TWI543941B - Negative ion water generator - Google Patents

Description

負離子水產生器 Negative ion water generator

本發明係關於一種負離子水產生器，尤其是一種能夠縮小水分子團以利負離子溶解於水中的負離子水產生器。 The present invention relates to an anion water generator, and more particularly to an anion water generator capable of reducing water molecules to facilitate dissolution of negative ions in water.

請參照第1圖所示，係一種習用負離子水產生器9，包含一水膽91及一負離子產生器92，該負離子產生器92固定於該水膽91外部，且該負離子產生器92具有一負離子釋出口921，該負離子釋出口921係朝向開設於該水膽91外壁之一貫穿孔911設置。藉此，該負離子產生器92能夠經由該負離子釋出口921不斷地釋出負離子，並且經由該貫穿孔911讓負離子進入該水膽91而溶解與水中，使該水膽91中所容置的水體形成負離子水。所述習用負離子水產生器9之一實施例已揭露於中華民國專利公告第M266428號「可產生負離子水的飲水機」專利案中。 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 a The negative ion release port 921 is provided toward the through hole 911 which is 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 dissolve and water, so that the water body accommodated in the water bladder 91 Form negative ion water. An embodiment of the conventional anion water generator 9 has been disclosed in the patent of the Republic of China Patent Publication No. M266428, "Water dispenser for generating negative ion water".

惟，該負離子釋出口921所釋出之負離子經由該貫穿孔911進入該水膽91後，僅接觸一水體W的液面，使得負離子溶解於該水體W的速率緩慢，且當該水體W溶解一定數量的負離子後，由於負離子在該水體W靠近其液面的部分濃度較高，會導致該水體W無法經由其液面溶解更多的負離子。據此，運用該習用負離子水產生器9製作負離子水時，負離子溶解該水體W的速率過於緩慢，可能降低該習用負離子水產生器9的產品實用性。 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 practicality of the conventional negative ion water generator 9 may be lowered.

再者，水分子構造受到氫鍵影響，一水分子容易與相鄰之水分子間產生相互吸引的力量，所述力量將使水分子聚集形成之水體具有內 聚力，且由於水體中含有大量的水分子，受到氫鍵影響，水體中的水分子將會相互吸引而自然形成許多水分子團；一般的自來水的水分子團約由14個以上水分子所構成。在上述水體W當中，在不受外力影響的情況下，水分子所自然形成之水分子團內的水分子數目較多，使得該水體W中的水分子團體積較大，會使得負離子難以附著於水分子，直接造成負離子成功溶解於該水體W的比率降低，因此將使該習用負離子水產生器9所製作之負離子水具有較低的負離子濃度。 Furthermore, the water molecule structure is affected by hydrogen bonding, and a water molecule is liable to generate a mutual attraction force with adjacent water molecules, and the force will cause water molecules to be aggregated to form a water body. Concentration, and because the water contains a lot of water molecules, affected by hydrogen bonds, the water molecules in the water will attract each other and naturally form many water molecules; the general water molecule of tap water is composed of more than 14 water molecules. Composition. In the above-mentioned water body W, in the case where it is not affected by an external force, the number of water molecules in the water molecule group naturally formed by the water molecules is large, so that the water molecule group in the water body W has a large volume, 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.

有鑑於此，亟需提供一種進一步改良之負離子水產生器，以解決習用負離子水產生器9製作負離子水時「負離子溶解於水中的速率過於緩慢」以及「所製作之負離子水的負離子濃度較低」等問題。 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 water is less slowly dissolved in the negative ion water produced by the conventional negative ion water generator 9 and that the negative ion concentration of the negative ion water produced is lower. "And other issues.

本發明之一目的係提供一種負離子水產生器，透過將一負離子產生器結合於一座體，該負離子產生器係連接一管體，該管體遠離該負離子產生器之一端係形成一負離子釋出口，該管體可以伸入一容器內部，使該負離子釋出口形成於該容器內部，具有提升負離子溶解於該水體中的速率之功效。 An object of the present invention is to provide a negative ion water generator by coupling an negative ion generator to a body, the negative ion generator being connected to a tube body, and the tube body is separated from one end of the negative ion generator to form a negative ion release port. The tube body can extend into 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 water body.

本發明之另一目的係提供一種負離子水產生器，透過將一超聲波產生器結合於該座體，該超聲波產生器係經由一連桿連接該振盪體，該連桿可以伸入該容器內部，使該負離子釋出口形成於該容器內部，具有提升該負離子水產生器所製作之負離子水的負離子濃度功效。 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, the connecting rod can extend into the container body, The negative ion 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.

為達到前述發明目的，本發明所運用之技術手段包含有：一種負離子水產生器，包含：一座體；一負離子產生器，結合於該座體，該負離子產生器分別連接一管體及一空氣泵，該管體遠離該負離子產生器之一端係形成一負離子釋出口；一超聲波產生器，結合於該座體，該超聲波產生器經由一連桿連接一振盪體；一電源供應模組，結合 於該座體，該電源供應模組分別電性連接該負離子產生器、該空氣泵及該超聲波產生器；及一容器，該容器具有一開口，該管體及該連桿經由該開口伸入該容器內部，使該負離子產生器之負離子釋出口及該超聲波產生器之振盪體形成於該容器內部。 In order to achieve the foregoing object, the technical means for the present invention comprises: a negative ion water generator comprising: a body; an negative ion generator coupled to the base, the negative ion generator respectively connecting a tube body and an air a pump, the tube body is separated from one end of the negative ion generator to form a negative ion release port; an ultrasonic generator is coupled to the base body, the ultrasonic generator is connected to an oscillating body via a connecting rod; a power supply module is combined The power supply module is electrically connected to the negative ion generator, the air pump and the ultrasonic generator, respectively; and a container having an opening through which the tube body and the connecting rod extend Inside the container, an anode release port of the negative ion generator and an oscillating body of the ultrasonic generator are formed inside the container.

本發明之負離子水產生器，其中，該座體包含一支架及一底座，該支架結合於該底座，且該支架沿一縱向方向朝遠離該底座之方向延伸，該負離子產生器與該超聲波產生器分別結合於該支架當中。 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.

本發明之負離子水產生器，其中，該負離子產生器之管體凸伸於該座體之支架外部且沿著該縱向方向朝該底座延伸，該超聲波產生器之連桿亦凸伸於該座體之支架外部且沿著該縱向方向朝該底座延伸。 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 outside and along the longitudinal direction toward the base.

本發明之負離子水產生器，其中，該容器相鄰該座體之底座設置。 The negative ion water generator of the present invention, wherein the container is disposed adjacent to a base of the base.

本發明之負離子水產生器，其中，另包含一磁化器，該磁化器係為硬磁性材料所製成之永久磁化體，該磁化器相鄰該座體之底座設置，且該磁化器沿該縱向方向與該管體及該連桿相對位。 The negative ion water generator of the present invention further comprises a magnetizer, the magnetizer being 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 disposed along the magnetizer The longitudinal direction is opposite to the tube body and the connecting rod.

本發明之負離子水產生器，其中，另包含一磁化器，該磁化器由電磁線圈所組成，該磁化器結合於該座體且電性連接該電源供應模組。 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 and electrically connected to the power supply module.

本發明之負離子水產生器，其中，該座體之底座具有一承載面，該承載面沿該縱向方向朝向該負離子產生器之管體及該超聲波產生器之連桿，該磁化器結合於該底座相鄰該承載面的位置。 The negative ion water generator of the present invention, 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, and the magnetizer is coupled to the magnetic ionizer The base is adjacent to the position of the bearing surface.

本發明之負離子水產生器，其中，另包含設置於該底座之承載面上的一容器，該容器具有一開口，該管體及該連桿經由該開口伸入該容器內部，使該負離子產生器之負離子釋出口及該超聲波產生器之振盪體形成於該容器內部。 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.

本發明之負離子水產生器，其中，該電源供應模組包含一電 源線，該電源線用以電性連接該負離子水產生器外部的電源。 The negative ion water generator of the present invention, wherein the power supply module comprises an electric a power line for electrically connecting a power source external to the negative ion water generator.

本發明之負離子水產生器，其中，該容器連接一出水管，該出水管的末端連通一出水口，且另包含一磁化器，該磁化器具有一永久磁鐵，該永久磁鐵設於該出水管，該永久磁鐵的磁場強度為3000~5000Gs。 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 has a permanent magnet, and the permanent magnet is disposed on the outlet pipe. The permanent magnet has a magnetic field strength of 3000 to 5000 Gs.

本發明之負離子水產生器，其中，該永久磁鐵的磁場強度為4000±10% Gs。 The negative ion water generator of the present invention, wherein the permanent magnet has a magnetic field strength of 4000 ± 10% Gs.

本發明之負離子水產生器，其中，該永久磁鐵設於該出水管的外周。 The negative ion water generator of the present invention, wherein the permanent magnet is provided on an outer circumference of the water outlet pipe.

本發明之負離子水產生器，其中，該永久磁鐵的磁極面貼接固定在該出水管的外管壁。 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.

本發明之負離子水產生器，其中，該出水管的外管壁上設一結合面，該永久磁鐵的磁極面貼接於該結合面。 In the negative ion water generator of the present invention, a joint surface is disposed on the outer tube wall of the water outlet tube, and a magnetic pole surface of the permanent magnet is attached to the joint surface.

本發明之負離子水產生器，其中，該磁化器具有一封磁件，該封磁件包覆該永久磁鐵，並使該永久磁鐵的一磁極面呈裸露以貼接該出水管。 In the negative ion water generator of the present invention, the magnetizer has a magnetic member that covers the permanent magnet and exposes a magnetic pole surface of the permanent magnet to the outlet pipe.

本發明之負離子水產生器，其中，該磁化器具有一罩體，該罩體包覆該封磁件。 The negative ion water generator of the present invention, wherein the magnetizer has a cover body covering the magnetic sealing member.

本發明之負離子水產生器，其中，該封磁件與該罩體之間具有一防銹層。 The negative ion water generator of the present invention, wherein the magnetic sealing member and the cover have a rustproof layer.

本發明之負離子水產生器，其中，該防銹層形成在該封磁件的外表面或該罩體的內表面。 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.

本發明之負離子水產生器，其中，該磁化器具有至少一固定件，該固定件貼接該罩體，以將該出水管與該永久磁鐵、該封磁件及該罩體緊束捆繞在一起。 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 magnetic sealing member and the cover body Together.

本發明之負離子水產生器，其中，該磁化器具有另一永久磁 鐵，該二永久磁鐵沿著該出水管的外管壁間隔設置。 An negative ion water generator of the present invention, wherein the magnetizer has another permanent magnet Iron, the two permanent magnets are spaced apart along the outer tube wall of the outlet pipe.

本發明之負離子水產生器，其中，該二永久磁鐵設於該出水管的徑向相對二側，該二永久磁鐵以相異磁極相對。 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.

本發明之負離子水產生器，其中，該永久磁鐵用以貼接該出水管的表面呈弧面形態。 In the negative ion water generator of the present invention, the surface of the permanent magnet for attaching the water outlet pipe is in a curved shape.

〔本發明〕 〔this invention〕

1‧‧‧負離子水產生器 1‧‧‧Negative ion water generator

11‧‧‧座體 11‧‧‧

111‧‧‧支架 111‧‧‧ bracket

112‧‧‧底座 112‧‧‧Base

112a‧‧‧承載面 112a‧‧‧ bearing surface

12‧‧‧負離子產生器 12‧‧‧ Negative ion generator

121‧‧‧管體 121‧‧‧ tube body

121a‧‧‧負離子釋出口 121a‧‧‧Negative ion release

122‧‧‧空氣泵 122‧‧‧Air pump

13‧‧‧超聲波產生器 13‧‧‧ Ultrasonic generator

131‧‧‧振盪體 131‧‧‧Oscillator

132‧‧‧連桿 132‧‧‧ linkage

14‧‧‧電源供應模組 14‧‧‧Power supply module

141‧‧‧電源線 141‧‧‧Power cord

15‧‧‧磁化器 15‧‧‧Magnetizer

15’‧‧‧磁化器 15'‧‧‧Magnetizer

151‧‧‧永久磁鐵 151‧‧‧ permanent magnet

152‧‧‧封磁件 152‧‧‧Magnetic parts

153‧‧‧罩體 153‧‧‧ Cover

154‧‧‧固定件 154‧‧‧Fixed parts

X‧‧‧縱向方向 X‧‧‧ longitudinal direction

C‧‧‧容器 C‧‧‧ Container

C1‧‧‧開口 C1‧‧‧ openings

C2‧‧‧出水管 C2‧‧‧Outlet

C21‧‧‧結合面 C21‧‧‧ joint surface

C3‧‧‧出水口 C3‧‧‧Water outlet

W‧‧‧水體 W‧‧‧ water body

R‧‧‧防鏽層 R‧‧‧rust layer

〔習知〕 [study]

9‧‧‧習用負離子水產生器 9‧‧‧Used negative ion water generator

91‧‧‧水膽 91‧‧‧Water biliary

911‧‧‧貫穿孔 911‧‧‧through holes

92‧‧‧負離子產生器 92‧‧‧ Negative ion generator

921‧‧‧負離子釋出口 921‧‧‧Negative ion release

W‧‧‧水體 W‧‧‧ water body

第1圖：係一種習用負離子水產生器的結構剖視圖。 Fig. 1 is a cross-sectional view showing the structure of a conventional negative ion water generator.

第2圖：係本發明第一實施例之外觀透視示意圖。 Fig. 2 is a perspective view showing the appearance of the first embodiment of the present invention.

第3圖：係本發明第二實施例之外觀透視示意圖。 Fig. 3 is a perspective view showing the appearance of a second embodiment of the present invention.

第4圖：係本發明第三實施例之外觀透視示意圖。 Fig. 4 is a perspective view showing the appearance of a third embodiment of the present invention.

第5圖：係本發明第四實施例之外觀透視示意圖。 Fig. 5 is a perspective view showing the appearance of a fourth embodiment of the present invention.

第6圖：係本發明第四實施例之容器的出水管與磁化器的放大示意圖。 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.

第7圖：係本發明第四實施例之磁化器第一實施態樣的立體結構示意圖。 Figure 7 is a perspective view showing a first embodiment of a magnetizer according to a fourth embodiment of the present invention.

第8圖：係本發明第四實施例之磁化器第一實施態樣的剖視示意圖。 Figure 8 is a cross-sectional view showing a first embodiment of a magnetizer according to a fourth embodiment of the present invention.

第9圖：係本發明第四實施例之磁化器第二實施態樣的剖視示意圖。 Figure 9 is a cross-sectional view showing a second embodiment of a magnetizer according to a fourth embodiment of the present invention.

第10圖：係本發明第四實施例之磁化器第三實施態樣的剖視示意圖。 Fig. 10 is a cross-sectional view showing a third embodiment of a magnetizer according to a fourth embodiment of the present invention.

第11圖：係本發明第四實施例之磁化器第三實施態樣另一視角的剖視示意圖。 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.

第12圖：本發明第四實施例所得具有負離子化水分子的小分子團水之核磁共振檢測結果圖。 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.

為讓本發明之上述及其它目的、特徵及優點能更明顯易懂， 下文特舉本發明之較佳實施例，並配合所附圖式，作詳細說明如下：本發明全文所述之「負離子水」(negative ion water)，係指水體中含有負離子化的水分子。詳言之，帶負電的氫氧離子(OH^-)可以附著於水分子，使水分子形成負離子化的分子(H₂O₃ ^-)；而本發明全文所述之負離子濃度，係指水體中所含之負離子化的水分子濃度，為本發明所屬技術領域中具有通常知識者可以理解。 The above and other objects, features and advantages of the present invention will become more <RTIgt;"Negative ion water" (水水) means a water molecule containing negative ionization in a body of water. In detail, the negatively charged hydroxide ion (OH ^- ) can be attached to the water molecule to form a negative ionized molecule (H ₂ O ₃ ^- ); while the negative ion concentration described in the full text of the invention refers to the water body. The concentration of negatively ionized water molecules contained therein is understood by those of ordinary skill in the art to which the present invention pertains.

請參照第2圖所示，係本發明第一實施例之負離子水產生器1，包含一座體11、一負離子產生器12、一超聲波產生器13及一電源供應模組14。該負離子產生器12、該超聲波產生器13及該電源供應模組14可以分別結合於該座體11。 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.

詳言之，該座體11包含一支架111及一底座112，該支架111結合於該底座112。該底座112係供結合於一桌子之桌面或其他物體之表面，且該支架111可以沿一縱向方向X朝遠離該底座112之方向延伸。該負離子產生器12與該超聲波產生器13可以分別結合於該支架111當中，使得當該底座112被設置於一桌子之桌面或其他物體之表面時，該負離子產生器12及該超聲波產生器13可以在該縱向方向X上與所述桌子或其他物體間形成一間距。 In detail, the base 11 includes a bracket 111 and a base 112, and the bracket 111 is coupled to the base 112. The base 112 is for bonding 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 can 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.

該負離子產生器12係分別連接一管體121及一空氣泵122，該管體121遠離該負離子產生器12之一端係形成一負離子釋出口121a。其中，該管體121係凸伸於該座體11之支架111外部且沿著該縱向方向X朝該底座112延伸。該空氣泵122可以為習用微型空氣泵，且該負離子產生器12與該空氣泵122可以分別電性連接於該電源供應模組14，以獲取供應該負離子產生器12與該空氣泵122運作所需之電能。藉此，該空氣泵122可以將空氣輸入該負離子產生器12當中，該負離子產生器12遂可利用如脈衝電路及振盪器等習用升壓元件將低電壓轉換為直流負高壓，以將 其內部的空氣電離形成負離子，由於該空氣泵122係持續將空氣輸入該負離子產生器12，因此通過該負離子產生器12之空氣連同所述負離子將通過該管體121而經由該負離子釋出口121a釋出。由於負離子產生器12之運作原理係本發明所屬領域中具有通常知識者所能理解實施，因此關於該負離子產生器12與該空氣泵122之詳細作動方式恕不再行贅述。 The negative ion generator 12 is connected to a tube body 121 and an air pump 122 respectively. 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 from the outside of 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 a conventional 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 power needed. Thereby, the air pump 122 can input air into the negative ion generator 12, and the negative ion generator 12 can convert a low voltage into a DC negative high voltage by using a conventional 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 pass through the tubular body 121 via the negative ion release port 121a. Released. Since the operation principle of the negative ion generator 12 is 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.

該超聲波產生器13連接一振盪體131，更詳言之，該超聲波產生器13係經由一連桿132連接該振盪體131，該連桿132係凸伸於該座體11之支架111外部且沿著該縱向方向X朝該底座112延伸。該超聲波產生器13可以電性連接於該電源供應模組14，以獲取供應該超聲波產生器13運作所需之電能。該超聲波產生器13係用以產生震動頻率超過20kHz之振波，並且經由該連桿132將所述振波傳導至該振盪體131，使該振盪體131產生震動。 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 longitudinal direction X extends toward the base 112. The ultrasonic generator 13 can be electrically connected to the power supply module 14 to obtain the electric energy required to supply the ultrasonic generator 13 for operation. The ultrasonic generator 13 is configured to generate a vibration wave having a vibration frequency exceeding 20 kHz, and conduct the vibration wave to the oscillating body 131 via the link 132 to cause the oscillating body 131 to vibrate.

該電源供應模組14可以為電源轉換裝置(例如：變壓器)，據此，該電源供應模組14可以經由一電源線141以電性連接該負離子水產生器1外部的電源(例如：市電電源)，且該電源供應模組14可以對該電源線141所輸入之電源進行變壓及交/直流轉換等處理，以產生供應該負離子產生器12、該空氣泵122或該超聲波產生器13運作所需之電能。然而，該電源供應模組14亦可為獨立電源供應裝置(例如：電池組)，使得該電源供應模組14可以直接提供該負離子產生器12、該空氣泵122或該超聲波產生器13所需之電能，毋須另行電性連接該負離子水產生器1外部的電源，係本領域技術人員均可輕易思及者。 The power supply module 14 can be a power conversion device (for example, a transformer). The power supply module 14 can be electrically connected to the external power source of the negative ion water generator 1 via a power line 141 (for example, a commercial power supply). 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 to operate. The required 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 ultrasonic generator 13 The electrical energy of the negative ion water generator 1 is not required to be electrically connected, and can be easily considered by those skilled in the art.

藉由上述結構，請續參照第2圖所示，本發明第一實施例之負離子水產生器1實際使用時，可以將一容器C相鄰該座體11之底座112設置，該容器C具有一開口C1，且該開口C1可以朝向該負離子產生器12之管體121及該超聲波產生器13之連桿132。藉此，該管體121及該連桿 132可以經由該開口C1伸入該容器C內部，使該負離子產生器12之負離子釋出口121a及該超聲波產生器13之振盪體131形成於該容器C內部。 With the above structure, please refer to FIG. 2, in the actual use of the negative ion water generator 1 of the first embodiment of the present invention, a container C may be disposed adjacent to the base 112 of the base 11, the container C having An opening C1 can be directed toward the tubular body 121 of the negative ion generator 12 and the connecting rod 132 of the ultrasonic generator 13. Thereby, the pipe body 121 and the connecting rod 132 can extend into the interior of the container C through the opening C1, and the negative ion release port 121a of the negative ion generator 12 and the oscillating body 131 of the ultrasonic generator 13 are formed inside the container C.

該容器C內部可供容納一水體W，據此，該負離子釋出口121a及該振盪體131將可形成於該水體W當中。該第一實施例之負離子水產生器1啟動後，該負離子產生器12將可產生負離子並且通過該管體121以經由該負離子釋出口121a釋出負離子，使得所述負離子自該負離子釋出口121a進入該水體W當中。同時，該超聲波產生器13將可產生振波並經由該連桿132將振波傳導至該振盪體131，使該振盪體131產生震動，進而一併驅使該水體W產生震動。據此，所述負離子將可有效溶解於該水體W當中，以附著於該水體W中的水分子，使該水體W中的水分子得以形成負離子化的水分子，進而使該水體W形成負離子水。 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.

值得注意的是，由於該負離子產生器12之負離子釋出口121a形成於該容器C內部，使得該負離子釋出口121a可以形成於該水體W當中，且該負離子產生器12連接該空氣泵122，該空氣泵122持續將空氣輸入該負離子產生器12以迫使負離子經由該負離子釋出口121a釋出，因此當所述負離子自該負離子釋出口121a釋出後係直接進入該水體W當中，可以與該水體W中的水分子充分接觸。相較前述習用負離子水產生器9的負離子釋出口921所釋出之負離子僅接觸一水體W的液面，使得負離子與該水體W間的接觸面積較小，本發明第一實施例之負離子水產生器1能夠使負離子自該負離子釋出口121a釋出後直接進入該水體W，以讓負離子與該水體W間形成較大的接觸面積，確實具有提升負離子溶解於該水體W的速率之功效。 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 may 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 can be The water molecules in W are in full contact. The negative ions released from the negative ion release port 921 of the conventional negative ion water generator 9 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 of the first embodiment of the present invention is The generator 1 can directly enter the water body W after the negative ions are released from the negative ion release port 121a, so that a large contact area between the negative ions and the water body W is formed, and the effect of increasing the rate at which the negative ions are dissolved in the water body W is surely obtained.

況且，在運用本發明第一實施例之負離子水產生器1製作負離子水時，不會產生如習用負離子水產生器9在該水體W溶解一定數量的負離子後，受到負離子在該水體W靠近其液面的部分濃度較高影響而導致 該水體W無法經由其液面溶解更多的負離子的情況；相對地，在本實施例中，所述負離子自該負離子釋出口121a釋出後係直接進入該水體W當中，因此負離子能夠均勻地溶解於該水體W，使得負離子化的水分子在該水體W中平均分布，故負離子溶解於該水體W的速率不易隨著該水體W之負離子濃度上升而降低。 Moreover, when the negative ion water generator 1 of the first embodiment of the present invention is used to produce negative ion water, the conventional negative ion water generator 9 does not generate a negative ion in the water body W after the water body W dissolves a certain amount of negative ions. Caused by a higher concentration of the liquid surface The water body W cannot dissolve more negative ions through its liquid surface; in contrast, in the present embodiment, the negative ions are directly discharged into the water body W after being released from the negative ion release port 121a, so that the negative ions can be uniformly Dissolved in the water body W, 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 decrease as the negative ion concentration of the water body W rises.

再者，已知該超聲波產生器13能夠產生震動頻率超過20kHz之振波，當該超聲波產生器13所產生之振波傳導至該振盪體131，進而驅使該水體W產生震動時，將可破壞水分子構造的氫鍵，以削減相鄰水分子間相互吸引的力量，有效減少該水體W中的水分子團內的水分子數目。藉此，本發明第一實施例之負離子水產生器1可以透過設置該超聲波產生器13來縮小該水體W當中的水分子團體積，以降低負離子附著於水分子的難度，進而增加負離子成功溶解於該水體W的比率，確實具有提升該負離子水產生器1所製作之負離子水的負離子濃度功效。 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.

請續參照第3圖所示，係本發明第二實施例之負離子水產生器1，與前述第一實施例相異之處在於：另包含一磁化器15，該磁化器15係為硬磁性材料所製成之永久磁化體，且該磁化器15係相鄰該座體11之底座112設置。該磁化器15可以沿該縱向方向X與該管體121及該連桿132相對位，藉此，該容器C可以被放置於該磁化器15上方，使該管體121及該連桿132得以經由該開口C1伸入該容器C內部。 Referring to FIG. 3, the negative ion water generator 1 of the second embodiment of the present invention is different from the first embodiment in that it further includes a magnetizer 15 which is hard magnetic. A permanent magnetized body made of a material, 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.

本發明第二實施例之負離子水產生器1透過在該底座112相鄰該承載面112a的位置設置該磁化器15，由於該磁化器15係為永久磁化體，因此該磁化器15能夠持續產生靜磁場，所述靜磁場可以覆蓋被放置於該磁化器15上方之容器C，用以對該容器C中的水體W進行磁化處理。該水體W中水分子團受到該磁化器15所產生之靜磁場影響時將會產生磁化反應，使得水分子團內的水分子數目減少，進而使該水體W當中的水分 子團體積進一步縮小。據此，本發明第二實施例之負離子水產生器1可以同時運用該超聲波產生器13及該磁化器15來縮小該水體W當中的水分子團體積，能夠使提升該負離子水產生器1所製作之負離子水的負離子濃度功效更為顯著。 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 be continuously generated. A static magnetic field that covers the container C placed above the magnetizer 15 for magnetizing the water body 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 water in the water body W is further The volume of the subgroup 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.

又，請參照第4圖所示，係本發明第三實施例之負離子水產生器1，同樣包含一磁化器15’，與前述第二實施例相異之處在於：該磁化器15’係由電磁線圈所組成，該磁化器結合於該座體且電性連接該電源供應模組。更詳言之，在本實施例當中，該座體11之底座112具有一承載面112a，該承載面112a較佳沿該縱向方向X朝向該負離子產生器12之管體121及該超聲波產生器13之連桿132，藉此該容器C能夠設置於該底座112之承載面112a上，且該容器C遠離該開口C1之一側係結合於該承載面112a，使該管體121及該連桿132得以經由該開口C1伸入該容器C內部。該磁化器15’可以結合於該底座112相鄰該承載面112a的位置。該磁化器15’可以電性連接於該電源供應模組14，以獲取供應該磁化器15運作所需之電能。 Further, referring to Fig. 4, the negative ion water generator 1 according to 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 The electromagnetic 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, and the bearing surface 112a preferably faces the tube 121 of the negative ion generator 12 along the longitudinal direction X and the ultrasonic generator. a connecting rod 132 of the base member 112, 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 body The rod 132 is extended into the interior 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.

本發明第三實施例之小分子團負離子水產生器1透過在該底座112相鄰該承載面112a的位置設置由電磁線圈所組成之磁化器15’，該磁化器15’能夠運用交流電流以感應產生交變磁場，所述交變磁場可以穿透該底座112以覆蓋設置於該承載面112a之容器C，用以對該容器C中的水體W進行磁化處理。該水體W中水分子團受到該磁化器15’所產生之交變磁場影響時將會產生磁化反應，且相較前述第二實施例係運用靜磁場對該容器C中的水體W進行磁化處理，在本實施例中該磁化器15’能夠產生交變磁場以對該容器C中的水體W進行磁化處理，將可進一步提升縮小該水體W當中的水分子團體積的效果，使得該水體W溶解負離子的效率更佳。 The small-molecular-weight 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 second embodiment. In the present 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 The efficiency of dissolving negative ions is better.

請參照第5及6圖所示，係本發明第四實施例之負離子水產生器1，在本實施例中同樣包含一磁化器15，與前述第二與第三實施例相異之處在於：該磁化器15至少具有一永久磁鐵151，該永久磁鐵151係為硬磁性材料所製成之永久磁化體，且該容器C連接一出水管C2；該出水管C2的末端可以連通一出水口C3，使得該容器C所容納的水體W可以通過該出水管C2與該出水口C3流出以供使用者取用。該永久磁鐵151設於該出水管32，以經由該永久磁鐵151的磁力將通過該出水管C2的水體W磁化，藉以細化其水分子團。該永久磁鐵151的磁場強度約為3000~5000高斯(Gs)，且較佳為4000±10% Gs左右。其中，該永久磁鐵151可以設於該出水管C2的外周，或選擇被固定在該出水管C2內。該永久磁鐵151設於該出水管C2的外周時，該永久磁鐵151越靠近該出水管C2，磁化該出水管C2中蒸餾水的效果就越好，故該磁化器15可選擇由該永久磁鐵151的磁極面(N極或S極)貼接固定在該出水管C2的外管壁。 Referring to Figures 5 and 6, the negative ion water generator 1 of the fourth embodiment of the present invention also includes a magnetizer 15 in this embodiment, which is different from the foregoing second and third embodiments in that The magnetizer 15 has at least one permanent magnet 151 which 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 be connected to a water outlet. C3, so that 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 about 4,000 ± 10% Gs. 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.

該磁化器15除了上述以永久磁鐵151磁化水體W的基本功能之外，還可依據使用需求而增加一些構件，以提升該磁化器15的使用安全性及組裝便利性，茲舉該磁化器15的數個實施態樣說明如下：請參照第7及8圖所示，在磁化器15的第一實施態樣中，該磁化器15的永久磁鐵151概呈一立方體，為提升該永久磁鐵151與該出水管C2結合的穩固性，可選擇在該出水管C2的外管壁上設一結合面C21，供該永久磁鐵151的磁極面貼接該結合面C21。 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 embodiments are described as follows: Referring to Figures 7 and 8, in the first embodiment of the magnetizer 15, the permanent magnet 151 of the magnetizer 15 is substantially a cube, for lifting the permanent magnet 151. In combination with the stability of the outlet pipe C2, a joint surface C21 may be provided on the outer pipe wall of the water outlet pipe C2, and the magnetic pole surface of the permanent magnet 151 may be attached to the joint surface C21.

由於本發明使用磁場強度相當高的永久磁鐵151，故該磁化器15較佳另具有一封磁件152，該封磁件152包覆該永久磁鐵151，並使該永久磁鐵151的一磁極面呈裸露以貼接該出水管C2，藉以防止該永久磁鐵151的磁力外露，避免磁性物質被該永久磁鐵151吸引而貼附在該機體1外，而難以自該機體1上被取下；甚或是影響到體內裝有如心臟起搏器 (cardiac pacemaker)等植入物之使用者的生命安全。其中，該封磁件152可以由低碳鋼、不鏽鋼或其它具封磁效果的金屬材質製成。 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 like (cardiac pacemaker) 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.

又，該磁化器15還可以設有一罩體153，該罩體153包覆該封磁件152，該罩體153具有緩衝能力，可保護該永久磁鐵151及該封磁件152在承受外力時不易產生損傷。在本實施例中，該封磁件152及該罩體153可以相互卡掣定位。此外，該封磁件152與該罩體153之間較佳還具有一防銹層R，以由該防銹層R阻絕水氣與氧氣，防止該永久磁鐵151及該封磁件152在使用一段後生銹。其中，為能簡化構件以提升組裝時的便利性，可選擇在該封磁件152的外表面或該罩體153的內表面，以塗漆或電鍍(例如：鍍鎳)等方式來形成該防銹層R。 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.

該磁化器15之永久磁鐵151、封磁件152及罩體153結合固定在該出水管C1上的方式不限；舉例而言，該永久磁鐵151、該封磁件152及該罩體153可以透過膠合的方式貼接固定在該出水管C2的外管壁。或者，該磁化器15還可設至少一固定件154，該固定件154抵接該罩體153，以由該固定件154將該出水管C2與該永久磁鐵151、該封磁件152及該罩體153緊束捆繞在一起，從而有效防止該永久磁鐵151、該封磁件152及該罩體153與該出水管32分離。 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 can 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.

請參照第9圖，在磁化器15的第二實施態樣中，該磁化器15包含二組的永久磁鐵151、封磁件152及罩體153，該二永久磁鐵151沿著該出水管C2的外管壁間隔設置，舉例來說，該二永久磁鐵151可以於該出水管C2的徑向方向上相對設置。本實施例中各組永久磁鐵151、封磁件152及罩體153均同於上述第一實施例，於此不再贅述。藉此，利用該二永久磁鐵151的磁力同時磁化通過該出水管C2的水體W，可提升細化其水分子團的效果。其中需注意的是，當選擇將該二永久磁鐵151設於該出水管C2的徑向相對二側時，應使該二永久磁鐵151以相異磁極相對， 使磁化水體W的效果提升。另，本實施態樣之磁化器15亦包含至少一固定件154，以由該固定件154緊束捆繞在該二罩體153的外周，確保該二組的永久磁鐵151、封磁件152及罩體153都能與該出水管C2穩固結合。 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 wall is 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 selected to be disposed on opposite radial sides of the water outlet pipe C2, the two permanent magnets 151 should be opposite to each other. 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.

請參照第10、11圖，在磁化器15的第三實施態樣中，該磁化器15同樣包含二組的永久磁鐵151、封磁件152及罩體153，其與上述第二實施態樣的差異主要在於：本實施態樣選擇使各該永久磁鐵151用以貼接該出水管C2的表面呈弧面形態，以提升該二永久磁鐵151包覆該出水管C2外管壁的面積，使磁化水體W的效果能再被更進一步地提升。其中，由於該永久磁鐵151的形態無法供該封磁件152及該罩體153沿著該出水管C2徑向直接套合包覆，故本實施例的封磁件152及罩體153可選擇在側端設置開口，供該封磁件152及該罩體153沿著該出水管C2軸向套合包覆，再將開口予以封閉。或者，也可以選擇使該永久磁鐵151形成獨狀，以直接將該永久磁鐵151套合在該出水管C2的外管壁。 Referring to FIGS. 10 and 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 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 formed in a unique shape to directly fit the permanent magnet 151 to the outer tube wall of the outlet pipe C2.

值得一提的是，當該磁化器15具有二個或二個以上的永久磁鐵151時，該數個永久磁鐵151並不一定要於該出水管C2的徑向方向上兩兩相對設置，亦可以於該出水管C2的軸向方向上沿著其外管壁間隔設置，使水體W分區段被磁化，特別適用在該出水管C2有較多彎曲處的實施例中。 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.

已知關於水分子團的檢測方式，目前已可以透過核磁共振(Nuclear Magnetic Resonance，簡稱NMR)檢測水的振頻，來得知水分子團內的水分子數量。即，振頻越高，表示水分子團越大，所包含的水分子數量就越多，水的品質較差；反之，振頻越低，表示水分子團越小，所包含的水分子數量就越少，水的品質較好。一般而言，水分子團中約含有5~9個水分子的水，可稱之為「小分子團水(micro-cluster water)」，其振頻小於90Hz。所述小分子團水具有諸多益處，係本領域中具有通常知識人員 所知悉者，舉例來說，小分子團水對細胞組織有很強的滲透力，可輕易地進出細胞膜密緻蛋白質間的狹小空隙(或稱〝水通道〞，約2μm寬)，因而易由人體吸收，具有促進新陳代謝的功效；此外，小分子團水概呈弱鹼性，能有效控制人體酸性化，有助維持身體健康。 Knowing the detection method of water molecular clusters, it is now possible to detect the number of water molecules in a water molecule group by detecting the vibration frequency of water by nuclear magnetic resonance (NMR). 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 containing about 5 to 9 water molecules in a water molecule group can be called "micro-cluster water", and its vibration frequency is less than 90 Hz. The small molecule water has many benefits and is generally knowledgeable in the art. Known, for example, small molecule water has a strong penetrating power to the cell tissue, and can easily enter and exit the narrow gap between the cell membrane and the protein (or about 2 μm wide), thus being easily The body absorbs 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 good health.

請再參照第5圖，據由前述結構，本發明第四實施例之負離子水產生器1運作時，該負離子產生器12將可產生負離子並且通過該管體121以經由該負離子釋出口121a釋出負離子，使得所述負離子自該負離子釋出口121a進入該水體W當中，所述負離子將可有效溶解於該水體W當中，以附著於該水體W中的水分子，使該水體W中的水分子得以形成負離子化的水分子，進而使該水體W形成負離子水。同時，當使用者自該出水口C3取用該水體W時，由於該水體W通過該出水管C2時將受到該磁化器15之永久磁鐵151磁化而以細化其水分子團，因此該水體W將形成具有負離子化水分子的小分子團水，可自該出水口C3流出以供使用者飲用或作其它用途。 Referring again to FIG. 5, according to the foregoing configuration, 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 are generated 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 in the water body W The molecules form negatively ionized water molecules, which in turn cause 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.

請參照第12圖，為了驗證該第四實施例之負離子水產生器1能夠藉由該磁化器15細化該水體W的水分子團，以產生具有負離子化水分子的小分子團水，經使用德國布魯克公司(Bruker Corporation)所製造的核磁共振儀對自該出水口C3取出的水體W進行檢測，其吸收峰出現在化學位移3.18ppm處，故可推估其振頻(吸收峰頻率)為68.17Hz，該振頻小於90Hz，符合「小分子團水」的定義。故該第四實施例之負離子水產生器1確實能夠產生具有負離子化水分子的小分子團水。據此，即使該水體W水是來自水分子團較大的水源(例如：自來水)，使用者也能透過該第四實施例之負離子水產生器1，相當方便地取用具有負離子化水分子的小分子團水，幫助維持身體健康。 Referring to FIG. 12, in order to verify that the negative ion water generator 1 of the fourth embodiment can refine the water molecule group of the water body W by the magnetizer 15, to generate a small molecular group water having negative ionized water molecules, The water body W taken out from the water outlet C3 was detected by a nuclear magnetic resonance instrument manufactured by Bruker Corporation, and the absorption peak appeared at a chemical shift of 3.18 ppm, so the vibration frequency (absorption peak frequency) can be estimated. At 68.17 Hz, the frequency is less than 90 Hz, which is consistent 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. Accordingly, even if the water body W is a water source from a large water molecule group (for example, tap water), 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.

藉由前揭之結構特徵，本發明第一、第二、第三與第四實施 例之負離子水產生器1的主要特點在於：透過將一負離子產生器12及一超聲波產生器13結合於一座體1，該負離子產生器12係連接一管體121，該管體121遠離該負離子產生器12之一端係形成一負離子釋出口121a；該超聲波產生器13係經由一連桿132連接該振盪體131。該負離子產生器12可以產生並由該負離子釋出口121a釋出負離子，該超聲波產生器13將可產生並將振波傳導至該振盪體131。 The first, second, third and fourth embodiments of the present invention are achieved by the structural features disclosed above The main feature of the negative ion water generator 1 is that a negative ion generator 12 and an ultrasonic generator 13 are coupled to the body 1, the negative ion generator 12 is connected to a tube 121, and the tube 121 is away from the negative ion. One end of the generator 12 forms 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.

藉此，當一容器C相鄰該座體11之底座112設置時，該管體121及該連桿132可以經由該容器C之一開口C1伸入該容器C內部，使該負離子產生器12之負離子釋出口121a及該超聲波產生器13之振盪體131形成於該容器C內部。由此可知，當所述負離子自該負離子釋出口121a釋出後，係直接進入該容器C所容納之一水體W中，相較前述習用負離子水產生器9的負離子釋出口921所釋出之負離子僅接觸一水體W的液面，使得負離子與該水體W間的接觸面積較小，本發明第一實施例之負離子水產生器1能夠使負離子自該負離子釋出口121a釋出後直接進入該水體W，以讓負離子與該水體W間形成較大的接觸面積，確實具有提升負離子溶解於該水體W的速率之功效。 Thereby, 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 via an opening C1 of the container C, so that the negative ion generator 12 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 ion is released from the negative ion release port 121a, it directly enters a water body W contained in the container C, which is released from the negative ion release port 921 of the conventional 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. The negative ion water generator 1 of the first embodiment of the present invention can directly release the negative ions from the negative ion release port 121a. The water body W, in order to form a large contact area between the negative ions and the water body W, does have the effect of increasing the rate at which the negative ions are dissolved in the water body W.

此外，由於該振盪體131將可形成於該水體W當中，當該超聲波產生器13產生並將振波傳導至該振盪體131時，該振盪體131將產生震動並且一併驅使該水體W產生震動，可有效縮小該水體W當中的水分子團體積，進而增加負離子成功溶解於該水體W的比率，確實具有提升該負離子水產生器1所製作之負離子水的負離子濃度功效。 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 molecule group 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.

另一方面，在本發明第二及第三實施例之負離子水產生器1中，另設有一磁化器15、15’，該磁化器15、15’能夠產生磁場並且利用所述磁場對該容器C中的水體W進行磁化處理，可以進一步縮小該水體W 當中的水分子團體積，能夠使提升該負離子水產生器1所製作之負離子水的負離子濃度功效更為顯著。或者，在本發明第四實施例之負離子水產生器1中，該磁化器15具有磁場強度達3000~5000 Gs之永久磁鐵151，藉由該永久磁鐵151的磁力將通過該出水管C2的水體W磁化，可細化其水分子團以產生具有負離子化水分子的小分子團水。 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 water body W The volume of the water molecule in the middle can make the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator 1 more significant. Alternatively, in the negative ion water generator 1 of the fourth embodiment of the present invention, the magnetizer 15 has a permanent magnet 151 having a magnetic field strength of 3000 to 5000 Gs, and the magnetic force of the permanent magnet 151 passes through the water body of the outlet pipe C2. W magnetization can refine its water molecule cluster to produce small molecular water with negative ionized water molecules.

綜上所述，本發明負離子水產生器確可達到提升負離子溶解於水中的速率以及提升所製作之負離子水的負離子濃度等功效。 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.

雖然本發明已利用上述較佳實施例揭示，然其並非用以限定本發明，任何熟習此技藝者在不脫離本發明之精神和範圍之內，相對上述實施例進行各種更動與修改仍屬本發明所保護之技術範疇，因此本發明之保護範圍當視後附之申請專利範圍所界定者為準。 While the invention has been described in connection with the preferred embodiments described above, it is not intended to limit the scope of the invention. The technical scope of the invention is protected, and therefore the scope of the invention is defined by the scope of the appended claims.

1‧‧‧負離子水產生器 1‧‧‧Negative ion water generator

11‧‧‧座體 11‧‧‧

111‧‧‧支架 111‧‧‧ bracket

112‧‧‧底座 112‧‧‧Base

12‧‧‧負離子產生器 12‧‧‧ Negative ion generator

121‧‧‧管體 121‧‧‧ tube body

121a‧‧‧負離子釋出口 121a‧‧‧Negative ion release

122‧‧‧空氣泵 122‧‧‧Air pump

13‧‧‧超聲波產生器 13‧‧‧ Ultrasonic generator

131‧‧‧振盪體 131‧‧‧Oscillator

132‧‧‧連桿 132‧‧‧ linkage

14‧‧‧電源供應模組 14‧‧‧Power supply module

141‧‧‧電源線 141‧‧‧Power cord

X‧‧‧縱向方向 X‧‧‧ longitudinal direction

C‧‧‧容器 C‧‧‧ Container

C1‧‧‧開口 C1‧‧‧ openings

W‧‧‧水體 W‧‧‧ water body

Claims (22)

一種負離子水產生器，包含：一座體；一負離子產生器，結合於該座體，該負離子產生器分別連接一管體及一空氣泵，該管體遠離該負離子產生器之一端係形成一負離子釋出口；一超聲波產生器，結合於該座體，該超聲波產生器經由一連桿連接一振盪體；一電源供應模組，結合於該座體，該電源供應模組分別電性連接該負離子產生器、該空氣泵及該超聲波產生器；及一容器，該容器具有一開口，該管體及該連桿經由該開口伸入該容器內部，使該負離子產生器之負離子釋出口及該超聲波產生器之振盪體形成於該容器內部。 An anion water generator comprising: a body; an negative ion generator coupled to the base, the negative ion generator being respectively connected to a tube body and an air pump, the tube body forming an anion away from one end of the negative ion generator An ultrasonic generator coupled to the base body, the ultrasonic generator is connected to an oscillating body via a connecting rod; a power supply module is coupled to the base body, and the power supply module is electrically connected to the negative ion respectively a generator, the air pump and the ultrasonic generator; and a container having an opening through which the tube body and the connecting rod extend into the interior of the container to cause a negative ion release port of the negative ion generator and the ultrasonic wave An oscillating body of the generator is formed inside the container. 如申請專利範圍第1項所述之負離子水產生器，其中，該座體包含一支架及一底座，該支架結合於該底座，且該支架沿一縱向方向朝遠離該底座之方向延伸，該負離子產生器與該超聲波產生器分別結合於該支架當中。 The negative ion water generator of 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 bracket An anion generator and the ultrasonic generator are respectively incorporated in the holder. 如申請專利範圍第2項所述之負離子水產生器，其中，該負離子產生器之管體凸伸於該座體之支架外部且沿著該縱向方向朝該底座延伸，該超聲波產生器之連桿亦凸伸於該座體之支架外部且沿著該縱向方向朝該底座延伸。 The negative ion water generator of claim 2, wherein the tube of the negative ion generator protrudes outside the bracket of the base body and extends toward the base along the longitudinal direction, and the ultrasonic generator is connected The rod also projects beyond the bracket of the seat and extends toward the base along the longitudinal direction. 如申請專利範圍第3項所述之負離子水產生器，其中，該容器相鄰該座體之底座設置。 The negative ion water generator of claim 3, wherein the container is disposed adjacent to a base of the base. 如申請專利範圍第3項所述之負離子水產生器，其中，另包含一磁化器，該磁化器係為硬磁性材料所製成之永久磁化體，該磁化器相鄰該 座體之底座設置，且該磁化器沿該縱向方向與該管體及該連桿相對位。 The negative ion water generator of claim 3, further comprising a magnetizer, the magnetizer being a permanent magnetized body made of a hard magnetic material, the magnetizer being adjacent to the magnetizer The base of the base is disposed, and the magnetizer is positioned opposite the tubular body and the connecting rod along the longitudinal direction. 如申請專利範圍第3項所述之負離子水產生器，其中，另包含一磁化器，該磁化器由電磁線圈所組成，該磁化器結合於該座體且電性連接該電源供應模組。 The negative ion water generator of 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. 如申請專利範圍第6項所述之負離子水產生器，其中，該座體之底座具有一承載面，該承載面沿該縱向方向朝向該負離子產生器之管體及該超聲波產生器之連桿，該磁化器結合於該底座相鄰該承載面的位置。 The negative ion water generator of claim 6, wherein the base of the base has a bearing surface along the longitudinal direction of the tube 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. 如申請專利範圍第7所述之負離子水產生器，其中，另包含設置於該底座之承載面上的一容器，該容器具有一開口，該管體及該連桿經由該開口伸入該容器內部，使該負離子產生器之負離子釋出口及該超聲波產生器之振盪體形成於該容器內部。 The negative ion water generator of 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. 如申請專利範圍第1至8項任一項所述之負離子水產生器，其中，該電源供應模組包含一電源線，該電源線用以電性連接該負離子水產生器外部的電源。 The negative ion water generator of any one of claims 1 to 8, wherein the power supply module comprises a power line for electrically connecting the power source external to the negative ion water generator. 如申請專利範圍第4項所述之負離子水產生器，其中，該容器連接一出水管，該出水管的末端連通一出水口，且另包含一磁化器，該磁化器具有一永久磁鐵，該永久磁鐵設於該出水管，該永久磁鐵的磁場強度為3000~5000Gs。 The negative ion water generator of 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 to 5000 Gs. 如申請專利範圍第10項所述之負離子水產生器，其中，該永久磁鐵的磁場強度為4000±10% Gs。 The negative ion water generator of claim 10, wherein the permanent magnet has a magnetic field strength of 4000 ± 10% Gs. 如申請專利範圍第10或11項所述之負離子水產生器，其中，該永久磁鐵設於該出水管的外周。 The negative ion water generator of claim 10 or 11, wherein the permanent magnet is disposed on an outer circumference of the water outlet pipe. 如申請專利範圍第12項所述之負離子水產生器，其中，該永久磁鐵 的磁極面貼接固定在該出水管的外管壁。 The negative ion water generator of claim 12, wherein the permanent magnet The magnetic pole surface is fixedly attached to the outer tube wall of the water outlet pipe. 如申請專利範圍第13項所述之負離子水產生器，其中，該出水管的外管壁上設一結合面，該永久磁鐵的磁極面貼接於該結合面。 The negative ion water generator of claim 13, wherein the outer tube wall of the water outlet tube is provided with a joint surface, and the pole surface of the permanent magnet is attached to the joint surface. 如申請專利範圍第13項所述之負離子水產生器，其中，該磁化器具有一封磁件，該封磁件包覆該永久磁鐵，並使該永久磁鐵的一磁極面呈裸露以貼接該出水管。 The negative ion water generator of claim 13, wherein the magnetizer has a magnetic member, the magnetic sealing member covers the permanent magnet, and a magnetic pole surface of the permanent magnet is exposed to be attached thereto. Outlet pipe. 如申請專利範圍第15項所述之負離子水產生器，其中，該磁化器具有一罩體，該罩體包覆該封磁件。 The negative ion water generator of claim 15, wherein the magnetizer has a cover that covers the magnetic sealing member. 如申請專利範圍第16項所述之負離子水產生器，其中，該封磁件與該罩體之間具有一防銹層。 The negative ion water generator of claim 16, wherein the magnetic sealing member and the cover have a rustproof layer. 如申請專利範圍第17項所述之負離子水產生器，其中，該防銹層形成在該封磁件的外表面或該罩體的內表面。 The negative ion water generator of claim 17, wherein the rustproof layer is formed on an outer surface of the magnetic sealing member or an inner surface of the cover. 如申請專利範圍第16項所述之負離子水產生器，其中，該磁化器具有至少一固定件，該固定件貼接該罩體，以將該出水管與該永久磁鐵、該封磁件及該罩體緊束捆繞在一起。 The negative ion water generator of 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 cover is tightly bundled together. 如申請專利範圍第13項所述之負離子水產生器，其中，該磁化器具有另一永久磁鐵，該二永久磁鐵沿著該出水管的外管壁間隔設置。 The negative ion water generator of claim 13, wherein the magnetizer has another permanent magnet spaced along the outer tube wall of the outlet pipe. 如申請專利範圍第20項所述之負離子水產生器，其中，該二永久磁鐵設於該出水管的徑向相對二側，該二永久磁鐵以相異磁極相對。 The negative ion water generator of 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. 如申請專利範圍第13項所述之負離子水產生器，其中，該永久磁鐵用以貼接該出水管的表面呈弧面形態。 The negative ion water generator of claim 13, wherein the surface of the permanent magnet for attaching the water outlet pipe has a curved surface shape.