KR20160144823A - Diaphragm type hydrogen water machine - Google Patents

Abstract

The present invention relates to a hydrogen water maker for generating hydrogen water and, more specifically, to a separating-type hydrogen water maker which comprises: a purifying filter for purifying raw water; a check valve for preventing reverse flow of the purified water; an electrolysis module for generating hydrogen in the purified water; a tank for storing a predetermined amount of the hydrogen water; a switching valve for switching a path of the discharged hydrogen water; a pump for recycling the hydrogen water to the electrolysis module; and a sensing means for controlling the operation of the switching valve and the pump, thereby being able to smoothly supply the hydrogen water while maintaining the hydrogen content of the hydrogen water stored in the tank at a constant level.

Description

[0001] The present invention relates to a diaphragm type hydrogen water machine,

More particularly, the present invention relates to a hydrogen generator for generating hydrogen water. More particularly, the present invention relates to a hydrogen generator for generating hydrogen water by supplying hydrogen water produced through an electrolysis module in a state of being stored in a tank of a predetermined capacity, The hydrogen content can be maintained at a constant level by circulating it to the electrolysis module.

In general, a water purifier is intended to purify water such as tap water or ground water to be able to drink only healthily. Recently, however, it has been developed by combining not only purification of harmful substances and the like, but also technologies for improving the properties of water to benefit the human body . As a representative example of such a technique, a hydrogen generator which electrolyzes purified water to increase the concentration of hydrogen can be mentioned.

The hydrogen generator includes a water supply unit for supplying raw water as disclosed in Korean Utility Model Registration Utility No. 0458720; A water cooling unit for cooling the water supplied from the water supply unit while storing the supplied water; A hydrogen filter device for generating hydrogen gas; And a water circulation unit for circulating water by using a pump. That is, when the valve is opened to store water to be supplied and then to drink hydrogenated water, the stored water is supplied through the hydrogen filter device while increasing the hydrogen concentration.

However, since such a conventional hydrogen water heater is supplied with hydrogen in real time while water is passing through the hydrogen filter device, it is difficult to supply the water with a sufficient hydrogen concentration in the water, and by this action, There is a difficult problem. Therefore, the conventional hydrogen generator is easy to use in small quantities in the home, but it is difficult enough for many people to use public facilities or restaurants in public.

In addition, since the concentration of hydrogen is low when the hydrogenated water is stored by a simple method, there is a problem that the hydrogen efficacy can not be exerted if it is consumed as it is.

The main purpose of the present invention is to store the hydrogen water produced by the electrolysis module in a tank of a certain capacity and to supply the hydrogen content of the tank to the electrolysis module when the hydrogen content of the hydrogen stored in the tank decreases, To a constant flow rate.

Another object of the present invention is to provide a diaphragm-type hydrogen generator which is provided with zigzag diaphragms inside a tank to feed hydrogen water in zigzags so as to be able to drink high quality water.

The diaphragm type hydrogen generator of the present invention comprises: a water filter for purifying raw water supplied from the outside; A check valve for preventing reverse flow of purified water supplied through the water filter; An electrolysis module for generating hydrogen in the purified water using electrolysis while passing purified water supplied through the check valve; A tank in which a diaphragm is formed in a zigzag shape so that the hydrogen is discharged to the upper part while the hydrogen is discharged to the left and right while the hydrogen is discharged to the upper part while allowing the hydrogen to be discharged to the upper part; A switching valve for switching the path of the hydrogen water discharged from the tank; A pump for recirculating the hydrogen water flowing through the switching valve to the electrolysis module; And sensing means installed inside the tank for sensing the hydrogen concentration in the hydrogen water and controlling the operation of the switching valve and the pump.

At least two check valves or electrolysis modules are provided.

The electrolytic module is constructed by alternately arranging + and - electrode plates with a diaphragm interposed therebetween.

According to the diaphragm type hydrogen generator of the present invention, the hydrogen water produced by the +, - electrode plates inside the electrolysis module is stored and supplied to the tank of a predetermined capacity, and when the hydrogen content of the hydrogen water stored in the tank is reduced, It is possible to smoothly supply a larger amount of hydrogenated water by making it possible to keep the hydrogen content constant by circulating the electrolytic water to the electrolytic module. In addition, since the hydrogen is transferred in a zigzag manner by the diaphragm in the tank, It is possible to drink.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a diaphragm type hydrogen generator to which the present invention is applied. FIG.
FIGS. 2 and 3 are explanatory diagrams showing the flow of the diaphragm type hydrogen generator applied with the present invention. FIG.

Preferred embodiments of the present invention will now be described in detail with reference to the accompanying drawings.

As shown in FIGS. 1 to 3, the diaphragm type hydrogen generator of the present invention includes a water filter 100 for purifying raw water, a check valve 200 for preventing reverse flow of the purified water, A decomposition module 300, a tank 400 for storing a predetermined amount of the hydrogenated water, a switching valve 500 for switching the path of the discharged hydrogen water, a pump 600 for recycling the hydrogenated water to the electrolysis module, And sensing means (700) for controlling the operation of the switching valve and the pump.

The water filter 100 is for purifying water while passing the water supplied from the outside, and the water is used as ordinary tap water or ground water. Therefore, the water filter 100 removes harmful substances contained in tap water or ground water, and can contain minerals and anions. In this case, the water filter (100) flows naturally by the water pressure of the raw water itself flowing from the outside, or a separate pump is installed before the water filter to forcibly maintain the flow of the raw water. Although the water filter 100 is shown as one filter in the drawing, two or more water filters 100 having different functions may be connected as needed.

The check valve 200 is provided to prevent reverse flow of the purified water supplied through the water filter 100, and a check valve 200 of a general ball type or plate spring type may be applied. At this time, as shown in the figure, two or more check valves 200 may be installed according to the installation of the electrolysis module 300 described later.

The electrolysis module 300 generates hydrogen in purified water using electrolysis while passing purified water supplied through the check valve 200. That is, as shown in FIG. 1 of the electrolysis module 300, the + and - electrode plates 302 are arranged alternately with the diaphragm 301 interposed therebetween, so that the diaphragm 301 is interposed therebetween +, -Electrodes that pass through the electrode plate 302 are electrolyzed and hydrogen is generated.

As shown in the drawing, the electrolysis module 300 may be provided with one or two or more electrolysis units depending on the capacity of a tank to be described later.

The tank 400 is configured to store a predetermined amount of hydrogen supplied from the electrolysis module 300. The hydrogen is discharged to the upper portion of the tank 400 while the hydrogen is discharged to the upper portion of the tank 400, The diaphragm 410 is formed. In this case, the diaphragm 410 induces a flow of hydrogen water in a zigzag shape in the process of discharging the hydrogen water, so that the hydrogen concentration in the hydrogen water is uniformly distributed while stabilizing the flow of the hydrogen water.

As shown in FIG. 2, the switch valve 500 is open in the direction of the cock as shown in FIG. 2 so that the user can drink small water at any time, When the concentration of hydrogen in the hydrogen water is lowered by the means 700, as shown in FIG. 3, it is opened in the direction of the pump 600 to be described later, and the hydrogen concentration in the hydrogen- .

The pump 600 recirculates the hydrogen water flowing through the switching valve 500 to the electrolysis module 300 and recirculates the hydrogen water from the tank 400 to the electrolysis module 300 .

The sensing means 700 is installed in the tank 400 to sense the concentration of hydrogen in the hydrogen water, and controls the operation of the switching valve and the pump. The sensing means is preferably a sensor.

Here, the sensing means 700 senses the hydrogen concentration in the hydrogen water, and operates the switching valve 500 and the pump 600 when the concentration of the hydrogen reaches a predetermined ± error range with respect to the concentration of the appropriate hydrogen, The switching valve 500 is returned to its normal state and the water in the cock is taken through the cock.

According to the present invention having such a structure, the hydrogen water produced through the electrolysis module is stored in a tank having a constant capacity, and when the hydrogen content of the hydrogen stored in the tank is reduced, the hydrogen water is circulated back to the electrolysis module, So that a larger amount of hydrogenated water can be supplied more smoothly.

10: cock
100: Water filter
200: Check valve
300: electrolysis module 301: diaphragm
302: +, - electrode plate
400: tank 410: diaphragm
500: Switching valve
600: pump
700: sensing means

Claims (4)

A water filter for purifying raw water supplied from the outside;
A check valve for preventing reverse flow of purified water supplied through the water filter;
An electrolysis module for generating hydrogen in the purified water using electrolysis while passing purified water supplied through the check valve;
A tank in which a diaphragm is formed in a zigzag shape so that the hydrogen is discharged to the upper part while the hydrogen is discharged to the left and right while the hydrogen is discharged to the upper part while allowing the hydrogen water to be discharged to the upper part;
A switching valve for switching the path of the hydrogen water discharged from the tank;
A pump for recirculating the hydrogen water flowing through the switching valve to the electrolysis module; And
And sensing means installed in the tank for sensing the hydrogen concentration in the hydrogen water and controlling the operation of the switching valve and the pump.
The diaphragm type hydrographic generator according to claim 1, wherein two or more check valves or electrolysis modules are provided.
The diaphragm type hydrogen generator according to any one of claims 1 and 2, wherein the electrolysis module has alternately disposed positive and negative electrode plates with a diaphragm inside.
The diaphragm type hydrogen generator according to claim 1, wherein the sensing means comprises a sensor.

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