JPH0435653B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a water tank device that supplies water to a humidifier or the like.

[Conventional technology]

Fig. 5 is a configuration diagram of a conventional water tank device used for supplying water to a humidifier. 1 is a water tank, 2 is a water pipe, 3 is a solenoid valve connected to this water pipe, and 4 is a block diagram of a conventional water tank device used to supply water to a humidifier. 5 is a float switch 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; 6 is a delivery pipe that supplies water 8 to the humidifier 7; 9 is the delivery pipe 6; is the outlet that connects to the water tank.

Further, the structure of the humidifier 7 is shown in FIGS. 7 to 9. In these figures, reference numeral 10 denotes a hollow porous member formed into a rectangular shape by overlapping porous sheets 11 and bonding or heat-sealing the ends, and a water supply port 12 communicating with the hollow part 10b is provided at both ends 10a. , drain port 13
is provided. 14 is a wavy spacer wound around the hollow porous member 10 to form a ventilation path, as shown in FIG. 15
is a core member having a rectangular cross-sectional shape, and the humidifier 7 is formed by wrapping the hollow porous member 10 and the wavy spacer 14 around the core member 15. .

Next, the operation will be explained. A conventional water tank device used for humidification, etc. is configured as described above, and the water 8 to be humidified is supplied from the outlet 9 to the humidifier 7 via the delivery pipe 6, and the water level in the water tank 1 is lowered. When the water surface level falls below A, the float switch 5 closes, the solenoid valve 3 is energized, and water 8 is supplied into the water supply tank 1. Further, as shown in FIG. 6, when water 8 is supplied into the water supply tank 1 and the water level becomes higher than the water surface level B, the float switch 5 is opened again and the solenoid valve 3 is deenergized. By repeating this operation, the humidifier 7 is constantly filled with water 8 at low water pressure.
can be supplied.

[Problem that the invention seeks to solve]

In the conventional water tank device as described above, when the solenoid valve 3 is turned on and off once, the amount of water 8 supplied to the water tank 1 increases as the water surface level of the water tank 1 rises from A to B. Furthermore, generally, the float switch 5 may open and the solenoid valve 3 may be turned off before the water surface level B is reached due to the generation of waves by the supplied water. In this way, one water tank can be
Since the amount of water 8 that can be supplied to the solenoid valve 3 is small, the solenoid valve 3 is turned on and off frequently, shortening the life of the solenoid valve 3 and shortening the cycle of the sound produced when the solenoid valve 3 operates. Thus, there was a problem of increased discomfort.

This invention was made to solve the above-mentioned problems.
The purpose of this invention is to obtain a water tank device that can supply a large amount of water to a water tank.

[Means for solving problems]

The water supply tank device according to the present invention includes a water supply tank in which water to be supplied is stored, a water supply pipe to which a solenoid valve for controlling the amount of water supplied to the water supply tank is connected, a delivery pipe for discharging the supplied water, and In a water tank device equipped with a float switch that closes when the water surface level falls to a predetermined position and opens when the water surface level rises to a predetermined position to control on/off of the solenoid valve, the water tank is An outflow portion that flows from the water supply pipe side to the float switch side is provided above the water surface level where the float switch opens and partitions the water supply pipe side and the float switch side,
The water supply tank device is configured by arranging a partition plate below the water surface level at which the float switch closes, and is provided with a passage portion through which the amount of water passing through is smaller than the flow rate of water supplied from the water supply pipe. It accomplishes its purpose.

[Effect]

In this invention, when water is supplied to the water supply tank, the flow rate of water passing through the partition plate and the flow section provided on the partition plate is adjusted to the rate at which the water level on the water supply pipe side rises. Since the water supply flow rate is smaller than the water supply flow rate, the rising speed is delayed, and the water level on the water supply pipe side rises first, and the water flows further into the float switch side from the outflow section provided above the water surface level at which the float switch opens. do. In this manner, 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 device showing one embodiment of the present invention, and FIG. 2 is a sectional view at the first - point. 1 to 9, A, and B indicate parts that are completely the same as or equivalent to the above-mentioned conventional device. 16 is a partition plate that separates the water supply pipe 2 side 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, but higher than the water level B at which the float switch 5 opens. hand,
Further, a flow section 17 is provided at the bottom of the partition plate 16, and in this embodiment, the flow section 17 is a small hole. The flow section 17 is provided at a position lower than the water level at which the float switch 5 closes, and is set so that the flow rate of water passing from the water supply pipe 2 side to the float switch 5 side is smaller than the water supply flow rate of the water supply pipe 2. be.

In the water tank 1 configured as described above, water to be humidified is supplied from the outlet 9 to the humidifier 7 via the delivery pipe 6, and the water level of the water tank 1 is lowered. At this time, a small hole 17 is formed at the bottom of the partition plate 16.
Moreover, since the amount of water sent to the humidifier 7 per unit time is small, the water level on the water supply pipe 2 side and the float switch 5 side decreases in the same way, and when the water level falls below A, the float switch 5 closes. Then, the solenoid valve 3 is energized, and water 8 is supplied into the water supply tank 1. At this time, as shown in FIG. 3, the partition plate 16 is used to partition the flow section 1.
7. 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 rises quickly, and the partition plate When the water 8 flows into the float switch 5 side from the outflow part 18 of 16, the float switch 5 opens, deenergizes the solenoid valve 3, and stops the water supply, and as shown in FIG. 4, the water supply pipe 2 side The water surface level on the float switch 5 side becomes equal. By repeating this operation, water 8 can be constantly supplied to the humidifier 7 at low water pressure. In this embodiment, the outflow portion 18 is formed by configuring the height of the partition plate 16 to be no higher than the outer side of the water tank 1. Here, the flow section 17 provided on the partition plate 16 is arranged so that the water supply pipe 2 side and the float switch 5 side are approximately separated from each other, as described above, for changes in the small amount of water 8 that is supplied to the humidifier 7. The water surface level is the same, and conversely, as in the water supply, the flow section 1
When a large amount of water is supplied compared to the flow rate of water passing through 7, the water level increases only on the water supply pipe 2 side.
The small hole was mm in size. In the above description, the present invention has been described as a water tank device for a humidifier, but it goes without saying that other types of water can also be used in water tank devices.

Furthermore, in the embodiment described above, the outflow section 18 is constituted by the upper end of the partition plate 16 which is disposed lower than the height of the outer part of the water tank 1; A circular or rectangular through hole may be provided in the partition plate 16 so as to be located at . 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 17 is provided on the partition plate 16, and the float switch 5 is connected to the outside or lower side of the water tank 1 from the water supply pipe 2 side.
A similar effect can be obtained by providing a bypass pipe on the side to allow water to pass through.

[Effects of the Invention] As explained above, 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 when the water surface level drops to a predetermined position. In a water tank device equipped with a float switch that is closed and opens when the water surface level rises to a predetermined position to control on/off of the solenoid valve, the water tank is connected to the water supply pipe side and the float switch side. An outflow section is provided above the water surface level at which the float switch opens, and an outflow section is provided for flowing from the water supply pipe side to the float switch side, and below the water surface level, at which the float switch closes, the amount of water passing through the outflow section is provided. Since the water supply tank device was constructed by arranging a partition plate with a flow section smaller than the flow rate of water supplied from the water supply pipe, 1
It is now possible to supply a larger amount of water to the water tank than before by turning the solenoid valve on and off at the same time. 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 also reduced the discomfort caused by the operating noise of the solenoid valve.

[Brief explanation of drawings]

FIG. 1 is a block diagram of a water supply tank device showing an embodiment of the present invention, FIG. 2 is a sectional view of the cross section at - in FIG.
The figures are cross-sectional views of the water supply tank device for water supply and after water supply, Figure 5 is a configuration diagram of a conventional water supply tank device used for water supply to a humidifier, and Figure 6 is a diagram of the water supply tank device after water supply. 7 is a configuration 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 in FIG. . In these figures, 1 is a water supply tank, 3 is a solenoid valve, 2 is a water supply pipe, 6 is a delivery pipe, 5 is a float switch, 18 is an outflow section, 16 is a partition plate, and 17 is a circulation section. In each figure, the same reference numerals indicate the same or corresponding parts.

Claims (1)

[Claims] 1. A water tank in which the water to be supplied is stored, a water supply pipe to which a solenoid valve is connected to control the amount of water supplied to this water tank, a delivery pipe to send out the supplied water, and a water level that lowers to a predetermined position. In a water tank device equipped with a float switch that closes when the water level rises to a predetermined level and opens when the water level rises to a predetermined level to control on/off of the solenoid valve, the inside of the water tank is connected to the water supply pipe side and the float switch. An outflow section is provided above the water surface level where the float switch opens the circuit, and which flows out from the water supply pipe side to the float switch side, and below the water surface level where the float switch closes the circuit. A water supply tank device comprising: a partition plate provided with a flow portion through which the flow rate of water passing through is smaller than the flow rate of water supplied from the water supply pipe.