation plate 20 is moved in one direction along the inclined slope at the center portion so that the center of gravity of the separation plate 20 is added to one side.

 As shown in FIG. 3B, when rainwater continuously flows in a state in which the separation plate 20 is tilted in one direction, rainwater is stored in a storage space formed by the bent portion 21 of the separation plate 20 in a predetermined amount The amount of the rainwater is discharged through the discharge hole 22 of the bent portion 21 at an initial stage where the amount of the rainwater is small and when the amount of the rainwater is gradually increased, It is supposed to flow over the space.

That is, the separating plate 20 is completely folded by the weight of the separating plate 20 due to rainwater stored in the accommodating space of the bending portion 21 in a state in which the separating plate 20 is forcedly tilted in one direction by the inflow of rainwater by the inflow of rainwater. So that the separating plate 20 can be kept tilted to one side while a predetermined amount of rainwater is stored in the receiving space of the bending portion 21. [

In addition, when the inflow of the rainwater stops when the separation plate 20 is tilted to one side as described above, all the rainwater stored in the receiving space of the bent portion 21 is gradually discharged through the discharge hole 22 The weight that has been weighted on one side is removed, and the weight is tilted back to the other side by the weight of the lever 23 of the separator plate 20, so that it returns to the state as shown in FIG. At this time, the sphere 25 inserted into the inner space portion 24 of the separator plate 20 is also moved to the central portion closer to the other side which is the original position.

4 is a perspective view for explaining a state of use of the valve according to the present invention. As shown in FIG. 4, the inlet 11a of the upper main body 10a is provided with a well- The inlet port 11b of the lower main body 10b is coupled to the inlet port 11c of the side main body 10c and the outlet port 11b of the lower main body 10b is connected to the outlet port 5) are combined.

In other words, the rainwater introduced through the stormwater conduit 3 is separated into the initial stormwater and the recycled rainwater in the valve body 10 over time, and the rainwater is discharged in different directions. The initial stormwater is discharged through the sewer pipe 4 The recycled rainwater can be transported to a separate reservoir through the storage conduit 5 and then used immediately for the purpose of the water.

As described above, the initial good separation valve according to the present invention can be easily installed without installing a large-scale facility on a roof or a roof of an existing building or a sewer pipe, and unlike the filter material or the filter network used in the conventional filtration method, As a new method using the possible separator plate, the initial rainwater treatment is performed, and no additional maintenance and management costs are incurred after the installation, which is not only economical but also requires no separate storm water collecting tank or treatment tank, It can be used universally ranging from large scale complexes.

10: valve body 10a: upper body
10b: lower body 10c:
11a, 11b, 11c: Inlet port 12:
13: guide portion 14: auxiliary guide portion
15: auxiliary waterway 20: separator plate
21: bent portion 22: exhaust hole
23: brace 24: space portion
25: Sphere 26:
27: through hole 30: rotating pin

Claims (6)

The side body is integrally formed at a midway point between the upper body and the lower body connected in a straight line and the upper body, the lower body and the side body are provided with an injection port which can be coupled with a separate conduit, There is a valve body provided with a support portion projecting from the wall surface in parallel with the lower end,
Wherein the separating plate is rotatable around a point where the side body is formed in the valve body as a central axis, wherein one side of the separating plate is rotated between an inner upper end and a lower end of the side body, The valve body being provided so as to be spaced apart from the inner wall of the valve body,
Wherein an upper end of the separating plate is provided with a bending portion having a discharge hole and a lower end of the separating plate is provided with a bore filled with air therein.
[2] The valve according to claim 1, wherein the upper inner wall of the valve body is formed with a guide portion having an inclined surface in a downward direction at a position where the other end of the separating plate contacts the end of the separating plate when the separating plate is rotated upward.
The initial good separation valve according to claim 1 or 2, wherein the valve body further comprises an auxiliary guide portion having an inclined surface in a downward direction on an inner wall of the upper portion opposite to the guide portion.
The initial good separation valve according to claim 3, wherein a spherical body that linearly moves in a space formed from one side to the center of the inside of the separation plate is inserted.
[5] The initial good separation valve according to claim 4, wherein the separator is provided with a protrusion on the other side, and a through hole penetrating the separator is formed in the lower end of the protrusion.
The initial good separation valve according to claim 5, wherein an auxiliary water channel is formed on the upper and lower inner walls of the valve body to prevent reverse flow of the rainwater.

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