JPH0444534A - Rainwater storage tank - Google Patents

Abstract

PURPOSE:To make it possible to assemble a lightweight rainwater storage tank easily by securing reinforcing metal bar lines as one-piece combined with a foamed styrene resin-made water storage tank body to either any one of the inside or wall surface in the circumferential wall and bottom wall, or both of them. CONSTITUTION:A water storage tank body 1 is made of foamed styrene resin, and it is reinforced by metal bar lines 4. Approximately an inverted U-siphon 6 is provided to the water storage tank body 1. An L-shaped water supply pipe 9 is provided, and a large number of water permeable holes 10 are formed on the side of a vertical pipe section 9a of the water supply pipe 9. A filter 11 containing charcoal grain, etc., therein is so provided that all water permeable holes 10 of the water supply pipe are coated therewith. When there is a rainfall, rainwater conducted from a roof flows into the water storage tank body 1 through a wire net 17 of an upper lid 16. When city water is used, a water supply valve 12 of the water supply pipe is opened. In addition, as a result of an analysis of dirt in the water, water around the bottom of the water which is easy to become nonxygenous state is forcedly discharged by the action of the siphon 6 provided to the water storage tank 9.

Description

DETAILED DESCRIPTION OF THE INVENTION Field of the Invention The present invention relates to a rainwater storage tank for storing rainwater collected from a roof or the ground surface.

Conventional technology In remote islands far from the main island, areas where underground water cannot be used as drinking water because it contains salt, remote mountainous areas with no public water supply facilities, and developing countries, rainwater can be directly collected. This water is then used as domestic water.

For this reason, water storage facilities are generally provided to store the collected rainwater.

This type of water storage facility includes a structure made of reinforced concrete, but it is not widely used because it is heavy and requires professionals to construct and is expensive. This causes problems such as water quality deterioration due to alkali seeping from the concrete.

Therefore, in developing countries, pottery or water tanks dug underground have been used exclusively to store collected rainwater.

Problems to be Solved by the Invention However, these water storage facilities merely store rainwater and are unhygienic.

Therefore, it is an object of the present invention to provide a rainwater storage tank that is lightweight, easy to assemble, and inexpensive.

Yet another object of the present invention is to provide a rainwater storage tank that can store rainwater for a long period of time without deteriorating the quality of the water stored in the tank.

Means for Solving the Problems In order to achieve the above-mentioned objects, the present invention provides a water tank body made of expanded polystyrene resin with an open upper end surface, and one of the interior and wall surfaces of the peripheral wall and bottom wall of the water tank body. or a reinforcing metal wire that is fixed to both and has an integrated structure with the water tank main body; an inner pipe portion extending substantially vertically inside the water tank main body; and an outer pipe extending substantially vertically outside the water tank main body. and a connecting pipe part that connects the upper end of the inner pipe part and the upper end of the outer pipe part and is arranged to penetrate the peripheral wall of the water tank main body, and the water storage tank A drain pipe extending from a drain port provided on the inner bottom wall surface of the tank body to the outside of the water tank main body, and equipped with a drain valve at a portion extending from the water tank main body to the outside, and a drain pipe extending from the inside of the water tank main body to the outside of the water tank main body. A water supply pipe having a water supply valve extending outward from the water tank body, a filtration means attached to the water supply pipe, and an opening on an upper end surface of the water tank body can be sealed to provide a water flow function. and an upper lid that prevents sunlight from entering the water tank main body, and the lower end opening of the inner pipe portion of the siphon is located near the bottom wall inside the water tank main body, and serves as an inlet. The lower end opening of the outer pipe portion of the siphon is located below the lower end opening of the inner pipe portion, and functions as a discharge port, and an intake hole is provided at a predetermined position near the top of the inner pipe portion of the siphon. This is a rainwater storage tank characterized in that

Further, in the rainwater storage tank, a water splash is provided protruding near the upper end inside the outer pipe portion of the siphon so that the inner diameter of the outer pipe portion gradually decreases from the top to the bottom. It is preferable that

Operation In the above configuration, when the water level in the water tank body rises and reaches the top of the siphon, the water that has entered the siphon from the suction port through the inner pipe section passes through the connecting pipe section. The water falls inside the outer pipe portion of the siphon toward the discharge port, and the siphon action occurs and the water in the water tank is drained, so there is no risk of water overflowing from the water tank.

Furthermore, when the water level in the water tank body decreases to the water level at the intake hole of the siphon due to this drainage, outside air flows into the siphon from the intake hole, and the siphon action immediately stops. Therefore, wasteful drainage is prevented. In this case, if the siphon is configured with a water splash protruding inside the outer pipe part, the water overflowing from the connecting pipe part to the outer pipe part will be prevented by the action of this water splash. Small water droplets fall from below, filling the inside of the outer tube, gradually lowering the air pressure above the siphon. As a result, the siphon effect reliably occurs when the water level in the water tank body is slightly lower than the top of the siphon.

In addition, since the suction port of the siphon is located near the inner bottom wall of the water tank, the siphon action forces water near the bottom of the water, which tends to become anoxic as a result of decomposition of debris in the water, to be drained away. Therefore, it is possible to purify the water inside the water tank.

Since the water tank main body is made of expanded polystyrene resin, it is lightweight and easy to assemble. Furthermore, since it is reinforced with reinforcing metal wire, it can sufficiently cope with the water pressure of the stored water.

When using the domestic water stored in the water tank, by opening the water supply pulp of the water supply pipe, the water filtered by the filtration means can be easily taken in as much as necessary.

Moreover, by sealing the upper end surface opening of the water storage tank body with the top lid, sunlight is prevented from directly entering the inside of the water storage tank, thereby preventing the generation of plankton in the stored water.

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

1 and 2, the rainwater storage tank according to the present invention is made of styrofoam resin, and has a cylindrical peripheral wall (2).
, and a circular bottom wall (3) that seals the lower end opening of the peripheral wall (2).

Further, the inner bottom wall surface of the water tank main body (1) is formed in a pot-like shape that gradually becomes deeper toward the center.

In this case, it is preferable that the water tank main body (1) is composed of a plurality of units, and that these units are separated and transported to the site and assembled on site. , the peripheral wall (2) of the water tank body (1) is composed of three cylindrical peripheral wall units) (2a)
, (2a), (2a) are stacked one above the other and are pressed together with adhesive or the like, and further,
The water tank main body (1) is assembled by pressing the bottom wall (3) into the lower end opening of the peripheral wall (2).

Inside each peripheral wall unit (2a), a plurality of ring-shaped reinforcing metal wires (4) surrounding the peripheral wall are installed vertically at predetermined intervals.

In this case, as shown in FIG. 4B, the peripheral wall unit 7) (2a) includes an inner cylinder (5a) made of expanded polystyrene resin having a predetermined diameter, and a expanded polystyrene resin cylinder (5a) that fits on the outside of the inner cylinder (5a). It is formed by crimping an outer cylinder (5b) made of aluminum with a ring-shaped metal wire fixed between the outer surface of the inner cylinder (5a) and the inner surface of the outer cylinder (5b).

The configuration of the peripheral wall unit (2a) is not limited to this embodiment. For example, as shown in FIG. 4A, a ring-shaped metal wire (4
) may be used as a peripheral wall unit (2b) that is fixed vertically at a predetermined interval, or as shown in Fig. 4D, it may be a laminate in which a plurality of cylindrical sections are stacked vertically. A peripheral wall unit (with a ring-shaped metal striation wA (4) fixed between the upper end surface of the peripheral wall of the lower section and the lower end surface of the peripheral wall of the upper section of the adjacent cylindrical sections)
2d) If you want to further increase the strength of the peripheral wall unit, as shown in Fig. 4C, you can use a peripheral wall unit (2C) in which ring-shaped metal reinforcement wires are double incorporated in the peripheral wall, Moreover, it is also possible to use a grid-like metal wire instead of the ring-like metal wire.

As the reinforcing metal wire, suitable wires such as stainless steel wire, steel wire, copper wire, etc. can be used.

It is also possible to directly transport the raw material of granular expanded polystyrene resin to the site, place the metal wire in advance in a molding frame, and then expand it at high temperature to produce the unit. This is particularly useful when implementing the invention in less developed countries.

On the other hand, inside the bottom wall (3) of the water tank body (1), there is a third
As shown in the figure, metal wires (4) are fixed to the bottom wall (3) so as to extend radially from the center of the bottom wall (3) in the horizontal direction. The bottom wall (3) is formed by integrally molding the metal wire (4) with styrofoam resin, or by forming the bottom wall (3b) from a laminate of two disks. Place these two discs together with a metal strip between them! (4) are sandwiched and pressed together using an adhesive.

Note that the shape of the water tank body (1) is not limited to the cylindrical shape as in this embodiment, but can be made into various shapes depending on the volume of the water tank, the installation location, etc.

The water tank body (1) includes an inner pipe portion (6a) extending vertically along the inner wall surface of the peripheral wall (2), and an outer pipe portion (6b) extending vertically along the outer wall surface of the peripheral wall (2). , penetrates the peripheral wall of the water tank body (1), and the inner pipe portion (6a)
A substantially inverted U-shaped siphon (
6) is placed. The lower end opening of the inner pipe portion (6a) is located a little apart from the inner bottom wall surface of the water tank body (1) and functions as a suction port (20), while the lower end of the outer pipe portion (6b) The opening is located in the inner tube portion (6a).
It is located below the lower end opening of the water tank body (1) and slightly above the bottom surface of the water tank body (1), and functions as a discharge port (21).

Further, the top of the siphon (6) is located at an appropriate height such that the siphon action is activated before the water stored in the water storage tank body (1) overflows from the upper end of the peripheral wall (2). Furthermore, an intake hole (7) is formed on the inside of the water tank main body (1) and on the side surface near the connecting part between the inner pipe part (6a) and the connecting pipe part (6C) of the siphon (6). Ru. Further, a water splash (8) having a slope that gradually narrows the inner diameter of the outer tube portion (6b) from above to below is protruded from the upper end of the inner wall surface of the outer tube portion (6b).

Furthermore, inside the water tank body (1), a vertical pipe portion (9 holes) extending along the central axis of the water tank body (1);
An L-shaped cane water supply pipe (9 ) is placed. The upper end of the vertical pipe portion (9a) of the water supply pipe (9) is located at approximately the same height as the intake hole (7) of the siphon (6), and its opening is sealed, and there are many water passages on its side. A hole (10) is formed, and on the other hand, the tip of the horizontal pipe portion (9b) projects from the peripheral wall (2) of the water tank body (1) to the outside of the body (1), and a water supply valve (
12) is installed. In addition, the vertical pipe portion (9a) of the water supply pipe (9) is fitted onto the outside and circumference of the vertical pipe portion (9a), and extends substantially over the length of the vertical pipe portion (9a).
9) has a cylindrical shape that covers all the water holes (lO), and a filter (11) containing charcoal particles or the like is attached inside.

A drain port (13) is formed near the center of the inner bottom wall surface of the water tank body (1), and the bottom wall (3
) extends through the inside of the bottom wall (3) with a slight downward slope.
) is provided, and a drain valve (15) is attached to the portion of the drain pipe (14) that projects outward from the side of the bottom wall.

The upper end surface opening of the water tank main body (1) can be sealed by the upper part 1 (16). Upper 1 (16) has the same structure as the peripheral wall unit (2a) except that the height is a little lower, and a wire mesh (17) of a suitable size is attached to the opening on the lower end of the cylinder, and the opening on the upper end is made of foamed polystyrene resin. It consists of a disc (1 day) sealed. Furthermore, a portion of the disk (18) that seals the upper end surface opening has one end (not shown).
A water conduit (19) connected to the gutter is installed so that its other end is located above the wire mesh (17) in the top cover.

In the above configuration, when it rains, rainwater conducted from the roof flows into the water tank main body (1) through the wire mesh (17) of the upper part (16). In this case, coarse gravel or bulky debris is removed by being captured by the gold wi4 (17) of the top lid (16). In addition, the use of the top cover (16) prevents sunlight from shining into the water tank, preventing the generation of phytoplankton in the water, and also preventing harmful insects from entering the water. be done.

Now, if the roof area of one family is RA, the number of families is N, the runoff rate is C2 and the duration of rainfall is T, then the amount of water V that can be stored with a rainfall of R is: V = Cx N x RA x R (1 ), and at this time, the flow rate Q is: Q=V/ (DT)
(2) becomes.

In this way, the maximum amount of rainfall in the past is checked and the size of the water conduit (19) with sufficient water dispensing capacity is determined. Water pipe (19
) is made of, for example, Nislon pipe.

The capacity of the water tank body (1), that is, its inner diameter and height, shall be such that the amount of water stored in the water tank over the year will not become zero, and the water storage tank body (1) shall be sized so that the amount of water stored in the water tank does not become zero over a period of IO years or more using the formula (2) above. It is determined by the result.

The water depth of the water storage tank body (1) gradually rises every time there is rainfall from a state where the amount of stored water is zero.Such a rise in water level naturally places a load on the Styrofoam resin, and its The size of the expanded polystyrene resin forming the water tank body (1) gradually increases.
Use one with a density of around O1 to 0.02. In this case, commercially available products have a tensile strength of about 2 kg/cm. However, since the water pressure exerted on the water tank body (1) continues to act for a long period of time, the styrofoam resin may undergo plastic deformation. However, there is a risk that the water tank body (1) may be destroyed.

For this purpose, the styrofoam resin is reinforced with metal wires. It is also necessary to take into account the possibility that an earthquake will cause a momentary and extremely large load to be applied to the water tank.

Now, W = density of water, Z - depth of water, D = diameter of the water tank body, b - peripheral wall thickness of the water tank body, P, = safe tension of styrofoam resin only, P, = styrofoam reinforced with metal reinforcement wire. If the safe stress of the resin is P, the allowable stress of the metal wire, and P is the total tension acting on the peripheral wall of the water tank body, then the following equation holds true.

P = w x Z x D
(3) P=P, x2xb Therefore, obtain xb 0th order, let the maximum water depth be H, W = 1 ton/m', H = 3 fog, D = 2■, P o -2 kg/cm b = 0.10 m, we obtain Ps = 3 kg/am''. This value is greater than Ps = 2 kg/cm'', indicating that it cannot be safely supported by styrofoam resin alone.

Therefore, reinforcement with metal reinforcement is required.

In the peripheral wall unit shown in Fig. 4B, in the case of stainless steel metal reinforcement wires, the arrangement density of the metal reinforcement wires is set to 0.0005 times the cross-sectional area of the foamed steel roll, and the tensile strength of the metal reinforcement wires is set to P.
*=5000kg/cm", the allowable strength load of the metal wire is 0.0005X5000=2.5kg/cm",
Overall strength of styrofoam and metal wire: 2.0
+2.5-4.5 kg/cm", which generates sufficient tension for P a = 3 kg/cm".

The water level in the water tank body (1) rises and the siphon (6)
When the water reaches the top of the siphon (6), the water that has entered the siphon (6) from the suction port (20) through the inner pipe part (6a) passes through the connecting pipe part (6c) and enters the siphon (6). The inside of the outer pipe portion (6b) is connected to the discharge port (21).
fall towards. This water becomes small water droplets due to the action of the water splash (8) protruding inside the outer pipe part (6b) and falls while filling the inside of the outer pipe part (6b), and the air pressure in the upper part of the siphon is reduced. Gradually reduce. For this reason,
The siphon action occurs when the water level in the water tank body (1) is slightly lower than the top of the siphon (6), and the water in the water tank body (1) is drained, and no water overflows from the water tank. When the water level in the water tank body (1) drops to the water level at the intake hole (7) of the siphon (6) due to this drainage, outside air flows into the siphon (6) from the intake hole (7) and the siphon The action stops immediately. For this reason,
This prevents wasteful drainage.

In addition, in this embodiment, a water splash (8) is provided protruding from the outer tube portion (6b) of the siphon (6), but the siphon action can occur even if this water splash (8) is not provided. Is possible. However, in this case, the siphon effect is somewhat less reliable than when the water splash (8) is provided.

Since the water surface in a water storage tank is in contact with the outside air, oxygen dissolves into the water, so the water near the surface is relatively clean, but the water near the bottom is contaminated with debris that has broken down. As a result, there is a tendency to become anoxic. However, since the suction port (20) of the siphon (6) is arranged near the inner bottom wall surface of the water tank body (1), such wastewater is forcibly drained to the outside by the siphon action. It becomes possible to purify the water inside the water tank.

When using the domestic water stored in the water tank main body (1), the water supply valve (12) of the water supply pipe (9) is opened.

At this time, the water in the water tank body (1) is filtered through the filter (11).
After being filtered by the water inlet (9c) of the water supply pipe (9)
Water is sprayed from. After taking in the required amount of water, the water supply valve (12) is closed.

The water tank main body (1) is made of styrofoam resin, so it is lightweight and easy to assemble, and is further reinforced with metal reinforcement, so it can sufficiently cope with the water pressure of the stored water.

Despite the gold m (17) attached to the top lid (16), the dirt that settles inside the water tank body (1) is gradually deepened toward the center of the inner bottom wall of the water tank body (1). Because it has a mortar shape, it is relatively easy to open the drain (1
3) Gather near. Therefore, drain valve (15) as appropriate.
By opening the water tank body (1), the water can be discharged to the outside.

The sizes of the rainwater storage tank in this example are as follows.

Height 3cm, inner diameter 2-1 water tank wall thickness 0.1cm, siphon pipe inner diameter 0.1-1 water intake filter diameter 2Oc-1 total rainfall 120cm, maximum hourly rainfall R=50ms/hour, rainfall Duration T-3600 seconds, roof area RA = 200 8, outflow rate C = 100%, maximum flow rate Q = 0.0028 m'/
sec, planned rainwater storage tank volume Vp = 9.42 m'', total rainwater volume V-24 m'', spillway discharge volume'' p = 14.5
8m' Also, the peripheral wall unit has an inner diameter of 2-1 and a thickness of 0.1cm.
, cylindrical shape with height l-, 0.05 of the longitudinal section of the cylinder
% of the area of the metal reinforcement wire.

Effects of the Invention As described above, according to the present invention, the water tank main body is made of foamed polystyrene resin and reinforced with reinforcing metal wire, so it is lightweight and easy to assemble. Therefore, if the main body of the water tank is made up of an assembly of multiple units and transported separately, it can be easily transported to a remote location, and moreover, it can be easily assembled on-site by an amateur. be able to. Further, it is possible to provide an economical rainwater storage tank that does not require much manufacturing cost.

Furthermore, due to the action of the siphon installed in the water tank, water near the bottom, which tends to be anoxic as a result of decomposition of underwater debris, is forcibly drained, and water near the bottom that has accumulated is forcibly drained. In addition, since the opening on the upper end of the water storage tank body is sealed by the top lid, sunlight is prevented from entering the water storage tank directly, which prevents the generation of plankton in the stored water. It is possible to purify the water inside the tank, and is extremely preferable from a sanitary standpoint.

From the above points, the present invention is particularly useful in areas where domestic water must be obtained by collecting rainwater, such as remote islands far from the main island, underdeveloped countries with no public water facilities, or remote areas. , is considered to make a significant social contribution.

[Brief explanation of the drawing]

FIG. 1 is a partially cutaway side view showing one embodiment of the rainwater storage tank according to the present invention, FIG. 2 is a longitudinal sectional view of the rainwater storage tank shown in FIG. 1, and FIG. 4A to 4D show the structure of the peripheral wall unit forming the peripheral wall of the rainwater storage tank shown in FIG. FIG. (1)...Water tank body (2)...Peripheral wall (3)...Bottom wall (4)...Metal reinforcement wire (6)... ...Siphon (7) ...Intake hole (8) ...Water splash (9) ...Water supply pipe (11) ...Filter (12)...Water supply pulp (13)...Drain port (14)...Drain pipe (15)...Drainage pulp (16)... ...Top lid (20)...Suction port (21)...Discharge port

Claims (2)

[Claims] (1) A water storage tank body made of expanded polystyrene resin with an open upper end surface, and fixed to either or both of the interior and wall surfaces of the peripheral wall and bottom wall of the water tank body, forming an integrated structure with the water tank body. reinforcing metal wire, an inner pipe portion extending substantially vertically inside the water tank body, an outer pipe portion extending substantially vertically outside the water tank main body, and an upper end of the inner pipe portion and an upper end of the outer pipe portion. A substantially inverted U-shaped siphon consisting of a connecting pipe portion that is connected and arranged to penetrate the peripheral wall of the water tank main body, and a water tank main body from a drain port provided on the inner bottom wall surface of the water tank main body a drain pipe that extends to the outside and is provided with a drain valve at a portion that extends from the water tank body to the outside; and a water supply valve that extends from the inside of the water tank body to the outside of the water tank body and that extends from the water tank body to the outside. a water supply pipe attached to the water supply pipe; a filtration means attached to the water supply pipe; an upper end opening of the water tank main body that can be sealed, has a water flow function, and prevents sunlight from entering the inside of the water tank main body; a lower end opening of the inner pipe portion of the siphon is located near the bottom wall surface inside the water tank main body and functions as a suction port, and a lower end opening of the outer pipe portion of the siphon is located in the inner pipe portion A rainwater storage tank, characterized in that the tank is located below the lower end opening of the siphon, functions as a discharge port, and has an intake hole formed at a predetermined position near the top of the inner pipe portion of the siphon. (2) A water splash is provided near the upper end inside the outer tube portion of the siphon and is formed so as to gradually reduce the inner diameter of the outer tube portion from above to below. The rainwater storage tank according to claim 1, characterized in that: