JPH01240484A - Water discharge unit in water tank - Google Patents

Abstract

PURPOSE:To make a water discharge from a fixed water level under the liquid surface always possible linking with the variation of the liquid surface level in a tank, by connecting watertightly the lower end of a flexible water-conductive pipe, which is expandable-and- retractable and has a water intake port along the outer periphery of the upper end, to a water discharge port which is arranged on the bottom surface of a water tank or the lower part of the side wall, and installing a float on the upper end surface of the water-conductive pipe. CONSTITUTION:A flexible water-conductive hose 4, which is expandable-and-retractable, is a bellows-shaped one. On the outer periphery of the upper end part, a water intake port 5 is provided, and on the top surface, an upside-down cylindrically shaped piece 6 with an opening on the lower end and a float 7 are installed. Further, the lower end of the water- conductive pipe 4 is watertightly connected to a water discharge port 3. The float 7 elevates, following the variation of the liquid surface in a water tank 1, and the flexible water- conductive pipe 4 extends or retracts. When the water level is high, the flexible water- conductive pipe 4 extends, and the liquid close to the liquid surface is taken into the water- conductive pipe 4 through the water intake port 5. The liquid is lead to the water discharge port 3, and the supernatant part is discharged. When turbid liquid with floating property has been mixed in, the clean water alone can be discharged by the upside-down cylindrical piece 6. Also, when water is discharged forcedly by a pump, etc., the float 7 descends, following the liquid surface, and the water discharge from a fixed depth under the liquid surface is continued all the time.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Application Field) The present invention relates to a drainage device for a water tank such as a water treatment tank for the purpose of reusing wastewater or utilizing rainwater.

(Prior art) When reusing treated water or using rainwater,
Conventionally, a treated water receiving tank was installed after the treatment tank, and the advection of the treated water from the treatment tank to the treated water receiving tank was performed by overflow, and the advection of the treated water from the treated water receiving tank was performed forcibly using a pump or the like.

(Problems to be Solved by the Invention) However, the conventional method requires a treated water receiving tank, which increases the installation area and increases costs.

The present invention was proposed in view of the problems of the prior art, and its purpose is to constantly drain water from a constant water level below the liquid level in conjunction with fluctuations in the water level on the long side of the tank. The object of the present invention is to provide a drainage device for an aquarium that is possible.

(Means for Solving the Problems) In order to achieve the above object, the drainage device for an aquarium according to the present invention includes a water intake hole on the outer periphery of the upper end of the drainage hole provided on the bottom surface or the lower part of the side wall of the aquarium. The lower end of a stretchable flexible water conduit is connected to the water pipe, and a float is mounted on the upper end surface of the water conduit.

(Function) Since the present invention is configured as described above, the float mounted on the upper end surface of the flexible water conduit floats on the liquid level in the water tank, so that when the water level is high, the im Even though the water pipe is elongated and the drainage is installed at the bottom of the water tank, or even at the bottom of the side wall, the liquid level in the water pipe is increased through the water intake hole provided on the outer periphery of the upper end of the flexible water pipe. Nearby water is taken in and the -L clear liquid portion is drained.

In addition, when water is forcibly drained using a pump, etc., the float also descends following the drop in the liquid level, causing the flexible water pipe described in 1111 to contract, causing the water intake hole on the outer periphery of the upper end of the water pipe to shrink. The water near the liquid level is taken in, and the IJI water is continued from the hole to the bottom 1r11 of the aquarium or to the hole provided at the lower part of the side wall.

(Example) The present invention will be described below with reference to the illustrated embodiments.

(1) is a water tank, an inflow pipe (2) is connected to the top thereof, and a drainage pipe (3) is provided at the bottom 11ii.

(4) is a flexible water conduit pipe that can be expanded and contracted, and is composed of a snake-shaped port or pipe, with a water intake hole (
5) is provided, and an inverted cylindrical piece (6) with an open bottom end is mounted on the side (2), and the inverted cylindrical piece (6)
A float (7) is attached to the top of the SIi, and the water pipe (4)
The F end of is connected to the water drain a (3).

In the illustrated embodiment, the water intake port (5) is located at the upper end of the water pipe (4).
) is connected to the cylindrical pipe (8), but the water intake port (5) may be directly drilled into the water conduit pipe (4).

Since the illustrated embodiment is configured as described above, the float (7) mounted on the upper end of the IQ-capable water conduit (4) floats on the liquid level in the water tank (1), and the same liquid The flexible water pipe (4) moves up and down following the changes in the surface, and the flexible water pipe (4) expands accordingly.
Ru.

When the water level is high, as shown in Figure 1, 77 children (7)
The flexible water conduit (4) expands as water perspires on the liquid surface in the upper part (water + fffl), and the water near the liquid surface reaches the water intake (
Water is taken into the water conduit (4) through the water conduit (4) through the water outlet (3).
) Even though the drainage hole (3) is located at the bottom of the water tank (1), is the supernatant still flowing? (One part is drained.

At this time, if buoyant suspended solids are mixed in, the inverted cylindrical piece (6) allows only clear water to be discharged without discharging the uppermost layer of water where floating suspended solids are present.

In addition, when the above-mentioned turbidity does not exist, as shown in Fig. 4,
The inverted cylindrical piece (6) is omitted.

Also, when forcibly draining water with a pump, etc., use il T-(7
) follows the liquid level and descends, the flexible water conduit (4) retracts, and water continues to flow from an arbitrary depth below the liquid level, eventually reaching the low level shown in Figure 2. reach the water level.

In the figure, (9) is the water tank (11 sediments/1 sludge).

(Effects of the Invention) According to the present invention, as described above, a telescopic flexible water conduit pipe connected to one well water [1] installed at the bottom or lower side wall of the aquarium is connected to the -1 By providing a water intake hole at 1Δ1 outside the 2nd end and installing a 7゛z element that floats on the liquid level in the tank on the upper end surface of the water conduit, the connection between the water intake hole in 117I and the liquid level in the tank is improved. By keeping the relative positional relationship constant, it is possible to always drain water from a constant water level below the liquid level in conjunction with fluctuations in the liquid level in the tank, and there is no place to receive overflow from the tank at the downstream stage of the tank, as in the past. This eliminates the need to install an aquarium, simplifies the configuration, reduces the installation area, and reduces costs.

[Brief explanation of the drawing]

FIGS. 1 and 2 are longitudinal sectional views showing an embodiment of the water tank drainage device according to the present invention at high water level and low water level, respectively, and FIG. 3 is the upper end of the IQ water conduit pipe. FIG. 4 is a longitudinal sectional view showing another embodiment of the flexible water conduit 1: end. (+1-・water tank, (2)-inflow pipe, (3) drain port, (4)-flexible water pipe, (5) water intake hole,
(7) - Float. Agent: Patent attorney Shige Okamoto (2 persons) Figure 1 Figure 2 Country 4 Ward 3

Claims (1)

[Claims] In the drain hole located at the bottom of the aquarium or at the bottom of the side wall,
A drainage device for an aquarium, characterized in that the lower end of a stretchable flexible water conduit having a water intake hole on the outer periphery of the upper end is connected in a watertight manner, and a float is mounted on the upper end surface of the water conduit.