CN203346136U - Micro-cluster water preparation device - Google Patents
Micro-cluster water preparation device Download PDFInfo
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- CN203346136U CN203346136U CN 201320443332 CN201320443332U CN203346136U CN 203346136 U CN203346136 U CN 203346136U CN 201320443332 CN201320443332 CN 201320443332 CN 201320443332 U CN201320443332 U CN 201320443332U CN 203346136 U CN203346136 U CN 203346136U
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- water
- annular metal
- metal
- magnetic container
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Abstract
The utility model discloses a micro-cluster water preparation device which comprises a non-magnetic conduction container for holding water, wherein the bottom of the non-magnetic conduction container sinks upward to form an electric cavity; an excitation coil is arranged in the electric cavity; an annular metal body is arranged in the non-magnetic conduction container; the annular metal body is soaked in a water body in the non-magnetic conduction container and surrounds the wall of the electric cavity; the annular metal body comprises a metal ring body; a discharge slot or discharge hole is formed in the metal ring body; the excitation coil is connected with a control circuit to provide an alternating magnetic field environment to the annular metal body. According to the micro-cluster water preparation device disclosed by the utility model, the structure is simple, the technology is not complicated, the preparation period is shortened, and the production efficiency is improved. In the prepared micro-cluster water, the half-peak width of a water sample <17>O NMR is small, and the micro-cluster water has stable property and delicate taste.
Description
Technical field
The utility model relates to water-treatment technology field, is specifically related to a kind of small-micelle water and prepares device.
Background technology
At present, in chemical industry and physics industrial circle widely, because of small-micelle water less than the molecular grouping of normality water, make small-micelle water there is solvent power and seepage force preferably, for this reason, people more and more pay attention to using small-micelle water as raw materials for production, particularly makeup and non-leaded gasoline field, drop into especially very large effort, attempted to find a kind of convenience, simple method prepares small-micelle water.But, the method that the macromolecular mass of water is refined into to subset is often very complicated, all by tens of procedures mostly, centre needs to participate in diversified industrial chemicals and equipment utensil, causes the operation of preparation also complicated, thereby the structure that causes the equipment for preparing small-micelle water is also along with complicated, and then make the cost of manufacture extra-high-speed, impel the finished industrial product price that small-micelle water is made also to occupy a commanding position, be difficult to obtain broad masses and be widely used, application obtains larger restriction.
The utility model content
The purpose of this utility model is to overcome the deficiencies in the prior art, provides a kind of convenience, the small-micelle water that simple, cost of manufacture is low to prepare device.
Utility model purpose of the present utility model is achieved in that a kind of small-micelle water prepares device, comprise the non-magnetic container be filled with water, bottom at described non-magnetic container upwards is recessed to form electric chamber, in electric chamber, magnet coil is set, inside at described non-magnetic container is provided with annular metal, described annular metal is dipped in the water body in non-magnetic container and around the wall setting of electric chamber, described annular metal comprises the metal ring body, on described metal ring body, is provided with discharge groove or discharge aperture; Described magnet coil connects pilot circuit to realize providing to described annular metal the environment of alternating magnetic field.
Described annular metal is split ring or the closed circle that head and the tail disconnect.
Described discharge groove one end opening is in the edge of metal ring body.
Described metal ring body by multi-disc independently tinsel be connected to form, close clearance between adjacent two metal sheets forms discharge groove.
A kind of small-micelle water prepares device, comprises the non-magnetic container be filled with water, and in the inside of described non-magnetic container, is provided with annular metal, comprises the metal ring body, on the metal ring body, is provided with discharge groove; Described annular metal is dipped in the water body in non-magnetic container, in the outer setting of described non-magnetic container, magnet coil is arranged; Described annular metal is near the bottom interior wall setting of non-magnetic container, and described magnet coil is around the bottom outer wall setting of non-magnetic container; Described magnet coil connects pilot circuit to realize providing to described annular metal the environment of alternating magnetic field.
Described annular metal is split ring or the closed circle that head and the tail disconnect.
The beneficial effects of the utility model are: under the effect of magnet coil alternating magnetic field, underwater gold belongs to the inner eddy current that forms of body, and produce electric discharge phenomena between its discharge groove or adjacent segment, water body generation light current solution, the hydrogen bond of water molecules disconnects, and has changed and then the macromolecular mass of water is refined into to subset, it is simple that small-micelle water of the present utility model prepares apparatus structure, technique is uncomplicated, shortens fabrication cycle, enhances productivity.And the setting that the method is used is to be loaded with the non-magnetic container of processed water, metallic object in non-magnetic container and to apply the respective outer side edges of the magnet coil in magnetic field by Sheng, in prepared small-micelle water, water sample
17o NMR peak width at half height numerical value is low, and the subset water-based is stable, delicate mouthfeel.
Small-micelle water of the present utility model has the advantages such as high infiltration, high diffusion, high emulsifying strength, high solvency power, weakly alkaline, and it is active strong.
The accompanying drawing explanation
Fig. 1 is the structural representation that the utility model small-micelle water prepares device.
Fig. 2 is the annular metal one example structure schematic diagram that the utility model small-micelle water prepares device.
Fig. 3 is the annular metal two example structure schematic diagram that the utility model small-micelle water prepares device.
Fig. 4 is the annular metal three example structure schematic diagram that the utility model small-micelle water prepares device.
Fig. 5 is another structural representation that the utility model small-micelle water prepares device.
Fig. 6 is the annular metal four example structure schematic diagram that the utility model small-micelle water prepares device.
Fig. 7 is the annular metal five example structure schematic diagram that the utility model small-micelle water prepares device.
Fig. 8 is the annular metal internal current schematic diagram (split ring) that the utility model small-micelle water prepares device.
Fig. 9 is the annular metal internal current schematic diagram (closed circle) that the utility model small-micelle water prepares device.
Embodiment
Below in conjunction with accompanying drawing, the utility model will be further described.
Embodiment mono-
Referring to figs. 1 through Fig. 2, small-micelle water of the present utility model prepares device, comprise the non-magnetic container 1 be filled with water, be provided with annular metal 2 in the inside of non-magnetic container, annular metal 2 is split rings that head and the tail disconnect, comprise metal ring body and ring fracture 22, on the metal ring body, be provided with discharge groove; Annular metal is in the water body be dipped in non-magnetic container, in the outer setting of described non-magnetic container, magnet coil 3 is arranged.Described magnet coil connects pilot circuit to realize providing to described annular metal the environment (not shown) of alternating magnetic field.
The bottom of described non-magnetic container upwards is recessed to form electric chamber, and described magnet coil is arranged in electric chamber, and described annular metal is around electric cavity outer wall setting.Discharge groove one end opening is in the edge of metal ring body.
Embodiment bis-
With reference to Fig. 1 and Fig. 3, prepared in device by small-micelle water of the present utility model, and annular metal 2 is closed circles, on the metal ring body, is provided with discharge groove.Discharge groove one end opening is in the edge of metal ring body.All the other structures are with embodiment mono-.
Embodiment tri-
With reference to Fig. 1 and Fig. 4, prepared in device by small-micelle water of the present utility model, annular metal 2 by multi-disc independently tinsel 23 be connected to form, close clearance between adjacent two metal sheets forms discharge groove.The adjacent metal sheet is fixedly connected to form the metallic object of a ring-type with bandage 24.All the other structures are with embodiment mono-.
In the above embodiments, non-magnetic container 1 is to be made by glass or pottery.
Embodiment tetra-
With reference to Fig. 1 and Fig. 6, prepared in device by small-micelle water of the present utility model, and annular metal 2 is closed circles, is provided with discharge aperture 25 on the metal ring body.All the other structures are with embodiment mono-.
Embodiment five
With reference to Fig. 1 and Fig. 7, prepared in device by small-micelle water of the present utility model, and annular metal 2 is split rings that head and the tail disconnect, and comprises metal ring body and ring fracture 22, on the metal ring body, is provided with discharge aperture.All the other structures are with embodiment mono-.
Embodiment six
Referring to Fig. 5 and Fig. 2, small-micelle water of the present utility model prepares device, comprise the non-magnetic container 1 be filled with water, be provided with annular metal 2 in the inside of non-magnetic container, annular metal 2 is split rings that head and the tail disconnect, comprise metal ring body and ring fracture 22, on the metal ring body, be provided with discharge groove, discharge groove one end opening is in the edge of metal ring body.Annular metal is in the water body be dipped in non-magnetic container, in the outer setting of described non-magnetic container, magnet coil 3 is arranged.Described magnet coil connects pilot circuit to realize providing to described annular metal the environment (not shown) of alternating magnetic field.Described annular metal is near the bottom interior wall setting of non-magnetic container, described magnet coil is placed between magnet coil and annular metal the base wall of non-magnetic container 1 around the bottom outer wall setting of non-magnetic container, and annular metal is surrounded by magnet coil.
Embodiment seven
Referring to Fig. 5 and Fig. 3, prepared in device by small-micelle water of the present utility model, and annular metal 2 is closed circles, on the metal ring body, is provided with discharge groove.Discharge groove one end opening is in the edge of metal ring body.All the other structures are with embodiment six.
Embodiment eight
Referring to Fig. 5 and Fig. 4, prepared in device by small-micelle water of the present utility model, annular metal 2 by multi-disc independently tinsel 23 be connected to form, close clearance between adjacent two metal sheets forms discharge groove.The adjacent metal sheet is fixedly connected to form the metallic object of a ring-type with bandage 24.All the other structures are with embodiment six.
Below, the small-micelle water that above embodiment is described in detail in detail prepares the preparation method of the small-micelle water of device: annular metal is placed in the bottom at the non-magnetic container be filled with water, control magnet coil by pilot circuit and apply alternating magnetic field to annular metal, the discharge groove of annular metal or discharge aperture generation electric discharge phenomena make the water body light current solution in non-magnetic container, thereby form small-micelle water.
The utility model application electromagnetic induction principle, utilize the drum type brake magnet coil, produce the ultrasonic frequency electromagnetic field, magnetic line of force penetrates the non-magnetic containers 1 such as borosilicate high temp glass kettle, water body in vessel is carried out to the high frequency cutting, and be placed in the annular metal 2 in non-magnetic container, form internal vortex and generate heat under the magnetoresistive effect effect of magnet coil, make annular metal with light current, and its discharge groove or discharge aperture generation electric discharge phenomena, by water light current solution, the hydrogen bond of water molecules is disconnected, thereby promote the water of macromolecular mass to be converted into small-micelle water.
First annular metal is positioned over to contain and is stated from the water on non-magnetic container 1, then, apply alternating magnetic field, common method is for to adopt powerful electronic oscillating circuit to be converted into the ultrasonic frequency alternating-current of 1500V25000HZ the industrial-frequency alternating current of 220V50HZ, recycling magnet coil 3---use Faraday's law, generation has the alternating electromagnetic field of vibration of ultrasonic wave effect, magnetic line of force penetrates non-magnetic container 1, make the surface of annular metal produce powerful inductive loop electric current, form stronger potential difference, and under several discharge aperture that are provided with at annular metal and the effect of discharge groove, surperficial tomography inductive loop electric current at annular metal forms moment polarity battery effect, directly positive charge is passed to the O of water molecules
2-oxonium ion, negative charge pass to the H+ hydrogen ion of water molecules, by electric energy, exchange, and make the water molecules electrolytic reaction, produce micro-O
2, H
2, HO
2, O
3, H
2o
2deng material, alternation magnetic line of force in ultrasonic frequency carries out exciting magnetization processing to the water of non-magnetic container 1 simultaneously, makes water molecules H
2the hydrogen-oxygen H-O valence bond angle of O becomes 103 by 105 of ortho-water, produces small-micelle water.
The small-micelle water of preparing by the standby device of little minute above-mentioned group water, the macromolecular mass water infiltration dissolving power of its relative ortho-water improves 63%; The surface tension of its water molecules reduces, viscosity degradation; Reductibility strengthens rapidly, and water oxygen level significantly increases, and the water clusters state of formation is by 50-60 H of ortho-water
2o reduces to 5-7 H
2o, diameter is less than 2nm (nanometer), has movement velocity fast, and infiltration and dissolving power are strong; And, produce powerful inductive loop electric current on the surface of annular metal, cause the metallic molecule of annular metal to form concussion, rapid frictional heating, the harmful elements such as the chlorine of water, fluorine can be removed, reach sterilization.Like this, solve prior art and prepare under the complicated basis of the method for small-micelle water, simplify the structure of the little minute standby device of group water, the input greatly reduced costs, be conducive to the small-micelle water that preparation cost is more cheap.
Referring to Fig. 5, when annular metal is the split ring of head and the tail disconnection, the positive negative potential in ring is positioned at the fracture two ends of ring, forms along the circumferential induced current encircled, circumferentially induced current produces radially through the current direction of discharge groove or discharge aperture, and the electric discharge phenomena of discharge aperture or discharge groove are more obvious.
Referring to Fig. 6, when annular metal is end to end metal ring, the positive negative potential in ring is positioned at the surfaces externally and internally of ring, and induced current flows to another side from a side of ring, induced current axially, through discharge aperture or discharge groove, equally also can produce electric discharge phenomena.When the annular metal that is applied in alternating magnetic field with potential difference, by discharge aperture or discharge groove, make with the metal ring body of potential difference directly positive charge to water molecules, reach the macromolecular mass water of water is refined as to small-micelle water, realize ortho-water is prepared as to small-micelle water.According to reality is required, choose, the shape of these several discharge aperture can be circle, or square, or oval etc.And discharge groove is strip, an end opening is in the edge of metal ring body.
In order to verify the chemical physics performance of the small-micelle water that above-mentioned small-micelle water preparation method is made, the applicant entrusts Fudan University's analyzing and testing center to use the small-micelle water that the utility model makes to be detected to obtain following examining report to the applicant:
(annotate: following detection data are from Fudan University's analyzing and testing center, and examining report is numbered: 13070305)
By above-mentioned examining report, be it seems: 1, making parameter is
17o NMR peak width at half height is the 54HZ small-micelle water, from water sample detection data both domestic and external/report, it seems,
17if O NMR peak width at half height is little, to 80HZ, be the small-micelle water of thinking that states of matter is stable, therefore, the water sample made by aforesaid method is very stable small-micelle water.The total dissolved solid content of the small-micelle water that 2, the method makes is that 166.6 mg/L[annotate: the sense of taste relation of the amount of total dissolved solid and tap water: fabulous (being less than 300mg/L); Good (300~600mg/L); Generally (600~900mg/L); Poor (900~1200mg/L); Can't drink (being greater than 1200mg/L)], illustrate that this mouth of a river sense is splendid, very fine and smooth, there is the characteristic of small-micelle water.3, this water sample is conventional tap water before tested, the total dissolved solid content of conventional tap water is partial to fresh water value<100mg/L, the total dissolved solid content of the water small-micelle water that the method makes is 166.6 mg/L, explanation for this reason, the dissolving power that the method makes small-micelle water greatly improves, and has also met the high-solvency characteristic of small-micelle water.
Above-mentioned specific embodiment is only the utility model effect embodiment preferably, and all or small-micelle waters that be equal to identical with this structure prepare device and preparation method thereof, all in the application's protection domain.
Claims (6)
1. a small-micelle water prepares device, comprise the non-magnetic container be filled with water, it is characterized in that: the bottom at described non-magnetic container upwards is recessed to form electric chamber, in electric chamber, magnet coil is set, inside at described non-magnetic container is provided with annular metal, described annular metal is dipped in the water body in non-magnetic container and, around the wall setting of electric chamber, described annular metal comprises the metal ring body, on described metal ring body, is provided with discharge groove or discharge aperture; Described magnet coil connects pilot circuit to realize providing to described annular metal the environment of alternating magnetic field.
2. preparation facilities according to claim 1 is characterized in that: described annular metal is split ring or the closed circle that head and the tail disconnect.
3. preparation facilities according to claim 2, it is characterized in that: described discharge groove one end opening is in the edge of metal ring body.
4. preparation facilities according to claim 2 is characterized in that: described metal ring body by multi-disc independently tinsel be connected to form, the close clearance between adjacent two metal sheets forms discharge groove.
5. a small-micelle water prepares device, comprises the non-magnetic container be filled with water, and it is characterized in that: the inside at described non-magnetic container is provided with annular metal, comprises the metal ring body, on the metal ring body, is provided with discharge groove; Described annular metal is dipped in the water body in non-magnetic container, in the outer setting of described non-magnetic container, magnet coil is arranged; Described annular metal is near the bottom interior wall setting of non-magnetic container, and described magnet coil is around the bottom outer wall setting of non-magnetic container; Described magnet coil connects pilot circuit to realize providing to described annular metal the environment of alternating magnetic field.
6. preparation facilities according to claim 5 is characterized in that: described annular metal is split ring or the closed circle that head and the tail disconnect.
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CN 201320443332 CN203346136U (en) | 2013-07-24 | 2013-07-24 | Micro-cluster water preparation device |
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CN 201320443332 CN203346136U (en) | 2013-07-24 | 2013-07-24 | Micro-cluster water preparation device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103408114A (en) * | 2013-07-24 | 2013-11-27 | 李镇南 | Preparation apparatus and preparation method of micro clustered water |
WO2015003620A1 (en) * | 2013-07-09 | 2015-01-15 | Li Zhennan | Micromolecular cluster water preparation method and micromolecular cluster water preparation device using same |
CN104433863A (en) * | 2014-11-28 | 2015-03-25 | 顺德职业技术学院 | Novel soybean milk machine |
-
2013
- 2013-07-24 CN CN 201320443332 patent/CN203346136U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015003620A1 (en) * | 2013-07-09 | 2015-01-15 | Li Zhennan | Micromolecular cluster water preparation method and micromolecular cluster water preparation device using same |
CN103408114A (en) * | 2013-07-24 | 2013-11-27 | 李镇南 | Preparation apparatus and preparation method of micro clustered water |
CN104433863A (en) * | 2014-11-28 | 2015-03-25 | 顺德职业技术学院 | Novel soybean milk machine |
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Legal Events
Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20131218 Termination date: 20170724 |
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CF01 | Termination of patent right due to non-payment of annual fee |