JPS6277532A - Water supply tank - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a method for supplying water to a water supply tank for supplying water to a humidifier or the like.

[Conventional technology]

Figure 5 is a configuration diagram of a conventional water tank used to supply water to a humidifier. (1) is the water tank, (2) is the water pipe, and (3) is the water pipe connected to this water pipe. solenoid valve,(
4) is a water inlet that connects the water supply pipe (2) to the water tank (1), (5) is a float switch that turns on and off the solenoid valve (3), and (6) is a humidifier for water (8). (9) is a delivery pipe that supplies water to the water tank (7), and the other delivery pipe (6) is a delivery port that connects with the water tank.

Further, the structure of the humidifier (7) is shown in FIGS. 7 to 9. In these figures, the QO is a hollow porous member formed into a rectangular shape by overlapping porous sheets (b) and gluing or heat-sealing the ends, and there are hollow parts (10b) at both ends (10a).
A water supply port (2) and a drain port (toward) are provided which communicate with the water supply port (2). Q4 is a hollow porous member OO as shown in FIG.
This is a wavy spacer that is rolled up along with the spacer to form a ventilation path. 01 is a core member having a rectangular cross-sectional shape, and the hollow porous member αO and the wavy spacer α4 are wound around the core member Q6 to form a humidifier (7). be.

Next, the operation will be explained. A water supply tank used in a conventional humidifier or the like is constructed as described above, and the water to be humidified (8) is passed from the outlet (9) through the outlet pipe (6) to the humidifier (
7), and when the water level in the water tank (1) falls below the water surface level 1L/A, the float switch (5) closes, the solenoid valve (3) is energized, and water (8) is supplied to the water tank (1). 1) Water is supplied inside. Also, as shown in Figure 6, water (8)
is supplied into the water tank (1) and the water level is at horizontal level /L
When the temperature rises above zB, the float switch (5) is opened again and the solenoid valve (3) is deenergized. By repeating this operation, water (8) can always be supplied to the humidifier (7) at low water pressure.

[Problem that the invention seeks to solve]

In the conventional water tank as mentioned above, - times of solenoid valves (3
), the amount of water (8) supplied to the water tank (1) is determined when the water surface level of the water tank (1) changes from A to B.
Furthermore, generally, due to the generation of waves by the supplied water, the float switch (5) may open and the solenoid valve (3) may be turned off before reaching the water surface level /l/B. In this way, water (
8) is small, so the solenoid valve (3) will be turned on and off frequently, shortening the life of the solenoid valve (3).
Also, the cycle of sound produced when the solenoid valve (3) is activated is short,
There was a problem in that it increased discomfort.

This invention was made in order to solve the above-mentioned problems, and aims to provide a water tank that can supply water for many fish to the water tank with just one start and stop of a solenoid valve.

[Means for solving problems]

The water supply tank according to the present invention includes a water supply pipe to which a solenoid valve for controlling the amount of water supply is connected, a delivery pipe for discharging the supplied water, and a circuit that closes when the water surface level drops to a predetermined position. In a water supply tank provided with a float switch that opens when the solenoid valve rises to a predetermined position to control on/off of the solenoid valve, the water supply tank is partitioned into the water supply pipe side and the float switch side, and the float switch Above the water level where the circuit opens,
An outflow section is provided that flows out from the water supply pipe side to the float switch side, and a flow section is provided below the water surface level at which the float switch closes, the flow rate of which passes through it is smaller than the flow rate of water supplied from the water supply pipe. The above objective is achieved by constructing a water tank by arranging divided partition plates.

[Effect]

In this invention, when supplying water to the water tank,
Compared to the rising speed of the water level on the water supply pipe side, the rising speed on the float switch side is delayed because the flow rate of water passing through the partition plate and the flow section provided on the partition plate is smaller than the water supply flow rate supplied from the water supply pipe. The water level on the water supply pipe side rises first, and further flows into the float switch side from the outflow section provided above the water level at which the float switch opens. In this way, when the water level on the float switch side rises to a predetermined position, the float switch opens and the water supply is interrupted.

〔Example〕

FIG. 1 is a block diagram of a water supply tank showing an embodiment of the present invention, and FIG. 2 is a sectional view taken at 1-1 in FIG. 1. (1) to (9), 1, A, and B indicate parts that are completely the same as or equivalent to the above-mentioned conventional device.

all is a partition plate that separates the water supply pipe (2) (III) of the water supply tank (1) from the float switch (5) side, and the height of this partition plate is lower than the surrounding height of the water supply tank (1), and the float switch ( 5) is set higher than the water level B at which it opens, and furthermore, a flow section α is provided at the bottom of the partition plate 01, and in this embodiment, the flow section Q7) is a small hole. The flow section (b) is provided at a position lower than the water level at which the float switch (5) closes, and the flow rate of water passing from the water supply pipe (2) side to the float switch (5) (til+) is ) is set to be smaller than the water supply flow rate.

In the water tank (1) configured as above,
Water to be humidified is supplied from the outlet (9) through the outlet pipe (6) to the humidifier (7), and the horizontal level of the water supply tank (1) is lowered. At this time, a small hole αη is provided in the lower part of the partition plate αQ, and since the amount of water delivered per unit time to the humidifier (7) is small, the water supply pipe (2) (llllI) and the float switch (
When the water level on the 5) side decreases in the same way and becomes below A, the float switch (5) closes, the solenoid valve (3) is energized, and the water (8) flows into the water tank (1).
water is supplied inside. At this time, as shown in Fig. 8, it is partitioned by a partition plate αe, and this partition plate also has a distribution section Q? ), in this embodiment, a small hole is provided, but since the flow rate of water passing through this small hole is smaller than the flow rate of water supplied from the water supply pipe (2),
The water level on the water supply pipe (2) side rose quickly, and the partition plate αQ
Water (8) flows from the outflow part (to) of the float switch (5)
(When the flow reaches Flll, the float switch (5
) is opened, the solenoid valve (3) is deenergized and the water supply is stopped, and the water level on the water supply pipe (2) side and the float switch (5) side become equal, as shown in Fig. 4. By repeating this action, water is always kept at low pressure (8).
can be supplied to the humidifier (7). In this embodiment, the above-mentioned outflow section 0 barrel is formed by configuring the partition plate αQ to be higher on the outer side of the water tank (1). Here, divider plate a・
The flow section αη provided at The water surface level is almost the same as that of water, and on the other hand, like in the water supply, the flow part a
When a large amount of water is supplied compared to the passing water flow rate of η, the water level increases almost only on the water supply pipe (2) side, so the flow part αη is appropriate, and the prototype we made this time has a small hole with a diameter of 41 m. In the above description, the present invention has been described as a water supply tank for a humidifier, but it goes without saying that it can also be used for other water supply tanks.

Further, in the above embodiment, the outflow section (to) is constituted by the upper end of the partition plate αQ disposed lower than the height of the outer side of the water tank (1), but the float switch (5) A circular or rectangular through hole may be provided in the partition plate Q so as to be located above the water surface level where the water is opened. Alternatively, a similar effect can be obtained by providing a bypass pipe on the outside of the water tank (1) so that water can flow from the water supply pipe (2) side to the float switch (5) side. Similarly, the flow section αη is provided on the partition plate α, but it is designed so that water 411 can pass from the water supply pipe (2) side to the float switch (5) side on the outside or lower side of the water supply tank (1). A similar effect can be obtained by providing a bypass pipe.

〔Effect of the invention〕

As explained above, this invention includes a water supply pipe to which a solenoid valve for controlling the amount of water supply is connected, a delivery pipe for sending out the supplied water, and a circuit that closes when the water surface level drops to a predetermined position, and In a water supply tank provided with a float switch that opens when the solenoid valve rises to a predetermined position to control on/off of the solenoid valve, the water supply tank is partitioned into the water supply pipe side and the float switch side, and the float switch is provided. An outflow section is provided above the water surface level at which the circuit opens to the water supply pipe side and flows out from the water supply pipe side to the float switch side, and below the water surface level at which the float switch closes the circuit, an outflow section is provided that flows out from the water supply pipe side to the float switch side. Since the water supply tank is constructed by arranging a partition plate with a flow section smaller than the water flow tank, it is possible to supply a larger amount of water to the water supply tank than before by turning on and off the solenoid valve once. Now you can. Therefore, the number of operations of the float switch and solenoid valve is significantly reduced compared to the conventional method, and the service life of the float switch and solenoid valve is extended and reliability is improved. It was also possible to reduce the discomfort caused by the operating noise of the solenoid valve.

[Brief explanation of drawings]

Fig. 1 is a configuration diagram of a water supply tank showing an embodiment of the present invention, Fig. 2 is a sectional view of the cross section taken along I-1 in Fig. 1, taken in the direction of the arrow, and Figs. 8 and 4 are , sectional views of the water supply tank during water supply and after water supply, Figure 5 is a configuration diagram of a conventional water supply tank used for supplying water to a humidifier, Figure 6 is a sectional view of the water supply tank after water supply, and Figure 7 The figure is a block diagram of a humidifier using a hollow porous member, FIG. 8 is a developed view of the hollow porous member shown in FIG. 7, and FIG. 9 is a sectional view taken along FIG. 8 i1X-II. In these figures, (1) is the water tank, (3) is the solenoid valve, (2) is the water supply pipe, (6) is the delivery pipe, (5) is the float nut, (to) is the outflow part, and 011 is the Partition plate, aη
is the distribution department. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] A water supply pipe connected to a solenoid valve that controls the amount of water supplied, a delivery pipe for sending out the supplied water, and a circuit that closes when the water level drops to a predetermined position and when the water level rises to a predetermined position. In a water tank provided with a float switch that opens and controls the solenoid valve on and off, the water tank is partitioned into the water supply pipe side and the float switch side, and the float switch is placed above the water level at which the float switch opens. , a flow section that is provided with an outflow section that flows out from the water supply pipe side to the float switch side, and is located below the water surface level at which the float switch closes, and the flow rate of the water passing through the flow section is smaller than the flow rate of the water supplied from the water supply pipe. A water supply tank characterized by having a partition plate provided with.