KR200353341Y1 - a drinking water dispenser having indoor air suppling function - Google Patents

Abstract

The present invention relates to a drinking water feeder having an indoor oxygen supply function, which is made of a simple structure to increase the amount of dissolved oxygen in water and to increase the amount of oxygen in indoor air.

According to the present invention, the case 10, the reservoir 20 installed inside the case 10, and the oxygen generator 30 to supply oxygen to the reservoir 20 to increase the amount of dissolved oxygen in the water In the drinking water supply including, the upper end of the reservoir 20 is connected to the oxygen discharge pipe 40 extending to the outside of the case 10, the residual oxygen is not dissolved in the water of the reservoir 20 A drinking water supply is provided, which is floated upward and discharged to the interior of a building through the oxygen discharge pipe.

Description

Drinking water dispenser having indoor oxygen supply function {a drinking water dispenser having indoor air suppling function}

The present invention relates to a drinking water supply, and more particularly, to a drinking water supply that is made of a simple structure to increase the amount of dissolved oxygen in the water and increase the amount of oxygen in the room air.

Drinking water supply, such as a cold or hot water dispenser or a water purifier is provided with a cold water and hot water tank inside the case, the upper side of the cold and hot water tank is connected to the reservoir is installed, a cold and hot water valve is provided on the outside front of the case, between the cold and hot water tank and the reservoir It is configured to be connected to the water filter, the water purified by the water filter in accordance with the operation of the valve is supplied.

However, the purified water through such drinking water supply has a problem that there is a lack of dissolved oxygen beneficial to the human body. Accordingly, in recent years, there has been provided a drinking water supply in which a separate oxygen generator is incorporated, and the oxygen supplied by the oxygen generator is mixed with the water of the cold water tank to increase the dissolved oxygen amount of the water.

However, the drinking water supply having a built-in oxygen generator has the advantage of increasing dissolved oxygen in the water, there is a problem that there is no function to increase the amount of oxygen in the indoor air by supplying oxygen to the indoor space.

Therefore, by installing a separate indoor oxygen generator, the oxygen generator to increase the amount of oxygen in the indoor air. However, in this case, there is a problem in that the oxygen generator for the drinking water supply and the indoor oxygen generator must be separately installed.

The present invention has been proposed in view of the above-described problems, and an object of the present invention is to provide a drinking water supply which is made of a simple structure to increase the amount of dissolved oxygen in water and increase the amount of oxygen in indoor air.

1 is a block diagram of a drinking water supply according to the present invention

<Explanation of symbols for main parts of the drawings>

10. Case 20. Reservoir

21. Hot water tank 23. Cold water tank

40. Oxygen discharge pipe

According to the present invention, the case 10, the reservoir 20 installed inside the case 10, and the oxygen generator 30 to supply oxygen to the reservoir 20 to increase the amount of dissolved oxygen in the water In the drinking water supply including, the upper end of the reservoir 20 is connected to the oxygen discharge pipe 40 extending to the outside of the case 10, the residual oxygen is not dissolved in the water of the reservoir 20 A drinking water supply is provided, which is floated upward and discharged to the interior of a building through the oxygen discharge pipe.

According to another feature of the present invention, the oxygen generator 30 is connected to a separate nitrogen discharge pipe 60, the nitrogen discharge pipe 60 is connected to the pipe 65 extending to the outside of the building, this pipe ( Through 65) is provided a drinking water supply, characterized in that nitrogen is discharged to the outside of the building.

Hereinafter, described with reference to the accompanying drawings, preferred embodiments of the present invention is as follows.

1 is a block diagram of a drinking water supply equipped with an indoor oxygen supply function according to the present invention. Referring to this, the present invention is provided with a reservoir 20 in the case 10, the oxygen generator 30 is connected to the lower end of the reservoir 20 is the same as the conventional, the upper end of the reservoir 20 The oxygen discharge pipe 40 is connected to extend the outside of the case 10.

Reference numerals 12, 13 and 14 denote moisture and deodorization filters, cooling pumps and check valves, respectively.

The reservoir 20 is composed of a hot water tank 21 and a cold water tank 23, and an auxiliary tank 24 connected to the upper side of the hot water and cold water 21, 23, the cold water of the reservoir 20 Oxygen generator 30 is connected to the lower end of the tank (23).

The oxygen generator 30 has an air suction pump 32 embedded in the lower side of the case 10 and a zeolite filling cylinder 34 connected to the air suction pump 32 via a three-way valve 34. And, the zeolite filling container 34 and the oxygen collection container 36 is connected to the lower end of the reservoir 20.

When the outside air is forcibly sucked by the air suction pump 32, the zeolite filled in the zeolite filling container 34 separates oxygen and nitrogen from the air by using a difference in adsorption force between oxygen and nitrogen, thus separating The collected oxygen is collected in the oxygen collector 36 and is supplied into the lower end of the cold water tank 23. Accordingly, oxygen is supplied and dissolved in the water filled in the cold water tank 23 of the reservoir 20 to increase the amount of dissolved oxygen in the water.

Meanwhile, nitrogen separated from the zeolite filling container 34 is returned to the three-way valve 34. At this time, the nitrogen is discharged to the outside through a nitrogen discharge port (not shown) formed in the three-way valve 34, the nitrogen discharge port is connected to a separate nitrogen discharge pipe 60 extending to the outside of the case 10 The nitrogen is discharged to the outside of the case 10 by the nitrogen discharge pipe 60. Preferably, the nitrogen discharge pipe 60 is connected to a separate pipe (65) extending to the outside of the building, so that the nitrogen is discharged to the outdoor side of the building through the pipe (65).

One end of the oxygen discharge pipe 40 is connected to the upper end of the reservoir 20, the other end of the oxygen discharge pipe 40 extends to the outside of the case 10. An oxygen generation display tank 44 is connected to the other end of the oxygen discharge pipe 40, and the oxygen discharge display tank 44 is provided with an oxygen discharge port 46. The oxygen inlet of the oxygen discharge pipe 40 is above the water level of the water filled in the auxiliary tank 24 of the reservoir 20.

Accordingly, the oxygen supplied from the oxygen generator 30 is mixed with the cold water of the cold water tank 23, and residual oxygen not mixed with the cold water floats on the surface of the cold water and passes through the oxygen discharge pipe 40. Through the oxygen outlet 46 of the oxygen generation display tank 44 is continuously supplied to the interior of the building, it is possible to increase the amount of oxygen in the indoor air.

At this time, the residual oxygen not dissolved in the water is naturally floated to the upper end of the reservoir 20 by the suction pressure of the air suction pump 32 of the oxygen generator 30, the building through the oxygen discharge pipe 40 Oxygen can be naturally released into the room.

On the other hand, it is possible to separately install a forced exhaust means such as a blowing fan in the oxygen discharge pipe 40, so that oxygen not dissolved in water is forced to be discharged to the interior of the building by the forced exhaust means.

At this time, in the present invention, the reservoir 20 is composed of hot and cold water tanks 21 and 23, and the auxiliary tank 24, although the oxygen discharge pipe 40 is connected to the upper end of the auxiliary tank 24, the reservoir 20 is configured without the auxiliary tank 24, it is also possible to directly connect the oxygen discharge pipe 40 to the upper end of the cold water tank (23).

Therefore, the present invention is different from the conventional installation of the oxygen generator 30 for drinking water and the oxygen generator 30 for indoor air separately, it is possible to increase the amount of dissolved oxygen of drinking water by one oxygen generator as well as the The amount of oxygen can be increased.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and it is to be understood that various substitutions, modifications, and changes can be made without departing from the technical spirit of the present invention.

As described above, the drinking water supply device having the indoor oxygen supply function according to the present invention does not separately install the oxygen generator for drinking water and the oxygen generator for indoor air, and increases the amount of dissolved oxygen in the water by one oxygen generator and the indoor air. Since it is possible to increase the amount of oxygen, there is an advantage that can be economical.

Claims (2)

A drinking water supply including a case 10, a reservoir 20 installed inside the case 10, and an oxygen generator 30 which supplies oxygen to the reservoir 20 to increase the amount of dissolved oxygen in the water. In this case, an oxygen discharge pipe 40 extending to the outside of the case 10 is connected to the upper end of the reservoir 20, and residual oxygen not dissolved in the water of the reservoir 20 rises upward to the upper side. Drinking water supply, characterized in that to be discharged to the interior of the building through the oxygen discharge pipe. According to claim 1, wherein the oxygen generator 30 is connected to a separate nitrogen discharge pipe 60, the nitrogen discharge pipe 60 is connected to a pipe (65) extending to the outside of the building, this pipe (65) Drinking water supply, characterized in that the nitrogen is discharged to the outside of the building through.