技术领域technical field
本发明关于一种负离子水产生器,尤其是一种能够缩小水分子团以利负离子溶解于水中的负离子水产生器。The invention relates to a negative ion water generator, in particular to a negative ion water generator capable of shrinking water molecular clusters to facilitate the dissolution of negative ions in water.
背景技术Background technique
请参照图1所示,是一种现有负离子水产生器9,包含一水胆91及一负离子产生器92,该负离子产生器92固定于该水胆91外部,且该负离子产生器92具有一负离子释出口921,该负离子释出口921朝向开设于该水胆91外壁的一贯穿孔911设置。借此,该负离子产生器92能够通过该负离子释出口921不断地释出负离子,并且通过该贯穿孔911让负离子进入该水胆91而溶解与水中,使该水胆91中所容置的水体形成负离子水。所述现有负离子水产生器9的一实施例已揭露于中国台湾专利公告第M266428号《可产生负离子水之饮水机》的专利案中。Please refer to shown in Fig. 1, be a kind of existing anion water generator 9, comprise a water tank 91 and a negative ion generator 92, this negative ion generator 92 is fixed on this water tank 91 outside, and this negative ion generator 92 has An anion releasing port 921, the anion releasing port 921 is arranged towards a through hole 911 provided on the outer wall of the water tank 91. In this way, the negative ion generator 92 can continuously release negative ions through the negative ion release port 921, and allow the negative ions to enter the water tank 91 through the through hole 911 and dissolve in the water, so that the water contained in the water tank 91 Form negative ion water. An embodiment of the existing negative ion water generator 9 has been disclosed in the patent case of Taiwan Patent Publication No. M266428 "Drinking Water Dispenser Capable of Producing Negative Ion Water".
但是,该负离子释出口921所释出的负离子通过该贯穿孔911进入该水胆91后,仅接触一水体W的液面,使得负离子溶解于该水体W的速率缓慢,且当该水体W溶解一定数量的负离子后,由于负离子在该水体W靠近其液面的部分浓度较高,会导致该水体W无法通过其液面溶解更多的负离子。据此,运用该现有负离子水产生器9制作负离子水时,负离子溶解该水体W的速率过于缓慢,可能降低该现有负离子水产生器9的产品实用性。However, after the negative ions released by the negative ion release port 921 enter the water tank 91 through the through hole 911, they only contact the liquid surface of a water body W, so that the speed 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 water body W cannot dissolve more negative ions through its liquid surface due to the high concentration of negative ions in the part of the water body W close to its liquid surface. Accordingly, when using the existing anion water generator 9 to produce anion water, the rate at which anion dissolves the water body W is too slow, which may reduce the product practicability of the existing anion water generator 9 .
再者,水分子构造受到氢键影响,一水分子容易与相邻的水分子间产生相互吸引的力量,所述力量将使水分子聚集形成的水体具有内聚力,且由于水体中含有大量的水分子,受到氢键影响,水体中的水分子将会相互吸引而自然形成许多水分子团。在上述水体W当中,在不受外力影响的情况下,水分子所自然形成的水分子团内的水分子数目较多,使得该水体W中的水分子团体积较大,会使得负离子难以附着于水分子,直接造成负离子成功溶解于该水体W的比率降低,因此将使该现有负离子水产生器9所制作的负离子水具有较低的负离子浓度。Furthermore, the structure of water molecules is affected by hydrogen bonds, and a water molecule tends to generate mutual attraction forces with adjacent water molecules, which will make the water body formed by the aggregation of water molecules have cohesive force, and because a large amount of water is contained in the water body Molecules, affected by hydrogen bonds, the water molecules in the water body will attract each other and naturally form many water molecular clusters. In the above-mentioned water body W, under the condition of not being affected by external force, the number of water molecules in the water molecular cluster naturally formed by water molecules is relatively large, which makes the volume of the water molecular cluster in the water body W larger, which makes it difficult for negative ions to attach For water molecules, directly cause the ratio of negative ions to be successfully dissolved in the water body W to decrease, so the negative ion water produced by the existing negative ion water generator 9 will have a lower negative ion concentration.
有鉴于此,亟需提供一种进一步改良的负离子水产生器,以解决现有负离子水产生器9制作负离子水时“负离子溶解于水中的速率过于缓慢”以及“所制作的负离子水的负离子浓度较低”等问题。In view of this, it is urgent to provide a further improved negative ion water generator to solve the problem of "the speed at which negative ions dissolve in water is too slow" and "the negative ion concentration of the negative ion water produced by the existing negative ion water generator 9 is too slow" when making negative ion water. lower" etc.
发明内容Contents of the invention
本发明的一目的是提供一种负离子水产生器,通过将一负离子产生器结合于一座体,该负离子产生器连接一管体,该管体远离该负离子产生器的一端形成一负离子释出口,该管体可以伸入一容器内部,使该负离子释出口形成于该容器内部,具有提升负离子溶解于该水体中的速率的功效。An object of the present invention is to provide a negative ion water generator. By combining a negative ion generator with a base, the negative ion generator is connected with a tube body, and the end of the tube body away from the negative ion generator forms a negative ion release port. The pipe body can extend into a container, so that the negative ion release port is formed inside the container, and has the effect of increasing the rate of negative ions dissolving in the water body.
本发明的另一目的是提供一种负离子水产生器,通过将一超声波产生器结合于该座体,该超声波产生器通过一连杆连接该振荡体,该连杆可以伸入该容器内部,使该振荡体释出口形成于该容器内部,具有提升该负离子水产生器所制作的负离子水的负离子浓度功效。Another object of the present invention is to provide a negative ion water generator. By combining an ultrasonic generator with the base body, the ultrasonic generator is connected to the oscillating body through a connecting rod, and the connecting rod can extend into the container. Forming the discharge port of the oscillator inside the container has the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator.
为达到前述发明目的,本发明所运用的技术手段包含有:In order to achieve the aforementioned object of the invention, the technical means employed in the present invention include:
一种负离子水产生器,包含:一个座体;一个负离子产生器,结合于该座体,该负离子产生器分别连接一个管体及一个空气泵,该管体远离该负离子产生器的一端形成一个负离子释出口;一个超声波产生器,结合于该座体,该超声波产生器通过一个连杆连接一个振荡体;及一个电源供应模组,结合于该座体,该电源供应模组分别电性连接该负离子产生器、该空气泵及该超声波产生器。A negative ion water generator, comprising: a base; a negative ion generator, combined with the base, the negative ion generator is respectively connected to a pipe body and an air pump, and the end of the pipe body away from the negative ion generator forms a Negative ion release port; an ultrasonic generator, combined with the base body, the ultrasonic generator is connected to an oscillating body through a connecting rod; and a power supply module, combined with the base body, the power supply modules are electrically connected respectively The negative ion generator, the air pump and the ultrasonic generator.
本发明的负离子水产生器,其中,该座体包含一个支架及一个底座,该支架结合于该底座,且该支架沿一个竖直方向朝远离该底座的方向延伸,该负离子产生器与该超声波产生器分别结合于该支架当中。Negative ion water generator of the present invention, wherein, this seat body comprises a support and a base, and this support is combined with this base, and this support extends toward the direction away from this base along a vertical direction, this negative ion generator and this ultrasonic wave The generators are respectively combined in the brackets.
本发明的负离子水产生器,其中,该负离子产生器的管体凸伸于该座体的支架外部且沿着该竖直方向朝该底座延伸,该超声波产生器的连杆亦凸伸于该座体的支架外部且沿着该竖直方向朝该底座延伸。Negative ion water generator of the present invention, wherein, the pipe body of this negative ion generator protrudes outside the support of this seat and extends toward this base along this vertical direction, and the connecting rod of this ultrasonic generator also protrudes from this The outside of the support of the seat body extends toward the base along the vertical direction.
本发明的负离子水产生器,其中,另包含相邻该座体的底座设置的一个容器,该容器具有一个开口,该管体及该连杆通过该开口伸入该容器内部,使该负离子产生器的负离子释出口及该超声波产生器的振荡体形成于该容器内部。The negative ion water generator of the present invention further comprises a container arranged adjacent to the base of the pedestal, the container has an opening through which the pipe body and the connecting rod extend into the container to generate the negative ions The negative ion release port of the device and the oscillator of the ultrasonic generator are formed inside the container.
本发明的负离子水产生器,其中,另包含一个磁化器,该磁化器为硬磁性材料所制成的永久磁化体,该磁化器相邻该座体的底座设置,且该磁化器沿该竖直方向与该管体及该连杆相对位。The negative ion water generator of the present invention, wherein, further comprises a magnetizer, and this magnetizer is the permanent magnetization body that hard magnetic material is made, and this magnetizer is arranged adjacent to the base of this base, and this magnetizer is along this vertical The vertical direction is opposite to the pipe body and the connecting rod.
本发明的负离子水产生器,其中,另包含一个磁化器,该磁化器由电磁线圈所组成,该磁化器结合于该座体且电性连接该电源供应模组。The negative ion water generator of the present invention further includes a magnetizer, which is composed of an electromagnetic coil, and the magnetizer is combined with the base body and electrically connected with the power supply module.
本发明的负离子水产生器,其中,该座体的底座具有一个承载面,该承载面沿该竖直方向朝向该负离子产生器的管体及该超声波产生器的连杆,该磁化器结合于该底座相邻该承载面的位置。Negative ion water generator of the present invention, wherein, the base of this pedestal has a carrying surface, and this carrying surface faces the pipe body of this negative ion generator and the connecting rod of this ultrasonic generator along this vertical direction, and this magnetizer is combined with The base is adjacent to the bearing surface.
本发明的负离子水产生器,其中,另包含设置于该底座的承载面上的一个容器,该容器具有一个开口,该管体及该连杆通过该开口伸入该容器内部,使该负离子产生器的负离子释出口及该超声波产生器的振荡体形成于该容器内部。The negative ion water generator of the present invention further comprises a container arranged on the bearing surface of the base, the container has an opening, and the pipe body and the connecting rod extend into the container through the opening, so that the negative ion can be generated The negative ion release port of the device and the oscillator of the ultrasonic generator are formed inside the container.
本发明的负离子水产生器,其中,该电源供应模组包含一个电源线,该电源线用以电性连接该负离子水产生器外部的电源。In the negative ion water generator of the present invention, the power supply module includes a power cord, and the power cord is used to electrically connect the external power source of the negative ion water generator.
附图说明Description of drawings
图1为一种现有负离子水产生器的风扇的结构剖视图。Fig. 1 is a structural sectional view of a fan of an existing negative ion water generator.
图2为本发明第一实施例的外观透视示意图。FIG. 2 is a schematic perspective view of the appearance of the first embodiment of the present invention.
图3为本发明第二实施例的外观透视示意图。FIG. 3 is a schematic perspective view of the appearance of the second embodiment of the present invention.
图4为本发明第三实施例的外观透视示意图。FIG. 4 is a schematic perspective view of the appearance of the third embodiment of the present invention.
【符号说明】【Symbol Description】
〔本发明〕〔this invention〕
1 负离子水产生器 11座体 111支架 112底座1 Negative ion water generator 11 seat body 111 bracket 112 base
112a承载面 12负离子产生器 121管体 121a负离子释出口112a bearing surface 12 negative ion generator 121 tube body 121a negative ion release port
122空气泵 13超声波产生器 131振荡体 132连杆122 air pump 13 ultrasonic generator 131 oscillating body 132 connecting rod
14电源供应模组 141电源线 15磁化器 15’ 磁化器14 Power Supply Module 141 Power Cord 15 Magnetizer 15’ Magnetizer
X竖直方向 C容器 C1开口 W水体X vertical direction C container C1 opening W water body
〔现有〕 9现有负离子水产生器 91水胆 911贯穿孔[Existing] 9 Existing Negative Ion Water Generator 91 Water Tank 911 Through Hole
92负离子产生器921负离子释出口 W水体。92 negative ion generators 921 negative ion release outlet W water body.
具体实施方式detailed description
为让本发明的上述及其它目的、特征及优点能更明显易懂,下文特举本发明的较佳实施例,并配合附图,作详细说明如下:In order to make the above-mentioned and other objects, features and advantages of the present invention more comprehensible, the preferred embodiments of the present invention are specifically cited below, together with the accompanying drawings, as follows:
本发明全文所述的“负离子水”(negative ion water),是指水体中含有负离子化的水分子。详言之,带负电的氢氧离子(OH-)可以附着于水分子,使水分子形成负离子化的分子(H2O3-);而本发明全文所述的负离子浓度,是指水体中所含的负离子化的水分子浓度,为本发明所属技术领域中具有通常知识者可以理解。The "negative ion water" mentioned in the present invention refers to the negatively ionized water molecules contained in the water body. Specifically, negatively charged hydroxide ions (OH-) can attach to water molecules, making water molecules form negatively ionized molecules (H2 O3 -); and the negative ion concentration described in the present invention refers to the The contained negatively ionized water molecule concentration can be understood by those with ordinary knowledge in the technical field of the present invention.
请参照图2所示,是本发明第一实施例的负离子水产生器1,包含一座体11、一负离子产生器12、一超声波产生器13及一电源供应模组14。该负离子产生器12、该超声波产生器13及该电源供应模组14可以分别结合于该座体11。Please refer to FIG. 2 , which is a negative ion water generator 1 according to the first embodiment of the present invention, which includes a base 11 , a 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 combined with the base body 11 .
详言之,该座体11包含一支架111及一底座112,该支架111结合于该底座112。该底座112供结合于一桌子的桌面或其他物体的表面,且该支架111可以沿一竖直方向X朝远离该底座112的方向延伸。该负离子产生器12与该超声波产生器13可以分别结合于该支架111当中,使得当该底座112被设置于一桌子的桌面或其他物体的表面时,该负离子产生器12及该超声波产生器13可以在该竖直方向X上与所述桌子或其他物体间形成一间距。In detail, the base body 11 includes a bracket 111 and a base 112 , and the bracket 111 is combined with the base 112 . The base 112 is used to be combined with a table top or other surface, and the bracket 111 can extend along a vertical direction X away from the base 112 . The negative ion generator 12 and the ultrasonic generator 13 can be respectively combined in the bracket 111, so that when the base 112 is arranged on the surface of a table or other objects, the negative ion generator 12 and the ultrasonic generator 13 A distance may be formed in the vertical direction X from the table or other objects.
该负离子产生器12分别连接一管体121及一空气泵122,该管体121远离该负离子产生器12的一端形成一负离子释出口121a。其中,该管体121凸伸于该座体11的支架111外部且沿着该竖直方向X朝该底座112延伸。该空气泵122可以为现有微型空气泵,且该负离子产生器12与该空气泵122可以分别电性连接于该电源供应模组14,以获取供应该负离子产生器12与该空气泵122运作所需的电能。借此,该空气泵122可以将空气输入该负离子产生器12当中,该负离子产生器12遂可利用如脉冲电路及振荡器等现有升压元件将低电压转换为直流负高压,以将其内部的空气电离形成负离子,由于该空气泵122持续将空气输入该负离子产生器12,因此通过该负离子产生器12的空气连同所述负离子将通过该管体121而通过该负离子释出口121a释出。由于负离子产生器12的运作原理为本发明所属领域中具有通常知识者所能理解实施,因此关于该负离子产生器12与该空气泵122的详细作动方式恕不再行赘述。The negative ion generator 12 is respectively connected to a tube body 121 and an air pump 122 , and the end of the tube body 121 away from the negative ion generator 12 forms a negative ion release port 121 a. Wherein, the tube body 121 protrudes outside the bracket 111 of the base body 11 and extends along the vertical direction X toward the base 112 . The air pump 122 can be an existing miniature air pump, and the negative ion generator 12 and the air pump 122 can be electrically connected to the power supply module 14 respectively, so as to obtain and supply the negative ion generator 12 and the air pump 122 to operate required electrical energy. Thereby, the air pump 122 can input air into the negative ion generator 12, and the negative ion generator 12 can utilize existing boost components such as pulse circuits and oscillators to convert the low voltage into a DC negative high voltage to convert it The internal air is ionized to form negative ions. Since the air pump 122 continues to input air into the negative ion generator 12, the air passing through the negative ion generator 12 together with the negative ions will pass through the tube body 121 and be released through the negative ion release port 121a. . Since the operating principle of the negative ion generator 12 is understood and implemented by those skilled in the art, the detailed operation of the negative ion generator 12 and the air pump 122 will not be repeated here.
该超声波产生器13连接一振荡体131,更详言之,该超声波产生器13通过一连杆132连接该振荡体131,该连杆132凸伸于该座体11的支架111外部且沿着该竖直方向X朝该底座112延伸。该超声波产生器13可以电性连接于该电源供应模组14,以获取供应该超声波产生器13运作所需的电能。该超声波产生器13用以产生震动频率超过20kHz的振波,并且通过该连杆132将所述振波传导至该振荡体131,使该振荡体131产生震动。The ultrasonic generator 13 is connected to an oscillating body 131. More specifically, the ultrasonic generator 13 is connected to the oscillating body 131 through a connecting rod 132. The connecting rod 132 protrudes outside the bracket 111 of the base 11 and along the The vertical direction X extends toward the base 112 . The ultrasonic generator 13 can be electrically connected to the power supply module 14 to obtain the power required for the operation of the ultrasonic generator 13 . The ultrasonic generator 13 is used to generate vibration waves with a vibration frequency exceeding 20 kHz, and transmit the vibration waves to the oscillating body 131 through the connecting rod 132 to make the oscillating body 131 vibrate.
该电源供应模组14可以为电源转换装置(例如:变压器),据此,该电源供应模组14可以通过一电源线141以电性连接该负离子水产生器1外部的电源(例如:市电电源),且该电源供应模组14可以对该电源线141所输入的电源进行变压及交/直流转换等处理,以产生供应该负离子产生器12、该空气泵122或该超声波产生器13运作所需的电能。然而,该电源供应模组14亦可为独立电源供应装置(例如:电池组),使得该电源供应模组14可以直接提供该负离子产生器12、该空气泵122或该超声波产生器13所需的电能,毋须另行电性连接该负离子水产生器1外部的电源,为本领域技术人员均可轻易思及者。The power supply module 14 can be a power conversion device (for example: a transformer), accordingly, the power supply module 14 can be electrically connected to an external power supply (for example: commercial power) of the negative ion water generator 1 through a power line 141 power supply), and the power supply module 14 can perform voltage transformation and AC/DC conversion on the power input by the power line 141 to generate and supply the negative ion generator 12, the air pump 122 or the ultrasonic generator 13 The electrical energy required for operation. However, the power supply module 14 can also be an independent power supply device (for example: a battery pack), so that the power supply module 14 can directly provide the negative ion generator 12, the air pump 122 or the ultrasonic generator 13. The electric energy does not need to be electrically connected to the external power supply of the negative ion water generator 1, which is easily conceivable by those skilled in the art.
借助上述结构,请续参照图2所示,本发明第一实施例的负离子水产生器1实际使用时,可以将一容器C相邻该座体11的底座112设置,该容器C具有一开口C1,且该开口C1可以朝向该负离子产生器12的管体121及该超声波产生器13的连杆132。借此,该管体121及该连杆132可以通过该开口C1伸入该容器C内部,使该负离子产生器12的负离子释出口121a及该超声波产生器13的振荡体131伸至该容器C内部。With the above structure, please continue to refer to shown in Figure 2, when the negative ion water generator 1 of the first embodiment of the present invention is actually used, a container C can be arranged adjacent to the base 112 of the seat body 11, and the container C has an opening C1, and the opening C1 may face the tube 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, so that the negative ion release port 121a of the negative ion generator 12 and the oscillator 131 of the ultrasonic generator 13 extend into the container C internal.
该容器C内部可供容纳一水体W,据此,该负离子释出口121a及该振荡体131将可形成于该水体W当中。该第一实施例的负离子水产生器1启动后,该负离子产生器12将可产生负离子并且通过该管体121以通过该负离子释出口121a释出负离子,使得所述负离子自该负离子释出口121a进入该水体W当中。同时,该超声波产生器13将可产生振波并通过该连杆132将振波传导至该振荡体131,使该振荡体131产生震动,进而一并驱使该水体W产生震动。据此,所述负离子将可有效溶解于该水体W当中,以附着于该水体W中的水分子,使该水体W中的水分子得以形成负离子化的水分子,进而使该水体W形成负离子水。The interior of the container C can accommodate a body of water W, and accordingly, the anion release port 121 a and the oscillating body 131 can be formed in the body of water W. After the negative ion water generator 1 of this first embodiment is started, the negative ion generator 12 will be able to produce negative ions and pass through the tube body 121 to release negative ions through the negative ion release port 121a, so that the negative ions are released from the negative ion release port 121a into the water body W. Simultaneously, the ultrasonic generator 13 can generate vibration waves and transmit the vibration waves to the oscillating body 131 through the connecting rod 132 , causing the oscillating body 131 to vibrate, and then drive the water body W to vibrate. Accordingly, the negative ions can be effectively dissolved in the water body W to attach 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, and then make the water body W form negative ions water.
值得注意的是,由于该负离子产生器12的负离子释出口121a形成于该容器C内部,使得该负离子释出口121a可以形成于该水体W当中,且该负离子产生器12连接该空气泵122,该空气泵122持续将空气输入该负离子产生器12以迫使负离子通过该负离子释出口121a释出,因此当所述负离子自该负离子释出口121a释出后直接进入该水体W当中,可以与该水体W中的水分子充分接触。相较前述现有负离子水产生器9的负离子释出口921所释出的负离子仅接触一水体W的液面,使得负离子与该水体W间的接触面积较小,本发明第一实施例的负离子水产生器1能够使负离子自该负离子释出口121a释出后直接进入该水体W,以让负离子与该水体W间形成较大的接触面积,确实具有提升负离子溶解于该水体W的速率的功效。It is worth noting 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 The air pump 122 continuously feeds air into the negative ion generator 12 to force the negative ions to be released through the negative ion release port 121a. Therefore, when the negative ions are released from the negative ion release port 121a, they directly enter the water body W and can interact with the water body W. The water molecules in it are in full contact. Compared with the negative ion released by the negative ion release port 921 of the aforementioned existing negative ion water generator 9, the negative ion only touches the liquid surface of a water body W, so that the contact area between the negative ion and the water body W is relatively small. The negative ion of the first embodiment of the present invention The water generator 1 can make negative ions directly enter the water body W after being released from the negative ion release port 121a, so as to form a larger contact area between the negative ions and the water body W, and indeed has the effect of increasing the rate at which negative ions dissolve in the water body W. .
况且,在运用本发明第一实施例的负离子水产生器1制作负离子水时,不会产生如现有负离子水产生器9在该水体W溶解一定数量的负离子后,受到负离子在该水体W靠近其液面的部分浓度较高影响而导致该水体W无法通过其液面溶解更多的负离子的情况;相对地,在本实施例中,所述负离子自该负离子释出口121a释出后直接进入该水体W当中,因此负离子能够均匀地溶解于该水体W,使得负离子化的水分子在该水体W中平均分布,故负离子溶解于该水体W的速率不易随着该水体W的负离子浓度上升而降低。Moreover, when the negative ion water generator 1 of the first embodiment of the present invention is used to make negative ion water, it will not produce negative ions near the water body W after the existing negative ion water generator 9 dissolves a certain amount of negative ions in the water body W. Part of the concentration of its liquid surface is affected by the higher concentration and causes the water body W to be unable to dissolve more negative ions through its liquid surface; relatively, in this embodiment, the negative ions directly enter after being released from the negative ion release port 121a. In the water body W, negative ions can be uniformly dissolved in the water body W, so that the negatively ionized water molecules are evenly distributed in the water body W, so the rate of negative ions dissolving in the water body W is not easy to increase with the increase of the negative ion concentration of the water body W. reduce.
再者,已知该超声波产生器13能够产生震动频率超过20kHz的振波,当该超声波产生器13所产生的振波传导至该振荡体131,进而驱使该水体W产生震动时,将可破坏水分子构造的氢键,以削减相邻水分子间相互吸引的力量,有效减少该水体W中的水分子团内的水分子数目。借此,本发明第一实施例的负离子水产生器1可以通过设置该超声波产生器13来缩小该水体W当中的水分子团体积,以降低负离子附着于水分子的难度,进而增加负离子成功溶解于该水体W的比率,确实具有提升该负离子水产生器1所制作的负离子水的负离子浓度功效。Furthermore, it is known that the ultrasonic generator 13 can generate vibration waves with a vibration frequency exceeding 20 kHz. When the vibration waves generated by the ultrasonic generator 13 are transmitted to the oscillating body 131, and then drive the water body W to vibrate, it will be destructible. The hydrogen bonds formed by water molecules can reduce the mutual attraction force between adjacent water molecules and effectively reduce the number of water molecules in the water molecule cluster in the water body W. In this way, the negative ion water generator 1 of the first embodiment of the present invention can reduce the volume of water molecular clusters in the water body W by setting the ultrasonic generator 13, so as to reduce the difficulty of negative ions attaching to water molecules, thereby increasing the successful dissolution of negative ions The ratio to the water body W does have the effect of increasing the negative ion concentration of the negative ion water produced by the negative ion water generator 1 .
请续参照图3所示,为本发明第二实施例的负离子水产生器1,与前述第一实施例相异之处在于:另包含一磁化器15,该磁化器15为硬磁性材料所制成的永久磁化体,且该磁化器15相邻该座体11的底座112设置。该磁化器15可以沿该竖直方向X与该管体121及该连杆132相对位,借此,该容器C可以被放置于该磁化器15上方,使该管体121及该连杆132得以通过该开口C1伸入该容器C内部。Please continue to refer to shown in Fig. 3, it is the negative ion water generator 1 of the second embodiment of the present invention, differs from the foregoing first embodiment in that it further includes a magnetizer 15, which is made of hard magnetic material. The permanent magnetized body is made, and the magnetizer 15 is arranged adjacent to the base 112 of the seat body 11 . The magnetizer 15 can be opposite to the tube body 121 and the connecting rod 132 along the vertical direction X, whereby the container C can be placed above the magnetizer 15 so that the tube body 121 and the connecting rod 132 It can extend into the interior of the container C through the opening C1.
本发明第二实施例的负离子水产生器1通过在该底座112相邻该承载面112a的位置设置该磁化器15,由于该磁化器15为永久磁化体,因此该磁化器15能够持续产生静磁场,所述静磁场可以覆盖被放置于该磁化器15上方的容器C,用以对该容器C中的水体W进行磁化处理。该水体W中水分子团受到该磁化器15所产生的静磁场影响时将会产生磁化反应,使得水分子团内的水分子数目减少,进而使该水体W当中的水分子团体积进一步缩小。据此,本发明第二实施例的负离子水产生器1可以同时运用该超声波产生器13及该磁化器15来缩小该水体W当中的水分子团体积,能够使提升该负离子水产生器1所制作的负离子水的负离子浓度功效更为显著。The negative ion water generator 1 of the second embodiment of the present invention is provided with the magnetizer 15 at the position adjacent to the bearing surface 112a of the base 112. Since the magnetizer 15 is a permanent magnet, the magnetizer 15 can continuously generate static water. A magnetic field, the static magnetic field can cover the container C placed above the magnetizer 15 for magnetizing the water body W in the container C. When the water molecular clusters in the water body W are affected by the static magnetic field generated by the magnetizer 15 , a magnetization reaction will occur, which reduces the number of water molecules in the water molecular clusters, and further reduces the volume of the water molecular clusters in the water body W. 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 molecular clusters in the water body W, and can increase the volume of the negative ion water generator 1. The negative ion concentration effect of the produced negative ion water is more significant.
又,请参照图4所示,是本发明第三实施例的负离子水产生器1,同样包含一磁化器15’,与前述第二实施例相异之处在于:该磁化器15’是由电磁线圈所组成,该磁化器15’结合于该座体且电性连接该电源供应模组14。更详言之,在本实施例当中,该座体11的底座112具有一承载面112a,该承载面112a较佳沿该竖直方向X朝向该负离子产生器12的管体121及该超声波产生器13的连杆132,借此该容器C能够设置于该底座112的承载面112a上,且该容器C远离该开口C1的一侧结合于该承载面112a,使该管体121及该连杆132得以通过该开口C1伸入该容器C内部。该磁化器15’可以结合于该底座112相邻该承载面112a的位置。该磁化器15’可以电性连接于该电源供应模组14,以获取供应该磁化器15运作所需的电能。Again, please refer to shown in Fig. 4, be the negative ion water generator 1 of the third embodiment of the present invention, comprise a magnetizer 15 ' equally, the difference with the foregoing second embodiment is: this magnetizer 15 ' is made of Composed of electromagnetic coils, the magnetizer 15 ′ is combined with the base body and electrically connected with the power supply module 14 . More specifically, in this embodiment, the base 112 of the base body 11 has a bearing surface 112a, and the bearing surface 112a is preferably directed toward the tube body 121 of the anion generator 12 and the ultrasonic generator along the vertical direction X. The connecting rod 132 of the device 13, whereby the container C can be set on the bearing surface 112a of the base 112, and the side of the container C away from the opening C1 is combined with the bearing surface 112a, so that the pipe body 121 and the connecting rod The rod 132 is protruded into the container C through the opening C1. The magnetizer 15' can be combined with the base 112 adjacent to the bearing surface 112a. The magnetizer 15' can be electrically connected to the power supply module 14 to obtain the power required for the operation of the magnetizer 15.
本发明第三实施例的小分子团负离子水产生器1通过在该底座112相邻该承载面112a的位置设置由电磁线圈所组成的磁化器15’,该磁化器15’能够运用交流电流以感应产生交变磁场,所述交变磁场可以穿透该底座112以覆盖设置于该承载面112a的容器C,用以对该容器C中的水体W进行磁化处理。该水体W中水分子团受到该磁化器15’所产生的交变磁场影响时将会产生磁化反应,且相较前述第二实施例运用静磁场对该容器C中的水体W进行磁化处理,在本实施例中该磁化器15’能够产生交变磁场以对该容器C中的水体W进行磁化处理,将可进一步提升缩小该水体W当中的水分子团体积的效果,使得该水体W溶解负离子的效率更佳。The small molecular cluster 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 the position of the base 112 adjacent to the bearing surface 112a, and the magnetizer 15' can use an alternating current to The induction generates an alternating magnetic field, and the alternating magnetic field can penetrate the base 112 to cover the container C disposed on the carrying surface 112a, so as to magnetize the water body W in the container C. When the water molecules in the water body W are affected by the alternating magnetic field generated by the magnetizer 15 ′, a magnetization reaction will occur, and compared with the aforementioned second embodiment, the water body W in the container C is magnetized by using a static magnetic field. In this embodiment, the magnetizer 15' can generate 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 molecular clusters in the water body W, so that the water body W can be dissolved. Negative ions are more efficient.
借助前揭的结构特征,本发明第一、第二及第三实施例的负离子水产生器1的主要特点在于:With the help of the structural features disclosed above, the main features of the negative ion water generator 1 of the first, second and third embodiments of the present invention are:
通过将一负离子产生器12及一超声波产生器13结合于一座体1,该负离子产生器12连接一管体121,该管体121远离该负离子产生器12的一端形成一负离子释出口121a;该超声波产生器13通过一连杆132连接该振荡体131。该负离子产生器12可以产生并由该负离子释出口121a释出负离子,该超声波产生器13将可产生并将振波传导至该振荡体131。By combining a negative ion generator 12 and an ultrasonic generator 13 on the base body 1, the negative ion generator 12 is connected to a tube body 121, and the end of the tube body 121 away from the negative ion generator 12 forms a negative ion release port 121a; The ultrasonic generator 13 is connected to the oscillating body 131 through a connecting rod 132 . The negative ion generator 12 can generate and release negative ions through the negative ion releasing port 121 a , and the ultrasonic generator 13 can generate and conduct vibration waves to the oscillator 131 .
借此,当一容器C相邻该座体11的底座112设置时,该管体121及该连杆132可以通过该容器C的一开口C1伸入至该容器C内部,使该负离子产生器12的负离子释出口121a及该超声波产生器13的振荡体131形成于该容器C内部。由此可知,当所述负离子自该负离子释出口121a释出后,直接进入该容器C所容纳的一水体W中,相较前述现有负离子水产生器9的负离子释出口921所释出的负离子仅接触一水体W的液面,使得负离子与该水体W间的接触面积较小,本发明第一实施例的负离子水产生器1能够使负离子自该负离子释出口121a释出后直接进入该水体W,以让负离子与该水体W间形成较大的接触面积,确实具有提升负离子溶解于该水体W的速率的功效。Thereby, when a container C is arranged adjacent to the base 112 of the seat body 11, the tube body 121 and the connecting rod 132 can extend into the container C through an opening C1 of the container C, so that the anion generator The negative ion release port 121a of 12 and the oscillator 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 directly enter a body of water W contained in the container C, compared with the negative ion discharge port 921 of the aforementioned existing negative ion water generator 9. Negative ions only contact the liquid surface of a water body W, so that the contact area between the negative ions and the water body W is relatively small, and the negative ion water generator 1 of the first embodiment of the present invention can make the negative ions directly enter the water body after being released from the negative ion release port 121a. The water body W, in order to form a larger contact area between the negative ions and the water body W, does have the effect of increasing the rate at which the negative ions dissolve in the water body W.
此外,由于该振荡体131将可形成于该水体W当中,当该超声波产生器13产生并将振波传导至该振荡体131时,该振荡体131将产生震动并且一并驱使该水体W产生震动,可有效缩小该水体W当中的水分子团体积,进而增加负离子成功溶解于该水体W的比率,确实具有提升该负离子水产生器1所制作的负离子水的负离子浓度功效。In addition, since the oscillating body 131 will be formed in the water body W, when the ultrasonic generator 13 generates and transmits vibration waves to the oscillating body 131, the oscillating body 131 will vibrate and drive the water body W to generate Vibration can effectively reduce the volume of water molecular clusters in the water body W, thereby increasing the ratio of 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,在本发明第二及第三实施例的负离子水产生器1中,另设有一磁化器15或15’,该磁化器15或15’能够产生磁场并且利用所述磁场对该容器C中的水体W进行磁化处理,可以进一步缩小该水体W当中的水分子团体积,能够使提升该负离子水产生器1所制作的负离子水的负离子浓度功效更为显著。On the other hand, in the negative ion water generator 1 of the second and third embodiments of the present invention, a magnetizer 15 or 15' is additionally provided. The water body W in C is subjected to magnetization treatment, which can further reduce the volume of water molecules in the water body W, and can improve the negative ion concentration effect of the negative ion water produced by the negative ion water generator 1 more significantly.
综上所述,本发明负离子水产生器确可达到提升负离子溶解于水中的速率以及提升所制作的负离子水的负离子浓度等功效。To sum up, the anion water generator of the present invention can indeed achieve the effects of increasing the rate of anion dissolving in water and increasing the anion concentration of the produced anion water.
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| CN201410393406.0ACN105366854B (en) | 2014-08-12 | 2014-08-12 | Anion water generator |
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| Date | Code | Title | Description |
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| C10 | Entry into substantive examination | ||
| SE01 | Entry into force of request for substantive examination | ||
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| CF01 | Termination of patent right due to non-payment of annual fee | Granted publication date:20180109 |