KR20170058013A - Mineral water manufacturing apparatus - Google Patents

Abstract

An apparatus for manufacturing mineral water is disclosed. According to an embodiment of the present invention, the apparatus for manufacturing mineral water comprises: a mineral supply part for supplying minerals; and a mineral water production part for manufacturing mineral water to be supplied to users by storing the mineral supplied by the mineral supply part and dissolving the mineral to water supplied by a water supply source. The apparatus for manufacturing mineral water can control the amount of minerals stored in the mineral water production part to control the concentration of the mineral water.

Description

MINERAL WATER MANUFACTURING APPARATUS [0001]

The present invention relates to a mineral water producing apparatus for producing mineral water in which minerals such as calcium, sodium or iron are dissolved, and more particularly, to a mineral water producing apparatus capable of controlling the mineral concentration of the mineral water.

Minerals are inorganic minerals except for carbon, hydrogen, oxygen and nitrogen which are the majority of the human body among the constituent elements of the human body. There are 60 kinds of essential minerals necessary for the human body.

These minerals, which are essential to the human body, are essential for the body, and can be used to make body tissues, activate enzymes in the body, activate vitamins, make hormones, maintain weakly alkaline pH in the body, It is known to play a role in controlling nutrients up to the cell, or controlling the nerve action.

The mineral water is the mineral which is dissolved in the water, and the mineral water producing apparatus dissolves the mineral in the water to make the mineral water.

As a result, it has been difficult to control the mineral concentration of the mineral water in the conventional mineral water producing apparatus.

The present invention is realized by recognizing at least any one of the above-mentioned conventional needs or problems.

One aspect of the object of the present invention is to be able to control the mineral concentration of the mineral water.

Another aspect of the object of the present invention is to control the amount of minerals stored in the mineral water producing section to make the mineral water.

Another aspect of the object of the present invention is to allow minerals to be stored in the mineral water producing section by an electric force.

A mineral water producing apparatus according to one embodiment for realizing at least one of the above problems may include the following features.

According to an aspect of the present invention, there is provided a mineral water producing apparatus comprising: a mineral supply unit for supplying minerals; A mineral water producing unit for storing minerals supplied from a mineral supply unit and dissolving minerals in water supplied from a water supply source to produce mineral water and supplying the mineral water to a user; And the mineral concentration of the mineral water can be controlled by controlling the amount of the mineral stored in the mineral water producing unit.

In this case, the mineral water producing unit can store minerals by an electric force.

The mineral water producing unit may include a positive electrode and a negative electrode connected to a power source.

When the minerals are stored in the mineral water producing unit, electricity is applied to the positive electrode and the negative electrode to allow the mineral ions to be adsorbed to the positive electrode and the negative electrode.

In addition, when mineral water is produced in the mineral water producing unit, electricity is applied or discharged in a reverse direction to the positive electrode and the negative electrode so that the minerals ions adsorbed to the positive electrode and the negative electrode are separated from the positive electrode and the negative electrode and dissolved in water .

The mineral concentration of the mineral water can be controlled by controlling the electric current or voltage applied to the positive electrode and the negative electrode to control the amount of the mineral ions adsorbed to the positive electrode and the negative electrode.

In addition, the mineral supply unit may supply water from the water supply source to elute the minerals.

The mineral supply unit may include a mineral eluting member through which minerals are eluted when water is in contact therewith.

A water supply valve connected to the water supply source, the mineral supply unit, and the mineral water production unit; As shown in FIG.

The water supply valve may be a flow path switching valve.

In addition, when the mineral water is stored in the mineral water producing unit, the water supply valve supplies the water of the water supply source to the mineral water supply unit, and when the mineral water is produced in the mineral water producing unit, As shown in FIG.

A mineral water discharging valve connected to the mineral water producing unit and discharging the mineral water produced in the mineral water producing unit to the outside; As shown in FIG.

Further, a drain line may be connected to the mineral water discharge valve, and the mineral water discharge valve may be a flow path switching valve.

When the mineral is stored in the mineral water producing unit, the mineral water discharging valve may drain water supplied to the mineral water producing unit together with the mineral through the drain line.

In addition, the water source may include a water filter for filtering water.

As described above, according to the embodiment of the present invention, minerals can be stored in the mineral water producing unit by an electric force.

In addition, according to the embodiment of the present invention, the amount of minerals stored in the mineral water producing unit for making the mineral water can be controlled.

Further, according to the embodiment of the present invention, the mineral concentration of the mineral water can be adjusted.

1 is a view showing an embodiment of an apparatus for producing mineral water according to the present invention.
FIG. 2 is a view showing the operation of an embodiment of the apparatus for producing mineral water according to the present invention. FIG. 2 is a view for explaining the operation of the mineral water producing apparatus according to the present invention. FIG. 3 is a view showing that water in a water supply source is supplied to a user after the mineral water is supplied to the mineral water producing unit in which the mineral is stored.

In order to facilitate understanding of the features of the present invention as described above, a mineral water producing apparatus according to an embodiment of the present invention will be described in detail.

The embodiments described below will be described on the basis of embodiments best suited to understand the technical characteristics of the present invention and the technical features of the present invention are not limited by the embodiments described, It is to be understood that the invention can be practiced with embodiments. Therefore, it is intended that the present invention covers the modifications and variations of this invention provided they come within the scope of the appended claims and their equivalents. In order to facilitate an understanding of the embodiments described below, in the reference numerals shown in the accompanying drawings, among the constituent elements which perform the same function in the respective embodiments, the related constituent elements are indicated by the same or an extension line number.

Hereinafter, an embodiment of a mineral water producing apparatus according to the present invention will be described with reference to FIGS. 1 to 3. FIG.

1 is a view showing an embodiment of an apparatus for producing mineral water according to the present invention.

2 and 3 are views showing the operation of one embodiment of the apparatus for producing mineral water according to the present invention. FIG. 2 is a view showing the operation of the mineral water producing apparatus according to the present invention, in which the water of the water supply source is supplied to the mineral supply unit, FIG. 3 is a view showing that the water of the water source is supplied to the user after the mineral water is supplied to the mineral water producing unit storing the mineral.

As shown in FIG. 1, the apparatus for producing mineral water according to the present invention may include a mineral supply unit 200 and a mineral water producing unit 300.

mineral Supplier

The mineral supply unit 200 can supply minerals such as calcium, sodium, or iron.

The mineral supply unit 200 can supply the water from the water supply source WS to drain the mineral M from the water supply source WS. The mineral supply part 200 may include a mineral eluting member 210 through which the mineral M is eluted when water is in contact therewith. The mineral eluting member 210 is not particularly limited, and any known mineral eluting member 210 may be used as long as the mineral M is eluted when water comes in contact therewith.

When water is supplied from the water supply source WS to the mineral supply unit 200, the mineral M is released from the mineral discharge member 210 of the mineral supply unit 200. Thus, the eluted minerals M can be supplied to the mineral water producing unit 300 together with water as shown in Fig.

However, the constitution of the mineral feeder 200 is not particularly limited, and any well-known constitution is possible as long as it is capable of supplying the minerals M.

1, the water supply source WS for supplying water to the mineral supply unit 200 or the mineral production unit 300 as described later includes water filters F1, F2 and F3 for filtering water, . ≪ / RTI > The water supply source WS can supply the water filtered by the water filters F1, F2 and F3 to the mineral supply unit 200 or the mineral water production unit 300. [

The water supply WS may include a plurality of water filters F1, F2 and F3. For example, the water source WS may include a pretreatment compound filter F1, an reverse osmosis membrane filter F2, and a post-treatment compound filter F3.

The pretreatment compound filter F1, the reverse osmosis membrane filter F2 and the post-treatment compound filter F3 may be connected to each other by a connection line LC. In addition, the pre-processing compound filter F1 can be connected to the water line (not shown) by the connection line LC. The connection line LC connecting the pretreatment composite filter F1 and the reverse osmosis membrane filter F2 may be provided with an on-off valve V. [

2 and 3, water such as water is supplied to the pretreatment compound filter F1, the reverse osmosis membrane filter F2 and the post-treatment compound filter F3 in this order Can be filtered while passing through.

The reverse osmosis membrane filter F2 may also be connected to the drain line DL by a connection line LC. 2 and 3, the water filtered in the reverse osmosis membrane filter F2 flows to the post-treatment compound filter F3 through the connection line LC, and the water in the reverse osmosis membrane filter F2 The unfiltered domestic water can be drained through the drain line (DL).

However, the number and kind of the water filters F1, F2, and F3 included in the water supply source WS are not particularly limited, and any number or kind can be included as long as water can be filtered.

Also, the constitution of the water supply source WS is not particularly limited, and any known structure may be used as long as it is capable of supplying water to the mineral supply unit 200 or the mineral production unit 300.

The mineral supply unit 200 may be connected to the water supply source WS by a connection line LC connected to the water supply valve 400 connected by the connection line LC to the water supply source WS. 2, water of the water supply source WS can be supplied to the mineral supply unit 200 by the water supply valve 400. [

However, the configuration in which the water of the water supply source WS is supplied to the mineral supply unit 200 is not particularly limited, and any well-known configuration is possible.

Meanwhile, the water supply valve 400 may be connected to the mineral water producing unit 300 by the connection line LC. In this case, the water supply valve 400 may be a flow path switching valve. 2, water of the water supply source WS may be supplied to the mineral supply unit 200 by the water supply valve 400 and may be supplied to the mineral water supply unit 200 as shown in FIG. 300).

The water supply valve 400 may allow the water of the water supply source WS to be supplied to the mineral supply unit 200 as shown in FIG. 2 when the mineral is stored in the mineral water production unit 300.

Thus, the minerals M are eluted from the mineral eluting member 210 of the mineral feeder 200 and the eluted minerals M can be supplied to the mineral water producing unit 300 together with the water.

3, when the mineral water is produced in the mineral water producing unit 300, the water supply valve 400 can supply water of the water supply WS to the mineral water producing unit 300 have.

Accordingly, the mineral M stored in the mineral water producing unit 300 is dissolved in the water supplied to the mineral water producing unit 300, so that the mineral water can be produced.

Number of minerals Manufacturing Department

The mineral water producing unit 300 may store the minerals supplied from the mineral supplying unit 200.

The mineral water producing unit 300 may be connected to the mineral supply unit 200 by a connection line LC. 2, the water of the water supply source WS is supplied to the mineral supply unit 200 by the water supply valve 400 so that the minerals M eluted from the mineral supply unit 200 are discharged from the water supply source To the mineral production section 300 and stored in the mineral water production section 300.

The mineral water producing unit 300 can store the minerals M by an electric force. For this purpose, the mineral water producing unit 300 may include a positive electrode 310 and a negative electrode 320 connected to a power source ES.

The minerals M eluted from the mineral feeder 200 by the water supplied from the water source WS to the mineral feeder 200 are mixed with the water to the mineral production unit 300 Electricity may be applied to the positive electrode 310 and the negative electrode 320. [

The mineral ions M are adsorbed to the positive electrode 310 and the negative electrode 320 by an electric force so that the minerals M can be stored in the mineral preparation unit 300.

In this case, the amount of the mineral ions M adsorbed to the positive electrode 310 and the negative electrode 320 can be controlled by adjusting the electric current or voltage applied to the positive electrode 310 and the negative electrode 320.

The mineral water producing unit 300 dissolves the mineral M in the water supplied from the water supply source WS to produce mineral water and supply it to the user.

For this purpose, when the mineral water supply valve 400 is made of mineral water, the water of the water supply source WS is not supplied to the mineral supply part 200 but supplied to the mineral water production part 300 as shown in FIG. .

When the water in the water supply source WS is supplied to the mineral water producing unit 300, the mineral water producing unit 300 can supply electricity to the positive electrode 310 and the negative electrode 320 in a reverse direction, And the negative electrode 320 may be discharged.

A separate switch (not shown) is connected to the positive electrode 310 and the negative electrode 320 in addition to the power source ES and the positive electrode 310 and the negative electrode 320 are short-circuited to be discharged by closing the switch . However, the configuration in which the positive electrode 310 and the negative electrode 320 are discharged is not particularly limited, and any well-known configuration is possible.

The mineral ions M adsorbed to the positive electrode 310 and the negative electrode 320 are separated from the positive electrode 310 and the negative electrode 320 and dissolved in the water supplied to the mineral water producing unit 300, .

In this case, the mineral concentration of the mineral water can be controlled by adjusting the amount of the mineral M stored in the mineral water producing unit 300.

For example, when the mineral M is stored in the mineral water producing unit 300 as described above, the current or voltage applied to the positive electrode 310 and the negative electrode 320 may be adjusted so that the positive electrode 310 and the negative electrode 320 The amount of the mineral ions M adsorbed on the surface of the membrane can be controlled.

The current or voltage applied to the positive electrode 310 and the negative electrode 320 may be controlled by a control unit (not shown) connected to the power source ES connected to the positive electrode 310 and the negative electrode 320.

Thus, when the mineral water is produced in the mineral water producing unit 300, the amount of the mineral M dissolved in the water supplied from the water supply WS can be adjusted. The mineral concentration of the mineral water produced in the mineral water producing unit 300 can be adjusted.

The mineral water produced in the mineral water producing unit 300 may be discharged to the outside through the mineral water discharge valve 500 connected to the mineral water producing unit 300 by the connection line LC.

The mineral water discharge valve 500 may be connected to a discharge member 600 such as a cock or faucet by a connection line LC.

When the mineral water discharging valve 500 is opened when the mineral water is produced in the mineral water producing unit 300, the mineral water produced in the mineral water producing unit 300 is discharged through the mineral water discharging valve 500 and the discharging member 600 And can be supplied to the user.

The mineral water discharge valve 500 may also be connected to a drain line DL. In this case, the mineral water discharge valve 500 may be a flow path switching valve.

3, when the mineral water is produced in the mineral water producing unit 300, the mineral water produced in the mineral water producing unit 300 is discharged by the mineral water discharging valve 500 through the discharging member 600 To be discharged to the outside and supplied to the user.

When the mineral M is stored in the mineral water producing unit 300 as shown in FIG. 2, water supplied from the mineral supplying unit 200 together with the mineral M to the mineral water producing unit 300 May flow to the drain line (DL) by the mineral water discharge valve (500) and be drained through the drain line (DL).

As described above, when the apparatus for producing mineral water according to the present invention is used, minerals can be stored in the mineral water producing unit by electric force, and the amount of minerals stored in the mineral water producing unit for making mineral water can be controlled, The mineral concentration of mineral water can be controlled.

The above-described mineral water producing apparatus can be applied to a limited number of configurations of the above-described embodiments, but the embodiments may be configured such that all or some of the embodiments are selectively combined so that various modifications can be made. have.

100: Mineral water production apparatus 200: Mineral supply unit
210: Mineral eluting member 300: Mineral water producing unit
310: Positive electrode 320: Negative electrode
400: Water supply valve 500: Mineral water discharge valve
600: discharge member WS: water supply source
ES: Power supply V: Open / close valve
F1: Pretreatment compound filter F2: Reverse osmosis membrane filter
F3: Postprocessed composite filter LC: Connection line
DL: drain line M: mineral or mineral ion

Claims (15)

A mineral supply for supplying minerals;
A mineral water producing unit for storing minerals supplied from the mineral supply unit and dissolving minerals in water supplied from a water supply source to produce mineral water and supplying the mineral water to the user; / RTI >
And controlling the mineral concentration of the mineral water by controlling the amount of the mineral stored in the mineral water producing unit. The mineral water producing apparatus according to claim 1, wherein the mineral water producing unit stores minerals by an electric force. The mineral water producing apparatus according to claim 2, wherein the mineral water producing unit comprises a positive electrode and a negative electrode connected to a power source. 4. The mineral water producing apparatus according to claim 3, wherein when minerals are stored in the mineral water producing unit, electricity is applied to the positive electrode and the negative electrode so that the mineral ions are adsorbed to the positive electrode and the negative electrode. The method according to claim 4, wherein when mineral water is produced in the mineral water producing unit, electricity is applied or discharged in the opposite direction to the positive electrode and the negative electrode so that the minerals ions adsorbed to the positive electrode and the negative electrode are separated from the positive electrode and the negative electrode A mineral water producing device for dissolving in water. The mineral water producing apparatus according to claim 5, wherein the mineral concentration of the mineral water is controlled by controlling the electric current or voltage applied to the positive electrode and the negative electrode to control the amount of mineral ions adsorbed to the positive electrode and the negative electrode. The mineral water producing apparatus according to claim 1, wherein the mineral supply unit supplies water from a water supply source to elute minerals. 8. The mineral water producing apparatus according to claim 7, wherein the mineral supply unit comprises a mineral eluting member through which the mineral elutes when water contacts. The water treatment system according to claim 7, further comprising: a water supply valve connected to the water supply source, the mineral supply unit and the mineral water production unit; Wherein the mineral water producing apparatus further comprises: 10. The mineral water producing apparatus according to claim 9, wherein the water supply valve is a channel switching valve. 11. The method according to claim 10, wherein when the mineral is stored in the mineral water producing unit, water of the water supply source is supplied to the mineral supply unit, and when the mineral water is produced in the mineral water producing unit, Water is supplied to the mineral water producing unit. [Claim 10] The method of claim 9, further comprising: a mineral water discharge valve connected to the mineral water producing unit and discharging the mineral water produced in the mineral water producing unit to the outside; Wherein the mineral water producing apparatus further comprises: 13. The mineral water producing apparatus according to claim 12, wherein a drain line is connected to the mineral water discharge valve, and the mineral water discharge valve is a channel switching valve. 14. The mineral water producing apparatus according to claim 13, wherein when the mineral is stored in the mineral water producing unit, the mineral water discharging valve discharges water supplied to the mineral water producing unit together with the mineral through the drain line. 2. The mineral water producing device according to claim 1, wherein the water supply source includes a water filter for filtering water.

Images