KR100557239B1 - Dual water-generating apparatus - Google Patents

Abstract

The present invention relates to a dual drinking water generating device, a general casing 10, a fan 77 for introducing the humidity of the air into the casing 10, and the air introduced by the fan 77 Drinking water including an evaporator 75 which passes and condenses, a condenser 73 connected to the evaporator 75, and a compressor 71 for compressing the refrigerant provided to the evaporator 75 and the condenser 73. The condensing system 70 is installed in the lower part of the evaporator 75, and is installed in a normal collecting tank 50 for collecting drinking water that is condensed and dropped on the surface of the evaporator 75, and the upper part of the collecting tank 50. In the drinking water generating device is provided with sterilization means for sterilizing drinking water collected by the collecting tank 50 and the water purification system 40 and the microcomputer 100 for controlling the operation of the components, the collecting tank 50 To store the purified water while passing through the water purification system (40) Water tank 20; The drinking water collected in the collection tank 50 is installed on the water supply pipe 58 extending from the collection tank 50 to the drinking water tank 20 and passing through the water purification system 40. Feed water pump (65) for passing through to reach the drinking water tank (20); A hot water device 30 and a cold water device 35 for heating or cooling the water from the drinking water tank 20 to the outside; A drinking water supply pipe 57 connected to one side of the collecting tank 50 and supplying drinking water from an external drinking water supply source to the collecting tank 50, and a drinking water supply valve 56 that opens and closes the drinking water supply pipe 57. It characterized in that it comprises a; auxiliary drinking water supply means having a.

As a result, when it is difficult to condense moisture in the air, efficiency can be improved by supplying water from the outside to be used as drinking water. In addition, by coating the surface of the evaporator moisture condensation with a material harmless to the human body, it is possible to improve the safety of drinking water.

Description

Dual Drinking Water Generator {DUAL WATER-GENERATING APPARATUS}

1 is an external perspective view of a double drinking water generating device according to the present invention,

Figure 2 is a front sectional view of the dual drinking water generating device of Figure 1,

3 is a side cross-sectional view of the dual drinking water generating device of FIG.

4 is a control circuit diagram including a microcomputer for controlling the dual drinking water generation device of FIG.

FIG. 5 is a diagram illustrating a drinking water generation process of the dual drinking water generating device of FIG. 1.

* Explanation of symbols for the main parts of the drawings

10 casing 11: first chamber

12: 2nd room 13: 3rd room

14: 4th room 20: drinking water tank

21, 53: water level sensor 30: hot water device

35: cold water device 40: water purification system

50: collecting tank 60: UV lamp

70: drinking water condensation system 71: compressor

73 condenser 75 evaporator

77: fan 100: micom

The present invention relates to a dual drinking water generating device, and more specifically, to condensate and sterilize and purify the water in the air to produce drinking water, when the condensation of moisture is not smooth, it is possible to use the normal drinking water to be purified In addition, the present invention relates to a dual drinking water generating device which can improve the safety of drinking water by coating an evaporator in which moisture condenses.

In general, air contains a lot of moisture in the form of water vapor, and the moisture contained in the air is expressed in terms of humidity, and the amount of water contained in a completely saturated air at a given temperature and the moisture at the same temperature in a given air. Compare relative quantities and use relative humidity in percent (%).

Moisture contained in the air condenses when it encounters a relatively low temperature object and is formed into water. When the air comes into contact with a relatively low temperature object and the temperature decreases, the moisture changes to a saturated state and saturated water condenses. This is what happens.

When the humidity is high, the human body may feel uncomfortable, and in the related art, a dehumidifier for removing moisture in the air has been developed and used. The dehumidifier is composed of a compressor for compressing a refrigerant, a condenser for condensing the compressed refrigerant, and an evaporator for evaporating and cooling the condensed refrigerant. As the air passes through the evaporator, the moisture in the air condenses on the evaporator, and the dehumidified air warms through the condenser before it leaves the dehumidifier and is then discharged back into the air. When the water condensed in the evaporator is cooled in this way, the temperature of the evaporator is instantaneously raised to drop and collect the condensed water.

On the other hand, as the industrialization is greatly progressed, due to the various wastewater and living sewage of industrial districts developed along rivers, it is difficult to purify necessary living water with current physicochemical water purification facilities. Heavy metals or chemicals that are not removed from the waste are supplied to household water as is. This fact can be estimated from the TDS (Total Dissolved Material) value, which is the amount of substances dissolved in water. Of course, the substances in these TDS levels may or may not be harmful to the body. However, the TDS level of US tap water is around 70-300, the tap water in some parts of Europe reaches 500, and the middle part of 5,000 in the Middle East. The higher the TDS, the more likely it is that more harmful substances are added. It can be seen as high.

Therefore, lowering the TDS level theoretically eliminates the remaining components in the water, thus reducing the potential for water contamination. Accordingly, various water purifiers are commercially available, and the reverse osmosis type water purifiers may lower the TDS value to 10 or less. However, the reverse osmosis water purifier has a problem in that 4 liters of water must be discarded to obtain 1 liter of purified water. In addition, almost all of the water purifiers including the reverse osmosis water purifier are expensive, and it is not known whether the water can be purified to a desired level. It is nearing the point of drinking.

Thus, a water generating apparatus has been proposed in which water collected in the air can be used as drinking water by applying a function of a conventional dehumidifier, taking into consideration that water in the air is clean and pure. The water generating device is a device for generating drinking water with water in the air. The water generating device is a method of providing a drinking water by treating the condensed water generated in the dehumidifier by simply combining the existing dehumidifier structure and the water purifier structure.

The conventional water generator is a simple water purifier means including a water tank and a filtration filter in a dehumidifier structure including a compressor, a heat exchanger, and a condenser, as shown in the registered utility model No. 20-152006, "Water generation apparatus using atmospheric moisture." To produce water. However, in order to condense moisture in the air, it is effective that the temperature of the air differs from the temperature of the heat exchanger by 10 ° C or more. Because of the difficulty, the system is very inefficient.

In addition, various contaminants are mixed when the contaminated air is condensed as it is, and since the evaporator is generally made of copper pipe, the use of the water condensed in the evaporator directly as drinking water has a problem that heavy metals may be introduced. . That is, there is a big problem that the generated water cannot guarantee the safety as drinking water.

Therefore, alternative methods should be devised to be used as drinking water even when it is difficult to condense moisture in the air, and to find a way to improve the safety of the condensed water so that the condensed water in the evaporator can be used as drinking water. Should.

Accordingly, it is an object of the present invention to provide a double drinking water generation device that can be used as drinking water by supplying water from the outside when it is difficult to condense moisture in the air.

Another object of the present invention is to provide a dual drinking water generating device that can improve the stability of drinking water by coating the surface of the evaporator, the moisture condensation, with a harmless material.

The object is, according to the present invention, a conventional casing 10, a fan 77 for introducing air having humidity into the casing 10, and the air introduced by the fan 77 passes through and condenses. Drinking water condensation system comprising an evaporator 75, a condenser 73 connected to the evaporator 75, and a compressor 71 for compressing the refrigerant provided to the evaporator 75 and the condenser 73 ( 70) is installed in the lower portion of the evaporator 75, the conventional collecting tank 50 for collecting drinking water that is condensed and dropped on the surface of the evaporator 75, the collecting tank 50 is installed above the collecting tank 50 In the drinking water generating device is provided with sterilization means for sterilizing drinking water collected by 50 and the water purification system 40 and the microcomputer 100 for controlling the operation of the components, the water purification system from the collection tank (50) Drinking water tank 20 for storing purified water while passing through 40; The drinking water collected in the collection tank 50 is installed on the water supply pipe 58 extending from the collection tank 50 to the drinking water tank 20 and passing through the water purification system 40. Feed water pump (65) for passing through to reach the drinking water tank (20); A hot water device 30 and a cold water device 35 for heating or cooling the water from the drinking water tank 20 to the outside; A drinking water supply pipe 57 connected to one side of the collecting tank 50 and supplying drinking water from an external drinking water supply source to the collecting tank 50, and a drinking water supply valve 56 that opens and closes the drinking water supply pipe 57. Auxiliary drinking water supply means having a; is achieved by a dual drinking water generating device comprising a.

Here, the evaporator 75 is preferably coated on the outer surface of Teflon, which is a material harmless to the human body.

A connector 59 for dividing the water supply pipe 58 is installed in one region of the water supply pipe 58 between the water purification system 40 and the drinking water tank 20; The casing 10 may be separated up and down on the basis of the region in which the connector 59 is mounted.

The water purification system 40 is formed of a non-woven fabric, the first filtration filter 41 for removing foreign matter in the drinking water, and the first carbon filter 42 formed of carbon to remove chlorine, taste, smell, etc. in the drinking water. And, to filter and remove the fine material in the drinking water to remove the second filtration filter 43 formed of a PE filter, the remaining chlorine and odor not adsorbed in the first carbon filter 42 to improve the taste of drinking water It is preferred to include a second carbon filter 44 for.

The sterilization means is formed of a UV lamp, the drinking water dropped from the evaporator 75 is sterilized while passing through the irradiation space of the UV lamp is preferably accommodated in the collecting tank (50).

Water collection sensor (53, 21) for detecting the water level is installed in the collection tank (50) and the drinking water tank (20), respectively; The microcomputer 100, when the water level of the collection tank 50 is determined to be a predetermined level or more by the water level detection sensor 53 installed in the collection tank 50, the water supply pump 65 operates the collection tank 50 The drinking water condensation system 70 is provided to the drinking water tank 20, and when the level of the drinking water tank 20 is determined to be higher than or equal to a predetermined level by the water level sensor 21 installed in the drinking water tank 20. ) Can be disabled.

The hot water device 30, the hot water tank 33 for temporarily receiving the drinking water from the collecting tank 50, and the heater 31 is installed on one side of the hot water tank 33 to heat the drinking water It may include.

The cold water device 35 includes a cold water tank 38 that temporarily receives drinking water from the collecting tank 50, a cold water compressor 36 for cooling water stored in the cold water tank 38, and cold water. Condenser, cold water evaporator.

An air temperature sensor for measuring the temperature of the outside air, and an evaporator temperature sensor for measuring the temperature of the evaporator 75; The microcomputer 100 opens the drinking water supply valve 56 by opening the drinking water supply valve 50 from the outside when the difference between the outside air temperature and the evaporator temperature measured by the outside air temperature sensor and the evaporator temperature sensor is 10 ° C. or less. It is preferable to supply drinking water and to stop the operation of the drinking water condensation system (70).

One side of the casing 10 is provided with a separate dual selection button for selecting the opening of the drinking water supply valve 56, the microcomputer 100, when the dual selection button is selected, the drinking water supply valve 56 ) To supply drinking water from the outside to the collection tank 50, it is preferable to stop the operation of the drinking water condensation system (70).

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

This double drinking water growth value, by receiving water from the outside in a condition that is difficult to produce drinking water to supply purified water, so that it is possible to always supply the drinking water to the user to improve the efficiency, condensation of water evaporator (75) By coating the surface of the surface with a harmless substance such as Teflon, it is possible to improve the drinking safety of drinking water.

1 is an external perspective view of a dual drinking water generating device according to the present invention, Figure 2 is a front cross-sectional view of the dual drinking water generating device of Figure 1, Figure 3 is a side cross-sectional view of the dual drinking water generating device of FIG.

As shown in FIG. 1, the double drinking water growth value is formed as a rectangular ordinary casing 10, and the side of the casing 10 cools a device mounted inside the casing 10, and the casing ( 10 is provided with a discharge net (18b) formed with a plurality of balls for the discharge of air introduced from the rear of the 10, a plurality of balls are formed at the rear of the casing 10 for introducing air into the casing (10) A filter 18a for filtering primary air pollutants is provided. The front of the casing 10 is equipped with a hot water supply knob 17 and a cold water supply knob 19 for supplying hot water and cold water. A drain tank 15 is formed below the hot water supply knob 17 and the cold water supply knob 19 for collecting and discharging the dropped water, and a drain plate for seating the cup on the upper part of the drain tank 15. (16) is mounted.

On the other hand, the casing 10 can be separated up and down on the basis of the upper portion of the drain tank 15, according to the separation of the casing 10, various devices mounted in the casing 10 is also detachably installed to generate a double drinking water When transporting the device can be separated and transported in two parts, the transport becomes simple.

Inside the casing 10, as shown in Figs. 2 and 3, divided into four stages from the top to the bottom, the first chamber 11, each of the partitioned room from the top to the bottom, respectively, The 2nd chamber 12, the 3rd chamber 13, and the 4th chamber 14 are called. First, the third chamber 13 and the fourth chamber 14 are equipped with a drinking water condensation system 70 for condensing moisture in the air to generate drinking water. The drinking water condensation system 70 is a compressor 71 installed at the rear of the fourth chamber 14 to compress the refrigerant, and a condenser installed at the third chamber 13 to condense the refrigerant compressed from the compressor 71. 73 and an evaporator 75 installed side by side behind the condenser 73 to evaporate and cool the refrigerant condensed in the condenser 73. And the filter 18a mentioned above is provided in the back of the evaporator 75, and the fan 77 is provided in front of the condenser 73. As shown in FIG. Accordingly, when the compressor 71 and the fan 77 operate, the temperature of the evaporator 75 is lowered, air is introduced through the filter 18a, and the air reaching the evaporator 75 is evaporator 75. Air condensed on the surface of the air and the temperature is raised while passing through the condenser 73 is discharged to the outside through the discharge network (18b).

Cooled air flows through the evaporator 75 to the surface of the condenser 73 to effectively dissipate heat generated by the condenser, thereby making the operation of the condenser more smoothly. In addition, it is possible to prevent the fluctuation of the outside air temperature by increasing the temperature of the air while passing through the condenser 73.

Unlike the general evaporator 75, the evaporator 75 of the drinking water condensation system is not equipped with a cooling fin, and is formed in a pipe shape arranged in a zigzag direction only in the vertical direction. And the surface of the evaporator 75 is coated with Teflon, which is harmless to the human body, and can prevent contaminants such as heavy metals from entering the moisture condensed on the evaporator 75 by condensation on the evaporator 75, as well as condensation. When the melted water melts, the Teflon's adhesiveness is low, so that it can promote the drop of water, thereby shortening the catching time. In addition, Teflon has a flame resistance and good mechanical strength, thereby extending the life of the device. Here, Teflon is used, but it is harmless to the human body, can promote the fall of moisture, and of course, it can be replaced with other chemicals having good flame resistance or mechanical strength.

Meanwhile, a water collecting plate 66 and a water collecting pipe 67 for collecting drinking water dropped from the evaporator 75 are mounted to the lower portion of the evaporator 75, and the water collecting pipe 67 and the fourth chamber 14 are installed. The collection tank 50 which is connected and collects drinking water dropped from the evaporator 75 is provided. A water level sensor 53 is provided in the water collection tank 50 to measure the water level in the water collection tank 50. The water level sensor 53 is a floater 52 which moves up and down in accordance with the water level. And a sensor unit 51 installed adjacent to the ceiling surface of the collecting tank 50 and generating an electronic signal upon contact with the plotter 52. The plotter 52 is equipped with a magnetic material, and the magnetic body is a sensor unit. Contact with 51 generates a signal.

The upper portion of the collecting tank 50 is equipped with a UV lamp 60 for sterilizing drinking water flowing into the collecting tank 50. UV lamp 60 is accommodated in a sealed transparent container, the sterilization chamber is formed on the outside of the transparent container to flow along the circumference of the UV lamp 60 is guided drinking water passing through the collecting pipe (67). Accordingly, the drinking water introduced into the sterilization chamber is sterilized by being exposed to UV with sufficient time while flowing along the outside of the UV lamp 60 and then received in the collecting tank 50.

On the other hand, the side of the collecting tank 50 is formed with an auxiliary pipe (55) protruding outward through the lower side of the casing (10), the end of the auxiliary pipe (55) from the external drinking water supply to the collecting tank ( A drinking water supply pipe 57 for supplying drinking water to 50 is mounted, and the auxiliary pipe 55 is equipped with a drinking water supply valve 56 for controlling inflow of water supplied from the drinking water supply pipe 57. The drinking water supply pipe 57 is a device for supplying drinking water as a suboptimal solution when it is difficult to condense water because the temperature of the air and the temperature of the evaporator 75 do not differ by more than 10 ° C. In front of the (10) is formed a dual selection button (not shown) to select the supply of drinking water to the drinking water supply pipe (57). The drinking water supply pipe 57 may be mounted and detached according to a user's selection, and may connect other pipes connected to rainwater or a separate tank instead of the drinking water supply pipe 57.

On the other hand, in front of the third chamber 13, the water purification system 40 for water purification of the water contained in the collection tank 50 is installed, the drinking water purified by the water purification system 40 in the first chamber (11) The drinking water tank 20 accommodated is provided. Thus, in order to supply the water contained in the collecting tank 50 of the fourth chamber 14 to the drinking water tank 20 through the water purification system 40, a water supply pump 65 is installed in the fourth chamber 14. , The water supply pump 65 is installed on the water supply pipe 58 extending from the collection tank 50 to the drinking water tank 20 via the water purification system 40. In addition, a connector 59 is installed on the water supply pipe 58 so as to connect or disconnect the water supply pipe 58 between the water purification system 40 and the drinking water tank 20. The connector 59 is installed at both ends of the water supply pipe 58 separation region, and the ends of the connector 59 are blocked to prevent leakage of drinking water. Since the connector 59 is widely used, a description of the specific structure will be omitted in this detailed description. As the water supply pipe 58 is separated by the connector 59 as described above, the casing 10 and the internal devices can be separated up and down based on the casing 10.

The water purification system 40 is formed of a nonwoven fabric and formed of carbon to adsorb and remove chlorine, taste, odors, etc., in the first filtration filter 41 for removing foreign matter of 5 mm or more, such as rust or suspended matter. The first carbon filter 42, the second filtration filter 43 formed of a PE filter to filter and remove the fine material in the drinking water, and the remaining chlorine and odor not adsorbed in the first carbon filter 42 is removed And a second carbon filter 44 for improving the taste of the drinking water. The TDS of drinking water passed through the water purification system 40 was found to be 10 or less, which is almost the same as that of a general reverse osmosis type water purifier. The water purification system 40 has a reverse osmosis pressure which should discard three times the purified water. It is said that water purifying performance is superior to water purifier.

The drinking water tank 20 in which the purified water is stored through the water purification system 40 is provided with a water level sensor 21 similarly to the collecting tank 50, and the structure thereof is also the same as that of the collecting tank 50. Do. A lower portion of the drinking water tank 20 is provided with a pair of outlets 23 for discharging the drinking water, and the drinking water discharged through the outlet 23 is installed in the second chamber 12 to the drinking water tank 20. It is provided to the hot water device 30 and the cold water device 35 for supplying the stored water by heating or cooling.

The hot water device 30, a hot water tank 33 for temporarily receiving drinking water from the collection tank 50, a heater installed on one side of the hot water tank 33 to heat the drinking water, and to detect the temperature of the hot water It includes a hot water temperature sensor 32 for, can be selectively driven by a hot water selection button not shown installed outside the casing (10). The cold water device 35 surrounds the cold water tank 38 that temporarily receives the drinking water from the collecting tank 50, the cold water compressor 36, the cold water condenser, and the cold water tank 38 to cool the drinking water. Cold water evaporator for, and includes a cold water temperature sensor 37 for sensing the temperature of cold water, and like the hot water device 30, can be selectively driven by a cold water selection button, not shown installed outside the casing (10) have. Here, in the cold water tank 38 and the hot water tank 33, the cold water supply pipe 39 and the hot water supply pipe 34 extending to the cold water supply knob 19 and the hot water supply knob 17 installed in front of the casing 10 are provided. It is connected.

As shown in FIG. 4, when the power is supplied from the outside, the microcomputer 100 for controlling the dual drinking water generating device controls the display panel 110 according to a user's selection to display an operation state of the dual drinking water generating device. Be sure to For example, when the user selects the hot water selection button and / or the cold water selection button, the hot water device 30 and / or the cold water device 35 is controlled to be displayed. At the same time, the microcomputer 100 controls a pair of bimetal, which is a hot water temperature sensor 32 for controlling the operation of the heater 31 of the hot water device 30, and the operation of the compressor 71 of the cold water device 35. In order to sense the operation of the thermostat, cold water temperature sensor 37 to be displayed to the outside. Similarly, when the user selects the dual selection button, the microcomputer 100 displays that drinking water supplied from the outside is purified instead of moisture in the air.

In addition, the microcomputer 100 is provided with the detection results from the water level sensor 53 of the water collecting tank 50 and the water level sensor 21 of the drinking water tank 20, and the drinking water condensation system 70 according to the detection result. The operation of the compressor 71 and the fan 77 and the feed water pump 65 is controlled. In detail, when the water level of the collecting tank 50 is detected by the water level detection sensor 53 of the collecting tank 50 or more, the microcomputer 100 operates the water supply pump 65 to collect the collecting tank 50. By allowing the drinking water from the water supply system 40 to be provided to the drinking water tank 20, the water in the collection tank 50 is prevented from overflowing. And when the water level of the drinking water tank 20 is detected by the water level detection sensor 21 of the drinking water tank 20 is a predetermined level or more, the microcomputer 100 is the water level detected from the water level detection sensor 53 of the collecting tank 50. If it is determined that the water level of the collecting tank 50 is more than a certain level, it is determined that the collection of drinking water should be stopped to stop the driving of the compressor 71 and the fan 77.

Referring to FIG. 5, the drinking water generation process of the dual drinking water generating device by such a configuration is as follows.

When power is supplied to the dual drinking water generator, and the user selects a hot water selection button and a cold water selection button for generating hot and cold water, the microcomputer 100 indicates that hot and cold water are being generated on the display panel 110. Display. At the same time, the microcomputer 100 drives the compressor 71 and the fan 77, and the evaporator 75 is cooled in accordance with the operation of the compressor 71. Then, the moisture in the air introduced into the casing 10 by the fan 77 through the filter 18a condenses on the surface of the evaporator 75, and the air deprived of water while passing through the evaporator 75 is condensed ( The temperature is raised while passing through 73 and is discharged to the outside through the discharge network 18b. When the compressor 71 is operated for a predetermined time, for example, about 30 minutes, a sufficient amount of water condenses on the surface of the evaporator 75 when the temperature difference between the air and the evaporator 75 is more than 10 ° C. Then, the microcomputer 100 stops the operation of the compressor 71 for a predetermined time, for example, about 8 minutes and raises the temperature of the evaporator 75, whereby moisture condensed on the surface of the evaporator 75 melts and falls. Do it. At this time, since the surface of the evaporator 75 is coated with Teflon, not only harmful substances do not penetrate into the water, but also the drop rate is increased by Teflon, and the water collection speed is accelerated. Drinking water collected in the collecting plate 66 at the bottom of the evaporator 75 and flowed through the collecting pipe 67 is sterilized while passing through the UV lamp 60 installed at the upper portion of the collecting tank 50. Is accommodated in.

As the compressor 71 repeatedly starts and stops, the drinking water increases in the water collecting tank 50, and when the water level detected by the water level sensor 53 in the water collecting tank 50 reaches a predetermined level or more, the microcomputer 100 ) Operates the feed water pump (65). When the feed water pump 65 is operated, the drinking water in the collecting tank 50 is purified through the water purification system 40, and then is introduced into the drinking water tank 20. The drinking water of the drinking water tank 20 is provided to the hot water tank 33 and the cold water tank 38 through the outlet 23, and the drinking water contained in the hot water tank 33 and the cold water tank 38 is respectively a heater 31 and It is heated and cooled by the cold water evaporator, and discharged to the outside when the hot water supply knob 17 and / or the cold water supply knob 19 are operated by a user's operation.

On the other hand, the microcomputer 100, when the production of the drinking water is smoothly generated both the water level of the drinking water tank 20 and the water collection tank 50 is a certain level or more, by stopping the driving of the compressor 71 to condense and collect water Do not make numbers. On the other hand, when the drinking water is hardly generated, the microcomputer 100, for example, the temperature of the drinking water tank 20 and the collecting tank 50 does not rise for a certain time, or the outside air temperature for measuring the temperature of the outside air When the temperature difference between the temperature sensor and the temperature sensor of the evaporator 75 measuring the temperature of the evaporator 75 is 10 ° C. or less, the drinking water supply valve 56 is automatically opened and drinking water from the outside through the drinking water supply pipe 57. Can be supplied. Alternatively, the microcomputer 100 may inform the outside that the drinking water is not automatically generated by using a buzzer or the like, and induce the user to select the dual selection button. The drinking water supplied through the drinking water supply pipe 57 is stored in the drinking water tank 20 via the water purification system 40.

In this way, this double drinking water growth value is provided with drinking water from the outside when the production of drinking water using water in the air is not smooth, and by supplying the drinking water provided by the purified water, even if the production of drinking water is not smooth. Can be supplied. Accordingly, the user's satisfaction can be achieved, and the efficiency of the dual drinking water generator can be improved.

On the other hand, by coating the surface of the evaporator 75 with Teflon, which is harmless to the human body, not only can the safety of the generated drinking water be improved, but also the water collection can be speeded up. In addition, as mechanical strength and flame resistance are increased, it is possible to extend the life of the device.

In addition, by providing the connector 59 in the water supply pipe 58 and separating the casing in the vertical direction, the transportation of the double drinking water generation device becomes easy.

As described above, according to the present invention, when it is difficult to condense moisture in the air, efficiency can be improved by supplying water from the outside so that it can be used as drinking water. In addition, by coating the surface of the evaporator moisture condensation with a material harmless to the human body, it is possible to improve the stability of drinking water.

Claims (10)

A conventional casing 10, a fan 77 for introducing humidity-containing air into the casing 10, an evaporator 75 through which air introduced by the fan 77 condenses, and the evaporator The condenser 73 is connected to the 75, the water condensation system 70, including a compressor 71 for compressing the refrigerant provided to the evaporator 75 and the condenser 73, of the evaporator 75 A normal collecting tank 50 installed at a lower portion and collecting drinking water condensed on the surface of the evaporator 75, and installed at an upper portion of the collecting tank 50 to sterilize the drinking water collected by the collecting tank 50. In the drinking water generating device is provided with a sterilization means and a water purification system 40 and the microcomputer 100 for controlling the operation of the components,  Drinking water tank 20 for storing purified water while passing through the water purification system 40 from the collecting tank 50; The drinking water collected in the collection tank 50 is installed on the water supply pipe 58 extending from the collection tank 50 to the drinking water tank 20 and passing through the water purification system 40. Feed water pump (65) for passing through to reach the drinking water tank (20); A hot water device 30 and a cold water device 35 for heating or cooling the water from the drinking water tank 20 to the outside; A drinking water supply pipe 57 connected to one side of the collecting tank 50 and supplying drinking water from an external drinking water supply source to the collecting tank 50, and a drinking water supply valve 56 that opens and closes the drinking water supply pipe 57. Supplementary drinking water supply means having a; dual drinking water generating apparatus comprising a. The method of claim 1, The evaporator (75) is a double drinking water generating device, characterized in that the outer surface is coated with a material such as Teflon harmless to the human body. The method of claim 1, A connector 59 for dividing the water supply pipe 58 is installed in one region of the water supply pipe 58 between the water purification system 40 and the drinking water tank 20; The casing (10) is a dual drinking water generating device, characterized in that separated up and down based on the area in which the connector (59) is mounted. The method of claim 1, The water purification system 40 is formed of a non-woven fabric, the first filtration filter 41 for removing foreign matter in the drinking water, and the first carbon filter 42 formed of carbon to remove chlorine, taste, smell, etc. in the drinking water. In order to filter and remove fine substances in the drinking water, the second filtration filter 43 formed of PE filter and the remaining chlorine and odor which are not adsorbed by the first carbon filter 42 are removed to improve the taste of drinking water. Dual drinking water generating device comprising a second carbon filter 44 to make. The method of claim 1, The sterilizing means is formed by a UV lamp, the drinking water dropped from the evaporator 75 is sterilized while passing through the irradiation space of the UV lamp is characterized in that the drinking water tank 50 is accommodated. The method of claim 1, Water collection sensor (53, 21) for detecting the water level is installed in the collection tank (50) and the drinking water tank (20), respectively; The microcomputer 100, when the water level of the collection tank 50 is determined to be a predetermined level or more by the water level detection sensor 53 installed in the collection tank 50, the water supply pump 65 operates the collection tank 50 The drinking water condensation system 70 is provided to the drinking water tank 20, and when the level of the drinking water tank 20 is determined to be higher than or equal to a predetermined level by the water level sensor 21 installed in the drinking water tank 20. Dual drinking water generator, characterized in that to stop the operation of). The method of claim 1, The hot water device 30, the hot water tank 33 for temporarily receiving the drinking water from the collecting tank 50, and the heater 31 is installed on one side of the hot water tank 33 to heat the drinking water Dual drinking water generating device comprising a. The method of claim 1, The cold water device 35 includes a cold water tank 38 that temporarily receives drinking water from the collecting tank 50, a cold water compressor 36 for cooling water stored in the cold water tank 38, and cold water. Dual drinking water generating device comprising a condenser, a cold water evaporator. The method of claim 1, An air temperature sensor for measuring the temperature of the outside air, and an evaporator temperature sensor for measuring the temperature of the evaporator 75; The microcomputer 100 opens the drinking water supply valve 56 by opening the drinking water supply valve 50 from the outside when the difference between the outside air temperature and the evaporator temperature measured by the outside air temperature sensor and the evaporator temperature sensor is 10 ° C. or less. Supplying drinking water, dual drinking water generating device, characterized in that to stop the operation of the drinking water condensation system (70). The method of claim 1, One side of the casing 10 is provided with a separate dual selection button for selecting the opening of the drinking water supply valve 56, the microcomputer 100, when the dual selection button is selected, the drinking water supply valve 56 ) To supply drinking water from the outside to the collection tank (50), and stop the operation of the drinking water condensation system (70).

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