CN105231448A - Method for automatically producing nutrient water and making and assembling method of water dispenser - Google Patents

Abstract

The invention discloses a method for automatically producing nutrient water and a making and assembling method of a water dispenser. The method for automatically producing the nutrient water comprises the following steps that firstly a nutrient water stock solution is produced, then the nutrient water stock solution and pure water are mixed to generate the nutrient water, the TDS value of the pure water and the TDS value of the nutrient water stock solution are automatically detected through a nutrient water compensation control system, and the TDS value of the nutrient water is controlled by automatically adjusting and controlling the flow and the drainage time of the nutrient water stock solution and the pure water, so that nutrient substances in required quantities are added to the pure water, and the desired nutrient water is obtained. According to requirements, the TDS value of required drinking water can be controlled, and the nutrient water containing various nutrient components can be provided, so that the quality of the drinking water is improved, and human health is facilitated. The method for automatically producing the nutrient water is quite convenient to use, and the TDS value of the desired drinking water can be conveniently and neatly adjusted and controlled by adjusting the nutrient water compensation control system, so that the content of nutrients including mineral substances and the like in the nutrient water is appropriate, and the nutrient water achieves a drinking standard.

Description

A kind of method of automatic production nutritive water and the making assemble method of water dispenser

Technical field

The present invention relates to and produce drinking water technical field.

Background technology

Drink water indispensable in people's daily life.Along with the development of society, the requirement of people to drinking water is more and more higher, not only wishes to drink free of contamination clean water, and also has higher requirement to the nutritional quality of water and mouthfeel.Drinking-water is no longer only just common behavior of quenching one's thirst also, and become gradually people can supplement human body institute must the important way of nutriment.Therefore, the research topic how providing the suitable drinking water of a kind of applicable mouthfeel, mineral nutrition to become people easily constantly to explore.Existing water dispenser has individually the TDS value detecting required drinking water, but can not regulate or control the TDS value of required drinking water easily and flexibly.

In prior art, application number be 201420862949.8 Chinese utility model disclose a kind of wall hanging drinker with TDS measuring ability, comprise water pipe line, described water pipe line is provided with socket, be inserted with TDS probe in described socket, seal between described TDS probe and described water pipe line.The present invention is provided with TDS probe on pipeline, can be recorded the TDS value of water, thus carry out water quality judgement by TDS probe.Application number be 201420862505.4 Chinese utility model disclose a kind of wall hanging drinker with TDS measuring ability being convenient to unpick and wash, comprise fore shell, back cover, fore shell is provided with water pipe line, fore shell also has a mount pad, mount pad has antetheca and rear wall, mount pad between antetheca and rear wall is provided with bayonet socket, and the upper end of antetheca offers front lower recess, and the upper end of rear wall offers rear lower recess; Water pipe line is connected with a positive three-way connection, and positive three-way connection is arranged on mount pad; Also comprise a TDS probe, TDS probe inserts in the bifurcated pipe of positive three-way connection; Back cover offers the dismounting mouth of popping one's head in corresponding with TDS, dismounting mouth is covered with dismountable cover plate.Application number is the wall hanging drinker that the Chinese invention of 201420862487.X discloses that a kind of easy-to-install has TDS detection, comprise fore shell, fore shell is provided with water pipe line, it is characterized in that: fore shell also has a mount pad, mount pad has antetheca and rear wall, mount pad between antetheca and rear wall is provided with bayonet socket, and the upper end of antetheca offers front lower recess, and the upper end of rear wall offers rear lower recess; Water pipe line is connected on a positive three-way connection; The supervisor of positive three-way connection embeds in bayonet socket, and the head of the supervisor of positive three-way connection embeds front lower recess, and the afterbody of the supervisor of positive three-way connection embeds in rear lower recess; Also comprise a TDS probe, TDS probe inserts in the bifurcated pipe of positive three-way connection.Above prior art all can not regulate or control the TDS value of required drinking water easily and flexibly.

Summary of the invention

Technical problem to be solved by this invention is, provides a kind of method of automatic production nutritive water and the making assemble method of water dispenser, adopts this method of automatically producing nutritive water and the water dispenser assembled, can regulate and control the TDS value of required drinking water.

Technical scheme of the present invention is: a kind of method of automatic production nutritive water, first produce nutritive water stoste, then nutritive water stoste and pure water mixing are generated nutritive water, automatically the TDS value that the flow of the TDS value of pure water and nutritive water stoste, auto-control nutritive water stoste and pure water and drain time control nutritive water is detected by nutritive water compensation control system, thus in pure water, add the nutriment of aequum, obtain required nutritive water.

The water dispenser that employing can add beneficial element is in right amount produced, and the described water dispenser that can add beneficial element in right amount comprises water inlet pipe, mineralization device, drinking water storage bin, nutritive water compensation control system and nutritive water stoste storage bin; Described mineralization device connects nutritive water stoste storage bin by water pipe one; Nutritive water stoste storage bin connects drinking water storage bin by water pipe two; Described nutritive water compensation control system comprises control centre, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises the water inlet pipe one and the water inlet pipe two being connected mineralization device that connect drinking water storage bin; Electronic valve comprises the electronic valve one be arranged on water inlet pipe one and the electronic valve two be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe one be arranged on water inlet pipe one and the TDS inductive probe two be arranged in nutritive water stoste storage bin; Described mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum;

The method of described automatic production nutritive water comprises the steps:

A, preparation alimentation composition: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into the shell of mineralization device;

B, production nutritive water stoste: start to put into pure water by water inlet pipe, after pure water flows through mineralization device, generate nutritive water stoste, and flow in nutritive water stoste storage bin for subsequent use;

The TDS value of C, detection pure water and nutritive water stoste: nutritive water compensation control system starts, detected the TDS value of the pure water in water inlet pipe one and the nutritive water stoste in nutritive water stoste storage bin by TDS inductive probe one and TDS inductive probe two respectively, and detection data are passed to control centre;

D, the drain time determining pure water and nutritive water stoste and flow: control centre, according to the data of the detection data received and required nutritive water, utilizes preset computing formula to carry out calculating and determines drain time and the flow of pure water and nutritive water stoste;

E, control discharge: control centre sends instruction to electronic valve one and electronic valve two, control start-up time and the close moment of electronic valve one and electronic valve two according to above-mentioned result of calculation, thus control drain time and the flow of pure water and nutritive water stoste;

F, obtain nutritive water: flow to the pure water of drinking water storage bin and nutritive water stoste after fully mixed, namely form required nutritive water.

The method of described automatic production nutritive water also comprises the step of sterilization: water inlet manifold and water pipe two respectively install a chlorination equipment, to the pure water and the disinfection of nutritive water stoste that flow through chlorination equipment.

The method of described automatic production nutritive water also comprises the step of purification: in water inlet manifold, install a purifier, water inlet manifold directly connects running water, obtains required pure water by purifier.

The described water dispenser that can add beneficial element in right amount also comprises housing, and described mineralization device, drinking water storage bin, control centre and mineralized water stoste storage bin are installed in housing; Described nutritive water compensation control system also comprises the display floater at connection control center, and described display floater is arranged in housing outer surface.

Described nutritive water compensation control system also comprises the level sensor be arranged in drinking water storage bin, described level sensor connection control center; By level sensor, detect the water level of drinking water storage bin, to supplement the nutrients water in time.

A kind of assemble method that can add the water dispenser of beneficial element in right amount, the described water dispenser that can add beneficial element in right amount comprises housing, water inlet pipe, mineralization device and drinking water storage bin, and the described water dispenser that can add beneficial element in right amount also comprises nutritive water compensation control system and nutritive water stoste storage bin; Described mineralization device connects nutritive water stoste storage bin by water pipe one; Nutritive water stoste storage bin connects drinking water storage bin by water pipe two; Described nutritive water compensation control system comprises control centre, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises the water inlet pipe one and the water inlet pipe two being connected mineralization device that connect drinking water storage bin; Electronic valve comprises the electronic valve one be arranged on water inlet pipe one and the electronic valve two be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe one be arranged on water inlet pipe one and the TDS inductive probe two be arranged in nutritive water stoste storage bin; Described mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum; Described mineralization device, drinking water storage bin, control centre and mineralized water stoste storage bin are installed in housing; Described nutritive water compensation control system also comprises the display floater at connection control center, and described display floater is arranged in housing outer surface;

The described making assemble method that can add the water dispenser of beneficial element in right amount comprises the steps:

A, making housing, mineralization device, control centre and display floater:

1) make housing, housing comprises drain pan and clamshell, reserved position of installing each part of water dispenser on drain pan, and described part comprises mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

2) mineralization device is made: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into shell, be made into mineralization device;

3) control centre is made: control centre comprises circuit board, sets up control module on circuit boards, and preset nutritive water compensatory control program in the control module;

B, relevant position on drain pan install mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

C, installation water pipe: connect mineralization device and nutritive water stoste storage bin with water pipe one; Nutritive water stoste storage bin and drinking water storage bin is connected with water pipe two; One end of water inlet pipe one connects drinking water storage bin; One end of water inlet pipe two connects mineralization device; Water inlet pipe one is all connected water inlet manifold with the other end of water inlet pipe two;

D, installation electronic valve and TDS inductive probe: north slope town electronic valve one is arranged on water inlet pipe one, is arranged on by electronic valve two on water pipe two; TDS inductive probe one is arranged on water inlet pipe one, TDS inductive probe two is arranged in nutritive water stoste storage bin; Electronic valve one, electronic valve two, TDS inductive probe one, TDS inductive probe two are connected with control centre respectively;

E, installation display floater and clamshell: on clamshell, install display floater, display floater and control centre are connected, then clamshell is installed on drain pan;

F, to debug, complete the assembling adding the water dispenser of beneficial element in right amount.

Each installation chlorination equipment in water inlet manifold and in water pipe two; In water inlet manifold, install a purifier, water inlet manifold directly connects running water.

A water dispenser for beneficial element can be added in right amount, comprise water inlet pipe, mineralization device, drinking water storage bin, nutritive water compensation control system and nutritive water stoste storage bin; Described mineralization device connects nutritive water stoste storage bin by water pipe one; Nutritive water stoste storage bin connects drinking water storage bin by water pipe two; Described nutritive water compensation control system comprises control centre, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises the water inlet pipe one and the water inlet pipe two being connected mineralization device that connect drinking water storage bin; Electronic valve comprises the electronic valve one be arranged on water inlet pipe one and the electronic valve two be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe one be arranged on water inlet pipe one and the TDS inductive probe two be arranged in nutritive water stoste storage bin.

Described mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum.

Described nutrition core has more than one or two; Described nutritive layer is by the bonding all-in-one-piece nutritive layer of food adhesive by powdered nutritional material; Described food adhesive adopts silica gel.

The described water dispenser that can add beneficial element in right amount also comprises chlorination equipment, and described water inlet pipe also comprises water inlet manifold; Water inlet pipe one is all connected water inlet manifold with water inlet pipe two; Described water inlet manifold and water pipe two are all provided with chlorination equipment.

Described chlorination equipment is ultraviolet sterilization apparatus.

The described water dispenser that can add beneficial element in right amount also comprises housing, and described mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin are installed in housing.

Described nutritive water compensation control system also comprises the display floater at connection control center, and described display floater is arranged in housing outer surface.

Described nutritive water compensation control system also comprises the level sensor be arranged in drinking water storage bin, described level sensor connection control center.

The described water dispenser that can add beneficial element in right amount also comprises the purifier be arranged in water inlet manifold.

The present invention as required, can control the TDS value of required drinking water, and the element (material) that appropriate interpolation is useful to human body in drinking water, meets the demand to drinking water that people are growing.The water dispenser that can add beneficial element in right amount in the application of the invention, a kind of nutritive water (i.e. nutritive water containing multiple nutritional components can be provided, except the mineral of needed by human body, other nutriment or medicines etc. can also be comprised), thus raising drinking water quality, be conducive to health.This nutritive water has sweet taste, and mouthfeel is good.These nutritional labelings be dissolved in water can comprise silicon, selenium, calcium, magnesium, zinc, iron, cadmium etc.; Human body lacks these trace elements and just easily falls ill.Through on probation, this kind of nutritive water detects through sending national inspection centers, and DDGS total content reaches 70-100mg/L (common pure water TDS is less than 5mg/L), containing multiple nutrients mineral.The present invention uses very convenient, by regulating nutritive water compensation control system, regulates and controls the TDS value of required drinking water easily and flexibly, makes the nutrient contents such as the mineral in nutritive water suitable, is applicable to the mouthfeel of people, reaches standard for drinking.By chlorination equipment, the bacterium in pure water and nutritive water stoste can be removed, sterilization efficient more than 99.9%.

Accompanying drawing explanation

Fig. 1 is the structural representation that can add the water dispenser of beneficial element in right amount in the embodiment of the present invention.

In figure: 1-mineralization device; 2-nutritive water stoste storage bin; 3-drinking water storage bin; 4-control centre; 5-ultraviolet sterilization apparatus; 6-TDS inductive probe one; 7-electronic valve one; 8-drinking water water tap with two outlet; 9-water inlet pipe one; 10-water inlet pipe two; 11-water pipe one; 12-water pipe two; 13-electronic valve two; 14-TDS inductive probe two; 15-water inlet manifold.

Detailed description of the invention

As shown in Figure 1, a kind of water dispenser that can add beneficial element in right amount, comprises water inlet pipe, mineralization device 1, drinking water storage bin 3, nutritive water compensation control system and nutritive water stoste storage bin 2; Described mineralization device connects nutritive water stoste storage bin by water pipe 1; Nutritive water stoste storage bin connects drinking water storage bin by water pipe 2 12; Described nutritive water compensation control system comprises control centre 4, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises water inlet manifold 15, the water inlet pipe 1 connecting drinking water storage bin and the water inlet pipe 2 10 being connected mineralization device; Electronic valve comprises the electronic valve 1 be arranged on water inlet pipe one and the electronic valve 2 13 be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe 1 be arranged on water inlet pipe one and the TDS inductive probe 2 14 be arranged in nutritive water stoste storage bin.Water inlet manifold and water pipe two are all provided with ultraviolet sterilization apparatus 5.Adopt ultraviolet sterilization apparatus, remove the bacterium in pure water and nutritive water stoste, sterilization efficient more than 99.9%.Drinking water storage bin is provided with drinking water water tap with two outlet 8.

Mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum.Nutritive layer is bonding integral by food adhesive (as silica gel) by powdered nutritional material.In nutritive layer nutritional labeling can comprise the material of or the needed by human body useful to human body that silicon, selenium, calcium, magnesium, zinc, iron, cadmium etc. can be dissolved in the water.Will as required in advance these nutriments allocate according to proper proportion.As required, other nutriments or water-soluble material such as medicine or other health substances can also be put in nutritive layer, the quality of drinking water can be improved further, increase the function of drinking water.

Pure water is after water inlet manifold, water inlet pipe two enter mineralization device from mineralization device water inlet, and dissolve mineralized material, TDS is 800-2000, and the water after mineralising is referred to as nutritive water stoste.Nutritive water stoste enters nutritive water stoste storage bin through water pipe one.Nutritive water stoste in nutritive water stoste storage bin enters drinking water storage bin by water pipe two (via the ultraviolet sterilization apparatus on water pipe two and electronic valve two) again.Simultaneously, pure water enters drinking water storage bin by water inlet manifold (ultraviolet sterilization apparatus via on water inlet manifold), water inlet pipe one (electronic valve one via on water inlet pipe one), the drinking water of the band mineral nutrition needed for being formed after mixing with nutritive water stoste.After also the delivery port of the delivery port of water inlet pipe one and water pipe two first can being connected to a total oral siphon, again by total oral siphon access drinking water storage bin, nutritive water stoste in pure water in water inlet pipe one and water pipe two is flowed in total oral siphon, is beneficial to pure water and nutritive water stoste is fully blended into drinkable water.

Nutritive water compensation control system: the TDS value being detected pure water and nutritive water stoste by TDS inductive probe, by control centre according to the information detected, control opening and closing and the opening time of electronic valve, namely the duration that whether discharges water and discharge water is made, thus control pure water and nutritive water stoste output quantity separately, mineralized material content in drinking water is made to control in target zone, i.e. TDS value 70-110.The water being detected drinking water storage bin by level sensor is how many, when being less than aequum, in time by signal transmission to control centre, control centre's unlocking electronic valve one and electronic valve two, put into the suitable water yield in drinking water storage bin.Nutritive water compensation control system can adopt electrical means to control, also initialize program can be adopted when needing to control, TDS value (comprising pure water and nutritive water stoste) will be detected and computing formula is write in initialize program, automatic control can be realized.By relevant information being shown on a display panel, and manual control button being set, can Non-follow control being realized.

Also by increasing purifier in water inlet manifold, directly running water can be connected.Water inlet manifold connects purifier, is supplied to mineralization device and drinking water storage bin by after tap water purifying respectively by water inlet pipe two and water inlet pipe one, thus the drinking water needed for obtaining.

The method of described automatic production nutritive water comprises the steps:

A, preparation alimentation composition: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into the shell of mineralization device;

B, produce nutritive water stoste: start to put into pure water by water inlet pipe, after pure water flows through mineralization device and, generate nutritive water stoste, and flow in nutritive water stoste storage bin for subsequent use;

The TDS value of C, detection pure water and nutritive water stoste: nutritive water compensation control system starts, detected the TDS value of the pure water in water inlet pipe one and the nutritive water stoste in nutritive water stoste storage bin by TDS inductive probe one and TDS inductive probe two respectively, and detection data are passed to control centre;

D, the drain time determining pure water and nutritive water stoste and flow: control centre, according to the data of the detection data received and required nutritive water, utilizes preset computing formula to carry out calculating and determines drain time and the flow of pure water and nutritive water stoste;

E, control discharge: control centre sends instruction to electronic valve one and electronic valve two, control start-up time and the close moment of electronic valve one and electronic valve two according to above-mentioned result of calculation, thus control drain time and the flow of pure water and nutritive water stoste;

F, obtain nutritive water: flow to the pure water of drinking water storage bin and nutritive water stoste after fully mixed, namely form required nutritive water.

Also on water inlet manifold and water pipe two, respectively a chlorination equipment can be installed, to the pure water and the disinfection of nutritive water stoste that flow through chlorination equipment, in water inlet manifold, install a purifier, water inlet manifold directly connects running water, obtains required pure water by purifier.

Described nutritive water compensation control system also comprises the level sensor be arranged in drinking water storage bin, described level sensor connection control center; By level sensor, detect the water level of drinking water storage bin, to supplement the nutrients water in time.

A making assemble method for the water dispenser of beneficial element can be added in right amount, comprise the steps:

A, making housing, mineralization device, control centre and display floater:

1) make housing, housing comprises drain pan and clamshell, reserved position of installing each part of water dispenser on drain pan, and described part comprises mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

2) mineralization device is made: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into shell, be made into mineralization device;

3) control centre is made: control centre comprises circuit board, sets up control module on circuit boards, and preset nutritive water compensatory control program in the control module;

B, relevant position on drain pan install mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

C, installation water pipe: connect mineralization device and nutritive water stoste storage bin with water pipe one; Nutritive water stoste storage bin and drinking water storage bin is connected with water pipe two; One end of water inlet pipe one connects drinking water storage bin; One end of water inlet pipe two connects mineralization device; Water inlet pipe one is all connected water inlet manifold with the other end of water inlet pipe two;

D, installation electronic valve and TDS inductive probe: north slope town electronic valve one is arranged on water inlet pipe one, is arranged on by electronic valve two on water pipe two; TDS inductive probe one is arranged on water inlet pipe one, TDS inductive probe two is arranged in nutritive water stoste storage bin; Electronic valve one, electronic valve two, TDS inductive probe one, TDS inductive probe two are connected with control centre respectively;

E, installation display floater and clamshell: on clamshell, install display floater, display floater and control centre are connected, then clamshell is installed on drain pan;

F, to debug, complete the assembling adding the water dispenser of beneficial element in right amount.

The data of required nutritive water comprise the related datas such as TDS value.

Nutritive water compensatory control program, comprising according to the data calculating pure water and the drain time of nutritive water stoste and the computing formula of flow that detect data (the TDS value etc. of pure water and nutritive water stoste) and required nutritive water.

The foregoing is only the preferred embodiments of the present invention, protection scope of the present invention is not limited thereto, within the spirit and principles in the present invention all, and any amendment done, equivalent replacement, improvement etc., be all included within protection scope of the present invention.

Claims (8)

1. automatically produce the method for nutritive water for one kind, it is characterized in that, first produce nutritive water stoste, then nutritive water stoste and pure water mixing are generated nutritive water, automatically the TDS value that the flow of the TDS value of pure water and nutritive water stoste, auto-control nutritive water stoste and pure water and drain time control nutritive water is detected by nutritive water compensation control system, thus in pure water, add the nutriment of aequum, obtain required nutritive water.

2. the method for automatic production nutritive water according to claim 1, it is characterized in that, the water dispenser that employing can add beneficial element is in right amount produced, and the described water dispenser that can add beneficial element in right amount comprises water inlet pipe, mineralization device, drinking water storage bin, nutritive water compensation control system and nutritive water stoste storage bin; Described mineralization device connects nutritive water stoste storage bin by water pipe one; Nutritive water stoste storage bin connects drinking water storage bin by water pipe two; Described nutritive water compensation control system comprises control centre, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises the water inlet pipe one and the water inlet pipe two being connected mineralization device that connect drinking water storage bin; Electronic valve comprises the electronic valve one be arranged on water inlet pipe one and the electronic valve two be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe one be arranged on water inlet pipe one and the TDS inductive probe two be arranged in nutritive water stoste storage bin; Described mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum;

The method of described automatic production nutritive water comprises the steps:

A, preparation alimentation composition: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into the shell of mineralization device;

B, production nutritive water stoste: start to put into pure water by water inlet pipe, after pure water flows through mineralization device, generate nutritive water stoste, and flow in nutritive water stoste storage bin for subsequent use;

The TDS value of C, detection pure water and nutritive water stoste: nutritive water compensation control system starts, detected the TDS value of the pure water in water inlet pipe one and the nutritive water stoste in nutritive water stoste storage bin by TDS inductive probe one and TDS inductive probe two respectively, and detection data are passed to control centre;

D, the drain time determining pure water and nutritive water stoste and flow: control centre, according to the data of the detection data received and required nutritive water, utilizes preset computing formula to carry out calculating and determines drain time and the flow of pure water and nutritive water stoste;

E, control discharge: control centre sends instruction to electronic valve one and electronic valve two, control start-up time and the close moment of electronic valve one and electronic valve two according to above-mentioned result of calculation, thus control drain time and the flow of pure water and nutritive water stoste;

F, obtain nutritive water: flow to the pure water of drinking water storage bin and nutritive water stoste after fully mixed, namely form required nutritive water.

3. the method for automatic production nutritive water according to claim 2, is characterized in that, also comprise the step of sterilization: water inlet manifold and water pipe two respectively install a chlorination equipment, to the pure water and the disinfection of nutritive water stoste that flow through chlorination equipment.

4. the method for automatic production nutritive water according to claim 2, is characterized in that, also comprise the step of purification: in water inlet manifold, install a purifier, water inlet manifold directly connects running water, obtains required pure water by purifier.

5. the method for automatic production nutritive water according to claim 2, it is characterized in that, the described water dispenser that can add beneficial element in right amount also comprises housing, and described mineralization device, drinking water storage bin, control centre and mineralized water stoste storage bin are installed in housing; Described nutritive water compensation control system also comprises the display floater at connection control center, and described display floater is arranged in housing outer surface.

6. the method for automatic production nutritive water according to claim 2, is characterized in that, described nutritive water compensation control system also comprises the level sensor be arranged in drinking water storage bin, described level sensor connection control center; By level sensor, detect the water level of drinking water storage bin, to supplement the nutrients water in time.

7. one kind can be added the making assemble method of the water dispenser of beneficial element in right amount, the described water dispenser that can add beneficial element in right amount comprises housing, water inlet pipe, mineralization device and drinking water storage bin, it is characterized in that, the described water dispenser that can add beneficial element in right amount also comprises nutritive water compensation control system and nutritive water stoste storage bin; Described mineralization device connects nutritive water stoste storage bin by water pipe one; Nutritive water stoste storage bin connects drinking water storage bin by water pipe two; Described nutritive water compensation control system comprises control centre, electronic valve, TDS inductive probe; Described electronic valve and the equal connection control center of TDS inductive probe; Described water inlet pipe comprises the water inlet pipe one and the water inlet pipe two being connected mineralization device that connect drinking water storage bin; Electronic valve comprises the electronic valve one be arranged on water inlet pipe one and the electronic valve two be arranged on water pipe two; TDS inductive probe comprises the TDS inductive probe one be arranged on water inlet pipe one and the TDS inductive probe two be arranged in nutritive water stoste storage bin; Described mineralization device comprises shell and is positioned at the nutrition core of shell; The porose water inlet layer of the band that described nutrition core comprises adjacent housings, water-yielding stratum with holes, nutritive layer between water inlet layer and water-yielding stratum; Described mineralization device, drinking water storage bin, control centre and mineralized water stoste storage bin are installed in housing; Described nutritive water compensation control system also comprises the display floater at connection control center, and described display floater is arranged in housing outer surface;

The described making assemble method that can add the water dispenser of beneficial element in right amount comprises the steps:

A, making housing, mineralization device, control centre and display floater;

1) make housing, housing comprises drain pan and clamshell, reserved position of installing each part of water dispenser on drain pan, and described part comprises mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

2) mineralization device is made: first desired nutritional material is broken into powdery by after predetermined ratio mixing, then adopt the bonding one-tenth nutritive layer of food adhesive, and after assembling the nutrition core comprising this nutritive layer, nutrition core is put into shell, be made into mineralization device;

3) control centre is made: control centre comprises circuit board, sets up control module on circuit boards, and preset nutritive water compensatory control program in the control module;

B, relevant position on drain pan install mineralization device, drinking water storage bin, control centre and nutritive water stoste storage bin;

C, installation water pipe: connect mineralization device and nutritive water stoste storage bin with water pipe one; Nutritive water stoste storage bin and drinking water storage bin is connected with water pipe two; One end of water inlet pipe one connects drinking water storage bin; One end of water inlet pipe two connects mineralization device; Water inlet pipe one is all connected water inlet manifold with the other end of water inlet pipe two;

D, installation electronic valve and TDS inductive probe: north slope town electronic valve one is arranged on water inlet pipe one, is arranged on by electronic valve two on water pipe two; TDS inductive probe one is arranged on water inlet pipe one, TDS inductive probe two is arranged in nutritive water stoste storage bin; Electronic valve one, electronic valve two, TDS inductive probe one, TDS inductive probe two are connected with control centre respectively;

E, installation display floater and clamshell: on clamshell, install display floater, display floater and control centre are connected, then clamshell is installed on drain pan;

F, to debug, complete the assembling adding the water dispenser of beneficial element in right amount.

8. the making assemble method that can add the water dispenser of beneficial element in right amount according to claim 7, is characterized in that, each installation chlorination equipment in water inlet manifold and in water pipe two; In water inlet manifold, install a purifier, water inlet manifold directly connects running water.