WO2016176826A1 - Anionic water generator - Google Patents

Abstract

An anionic water generator (1), used for increasing the anion concentration of anionic water produced by the anionic water generator (1), comprising: a base (11); an anion generator (12) incorporated into the base (11), said anion generator (12) being respectively connected to a tube body (121) and an air pump (122), the end of the tube body (121) furthest from the anion generator (12) forming an anion release outlet (121a); an ultrasound wave generator (13) incorporated into the base (11) and connected to an oscillating body (131) via a connecting rod (132); and a power supply module (14) incorporated into the base (11), said power supply module (14) being electrically connected respectively to the anion generator (12), the air pump (122), and the ultrasound wave generator (13).

Description

Negative ion water generator Technical field

The present invention relates to an anion water generator, and more particularly to an anion water generator capable of reducing water molecules to facilitate the dissolution of negative ions in water.

Background technique

Referring to FIG. 1 , a conventional negative ion water generator 9 includes a water tank 91 and an negative ion generator 92. The negative ion generator 92 is fixed to the outside of the water tank 91, and the negative ion generator 92 has An negative ion release port 921 is disposed toward the continuous perforation 911 opened in the outer wall of the water bladder 91. Thereby, the negative ion generator 92 can continuously release negative ions through the negative ion release port 921, and allow negative ions to enter the water bladder 91 through the through hole 911 to be dissolved in water, so that the water body accommodated in the water bladder 91 Form negative ion water. An embodiment of the prior art negative ion water generator 9 has been disclosed in the Taiwan Patent Publication No. M266428, "Water Dispenser for Producing Negative Ion Water".

technical problem

However, the negative ions released from the negative ion release port 921 enter the water bladder 91 through the through hole 911, and only contact the liquid surface of the water body W, so that the rate at which the negative ions dissolve in the water body W is slow, and when the water body W dissolves After a certain amount of negative ions, the concentration of negative ions in the portion of the water body W near its liquid surface may cause the water body W to dissolve more negative ions through its liquid surface. Accordingly, when the negative ion water is produced by the conventional negative ion water generator 9, the rate at which the negative ions dissolve the water W is too slow, and the product usability of the conventional negative ion water generator 9 may be lowered.

Furthermore, the structure of the water molecule is affected by hydrogen bonding, and a water molecule easily generates a mutual attraction force with adjacent water molecules, which forces the water body formed by the aggregation of water molecules to have cohesive force, and because the water body contains a large amount of water. Molecules, affected by hydrogen bonds, water molecules in the water will attract each other and naturally form a lot of water molecules; the general water molecule of tap water is composed of more than 14 water molecules. In the above water body W, the number of water molecules in the water molecule group naturally formed by the water molecules is large in the case of being unaffected by the external force, so that the water molecule group in the water body W is bulky, which makes the negative ions difficult to adhere. In the water molecule, the ratio of directly causing the negative ions to be successfully dissolved in the water body W is lowered, so that the negative ion water produced by the conventional negative ion water generator 9 has a lower negative ion concentration.

In view of the above, there is a need to provide a further improved negative ion water generator to solve the problem that the negative ion concentration of the negative ion water produced by the conventional negative ion water generator 9 is "the rate of dissolution of the negative ions in the water is too slow" and the negative ion concentration of the negative ion water produced. Lower" and other issues.

Technical solution

An object of the present invention is to provide a negative ion water generator, which is coupled to a body by a negative ion generator, the negative ion generator being connected to a tube body, the tube body forming a negative ion release port away from one end of the negative ion generator. The tube body can extend into the interior of a container such that the negative ion release port is formed inside the container and has the effect of increasing the rate at which negative ions are dissolved in the body of water.

Another object of the present invention is to provide a negative ion water generator by coupling an ultrasonic generator to the base body, the ultrasonic generator connecting the oscillating body via a connecting rod, and the connecting rod can extend into the interior of the container. The oscillating body release port is formed inside the container and has the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator.

In order to achieve the foregoing object, the technical means utilized by the present invention include:

An negative ion water generator comprises: a seat body; an negative ion generator coupled to the seat body, the negative ion generator being respectively connected to a pipe body and an air pump, the pipe body forming a tail away from the end of the negative ion generator a negative ion release port; an ultrasonic generator coupled to the base body, the ultrasonic generator connected to an oscillating body via a connecting rod; and a power supply module coupled to the base body, the power supply module electrically connecting the negative ion respectively a generator, the air pump, and the ultrasonic generator.

The negative ion water generator of the present invention, wherein the base body comprises a bracket and a base, the bracket is coupled to the base, and the bracket extends in a longitudinal direction away from the base, the negative ion generator and the ultrasonic generation The devices are respectively incorporated in the bracket.

The negative ion water generator of the present invention, wherein the tube body of the negative ion generator protrudes outside the bracket of the base body and extends toward the base along the longitudinal direction, and the connecting rod of the ultrasonic generator also protrudes from the seat The body of the body extends outwardly and along the longitudinal direction toward the base.

The negative ion water generator of the present invention, further comprising a container disposed adjacent to the base of the base body, the container having an opening through which the tube body and the connecting rod extend into the interior of the container to generate the negative ions The negative ion release port of the device and the oscillating body of the ultrasonic generator are formed inside the container.

The negative ion water generator of the present invention further comprises a magnetizer which is a permanent magnetized body made of a hard magnetic material, the magnetizer being disposed adjacent to the base of the base body, and the magnetizer is along the longitudinal direction The direction is opposite to the tube body and the connecting rod.

The negative ion water generator of the present invention further comprises a magnetizer, the magnetizer being composed of an electromagnetic coil coupled to the base body and electrically connected to the power supply module.

The negative ion water generator of the present invention, wherein the base of the base body has a bearing surface along the longitudinal direction toward the tubular body of the negative ion generator and the connecting rod of the ultrasonic generator, and the magnetizer is coupled to the magnetic ionizer The base is adjacent to the position of the bearing surface.

The negative ion water generator of the present invention further comprises a container disposed on the bearing surface of the base, the container having an opening through which the tube body and the connecting rod extend into the container to cause the negative ions to be generated The negative ion release port of the device and the oscillating body of the ultrasonic generator are formed inside the container.

The negative ion water generator of the present invention, wherein the power supply module comprises a power line for electrically connecting a power source external to the negative ion water generator.

The negative ion water generator of the present invention, wherein the container is connected to an outlet pipe, the end of the outlet pipe is connected to a water outlet, and further comprises a magnetizer, the magnetizer having a permanent magnet, the permanent magnet being disposed at the outlet pipe The permanent magnet has a magnetic field strength of 3000~5000 Gs.

The negative ion water generator of the present invention, wherein the permanent magnet has a magnetic field strength of 4000 ± 10% Gs.

The negative ion water generator of the present invention, wherein the permanent magnet is provided on an outer circumference of the water outlet pipe.

In the negative ion water generator of the present invention, the magnetic pole face of the permanent magnet is attached and fixed to the outer pipe wall of the water outlet pipe.

In the negative ion water generator of the present invention, the outer tube wall of the water outlet pipe is provided with a joint surface, and the magnetic pole surface of the permanent magnet is attached to the joint surface.

The negative ion water generator of the present invention, wherein the magnetizer has a magnetic sealing member that covers the permanent magnet and exposes a magnetic pole face of the permanent magnet to the outlet pipe.

The negative ion water generator of the present invention, wherein the water molecule refiner has a cover body covering the magnetic sealing member.

The negative ion water generator of the present invention, wherein the magnetic sealing member and the cover have a rustproof layer.

The negative ion water generator of the present invention, wherein the rustproof layer is formed on an outer surface of the magnetic sealing member or an inner surface of the cover.

The negative ion water generator of the present invention, wherein the magnetizer has at least one fixing member attached to the cover body to bundle the outlet pipe with the permanent magnet, the sealing member and the cover body Together.

The negative ion water generator of the present invention, wherein the water molecule refiner has another permanent magnet, the two permanent magnets being spaced apart along the outer tube wall of the outlet pipe.

In the negative ion water generator of the present invention, the two permanent magnets are disposed on opposite radial sides of the water outlet pipe, and the two permanent magnets are opposed to each other by different magnetic poles.

In the negative ion water generator of the present invention, the surface of the permanent magnet for attaching the water outlet pipe has a curved surface shape.

DRAWINGS

Figure 1 is a cross-sectional view showing the structure of a fan of a conventional negative ion water generator.

Fig. 2 is a perspective view showing the appearance of the first embodiment of the present invention.

Figure 3 is a perspective view showing the appearance of a second embodiment of the present invention.

Figure 4 is a perspective view showing the appearance of a third embodiment of the present invention.

Fig. 5 is a perspective view showing the appearance of a fourth embodiment of the present invention.

Fig. 6 is an enlarged schematic view showing a water outlet pipe and a magnetizer of a container according to a fourth embodiment of the present invention.

Fig. 7 is a perspective view showing the first embodiment of a magnetizer according to a fourth embodiment of the present invention.

Figure 8 is a cross-sectional view showing a first embodiment of a magnetizer according to a fourth embodiment of the present invention.

Figure 9 is a cross-sectional view showing a second embodiment of a magnetizer according to a fourth embodiment of the present invention.

Figure 10 is a cross-sectional view showing a third embodiment of a magnetizer according to a fourth embodiment of the present invention.

Figure 11 is a cross-sectional view showing another perspective view of a third embodiment of the magnetizer of the fourth embodiment of the present invention.

Fig. 12 is a graph showing the results of nuclear magnetic resonance detection of small molecule water having negative ionized water molecules obtained in the fourth embodiment of the present invention.

[Main component symbol description]

〔this invention〕

1 negative ion water generator

11 seat body 111 bracket

112 base 112a bearing surface

12 Negative ion generator 121 body

121a Negative ion release port 122 Air pump

13 Ultrasonic generator 131 Oscillator

132 connecting rod

14 Power Supply Module 141 Power Cord

15 magnetizer 15' magnetizer

151 permanent magnet 152 magnetic seal

153 cover 154 fixing parts

X longitudinal direction

C container C1 opening

C2 outlet pipe C21 joint surface

C3 outlet

W water body

R rustproof layer

〔current technology〕

9 existing negative ion water generator

91 water bladder 911 through hole

92 negative ion generator 921 negative ion release

W water body.

BEST MODE FOR CARRYING OUT THE INVENTION

The above and other objects, features and advantages of the present invention will become more <RTIgt;

"negative ion" as described throughout the present invention Water) refers to water molecules containing negative ionization in water. Specifically, the negatively charged hydroxide ion (OH-) can be attached to the water molecule to form a negative ionized molecule (H2O3-); and the negative ion concentration described in the full text of the invention refers to the negative ion contained in the water body. The concentration of water molecules is understood by those of ordinary skill in the art to which the present invention pertains.

Referring to FIG. 2, the negative ion water generator 1 of the first embodiment of the present invention comprises a body 11, an negative ion generator 12, an ultrasonic generator 13, and a power supply module 14. The negative ion generator 12, the ultrasonic generator 13 and the power supply module 14 can be respectively coupled to the base 11.

Specifically, the base 11 includes a bracket 111 and a base 112. The bracket 111 is coupled to the base 112. The base 112 is for attachment to a surface of a table or other object of a table, and the bracket 111 can extend in a longitudinal direction X away from the base 112. The negative ion generator 12 and the ultrasonic generator 13 may be respectively coupled to the bracket 111 such that the negative ion generator 12 and the ultrasonic generator 13 are disposed when the base 112 is disposed on a surface of a table or other object of a table. A spacing may be formed in the longitudinal direction X from the table or other object.

The negative ion generator 12 is connected to a tube body 121 and an air pump 122. The tube body 121 forms a negative ion release port 121a away from one end of the negative ion generator 12. The tube body 121 protrudes outside the bracket 111 of the base body 11 and extends toward the base 112 along the longitudinal direction X. The air pump 122 can be an existing micro air pump, and the negative ion generator 12 and the air pump 122 can be electrically connected to the power supply module 14 respectively to obtain the operation of the negative ion generator 12 and the air pump 122. The electrical energy required. Thereby, the air pump 122 can input air into the negative ion generator 12, and the negative ion generator 12 can convert the low voltage into a DC negative high voltage by using an existing boosting element such as a pulse circuit and an oscillator to The internal air ionization forms negative ions, and since the air pump 122 continuously inputs air into the negative ion generator 12, the air passing through the negative ion generator 12 along with the negative ions will be released through the tubular body 121 via the negative ion release port 121a. . Since the operation principle of the negative ion generator 12 can be understood by those skilled in the art to which the present invention pertains, the detailed operation of the negative ion generator 12 and the air pump 122 will not be described again.

The ultrasonic generator 13 is connected to an oscillating body 131. More specifically, the ultrasonic generator 13 is connected to the oscillating body 131 via a connecting rod 132. The connecting rod 132 protrudes outside the bracket 111 of the base body 11 and along the The longitudinal direction X extends toward the base 112. The ultrasonic generator 13 can be electrically connected to the power supply module 14 to obtain electric energy required for supplying the ultrasonic generator 13 to operate. The ultrasonic generator 13 is for generating a vibration wave having a vibration frequency exceeding 20 kHz, and transmits the vibration wave to the oscillating body 131 via the link 132 to cause the oscillating body 131 to vibrate.

The power supply module 14 can be a power conversion device (for example, a transformer), and the power supply module 14 can be electrically connected to a power source external to the negative ion water generator 1 via a power line 141 (for example, a power source). And the power supply module 14 can perform processing such as voltage transformation and AC/DC conversion on the power input by the power line 141 to generate the negative ion generator 12, the air pump 122, or the ultrasonic generator 13 for operation. Electrical energy. However, the power supply module 14 can also be an independent power supply device (eg, a battery pack) such that the power supply module 14 can directly provide the negative ion generator 12, the air pump 122, or the power required by the ultrasonic generator 13. There is no need to separately electrically connect the power supply outside the negative ion water generator 1, which can be easily considered by those skilled in the art.

With the above structure, please refer to FIG. 2, when the negative ion water generator 1 of the first embodiment of the present invention is actually used, a container C can be disposed adjacent to the base 112 of the base 11, and the container C has an opening. C1, and the opening C1 may face the tubular body 121 of the negative ion generator 12 and the connecting rod 132 of the ultrasonic generator 13. Thereby, the tube body 121 and the connecting rod 132 can extend into the container C through the opening C1, and the negative ion releasing port 121a of the negative ion generator 12 and the oscillating body 131 of the ultrasonic generator 13 are formed in the container C. internal.

The interior of the container C can accommodate a body of water W, whereby the negative ion release port 121a and the oscillating body 131 can be formed in the body of water W. After the negative ion water generator 1 of the first embodiment is activated, the negative ion generator 12 will generate negative ions and pass through the tube 121 to release negative ions via the negative ion release port 121a, such that the negative ions are discharged from the negative ion release port 121a. Enter the water body W. At the same time, the ultrasonic generator 13 will generate a vibration wave and conduct the vibration wave to the oscillating body 131 via the connecting rod 132, causing the oscillating body 131 to vibrate, thereby driving the water body W to generate vibration. Accordingly, the negative ions are effectively dissolved in the water body W to adhere to the water molecules in the water body W, so that the water molecules in the water body W can form negatively ionized water molecules, thereby causing the water body W to form negative ions. water.

It is to be noted that since the negative ion release port 121a of the negative ion generator 12 is formed inside the container C, the negative ion release port 121a can be formed in the water body W, and the negative ion generator 12 is connected to the air pump 122, The air pump 122 continuously inputs air into the negative ion generator 12 to force the negative ions to be released through the negative ion release port 121a, so that when the negative ions are released from the negative ion release port 121a, they directly enter the water body W, and the water body W can be The water molecules in the medium are in full contact. The negative ions released from the negative ion release port 921 of the prior art negative ion water generator 9 are only in contact with the liquid surface of a water body W, so that the contact area between the negative ions and the water body W is small, and the negative ions of the first embodiment of the present invention The water generator 1 can directly release the negative ions from the negative ion release port 121a and enter the water body W to form a large contact area between the negative ions and the water body W, and has the effect of increasing the rate at which the negative ions are dissolved in the water body W. .

Moreover, when the negative ion water generator 1 of the first embodiment of the present invention is used to produce negative ion water, the existing negative ion water generator 9 is not subjected to a negative ion in the water body W after the water body W dissolves a certain amount of negative ions. The concentration of the liquid surface is relatively high, which causes the water body W to be unable to dissolve more negative ions through its liquid surface; in contrast, in the present embodiment, the negative ions are directly released from the negative ion release port 121a. In the water body W, the negative ions are uniformly dissolved in the water body W, so that the negatively ionized water molecules are evenly distributed in the water body W, so that the rate at which the negative ions are dissolved in the water body W is less likely to increase with the negative ion concentration of the water body W. reduce.

Furthermore, it is known that the ultrasonic generator 13 can generate a vibration wave having a vibration frequency exceeding 20 kHz, and when the vibration wave generated by the ultrasonic generator 13 is transmitted to the oscillating body 131, thereby driving the water body W to vibrate, it will be destructible. The hydrogen bond of the water molecule structure reduces the mutual attraction force between adjacent water molecules, and effectively reduces the number of water molecules in the water molecule group in the water body W. Therefore, the negative ion water generator 1 of the first embodiment of the present invention can reduce the volume of water molecules in the water body W by providing the ultrasonic generator 13 to reduce the difficulty of the negative ions adhering to the water molecules, thereby increasing the dissolution of the negative ions. The ratio of the water body W does have an effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator 1.

Referring to FIG. 3, the negative ion water generator 1 of the second embodiment of the present invention is different from the foregoing first embodiment in that it further comprises a magnetizer 15 which is a hard magnetic material. A permanent magnetized body is formed, and the magnetizer 15 is disposed adjacent to the base 112 of the base 11. The magnetizer 15 can be positioned opposite the tubular body 121 and the connecting rod 132 along the longitudinal direction X, whereby the container C can be placed above the magnetizer 15, so that the tubular body 121 and the connecting rod 132 can be The inside of the container C is extended through the opening C1.

The negative ion water generator 1 of the second embodiment of the present invention is provided with the magnetizer 15 at a position adjacent to the support surface 112a of the base 112. Since the magnetizer 15 is a permanent magnetized body, the magnetizer 15 can continuously generate static electricity. A magnetic field that covers the container C placed above the magnetizer 15 for magnetizing the body of water W in the container C. When the water molecule group in the water body W is affected by the static magnetic field generated by the magnetizer 15, a magnetization reaction will occur, so that the number of water molecules in the water molecule group is reduced, and the volume of the water molecule group in the water body W is further reduced. Accordingly, the negative ion water generator 1 of the second embodiment of the present invention can simultaneously use the ultrasonic generator 13 and the magnetizer 15 to reduce the volume of water molecules in the water body W, and can raise the negative ion water generator 1 The negative ion concentration of the produced negative ion water is more effective.

Further, referring to FIG. 4, the negative ion water generator 1 of the third embodiment of the present invention also includes a magnetizer 15', which is different from the foregoing second embodiment in that the magnetizer 15' is electromagnetically The coil is composed of a magnetizer coupled to the base body and electrically connected to the power supply module. More specifically, in the present embodiment, the base 112 of the base 11 has a bearing surface 112a. The bearing surface 112a preferably faces the tubular body 121 of the negative ion generator 12 and the ultrasonic generator 13 along the longitudinal direction X. The connecting rod 132, wherein the container C can be disposed on the bearing surface 112a of the base 112, and the side of the container C away from the opening C1 is coupled to the carrying surface 112a, so that the tubular body 121 and the connecting rod 132 It is possible to protrude into the inside of the container C via the opening C1. The magnetizer 15' can be coupled to the position of the base 112 adjacent the load bearing surface 112a. The magnetizer 15' can be electrically connected to the power supply module 14 to obtain the electrical energy required to supply the magnetizer 15.

The small-molecule negative ion water generator 1 of the third embodiment of the present invention is provided with a magnetizer 15' composed of an electromagnetic coil at a position adjacent to the support surface 112a of the base 112, and the magnetizer 15' can use an alternating current to An alternating magnetic field is induced, and the alternating magnetic field can penetrate the base 112 to cover the container C disposed on the bearing surface 112a for magnetizing the water body W in the container C. When the water molecule group in the water body W is affected by the alternating magnetic field generated by the magnetizer 15', a magnetization reaction is generated, and the water body W in the container C is magnetized by using a static magnetic field as compared with the foregoing second embodiment. In the embodiment, the magnetizer 15' is capable of generating an alternating magnetic field to magnetize the water body W in the container C, which can further enhance the effect of reducing the volume of water molecules in the water body W, so that the water body W dissolves. Negative ions are more efficient.

Referring to FIG. 5 and FIG. 6, the negative ion water generator 1 according to the fourth embodiment of the present invention also includes a magnetizer 15 in the present embodiment, which is different from the foregoing second and third embodiments in that The magnetizer 15 has at least one permanent magnet 151. The permanent magnet 151 is a permanent magnetized body made of a hard magnetic material, and the container C is connected to an outlet pipe C2; the end of the outlet pipe C2 can communicate with a water outlet C3. The water body W contained in the container C can flow out through the water outlet pipe C2 and the water outlet C3 for the user to access. The permanent magnet 151 is provided in the water outlet pipe 32 to magnetize the water body W passing through the water outlet pipe C2 via the magnetic force of the permanent magnet 151, thereby refining the water molecule group. The permanent magnet 151 has a magnetic field strength of about 3,000 to 5,000 Gauss (Gs), and preferably 4000 ± 10%. Gs or so. The permanent magnet 151 may be disposed on the outer circumference of the water outlet pipe C2 or may be selectively fixed in the water outlet pipe C2. When the permanent magnet 151 is disposed on the outer circumference of the outlet pipe C2, the closer the permanent magnet 151 is to the outlet pipe C2, the better the effect of magnetizing the distilled water in the outlet pipe C2, so that the magnetizer 15 can be selected from the permanent magnet 151. The magnetic pole face (N pole or S pole) is attached and fixed to the outer pipe wall of the water outlet pipe C2.

In addition to the basic function of magnetizing the water body W by the permanent magnet 151, the magnetizer 15 may further add some components according to the use requirements to improve the use safety and assembly convenience of the magnetizer 15, and the magnetizer 15 is used. The several implementations are described as follows:

Referring to FIG. 7 and FIG. 8, in the first embodiment of the magnetizer 15, the permanent magnet 151 of the magnetizer 15 is substantially a cube, and the stability of the permanent magnet 151 and the outlet pipe C2 is improved. Optionally, a joint surface C21 is disposed on the outer tube wall of the water outlet pipe C2, and the magnetic pole surface of the permanent magnet 151 is attached to the joint surface C21.

Since the present invention uses the permanent magnet 151 having a relatively high magnetic field strength, the magnetizer 15 preferably has a magnetic member 152 which covers the permanent magnet 151 and a magnetic pole face of the permanent magnet 151. The exposed water pipe C2 is exposed to prevent the magnetic force of the permanent magnet 151 from being exposed, and the magnetic substance is prevented from being attracted by the permanent magnet 151 and attached to the outside of the body 1, and is difficult to be removed from the body 1; Is affecting the body with a pacemaker (cardiac) Pacemaker) is the life safety of users of implants. Wherein, the magnetic sealing member 152 can be made of low carbon steel, stainless steel or other metal material with magnetic sealing effect.

Moreover, the magnetizer 15 can also be provided with a cover 153 which covers the magnetic sealing member 152. The cover body 153 has a buffering capability to protect the permanent magnet 151 and the magnetic sealing member 152 from external force. Not easy to cause damage. In this embodiment, the magnetic sealing member 152 and the cover 153 can be positioned with each other. In addition, the magnetic sealing member 152 and the cover body 153 preferably further have a rustproof layer R for blocking moisture and oxygen from the rustproof layer R to prevent the permanent magnet 151 and the magnetic sealing member 152 from being used. Rusted after a while. Wherein, in order to simplify the component to improve the convenience in assembly, the outer surface of the magnetic sealing member 152 or the inner surface of the cover 153 may be selected by painting or electroplating (for example, nickel plating). Rust prevention layer R.

The permanent magnet 151, the magnetic sealing member 152 and the cover body 153 of the magnetizer 15 are combined and fixed on the water outlet pipe C1. For example, the permanent magnet 151, the magnetic sealing member 152 and the cover body 153 may be The outer tube wall of the outlet pipe C2 is attached and fixed by gluing. Alternatively, the magnetizer 15 may be provided with at least one fixing member 154, the fixing member 154 abutting the cover body 153, and the outlet pipe C2 and the permanent magnet 151, the sealing member 152 and the fixing member 154 The cover body 153 is tightly bundled, thereby effectively preventing the permanent magnet 151, the magnetic sealing member 152, and the cover body 153 from being separated from the water outlet pipe 32.

Referring to FIG. 9, in the second embodiment of the magnetizer 15, the magnetizer 15 includes two sets of permanent magnets 151, a magnetic sealing member 152 and a cover body 153. The two permanent magnets 151 are along the water outlet pipe C2. The outer tube walls are spaced apart. For example, the two permanent magnets 151 may be oppositely disposed in the radial direction of the water outlet pipe C2. The permanent magnets 151, the magnetic sealing members 152 and the cover 153 of the respective groups in the embodiment are the same as those in the first embodiment described above, and details are not described herein again. Thereby, the magnetic force of the water passing through the water outlet pipe C2 is simultaneously magnetized by the magnetic force of the two permanent magnets 151, and the effect of refining the water molecule group can be enhanced. It should be noted that when the two permanent magnets 151 are selectively disposed on the opposite sides of the radial direction of the water outlet pipe C2, the two permanent magnets 151 should be opposed to each other by the different magnetic poles, so that the effect of the magnetized water body W is improved. In addition, the magnetizer 15 of the embodiment further includes at least one fixing member 154 so as to be tightly bundled around the outer periphery of the two covers 153 by the fixing member 154 to ensure the two sets of the permanent magnet 151 and the magnetic sealing member 152. Both the cover 153 and the cover 153 can be firmly coupled to the outlet pipe C2.

Referring to FIG. 10 and FIG. 11, in the third embodiment of the magnetizer 15, the magnetizer 15 also includes two sets of permanent magnets 151, a magnetic sealing member 152 and a cover body 153, which are similar to the second embodiment described above. The difference is mainly that: in this embodiment, the surface of each of the permanent magnets 151 for attaching the water outlet pipe C2 is curved to increase the area of the outer wall of the outlet pipe C2. The effect of the magnetized water body W can be further enhanced. The shape of the permanent magnet 151 is not sufficient for the magnetic sealing member 152 and the cover 153 to be directly wrapped in the radial direction of the water outlet pipe C2. Therefore, the magnetic sealing member 152 and the cover 153 of the embodiment can be selected. An opening is provided at the side end, and the magnetic sealing member 152 and the cover body 153 are axially wrapped and covered along the water outlet pipe C2, and the opening is closed. Alternatively, the permanent magnet 151 may be annularly formed to directly fit the permanent magnet 151 to the outer tube wall of the outlet pipe C2.

It is worth mentioning that when the magnetizer 15 has two or more permanent magnets 151, the plurality of permanent magnets 151 do not have to be oppositely arranged in the radial direction of the water outlet pipe C2. The water body W can be magnetized in the axial direction of the water outlet pipe C2 along the outer pipe wall, and is particularly suitable for the embodiment in which the outlet pipe C2 has more bends.

It is known that nuclear magnetic resonance (Nuclear Magnetic) is currently available. Resonance, Referred to as NMR), the vibration frequency of water is detected to know the number of water molecules in the water cluster. That is, the higher the vibration frequency, the larger the water molecule group, the more water molecules are contained, and the water quality is worse. Conversely, the lower the vibration frequency, the smaller the water molecule group, and the number of water molecules contained. The less the water, the better the quality of the water. In general, water molecules contain about 5 to 9 water molecules of water, which can be called "micro-cluster". Water)", its frequency is less than 90 Hz. The small molecular water has many benefits and is known to those of ordinary skill in the art. For example, small molecular water has a strong penetrating power to the cell tissue and can easily enter and exit the cell membrane. The narrow gap (or "water channel", about 2μm wide) is easy to be absorbed by the human body and has the effect of promoting metabolism. In addition, the small molecule water is weakly alkaline, which can effectively control the acidification of the human body and help maintain the body. health.

Referring to FIG. 5 again, according to the foregoing structure, when the negative ion water generator 1 of the fourth embodiment of the present invention operates, the negative ion generator 12 will generate negative ions and pass through the tubular body 121 to be released via the negative ion release port 121a. Negative ions, such that the negative ions enter the water body W from the negative ion release port 121a, and the negative ions are effectively dissolved in the water body W to adhere to the water molecules in the water body W, so that the water molecules in the water body W Negatively ionized water molecules are formed, which in turn causes the water body W to form negative ion water. Meanwhile, when the user takes the water body W from the water outlet C3, the water body W is magnetized by the permanent magnet 151 of the magnetizer 15 to refine the water molecule group when the water body W passes through the water outlet pipe C2. W will form a small molecular water with negatively ionized water molecules that can flow out of the water outlet C3 for consumption by the user or for other uses.

Referring to FIG. 12, in order to verify that the negative ion water generator 1 of the fourth embodiment can refine the water molecules of the water body W by the magnetizer 15, to generate small molecular water having negative ionized water molecules, and use Germany. Bruker The nuclear magnetic resonance apparatus manufactured by Corporation) detects the water body W taken out from the water outlet C3, and its absorption peak appears at a chemical shift of 3.18. At the ppm level, it can be estimated that the vibration frequency (absorption peak frequency) is 68.17 Hz, and the vibration frequency is less than 90. Hz, in line with the definition of "small molecule water". Therefore, the negative ion water generator 1 of the fourth embodiment can surely generate small molecular water having negatively ionized water molecules. According to this, even if the water body W is a water source (for example, tap water) from a large water molecule group, the user can use the negative ionized water generator 1 of the fourth embodiment to conveniently take the negative ionized water molecule. The small molecule water helps to maintain good health.

With the structural features disclosed above, the main features of the negative ion water generator 1 of the first, second, third and fourth embodiments of the present invention are:

The negative ion generator 12 is coupled to the body 1 by a negative ion generator 12, and the negative ion generator 12 is connected to a tube 121. The tube 121 is separated from one end of the negative ion generator 12 to form a negative ion release port 121a. The ultrasonic generator 13 is connected to the oscillating body 131 via a link 132. The negative ion generator 12 can generate and release negative ions from the negative ion release port 121a, and the ultrasonic generator 13 will generate and transmit the vibration waves to the oscillating body 131.

Therefore, when a container C is disposed adjacent to the base 112 of the base 11, the tubular body 121 and the connecting rod 132 can extend into the interior of the container C through an opening C1 of the container C, so that the negative ion generator 12 is The negative ion release port 121a and the oscillating body 131 of the ultrasonic generator 13 are formed inside the container C. It can be seen that when the negative ions are released from the negative ion release port 121a, they will directly enter the water body W contained in the container C, which is released compared with the negative ion release port 921 of the prior negative ion water generator 9. The negative ions are only in contact with the liquid surface of the water body W, so that the contact area between the negative ions and the water body W is small, and the negative ion water generator 1 of the first embodiment of the present invention can directly enter the negative ions from the negative ion release port 121a. The water body W has a large contact area between the negative ions and the water body W, and has an effect of increasing the rate at which negative ions are dissolved in the water body W.

Further, since the oscillating body 131 is to be formed in the water body W, when the ultrasonic generator 13 generates and transmits the vibration wave to the oscillating body 131, the oscillating body 131 generates vibration and collectively drives the water body W to be generated. The vibration can effectively reduce the volume of the water molecules in the water body W, thereby increasing the ratio of the negative ions successfully dissolved in the water body W, and indeed has the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator 1.

On the other hand, in the negative ion water generator 1 of the second and third embodiments of the present invention, a magnetizer 15, 15' is additionally provided, which is capable of generating a magnetic field and utilizing the magnetic field to the container The water body W in C is magnetized to further reduce the volume of water molecules in the water body W, and the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator 1 is more remarkable. Alternatively, in the negative ion water generator 1 of the fourth embodiment of the present invention, the magnetizer 15 has a magnetic field strength of 3000 to 5000. The permanent magnet 151 of the Gs magnetizes the water body W passing through the water outlet pipe C2 by the magnetic force of the permanent magnet 151, and the water molecule group can be refined to generate small molecule water having negative ionized water molecules.

In summary, the negative ion water generator of the present invention can achieve the effects of increasing the rate at which negative ions are dissolved in water and increasing the negative ion concentration of the produced negative ion water.

Claims (22)

1.  An anion water generator, characterized in that it comprises:

   a seat;

   An negative ion generator is coupled to the base body, the negative ion generator is respectively connected to a tube body and an air pump, and the tube body forms a negative ion release port away from one end of the negative ion generator;

   An ultrasonic generator coupled to the base, the ultrasonic generator being coupled to an oscillating body via a connecting rod; and

   A power supply module is coupled to the base, and the power supply module is electrically connected to the negative ion generator, the air pump and the ultrasonic generator, respectively.
2. The negative ion water generator according to claim 1, wherein the base body comprises a bracket and a base, the bracket is coupled to the base, and the bracket extends in a longitudinal direction away from the base, the negative ion A generator and the ultrasonic generator are respectively incorporated in the bracket.
3. The negative ion water generator according to claim 2, wherein the tube body of the negative ion generator protrudes outside the bracket of the base body and extends toward the base along the longitudinal direction, the connecting rod of the ultrasonic generator It also protrudes outside the bracket of the seat and extends toward the base along the longitudinal direction.
4. The negative ion water generator according to claim 3, further comprising a container disposed adjacent to the base of the base body, the container having an opening through which the tube body and the connecting rod extend into the container Internally, the negative ion release port of the negative ion generator and the oscillating body of the ultrasonic generator are formed inside the container.
5. The negative ion water generator according to claim 3, further comprising a magnetizer which is a permanent magnetized body made of a hard magnetic material, the magnetizer being disposed adjacent to the base of the base body, and The magnetizer is positioned opposite the tubular body and the connecting rod in the longitudinal direction.
6. The negative ion water generator according to claim 3, further comprising a magnetizer, the magnetizer being composed of an electromagnetic coil coupled to the base and electrically connected to the power supply module.
7. The negative ion water generator according to claim 6, wherein the base of the base body has a bearing surface along the longitudinal direction of the tubular body of the negative ion generator and the connecting rod of the ultrasonic generator. The magnetizer is coupled to a position of the base adjacent to the bearing surface.
8. The negative ion water generator according to claim 7, further comprising a container disposed on the bearing surface of the base, the container having an opening through which the tube body and the connecting rod extend into the container Internally, the negative ion release port of the negative ion generator and the oscillating body of the ultrasonic generator are formed inside the container.
9. The negative ion water generator according to any one of claims 1 to 8, wherein the power supply module comprises a power supply line for electrically connecting the power supply external to the negative ion water generator.
10. The negative ion water generator according to claim 4, wherein the container is connected to an outlet pipe, the end of the outlet pipe is connected to a water outlet, and further comprises a magnetizer, the magnetizer having a permanent magnet, the permanent A magnet is disposed in the water outlet pipe, and the magnetic field strength of the permanent magnet is 3000~5000 Gs.
11. The negative ion water generator according to claim 10, wherein the permanent magnet has a magnetic field strength of 4000 ± 10% Gs.
12. The negative ion water generator according to claim 10 or 11, wherein the permanent magnet is provided on an outer circumference of the water outlet pipe.
13. The negative ion water generator according to claim 12, wherein the magnetic pole face of the permanent magnet is attached and fixed to the outer tube wall of the outlet pipe.
14. The negative ion water generator according to claim 13, wherein a wall of the outer tube of the outlet pipe is provided with a joint surface, and a pole surface of the permanent magnet is attached to the joint surface.
15. The negative ion water generator according to claim 13, wherein the magnetizer has a magnetic sealing member that covers the permanent magnet and exposes a magnetic pole surface of the permanent magnet to attach the magnetic pole Outlet pipe.
16. The negative ion water generator of claim 15 wherein the water molecule refiner has a cover that encloses the magnetic closure.
17. The negative ion water generator according to claim 16, wherein the magnetic sealing member and the cover have a rustproof layer.
18. The negative ion water generator according to claim 17, wherein the rustproof layer is formed on an outer surface of the magnetic sealing member or an inner surface of the cover.
19. The negative ion water generator according to claim 16, wherein the magnetizer has at least one fixing member attached to the cover body to the outlet pipe and the permanent magnet, the magnetic sealing member and the The shells are tightly bundled together.
20. The negative ion water generator of claim 13 wherein the water molecule refiner has another permanent magnet spaced along the outer tube wall of the outlet pipe.
21. The negative ion water generator according to claim 20, wherein the two permanent magnets are disposed on opposite radial sides of the water outlet pipe, and the two permanent magnets are opposed to each other by different magnetic poles.
22. The negative ion water generator according to claim 13, wherein the surface of the permanent magnet for attaching the water outlet pipe has a curved surface shape.