JP2020153189A - Water storage tank - Google Patents

Abstract

To provide a water storage tank that can secure an effective amount of water even when water is supplied using a centrifugal pump and can be formed compactly.SOLUTION: The water storage tank according to the present invention that performs drainage by a centrifugal pump comprises: a water storage tank body with a bottom wall part; a first protruding part having a space that protrudes downward from a part of the bottom wall part of the water storage tank body and communicates with an internal space of the water storage tank body; and a drainage pipe that is connected to a position separated by a predetermined distance from an upper end and a lower end of the first protruding part in the first protruding part and is connected to the centrifugal pump.SELECTED DRAWING: Figure 2

Description

The present invention relates to a water tank.

Conventionally, a water tank has been attached to the building, and water from the water supply is stored in this water tank before water is supplied to the building. At this time, a method of supplying water to the building using a pressurizing pump or a method of supplying water to the building by its own weight after sending water to an elevated water tank on the roof of the building using a pump is adopted. As the pressurizing pump or the pumping pump, for example, a centrifugal pump is used.

In addition, the water supply pipe for supplying water to the water tank is connected to the upper part of the water tank. Further, an overflow pipe is provided in the upper part of the water tank below the water supply pipe so that when the water level in the water tank exceeds the connection position of the overflow pipe, the overflowed water is discharged to the outside from the overflow pipe. It has become. Further, as such a water supply pipe, for example, the one described in Patent Document 1 has been proposed.

Japanese Unexamined Patent Publication No. 7-259147

By the way, when the centrifugal pump as described above is used, a whirlpool may be generated when water is sucked from the water supply pipe, which may cause air or foreign matter in the water storage tank to flow into the centrifugal pump. In the case of a pump with a high driving force such as a centrifugal pump, when such inflow of air or the like occurs, a cavitation phenomenon occurs, vibration is generated in the centrifugal pump, and the discharge force is reduced as compared with a normally used pump. , Impeller (impeller), etc. may break down easily. Therefore, for example, as in the water tank 10 shown in FIG. 6, it is necessary to arrange the water outlet 61 of the water supply pipe 6 at a predetermined height from the low wall portion of the water tank 10 to prevent the inflow of foreign matter. Further, it is necessary to prevent the inflow of air by storing water up to a predetermined height above the water outlet 61. Therefore, the water stored in the lower part of the water tank cannot be used for supplying water to the building, and there is a problem that the amount of effective water that can be supplied is reduced.

Similarly, as shown in FIG. 6, since a distance H must be secured between the overflow pipe 5 and the inflow pipe 4 in the upper part of the water storage tank 10, water is stored in the upper part of the water storage tank 10. I can't. Therefore, the space above the water tank 10 cannot be used to store water. On the other hand, in Patent Document 1, the water supply pipe is passed through the inside of the water storage tank and the water supply port is arranged so as to face upward to shorten the distance from the overflow pipe. Since it passes through water, it may be damaged and there are hygiene problems.

As described above, in the conventional water tank, when the centrifugal pump is used, an area that cannot be used for water storage is generated in order to secure the effective amount of water, so that it is necessary to enlarge the water tank. The present invention has been made to solve this problem, and to provide a water storage tank that can be compactly formed while ensuring an effective amount of water even when water is supplied by using a centrifugal pump. The purpose.

The water storage tank according to the present invention is a water storage tank in which water is supplied by a centrifugal pump, and the water storage tank main body having a bottom wall portion and a part of the bottom wall portion of the water storage tank main body project downward to store water. The first protruding portion having a space communicating with the internal space of the tank body and the first protruding portion are connected to the centrifugal pump at positions separated by a predetermined distance from the upper and lower ends of the first protruding portion. It is equipped with a water supply pipe to be connected.

In the water tank, the water tank main body may include a second protruding portion having a ceiling wall, projecting upward from a part of the top wall portion, and having a space communicating with the internal space of the water tank main body. it can.

In the water tank, an overflow pipe connected to the water tank main body can be further provided below the lower end of the second protrusion.

The water storage tank may be further provided with an overflow pipe connected to the second protrusion.

According to the water storage tank according to the present invention, even when water is supplied by using a centrifugal pump, it can be formed compactly while ensuring an effective amount of water.

It is a perspective view which shows one Embodiment of the water tank which concerns on this invention. It is sectional drawing of FIG. It is sectional drawing which shows the other example of the water supply pipe connected to the 1st protrusion. It is sectional drawing which shows the other example of the water supply pipe connected to the 1st protrusion. It is sectional drawing which shows the other example of the water tank which concerns on this invention. It is sectional drawing which shows the conventional water storage tank.

Hereinafter, an embodiment of the water tank according to the present invention will be described with reference to the drawings.

<1. Water tank configuration>
FIG. 1 is a perspective view of a water tank according to the present embodiment, and FIG. 2 is a cross-sectional view of FIG. This water tank is attached to a building or the like and is generally used to supply water to the inside of the building. Then, the water stored in this water tank is supplied to the building by a pressure pump (pressurized water supply method), or is sent to an elevated water tank installed on the roof of the building by a pump, and then the elevated water tank. Water is supplied to the building by its own weight (elevated water tank water supply system).

As shown in FIGS. 1 and 2, the water tank is attached to a rectangular parallelepiped water tank body 1, a first protrusion 2 attached to the lower part of the water tank body 1, and an upper part of the water tank body 1. It has a second protruding portion 3 and the like. The water tank main body 1 has an internal space surrounded by a top wall portion 11, a bottom wall portion 12, and a peripheral wall portion 13. The first protruding portion 2 is formed in a rectangular parallelepiped shape with an open upper portion, and is installed on the bottom wall portion 12. Therefore, the internal space of the first protruding portion 2 communicates with the internal space of the water tank main body 1. On the other hand, the second protruding portion 3 is formed in a rectangular parallelepiped shape with an open lower portion, and is installed at the end of the top wall portion 11. Therefore, the internal space of the second protruding portion 3 communicates with the internal space of the water tank main body 1. In this way, the internal spaces of the water tank main body 1, the first protruding portion 2, and the second protruding portion 3 communicate with each other, and water is stored therein. Further, the area of the first protrusion 2 and the second protrusion 3 in a plan view is formed to be smaller than the area of the water tank main body 1 in a plan view.

A water supply pipe 6 for sending water from the water tank is connected to the side surface of the first protrusion 2. The water supply pipe 6 penetrates horizontally from the side surface of the first protruding portion 2 to the inside of the first protruding portion 2 and opens near the center of the inside of the first protruding portion 2. That is, the water in the water tank is sent to the outside through the water supply pipe 6 from the water outlet 61 that opens inside the first protrusion 2. A pressurizing pump or a pump (not shown) is attached to the water supply pipe 6, and the water in the water tank is sucked by these pumps and supplied to the building. As such a pump, a centrifugal pump can be used, and in particular, an inverter type turbine pump can be used as the pressurizing pump, and a mechanical seal type centrifugal pump can be used as the pumping pump.

Here, assuming that the diameter of the water supply pipe 6 is D1, the distance H1 from the lower end of the first protrusion 2 to the lower end of the water outlet 61 is m * D1 (for example, m = 0.5 to 1.0). be able to. By setting such a distance H1, it is possible to prevent foreign matter accumulated on the lower surface of the first protruding portion 2 from being sucked into the water outlet 61.

On the other hand, it is preferable that water is stored from the upper end of the water outlet 61 up to a height of at least a distance H2, thereby preventing an air vortex due to suction of a centrifugal pump from flowing into the water outlet 61. Can be done. This distance H2 can be n * D1 (for example, n = 1 to 2). Therefore, the distance from the upper end of the water outlet 61 to the upper end of the first protrusion 2 is preferably H2 or more. By securing the distances H1 and H2 above and below the water supply pipe 6 in this way, it is possible to prevent cavitation from occurring in the centrifugal pump.

Next, the second protruding portion 3 will be described. An inflow pipe 4 for supplying water to the water tank is connected to the side surface of the second protrusion 3. Further, on the side surface of the second protruding portion 3, the overflow pipe 5 is connected below the connecting portion with the inflow pipe 4. The lower end of the overflow pipe 5 is connected to the top wall portion 11 at substantially the same position, so that when the water level stored in the water tank exceeds the top wall portion 11, the overflow pipe 5 is drained to the outside. It has become. The position where the inflow pipe 4 is connected is not particularly limited, and for example, it can be connected to the top surface of the second protrusion 3. Further, the position where the overflow pipe 5 is connected is not particularly limited, and is installed below the top wall portion 11, that is, between the top wall portion 11 and the water level stored in the water tank main body 1. Is also good. In this case, when the water level stored in the water storage tank body 1 reaches the overflow pipe 5, the water is drained from the overflow pipe 5 to the outside.

Here, assuming that the diameter of the inflow pipe 4 is D2, the distance H3 from the lower end of the overflow pipe 5 to the lower end of the water supply pipe 4 may be h * D2 (for example, h = 1.0 to 2.5). it can. By setting such a distance H3, it is possible to prevent backflow of water from the water storage tank to the water supply pipe 4. Thereby, for example, when the water in the water tank is contaminated, it is possible to prevent the contaminated water from flowing into the water main.

The water storage tank can be formed of various materials such as a resin panel such as FRP and a metal panel such as stainless steel.

<2. Features>
According to the water tank according to the present embodiment, the following effects can be obtained. That is, a first protruding portion 2 smaller than the water tank main body 1 is provided below the water tank main body 1, and a water supply pipe 6 is connected to the first protruding portion 2. Therefore, the volume of the region secured for preventing the inflow of foreign matter into the water supply pipe 6 and the suction of air vortices can be reduced. Similarly, a second protruding portion 3 smaller than the water tank main body 1 is provided above the water storage tank main body 1, and the inflow pipe 4 and the overflow pipe 5 are connected to the second protruding portion 3. Therefore, the volume of the region reserved for preventing the backflow of water to the inflow pipe 4 can be reduced. Therefore, it is not necessary to increase the size of the entire water tank in order to secure such an area as in the conventional example. Therefore, the water storage tank can be made compact while ensuring the effective amount of water. As a result, it is possible to effectively use the machine room, which is closer to the machine room due to space saving, and to shorten the construction period by improving workability by reducing the weight of the water tank.

In particular, by providing the first protrusion 2, when water is supplied to the building by using a centrifugal pump in the water storage tank attached to the building, cavitation occurs due to suction of air vortices (foam biting). The following problems can be solved.
(1) Loosening of fixing bolts due to abnormal noise and unsteady vibration from the pump casing and impeller (impeller) (2) Deterioration of pump discharge amount and flow rate performance due to decrease in impeller rotation speed (3) Load applied to impeller It changes and excessive force is applied in the vertical and axial directions, causing damage to the spindle and impeller, leading to pump failure.

In the case of a general pump, the configuration in the present invention causes only the problems of (1) and (2), but the centrifugal pump is different from the general pump in terms of pressing force and the like, so that of (3). New challenges tend to arise. In that case, the centrifugal pump may be damaged and continuous use may not be possible, but in the case of the present invention, it is possible to solve all the problems (1) to (3).

For example, if a 10-story 50 units of collective housing, although effective amount of water reservoir for the beverage is about 27～32M ^3, if the effective water volume of 30 m ^3, the size of the reservoir is 3.5Mx3. 0mx3.5m is common. The pressurizing pump used when the water supply system is the pressurized water supply system generally has a water supply amount of 270 L / min, a water supply pressure (discharge head) of 50 m, a water outlet diameter of 80 mm, and an inflow port diameter of 50 mm. On the other hand, the pump used for the elevated water tank water supply system generally has a water supply amount of 100 L / min, a water supply pressure (discharge head) of 50 m, a water outlet diameter of 50 mm, and an inflow port diameter of 50 mm. On the other hand, if the protrusions 2 and 3 as described above are provided, the effective amount of water becomes 36 m ³ and increases by 20% when a water tank of the same size is produced. Further, when the effective amount of water is 30 m ³ , the size of the water tank can be reduced to 3.0 mx 3.0 mx 3.5 mx.

<3. Modification example>
Although one embodiment of the present invention has been described above, the present invention is not limited to the above embodiment, and various modifications can be made without departing from the spirit of the present invention. Hereinafter, a modified example will be described. However, the following modifications can be combined as appropriate.

<1>
The shape and position of the first protruding portion 2 and the second protruding portion 3 are not particularly limited, and it is sufficient that the distances H1 to H3 described above are secured and the water tank is formed smaller than the main body. However, for maintenance, for example, the width of the first protrusion 2 is preferably a predetermined size according to the width of the bottom surface of the water tank. Specifically, the area of the first protrusion 2 in a plan view is, for example, 60 cm × 60 cm or more, and a worker can enter the space composed of the side wall of the first protrusion 2 and the main body of the water tank. The size is preferable. Further, the shape of the water tank main body 1 is not particularly limited.

<2>
The form of the water supply pipe 6 connected to the first protrusion 2 is not particularly limited, and can be, for example, as shown in FIGS. 3 and 4. In the example of FIG. 3, the water supply pipe 6 is inserted into the first protruding portion 2 from the lower surface of the first protruding portion 2, and the water outlet 61 is opened upward. In the example of FIG. 4, the water supply pipe 6 is inserted into the first protruding portion 2 from the lower surface of the first protruding portion 2, and the tip 61 of the water supply pipe 6 is horizontally inside the first protruding portion 2. It is bent. Therefore, the water outlet 61 is open in the horizontal direction. In any of the above FIGS. 3 and 4, distances H1 and H2 are secured above and below the water outlet.

<3>
The position where the inflow pipe 4 is connected is not particularly limited, and for example, it can be connected to the top surface of the second protrusion 3. Further, the position where the overflow pipe 5 is connected is not particularly limited, and for example, as shown in FIG. 5, the water level below the top wall portion 11, that is, the top wall portion 11 and the water level stored in the water tank main body 1. It may be installed between. In this case, when the water level of the water stored in the water storage tank body 1 reaches the overflow pipe 5, the water is drained from the overflow pipe 5 to the outside.

<4>
In the above embodiment, the first protruding portion 2 and the second protruding portion 3 are provided at the lower and upper portions of the water tank main body 1, respectively, but at least the first protruding portion 2 may be provided. That is, it may be a water tank in which the first protruding portion 2 is provided in the lower part of the water tank main body 1. Even in such a water tank, it is not necessary to enlarge the entire water tank in order to secure the above-mentioned area. Therefore, it is possible to secure an effective amount of water while being compact.

1 Water tank body 11 Top wall 12 Bottom wall 2 1st protrusion 3 2nd protrusion 4 Inflow pipe 5 Overflow pipe 6 Water supply pipe H3 Water spout space 61 Water outlet

Claims (4)

A water tank where water is supplied by a centrifugal pump.
A water tank body with a bottom wall and
A first projecting portion that projects downward from a part of the bottom wall portion of the water tank body and has a space that communicates with the internal space of the water tank body.
In the first protruding portion, a water supply pipe connected to a position separated by a predetermined distance from the upper end and the lower end of the first protruding portion and connected to the centrifugal pump, and
A water tank equipped with. The water tank body has a top wall portion and has a top wall portion.
The water storage tank according to claim 1, further comprising a second protruding portion that projects upward from a part of the top wall portion and has a space that communicates with the internal space of the water storage tank main body. The water tank according to claim 1 or 2, further comprising an overflow pipe connected to the water tank body below the lower end of the second protrusion. The water tank according to claim 1 or 2, further comprising an overflow pipe connected to the second protrusion.