JPH0929230A - Water distiller - Google Patents

Abstract

PROBLEM TO BE SOLVED: To produce clean distilled water by sterilizing distilled water efficiently. SOLUTION: City water is supplied into a boiler tank 20 and boiled by a heater 26. Steam is cooled by a radiator 28, and the distilled water is stored in a water storage tank 2. By turning on a water supply switch, the distilled water in the storage tank 2 is pumped up by a pump 8 to be discharged outside from a water supply port 62a. The distilled water pumped up by the pump 8 is sterilized by a UV lamp 46 during passage through a transparent tube.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a distilled water apparatus in which water is heated and boiled to obtain distilled water as steam.

[0002]

2. Description of the Related Art Distilled water tanks having various structures are known in the art, in which water is put in a boiler tank, the water is heated and boiled in the boiler tank to form steam, and the steam is cooled to produce distilled water. Has been. When sterilizing the distilled water produced in this distilled water device using a sterilizing lamp, a method of putting a sterilizing lamp in a container of distilled water and sterilizing the distilled water is used.

[0003]

When the method of sterilizing distilled water by putting a sterilizing lamp in the container is adopted, there is a problem that ozone odor generated from the sterilizing lamp is generated in the distilled water. In addition, when a germicidal lamp is put in the liquid, there is a problem that the life of the germicidal lamp is shortened. An object of the present invention is to solve the above problems.

[0004]

In order to achieve the above object, the present invention supplies water to a boiler tank (20) and heats and boils the water in the boiler tank (20) to generate steam. Water vapor is passed through a radiator (28) to be distilled water, the distilled water is stored in a water storage tank (2), and the distilled water in the water storage tank (2) is fed to a water supply port (62a) by a water supply pump (8). In the distilled water supply device, a distilled water transport path between the water feed pump (8) and the water feed port (62a) is composed of a light transmitting body, and a germicidal lamp ( 46) are arranged opposite to each other, and the distilled water is sterilized by the sterilizing lamp (46).

[0005]

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings. Reference numeral 2 denotes a water storage tank, on which a casing 4 is removably fitted and mounted. On the bottom plate of the casing 4, an electromagnetic valve 6, a water supply pump 8 and a measuring unit sensor 10 are fixedly arranged. One side of the solenoid valve 6 is connected to a connector 12 fixed to the casing 4 via a pipe, and the other side of the solenoid valve 6 is connected to the boiler tank 2 via pipes 14 and 16 and a hose 18.
It communicates with 0. The connector 12 is connected to a tap of a water supply through a hose or a pipe 22.

The boiler tank 20 includes a measuring unit sensor 1
A heater 26 is supported inside the tank 20 and is supported on a weighing plate 24 connected to 0. Reference numeral 28 denotes a radiator formed of a pipe bent in a coil shape, one side of which is connected to one side of a filter 30 for removing odor through the pipe, and the other side of the filter 30 stores water through a pipe 32. It is connected in the tank 2. The other side of the radiator 28 connects a pipe to the boiler 20 via a pipe 34 and a hose 36.

The water supply port of the water supply pump 8 communicates with the lower portion of the water storage tank 2 via a hose 38. 40 is a sterilization unit, and its case 42 is a fixture (not shown)
It is supported in the casing 4 by. Case 42
Is composed of a cylindrical member, and a reflecting mirror 44 is formed on the inner surface thereof. A UV lamp (ultraviolet germicidal lamp) 46 is arranged in the center of the case 42.
Three colorless and transparent quartz tubes 48, 50, 52 are arranged around the.

The lower end of the pipe 48 is connected to the discharge port of the water supply pump 8 via a hose 54. The upper end of the pipe 48 is connected to the adjacent pipe 50 via a U-shaped pipe 56, and the lower end of the pipe 50 is connected to the lower end of the pipe 52 via a U-shaped pipe 58.
The pipes 48, 50 and 52 and the U-shaped pipes 56 and 58 form a zigzag-shaped distilled water transport path. As shown in FIG. 3, a spiral transparent tube 48 'may be arranged around the UV lamp 46 to serve as a distilled water transport path.

The upper end of the pipe 52 is connected via a pipe 60 to one side of a connector 64 fixed to the upper plate of the casing 4. One of the water supply pipes 62 is connected to the other side of the connection body 64. Reference numeral 66 denotes a cooling fan arranged in the casing 4, and the radiator 28
Facing. 68 is a water level sensor. An electronic control unit (not shown) operated by a panel switch is built in the casing 4, and the control unit controls the cooling fan 66, the electromagnetic valve 6, the heater 26, the UV lamp 46, and the like.
The water supply pump 8 is configured to be on / off controlled. The water level sensor 68 and the measuring section sensor 10 are electrically connected to the input section of the electronic control section.

Next, the operation of the embodiment of the present invention will be described. Tap water is supplied into the boiler tank 20 from the tap of the tap water through the pipe 22, the solenoid valve 6, the pipes 14 and 16 and the hose 18. When the water in the boiler tank 20 becomes full and the boiler tank 20 reaches a predetermined weight, the electronic control unit drives the solenoid valve 6 based on the signal from the measuring unit sensor 10 to close the solenoid valve 6. From the output of the metering unit sensor 10, the electronic control unit monitors the amount of water in the boiler tank 20, and when the amount of water is approximately halved or when the water level reaches a predetermined level, the electromagnetic valve 6 is opened to bring tap water into the boiler tank 20. Supply.

The tap water in the boiler tank 20 is supplied to the heater 2
6 heated. When the water in the boiler tank 20 boils and becomes steam, this steam is supplied to the radiator 28 via the hose 36 and the pipe 34, where it is cooled and becomes distilled water. The distilled water drops into the water storage tank 2 through the filter 30 and the pipe 32. Water tank 2
The water level of the distilled water inside is detected by a water level sensor 68,
When the water level is reached, the water level sensor 68 outputs an output signal to the electronic control unit. In response to this signal, the electronic control unit turns off the heater 26 and the cooling fan 66 and stops the distilled water generating operation.

When the water level in the water storage tank 2 is halved or when the water level reaches a predetermined level, the electronic control unit turns on the heater 26 and the cooling fan 66 to restart the distilled water producing operation. When a water supply start switch (not shown) of a panel provided on the casing 4 is turned on, the UV lamp 46 is turned on and the water supply pump 8 is driven. When the water supply pump 8 is driven, the distilled water in the water storage tank 2 is moved to the hose 3
8, water supply pump 8, hose 54, pipe 48, U-shaped pipe 56,
Pipe 50, U-shaped pipe 58, pipe 52, pipe 60, connection body 64
After that, the water is supplied to the water supply pipe 62 and discharged from the water supply port 62a to the outside.

When the water supply switch is turned off, the water supply pump 8 is stopped and the UV lamp 46 is also turned off. At the time of water supply, distilled water is distributed around the UV lamp 46 by three tubes 4
It circulates in a zigzag pattern three times along the upper, lower, upper and lower sides along 8, 50 and 52, and is sterilized by the UV lamp 46. This sterilization is
As is clear from FIG. 1, it is performed immediately before the water supply to the water supply port 62a. Therefore, even if any bacteria in the air enter the distilled water in the water storage tank 2, they will be sterilized immediately before drinking.

When the distilled water passes through the sterilization unit 40, it circulates up and down around the UV lamp 46, so that the irradiation time of the UV lamp 46 becomes longer and the ratio of bacteria is improved. In addition, the water is agitated during the zigzag circulation, and the sterilization efficiency is increased. In addition, the reflecting mirror 42 allows the unit 4 to emit ultraviolet light.
It is reflected to the inside of 0, which also causes an increase in sterilization efficiency. Further, since the UV lamp 46 is arranged at the center of the unit, only one UV lamp is required, which is economical. Also,
Since the UV lamp 46 is not directly put in the liquid, hygiene and safety are improved, the liquid has no odor, and the UV lamp body is not contaminated.

[0015]

Since the present invention is configured to sterilize immediately before water supply as described above, even if any bacteria in the air enter the distilled water in the water storage tank, they can be sterilized immediately before drinking. Also,
Ozone odor generated from germicidal lamps is reduced. Further, there is an effect that the life of the germicidal lamp can be extended.

[Brief description of drawings]

FIG. 1 is an explanatory diagram showing the internal structure of the entire distilled water apparatus of the present invention.

FIG. 2 is an external view of a sterilization unit.

FIG. 3 is an explanatory view showing another embodiment of the sterilization unit.

[Explanation of symbols]

 2 Water storage tank 4 Casing 6 Solenoid valve 8 Water supply pump 10 Measuring part sensor 12 Connector 14 Pipe 16 Pipe 18 Hose 20 Boiler tank 22 Pipe 24 Measuring plate 26 Heater 28 Radiator 30 Filter 32 Pipe 34 Pipe 36 Hose 38 Hose 40 Sterilization unit 42 Case 44 Reflector 46 UV Lamp (Sterilizing Lamp) 48 Tube 50 Tube 52 Tube 54 Hose 56 U-Shaped Tube 58 U-Shaped Tube 60 Pipe 62 Water Supply Pipe 64 Connection Body 66 Cooling Fan 68 Water Level Sensor

Claims (5)

[Claims] 1. Water is supplied to a boiler tank (20), the water is heated and boiled in the boiler tank (20) to generate steam, and the steam is passed through a radiator (28) to be distilled water, In the distilled water device, the distilled water is stored in the water storage tank (2), and the distilled water in the water storage tank (2) is supplied to the water supply port (62a) by the water supply pump (8). ) And the water supply port (62a) are composed of a light-transmitting body, and a sterilizing lamp (46) is arranged opposite to the light-transmitting portion of the distilled-water conveying path, and by the sterilizing lamp (46), A distilled water device characterized in that the distilled water is sterilized. 2. The germicidal lamp (4) in the distilled water transport path.
6) A tube (4) made of transparent quartz glass at the part facing
8) The distilled water dispenser according to claim 1, which is configured by (50) (52). 3. The distilled water dispenser according to claim 1, wherein the germicidal lamp (46) is turned on only when the distilled water for driving the water feed pump (8) is supplied. 4. Water is supplied to a boiler tank (20), tap water is heated and boiled in the boiler tank (20) to generate steam, and the steam is passed through a radiator (28) to be distilled water, The distilled water is stored in a water storage tank (2), and the distilled water in the water storage tank (2) is supplied to a water supply port (62a) by a water supply pump (8). 8) and a water supply port (62a) between the distilled water transport path is provided with a sterilization unit (40), the sterilization unit (40) with one UV lamp (46),
Transparent tubes (48) (50) (5) arranged in a zigzag or spiral shape around the UV lamp (46)
2) and the distilled water is circulated around the UV lamp (46) along the tubes (48) (50) (52) in a zigzag or spiral shape. A distilled water bottle. 5. The boiler tank (2) is connected to a water pipe via a tap water supply passage.
The distilled water dispenser according to claim 1, wherein when the tap water in 0) reaches a predetermined amount, the tap water supply path to the boiler tank (20) of the tap water is cut off.