KR100188050B1 - Distiller - Google Patents

Abstract

It is not limited to tap water, but any kind of raw water is used and the distilled water can be generated from the raw water.

When the suction pump 72 is driven by inserting the hose 74 through the opening 76 in the container 78 free of lifting, such as a polytank to put water, it is supplied into the boiler tank 20 of the water in the container 78. . This water is heated and boiled by the heater 36 in the boiler tank 20. The water vapor is cooled by the radiator 28, becomes distilled water, and is poured into the water storage tank 2. When the water supply switch is turned on, the water distilled water in the water storage tank 2 is sucked up by the water supply pump 8, and is discharged to the outside from the water supply port 62a.

Description

Distilled water

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

2 is an external view of the sterilization unit.

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

4 is an explanatory diagram showing another embodiment of the present invention.

* Explanation of symbols for main parts of the drawings

2: reservoir tank 4: casing

6: solenoid valve 8: feed water pump

10: Weighing 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: Hoose

38: hose 40: sterilization unit

42: case 44: reflector

46: UV lamp (sterilization lamp) 48: tube

50: tube 52: tube

54: Hoose 56: U magnetic tube

58: U-shaped tube 60: pipe

62: water supply pipe 64: connector

66: cooling fan 68: water level sensor

70: mounting base 72: boost pump

74: hose 76: opening

78: vessel 80: submersible pump

80a: motor drive part 80b: discharge part

80c: output pipe 82: container

84: cord 86: hoose

88: air hole 90: sensor

92: cord

The present invention relates to a distilled water tank in which water is heated and boiled to obtain distilled water as water vapor.

Distilled water which puts tap water into a boiler tank, turns this water into a boiling boiler in a boiler tank, and makes it steam, and distilled water which cools this steam and produces | generates distilled water is known conventionally.

When there is no water pipe in the vicinity or when it is difficult to obtain tap water easily in a dry season disaster, distilled water cannot be produced as a distilled water using tap water.

An object of the present invention is to solve the above problems by providing a distilled water group which does not select raw water.

In order to achieve the above object, the present invention heats and boils water in the boiler tank 20 to produce water vapor, and passes the water vapor through the radiator 28 to make distilled water, and stores the distilled water in the water storage tank 2. In the distilled water machine in which the distilled water in the water storage tank 2 is supplied to the rapid port 62a by the feed water pump 8, the hoses 74 and 86 that can be inserted into the containers 78 and 82 such as poly tanks. Is connected to the boiler tank 20 via a water supply passage, and the feed pumps 72 and 80 are connected to the hoses 74 and 86, and the feed pumps 72 and 80 are connected. It is to supply the water in the vessel (78, 82) into the boiler tank 20 by the driving of.

Embodiments of the present invention will be described below in detail with reference to the accompanying drawings.

Denoted at 2 is a water storage tank mounted on the mounting table 70, and the casing 4 is fitted to be detachably attached thereto. On the bottom plate of the casing 4, an electromagnetic valve 6, a water feed pump 8 and a metering unit sensor 10 are fixedly arranged. One of the solenoid valves 6 is connected to the connector 12 fixed to the casing 4 via a pipe, and the other of the solenoid valves 6 is connected to the pipes 14, 16 and the hose 18. Is connected to the boiler tank 20. The connector 12 is connected to the outlet of the boost pump 72 supported on the shelf plate in the mounting table 70 by opening a hose or pipe 22.

78 is a container made of a polytank which is free to carry, and is arrange | positioned so that it may be freely taken out or inserted in the mounting base 70. As shown in FIG. In the container 78, a hose 74 is inserted from the opening to the suction port of the boost pump 72.

The boiler tank 20 is supported on a measuring plate 24 connected to the measuring unit sensor 10, and a heater 26 is disposed inside the tank 20. Reference numeral 28 is a radiator made of a pipe bent in a coil shape, one side of which is connected to one side of the filter 30 for removing odor by opening a pipe, and the other side of the filter 30 is a pipe. (32) is opened and communicated with the water storage tank (2). The other side of the radiator 28 communicates with 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 the hose 38. 40 is a sterilization unit whose case 42 is supported in the casing 4 by an attachment hole (not shown). The case 42 is comprised as a cylindrical member, and the reflecting mirror 44 is formed in the inner surface. UV lamps (ultraviolet sterilization, etc.) 46 are disposed in the center of the case 42, and three colorless and transparent quartz tubes 48, 50, and 52 are arranged around the UV lamps 46.

The lower end of the pipe 48 is connected to the outlet of the feed water pump 8 via the hose 54. The upper end of the tube 48 is connected to the adjacent tube 50 via the U-shaped tube 58, the lower end of the tube 50 is connected to the lower end of the tube 52 via the U-shaped tube 58 have. The pipes (48, 50, 52) and the U-shaped pipes (56, 58) constitute a zigzag distilled water return path. And as shown in FIG. 3, you may arrange | position a spiral transparent pipe 48 'around the UV lamp 46, and may use it as a distilled water conveyance path | route.

The upper end of the pipe 52 is connected to one side of the connecting body 64 fixed to the upper plate of the casing 4 via the pipe 60. One side of the water supply pipe 62 is connected to the other side of the connecting body 64. Reference numeral 66 denotes a cooling fan disposed in the casing 4 and faces the radiator 28. Reference numeral 68 is a water level sensor. The casing 4 includes an electronic control unit (not shown) operated by a panel switch, and the cooling fan 66, the solenoid valve 6, the heater 26, the UV lamp 46, The feed water pump 8 and the feed pump 72 are configured to be controlled on and off. The water level sensor 68 and the metering unit sensor 10 are electrically connected to an input unit of the electronic control unit. The power source of the distilled water is used for home, but a portable commercial generator may be used for outdoor use.

Next, the effect | action of embodiment of this invention is demonstrated.

Raw water is supplied through the pipe 22, the solenoid valve 6, the pipes 14 and 16 and the hose 18 in the vessel 78 by driving the boost pump 72 under the control of the electronic control unit. Is fed into the boiler tank 20. When the water in the boiler tank 20 is filled and the boiler tank 20 reaches a predetermined weight, the electronic control unit drives the solenoid valve 6 based on a signal from the metering unit sensor 10, and the solenoid valve 6. To close it. At this time, the electronic control unit stops driving of the boost pump 72. From the output of the metering unit sensor 10, the battery control unit monitors the quantity of water in the boiler tank 20, and when this quantity is almost half reduced, the solenoid valve 6 is opened, and the squeezing pump 72 is driven to operate the vessel 78. The water inside is supplied into the boiler tank 20.

The water in the boiler tank 20 is heated by the heater 26. When water in the boiler tank 20 boils and becomes water vapor, this water vapor is supplied to the radiator 28 via the hose 36 and the pipe 34, and is cooled here to be distilled water.

This distilled water falls into the water storage tank 2 through the filter 30 and the pipe 32.

The number of distilled water in the storage tank 2 is detected by the water level sensor 68, and when the water level reaches the full water level, the water level sensor 68 outputs a detection signal to the electronic control unit. The electronic controller receives this signal, turns off the heater 26 and the cooling fan 66 and stops the distilled water generation operation.

The electronic control unit turns on the heater 26 and the cooling fan 66 when the water level in the water storage tank 2 decreases or reaches a predetermined circumference, and resumes the distilled water generation operation. When the water supply start switch (not shown) of the panel provided in the casing 4 is input, the UV lamp 46 lights up and the water supply pump 8 drives.

When the feed water pump 8 is driven, the distilled water in the water storage tank 2 is supplied to the hose 38, the feed water pump 8, the hose 54, the pipe 48, the U drain 56, the pipe 50, and the U magnetic pipe. It is supplied to the water supply pipe 62 via the 58, the pipe 52, the pipe 60, and the connection body 64, and is discharged | emitted 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. In the water supply, distilled water circulates around the UV lamp 46 in three zigzag shapes up and down along three tubes 48, 50, and 52, and sterilized by the UV lamp 46. This killing is performed immediately before the water supply of the fastener 62a, as is apparent from FIG. Therefore, even if bacteria in the air enter the distilled water in the reservoir tank 2, it is sterilized immediately before drinking.

When distilled water passes through the sterilization unit 40, the irradiation time of the UV lamp 46 is lengthened by circulating up and down around the UV lamp 46, so that the germicidal ratio is improved. When circulating, the mixture is stirred to increase sterilization efficiency. In addition, when the ultraviolet rays are reflected inside the unit 40 by the reflector 42, this also causes the sterilization efficiency to be increased. In addition, since the UV lamps 46 are disposed at the center of the unit, the UV lamps can be handled as one, which is economic. In addition, since the UV lamp 46 is not directly injected into the liquid, an improvement in hygiene and safety can be seen, and there is an advantage that the liquid does not smell and the UV lamp body is not dirty.

Next, another embodiment of the present invention will be described with reference to FIG.

(80) A water pump for feeding, which is a submersible pump, and is disposed at the bottom of a container 82 made of a polytank disposed in a casing 70. The motor driving unit 80a of the pump 80 is connected to an electronic control unit in the casing 4 with an electric cord 84 coated with a waterproof tube. One end of the flexible hose 86 is fitted and connected to the connection output pipe 80c formed in the discharge portion 80b of the submersible pump 80, and the other end of the hose 86 is connected to the connector 12. .

88 is an air hole, and is provided so that it may look in the peripheral wall of the vicinity of the connection part of the said output pipe 80c of the said hose 86. As shown in FIG. 90 is a bar-shaped water level sensor and is disposed in the container 82. The senter 90 is electrically connected to an input of the electronic control unit by placing an electric cord 92. The configuration of the distilled water generating unit installed on the upper portion of the casing 70 is the same as that of the embodiment shown in FIG. 1, the same number is given to the corresponding configuration, and the corresponding relationship is made clear, and the description thereof is omitted.

In the above-described configuration, tap water and the like are placed in the container 82 in advance by appropriate means. Under the control of the electronic control unit, the motor driving unit 80a of the submersible pump 80 is driven and passes through the hose 86, the solenoid valve 6, the pipes 14, 16 and the hose 18 from the container 82. Raw water is supplied into the boiler tank 20. The electronic controller monitors the signal from the water level detection sensor 90 and does not output a drive signal to the motor driver 80a of the pump 80 when a predetermined amount of raw water is not contained in the container 82.

For this reason, the submersible pump 80 can be prevented from idling.

The other operation is the same as that of the embodiment shown in FIG. The air hole 88 is for discharging the air inside the pump 80 into the container 82. Therefore, in the case where the pump 80 is set again after cleaning the container 82, the pump 80 The air is filled inside to prevent the operation of the pump 80 from becoming difficult. In this embodiment, since the submersible pump is arrange | positioned inside a container, there exists an advantage that the sound of a boost pump becomes quiet compared with the structure of 1st Embodiment arrange | positioned outside of a container.

Since this invention is comprised as mentioned above, even if it is not near a water pipe, it can arrange | position in arbitrary positions. In addition, it is possible to use rainwater by putting rainwater in a container when water is gone. In the event of a disaster, river water and well water can be used, and the use of a generator can be used outdoors.

Claims (5)

Water is boiled in the boiler tank 20 to produce water vapor, and this water vapor is passed through the radiator 28 to form distilled water, and the distilled water is poured into the storage tank 2 so as to be discharged into the water storage tank 2. In a distilled water machine in which distilled water is supplied to the rapid port 62a by the feed water pump 8, the hoses 74 and 86 which can be inserted into the vessels 78 and 82, such as poly tanks, are supplied to the boiler tank 20. The feed pumps 72 and 80 are connected to the hoses 74 and 86, and the water in the vessels 78 and 82 is driven by the feed pumps 72 and 80. Distilled water characterized in that the supply to the boiler tank (20). Water is boiled in the boiler tank 20 to generate steam, and the steam is passed through a radiator 28 to form distilled water, and the distilled water is poured into the water storage tank 2 and the water in the water storage tank 2 In a distilled water machine in which distilled water is supplied to the quick port 62a by the feed water pump 8, the discharge side is connected to the boiler tank 20 via a water supply path, and a hose 74 is connected to the suction side. A feed pump 72 is provided, and the hose 74 is inserted into a container such as a poly tank filled with water, and the water in the container is supplied into the boiler tank 20 by driving the feed pump 72. Distilled water characterized in that the. Water is boiled in the boiler tank 20 to generate steam, and the steam is passed through a radiator 28 to produce distilled water, and the distilled water is poured into the water storage tank 2 so as to be discharged into the water storage tank 2. In a distilled water machine in which distilled water is supplied to the rapid port 62a by the feed water pump 8, a hose 86 is connected to the discharge side of the submersible pump 80, and the hose 86 is connected to the boiler tank 20. And a water supply passage through the water supply passage, and supplies water in the vessel (82) to the boiler tank (20) by driving the submersible pump (80). The distilled water according to claim 3, wherein an air hole (88) is provided near the discharge side of the submersible pump (80) for discharging air in the submersible pump (80) to the outside. The distilled water according to claim 3, wherein a water level detection sensor (90) for detecting a water level in the container (82) is disposed in the container (82).