TWI542551B - May be the ordering method and apparatus for long-term water molecules - Google Patents
May be the ordering method and apparatus for long-term water molecules Download PDFInfo
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Description
本發明主要係為一種可將水分子序化之長效方法與設備,尤指一種透過第一水分子序化單元及第二水分子序化單元以達到將水分子細化及長期定型之方法與設備。 The invention is mainly a long-term method and device for ordering water molecules, in particular, a method for refining and long-term shaping water molecules through a first water molecule sequencing unit and a second water molecule sequencing unit. device.
水分子係由一氧原子及二個氫原子所構成,但一個水分子並無法單獨存在,它必須與其它水分子相結合,以形成類似環狀或鏈狀之聚合體,以構成所謂的「水分子團」;而目前一般所用之自來水,其水分子概約由13個以上之水分子數所構成,但經由科技方式讓「水分子團」內的水分子數量減少,約剩下5~9個水分子數,這水分子數量之集合體則稱為「小分子水」;若「水分子團」的體積越小,則滲透力就越強且密度變高,因此小分子水亦可產生諸多妙效,不但可助於人體吸收以促進新陳代謝之功效,且更可用於清潔皮膚或針對化學性做徹底沖淨等;然,目前坊間所製作之小分子水之商品,像是電解水機、遠紅外線、磁化或是生化陶瓷製水機等,其所生產出來的小分子水商品,若經由長時間放置及溫度變化,則會自行還原至水分子團;由上述可知,習用之技術仍擁有許多缺點存在,實非一良善之設計者,而極需改善加強; 緣此,本發明人有鑑於上述習知之小分子水商品所衍生的各項缺點進行改良及設計,並歷經多年苦心孤詣費心研究後,終研發出本件可將水分子序化之長效方法與設備。 A water molecule consists of an oxygen atom and two hydrogen atoms, but a water molecule cannot exist alone. It must be combined with other water molecules to form a ring-like or chain-like polymer to form a so-called " "Water molecule group"; the tap water currently used generally consists of more than 13 water molecules, but the number of water molecules in the "water molecule group" is reduced by technology, leaving about 5~ The number of 9 water molecules, the aggregate of the number of water molecules is called "small molecule water"; if the volume of "water molecule group" is smaller, the penetration is stronger and the density becomes higher, so small molecule water can also It has many wonderful effects, which can not only help the body to absorb and promote the metabolism, but also can be used to clean the skin or thoroughly clean the chemical. However, the products of small molecule water produced in the workshop, such as electrolyzed water. Machines, far-infrared, magnetized or biochemical ceramic water machines, etc., if they are placed over a long period of time and temperature changes, they will be reduced to water molecules by themselves; The technology still has many shortcomings, it is not what a good and the designers, but most need to improve strengthened; Therefore, the present inventors have improved and designed various shortcomings derived from the above-mentioned conventional small molecule water products, and after years of painstaking research, finally developed a long-term method and equipment for ordering water molecules. .
本發明所欲解決之問題在於小分子水若經由長時間放置及溫度變化,則會自行還原至水分子團的問題;根據上述之目的,本發明主要係提供一種可將水分子序化之長效方法與設備以解決上述問題之技術手段,其包括一入水元件、一水垢處理元件、一逆滲透裝置、一第一控制元件、一儲水槽、一加壓元件、至少一第一水分子序化單元、至少一第二水分子序化單元、一第二控制元件及一出水元件相對構組而成;該第一水分子序化單元係包括複數板管及複數渦流元件,各該板管係由一第一板體及一第二板體組合而成,各該板管係具有一入水口、一熱體入口、一出水口及一熱體出口,該入水口之口徑大於該出水口,該熱體出口之口徑大於該熱體入口,各該板管內部係設有至少一分隔部以隔離水與熱體之流道,各該板管係為相間隔的疊合設置,以使得各該板管形成一多面環道之結構設計;該渦流元件係設置於各該板管之中,該渦流元件係為一具有複數不規則之波浪彎折之片體,各該渦流元件內部設有複數活化體,該入水口及該熱體出口係與各該板管相連接且內部相連通,而該出水口及該熱體入口係穿透各該板管且與底端之該板管相連通;該第二水分子序化單元係包括該板管及該渦流元件,各該板管係由該第一板體及該第二板體組合而成,各該板管係具有該入水口、一 冷體入口、該出水口及一冷體出口,該入水口之口徑大於該出水口,該冷體出口之口徑大於該冷體入口;各該板管內部係設有至少一分隔部以隔離水與冷體之流道,各該板管相間隔處設有至少一散熱元件,各該板管內設有該渦流元件,各該渦流元件內部設有該活化體,該入水口及該冷體出口係與各該板管相連接且內部相連通,而該出水口及該冷體入口係穿透各該板管且與底端之該板管相連通;係先透過入水元件將水送入,該水係經由水垢處理元件進行磁化,再流至逆滲透裝置以過濾雜質,再透過第一控制元件以檢測該儲水槽之水位,當水位已高於標準時則停止進水,而當水位過低則進行進水之作業,而後再流入儲水槽中備用,之後由加壓元件抽取儲水槽內的水,再經該第一水分子序化單元以進行礦石活化、高壓撞擊、剪切效應、高速噴射及超音波等處理,且同時進行加熱至沸騰,而後流至該第二水分子序化單元以進行礦石活化、高壓撞擊、剪切效應、高速噴射及超音波等處理,且同時進行冷卻,之後再透過第二控制元件以檢測該容體內之水位,當該容體之水位已達標準時則停止進水,而當該容體水位不足時則透過該儲水槽進行進水之作業,最後由該出水元件將水送出至一容體,以有效達到細化水分子且具有長期定型之功效;如上所述之加壓元件,其中,該加壓元件係用於抽取該儲水槽內的水;如上所述之加壓元件,其中,該加壓元件係為加壓幫浦;如上所述之活化體,其中,該活化體係包括麥飯石、陽起石、氣泡石、沸石、木魚石; 如上所述之第一控制元件,其中,該第一控制元件係為電磁閥;如上所述之第二控制元件,其中,該第二控制元件係為電磁閥。 The problem to be solved by the present invention is that the small molecule water will be self-reduced to the water molecule group if it is left for a long time and the temperature changes; according to the above object, the present invention mainly provides a long order of water molecules. And a device for solving the above problems, comprising a water inlet component, a scale treatment component, a reverse osmosis device, a first control component, a water storage tank, a pressurizing component, and at least a first water molecular sequence The chemical unit, the at least one second water molecule sequencing unit, the second control element and the water outlet element are relatively configured; the first water molecule sequencing unit comprises a plurality of plate tubes and a plurality of vortex elements, each of the tubes The first plate body and the second plate body are combined, and each of the plate pipe systems has a water inlet, a heat body inlet, a water outlet and a hot body outlet, wherein the water inlet has a larger diameter than the water outlet. The hot body outlet has a larger diameter than the hot body inlet, and each of the plate tubes is provided with at least one partition to isolate the flow path of the water and the hot body, and each of the plate tubes is arranged at intervals, so that Each board Forming a multi-faceted loop structure; the eddy current element is disposed in each of the tube tubes, the eddy current element is a sheet body having a plurality of irregular wave bends, and each of the eddy current elements is provided with a plurality of activations The water inlet and the hot body outlet are connected to the inner tube and communicate with the inner tube, and the water outlet and the hot body inlet penetrate the respective tube tubes and communicate with the bottom tube of the tube; The second water molecule sequencing unit includes the plate tube and the eddy current element, and each of the plate tubes is formed by combining the first plate body and the second plate body, and each of the plate tube systems has the water inlet and a water inlet a cold body inlet, the water outlet and a cold body outlet, wherein the water inlet has a larger diameter than the water outlet, and the cold body outlet has a larger diameter than the cold body inlet; each of the plate tubes is provided with at least one partition to isolate the water And at least one heat dissipating component is disposed at a distance between each of the tube tubes, and each of the tube tubes is provided with the eddy current element, and each of the eddy current elements is internally provided with the activating body, the water inlet and the cold body The outlet is connected to each of the tube tubes and communicates with the inside, and the water outlet and the inlet of the cold body penetrate the tubes and communicate with the tube at the bottom end; the water is first fed through the water inlet element The water is magnetized by the scale treatment element, and then flows to the reverse osmosis device to filter the impurities, and then passes through the first control element to detect the water level of the water storage tank. When the water level is higher than the standard, the water is stopped, and when the water level passes When the water is low, the water is poured into the water storage tank, and then the water is drained from the water storage tank, and then the first water molecule sequencing unit is used to perform ore activation, high pressure impact, shearing effect, High speed jet and ultrasonic Processing, and simultaneously heating to boiling, and then flowing to the second water molecule sequencing unit for ore activation, high pressure impact, shearing effect, high speed jetting and ultrasonic processing, and simultaneously cooling, and then through the second The control component detects the water level in the volume, stops the water inlet when the water level of the volume has reached the standard, and performs the water inlet operation through the water storage tank when the water level of the volume is insufficient, and finally the water is discharged by the water discharge component Delivered to a container to effectively refine water molecules and have long-term shaping effect; the pressurizing element as described above, wherein the pressurizing element is used to extract water in the water storage tank; a pressure element, wherein the pressure element is a pressure pump; the activation body as described above, wherein the activation system comprises maifanite, actinolite, bubble stone, zeolite, kerosene; The first control element as described above, wherein the first control element is a solenoid valve; the second control element as described above, wherein the second control element is a solenoid valve.
為使本發明之上述目的、特徵和優點能更明顯易懂,下文茲配合圖示列舉具體實施例。 The above described objects, features, and advantages of the present invention will become more apparent from the written description.
1‧‧‧入水元件 1‧‧‧ water inlet components
2‧‧‧水垢處理元件 2‧‧‧scale treatment components
3‧‧‧逆滲透裝置 3‧‧‧ reverse osmosis unit
4‧‧‧儲水槽 4‧‧‧Water storage tank
41‧‧‧第一控制元件 41‧‧‧First control element
42‧‧‧加壓元件 42‧‧‧ Pressurized components
5‧‧‧第一水分子序化單元 5‧‧‧First water molecule sequencing unit
51‧‧‧板管 51‧‧‧ board tube
511‧‧‧第一板體 511‧‧‧ first board
512‧‧‧第二板體 512‧‧‧Second plate
513‧‧‧入水口 513‧‧‧ water inlet
514‧‧‧熱體入口 514‧‧‧hot body entrance
515‧‧‧出水口 515‧‧‧Water outlet
516‧‧‧熱體出口 516‧‧‧hot body exports
52‧‧‧分隔部 52‧‧‧Departure
53‧‧‧渦流元件 53‧‧‧ eddy current components
54‧‧‧活化體 54‧‧‧Activated body
6‧‧‧第二水分子序化單元 6‧‧‧Second water molecule sequencing unit
61‧‧‧冷體入口 61‧‧‧ Cold body entrance
62‧‧‧冷體出口 62‧‧‧ Cold body exports
63‧‧‧散熱元件 63‧‧‧Heat components
7‧‧‧出水元件 7‧‧‧Water supply components
8‧‧‧容體 8‧‧‧ ‧ Body
81‧‧‧第二控制元件 81‧‧‧Second control element
a‧‧‧透過入水元件將水送入 a‧‧‧Send water through the water inlet element
b‧‧‧由水垢處理元件進行磁化 B‧‧‧ Magnetization by scale treatment elements
c‧‧‧再經逆滲透裝置以過濾雜質 C‧‧‧reverse osmosis device to filter impurities
d‧‧‧透過該第一控制元件檢測儲水槽內之水位 d‧‧‧Detecting the water level in the water storage tank through the first control element
e‧‧‧流入儲水槽中備用 e‧‧‧Into the water storage tank
f‧‧‧由加壓元件抽取儲水槽內部的水 f‧‧‧Water from the inside of the water storage tank by the pressing element
g‧‧‧係經由該第一水分子序化單元以進行礦石活化及水分子細化等處理,且同時進行加熱殺菌 G‧‧‧ is processed by the first water molecule sequencing unit for ore activation and water molecule refinement, and simultaneously heat sterilization
h‧‧‧再經該第二水分子序化單元以進行礦石活化及水分子細化等處理,且同時進行冷卻 h‧‧‧The second water molecule sequencing unit is used for ore activation and water molecule refinement, and simultaneously cooling
i‧‧‧透過該第二控制元件檢測該容體內部之水位 i‧‧‧Detecting the water level inside the container through the second control element
j‧‧‧由該出水元件將水送出至容體 j‧‧‧Water is sent out to the container by the water outlet element
第一圖係本發明之立體外觀圖。 The first figure is a perspective view of the present invention.
第二圖係本發明之第一水分子序化單元立體外觀圖。 The second figure is a stereoscopic appearance of the first water molecule sequencing unit of the present invention.
第三圖係本發明之第一水分子序化單元分解圖。 The third figure is an exploded view of the first water molecule sequencing unit of the present invention.
第四圖係本發明之第一水分子序化單元剖面圖。 The fourth figure is a cross-sectional view of the first water molecule sequencing unit of the present invention.
第五圖係本發明之流程圖。 The fifth drawing is a flow chart of the present invention.
第六圖係本發明之第一水分子序化單元之水的使用狀態剖面圖。 Fig. 6 is a cross-sectional view showing the state of use of water of the first water molecule sequencing unit of the present invention.
第七圖係本發明之第一水分子序化單元之蒸氣使用狀態剖面圖。 Figure 7 is a cross-sectional view showing the state of use of the first water molecule sequencing unit of the present invention.
第八圖係本發明之渦流元件示意圖。 The eighth figure is a schematic view of the eddy current element of the present invention.
第九圖係本發明之第二水分子序化單元剖面圖。 The ninth drawing is a cross-sectional view of the second water molecule sequencing unit of the present invention.
為使 貴審查委員方便了解本發明之內容,以及所能達成之功效,茲配合圖示列舉具體實施例,詳細說明如下:請參閱第一圖至第四圖,係為本發明之立體外觀圖、第一水分子序化單元立體外觀圖、第一水分子序化單元分解圖及第一水分子序化 單元剖面圖,如圖所示,本發明主要係包括一入水元件1,該入水元件1一端連接一水垢處理元件2,該水垢處理元件2另端連接一逆滲透裝置3,該逆滲透裝置3另端連接一儲水槽4,該儲水槽4與該逆滲透裝置3之間係設有一第一控制元件41以管控該儲水槽4內之水位,該儲水槽4另端連接至少一第一水分子序化單元5,該儲水槽4與該第一水分子序化單元5之間設有一加壓元件42以抽取該儲水槽4內部的水,該第一水分子序化單元5另端連接至少一第二水分子序化單元6,該第二水分子序化單元6另端連接一出水元件7,該第二水分子序化單元6與該出水元件7之間係設有一第二控制元件81,該出水元件7另端係設有一容體8以盛裝由該出水元件7所送出的水,藉以有效達到將水分子細化及長期定型之功效;該第一水分子序化單元5係包括複數板管51及複數渦流元件53,各該板管51係由一第一板體511及一第二板體512組合而成,該結合方式係可為嵌合與焊接等,各該板管51係具有一入水口513、一熱體入口514、一出水口515及一熱體出口516,該入水口513之口徑大於該出水口515,該熱體出口516之口徑大於該熱體入口514,各該板管51係設有至少一分隔部52以隔離水與熱體之流道,各該板管51係為相間隔的疊合設置,以使得各該板管51形成一多面環道之結構設計;該渦流元件53係設置於各該板管51之水流道中,該渦流元件53係為一具有複數不規則之波浪彎折之片體,各該渦流元件53內部設有複數活化體54,該入水口513及該熱體出口516係與各該板管51相連接且內部相連通,而該出水口515及該熱體入口 514係穿透各該板管51且與底端之該板管51相連通;該第二水分子序化單元6係包括該板管51及該渦流元件53,各該板管51係由該第一板體511及該第二板體512組合而成,該結合方式係可為嵌合與焊接等,各該板管51係具有該入水口513、一冷體入口61、該出水口515及一冷體出口62,該入水口513之口徑大於該出水口515,該冷體出口62之口徑大於該冷體入口61,各該板管51係設有至少一分隔部52以隔離水與冷體之流道,各該板管51相間隔處設有至少一散熱元件63,各該板管51內設有該渦流元件53,各該渦流元件53內部設有該活化體54,該入水口513及該冷體出口62係與各該板管51相連接且內部相連通,而該出水口515及該冷體入口61係穿透各該板管51且與底端之該板管51相連通;如上所述之加壓元件42,其中,該加壓元件42係為加壓幫浦;如上所述之活化體54,其中,該活化體54係包括麥飯石、陽起石、氣泡石、沸石、木魚石;如上所述之第一控制元件41,其中,該第一控制元件41係用於管控該儲水槽4之水位,當水位已高於標準時則停止進水,而當水位過低則進行進水之作業;如上所述之第一控制元件41,其中,該第一控制元件41係為電磁閥;如上所述之第二控制元件81,其中,該第二控制元件81係用於管控該容體8內之水位,當該容體8之水位已達標準時則停止進 水,而當該容體8水位不足時則透過該儲水槽4進行進水之作業;如上所述之第二控制元件81,其中,該第二控制元件81係為電磁閥;請參閱第五圖,係為本發明之流程圖,如圖所示:a.係先透過入水元件1將水送入;b.該水係經由水垢處理元件2進行磁化;c.再經逆滲透裝置3以過濾雜質;d.再透過該第一控制元件41檢測儲水槽4內之水位,當水位已達標準時停止進水,若當水位不足時則進行補水;e.而後流入儲水槽4中備用;f.之後再由加壓元件42抽取儲水槽4內部的水;g.係經由經該第一水分子序化單元5以進行礦石活化及水分子細化等處理,且同時進行加熱殺菌;h.再經該第二水分子序化單元6以進行礦石活化及水分子細化等處理,且同時進行冷卻;i.之後再透過該第二控制元件81檢測該容體8內部之水位,係當容體8內之水位已達標準時則停止進水,反之,若水位不足則進行補水;j.最後由該出水元件7將水送出至一容體8;如上所述之水分子細化,其中,水分子細化處理係為高壓撞擊、剪切效應、高速噴射及超音波;如上述之高壓撞擊係為當水透過高壓流速在本發明內流竄 時,該水內部則會積聚極高之能量,而該第一水分子序化單元5或該第二水分子序化單元6內所設有之該渦流元件53,又該渦流元件53內部設有該活化體54,當該水穿透該渦流元件53內時則會瞬間失壓,使得該水內積聚之高能量瞬間釋放而引起空穴爆炸,致使水分子團強烈粉碎以細化水分子;如上述之剪切效應即為當水通過該渦流元件53時,因該渦流元件53係為一具有複數不規則之波浪彎折之片體,故該水內之水分子團則會因通過該渦流元件53而被剪切;如上述之高速噴射為當水穿過該活化體54與另一活化體54間之縫隙時,係會產生噴射之作用,使得該水之速度係由0m/s增加至20m/s以上,以使得細化水分子及長效之作用效果更佳;如上述之超音波,係根據超音波之「空化」理論,當水穿過該第一水分子序化單元5時,係透過加熱及撞擊等因素,使得該水產生無數之氣泡,而當氣泡破碎或崩潰的瞬間,則會產生衝擊波,係透過超音波震盪以有效細化水分子;係藉由上述流程亦可有效達到細化水分子且具有長期定型之功效;請參閱第六圖,係為本發明之第一水分子序化單元之水的使用狀態剖面圖,一水係經由該入水口513再穿過該渦流元件53以及該活化體54,而後再透過該入水口513之口徑大於該出水口515,故該入水口513與該出水口515間具有一間隙,透過該間隙將該水導至下一層之該板管51,藉以有效達到水分子細化及長期定期之功效; 請參閱第七圖,係為本發明之第一水分子序化單元之蒸氣使用狀態剖面圖,一蒸氣係透過該熱體入口514進入各該板管51,該熱體入口514係穿透各該板管51且與最底端之該板管51相連通,藉以將該蒸氣導入各該板管51內以有效加熱該板管51內之該水,又透過該板管51內所設置之該分隔部52可有效分隔蒸氣及水,藉以達到加熱過濾之功效;請參閱第八圖,係為本發明之渦流元件示意圖,如圖所示,該渦流元件53係為一具有複數不規則之波浪彎折之片體,當該水穿過該渦流元件53時,會產生強力碰撞之情形,而於此結構中所形成之高剪力,以使得該水產生高壓撞擊、空穴效應及剪切效應,藉以有效細化水分子;請參閱第九圖,係為本發明之第二水分子序化單元之使用狀態剖面圖,如圖所示,一冷體係透過該冷體入口61進入各該板管51內,再由各該板管51間隔處設有該散熱元件63以有效降溫該水,該冷體入口61係穿透各該板管51且與底端之該板管51相連通,藉此,將該冷體導入各該板管51內以有效冷卻該板管51內之該水,再由該水係經由該入水口513穿過該渦流元件53以及該活化體54,而後再透過該入水口513之口徑大於該出水口515,故該入水口513與該出水口515間具有一間隙,係透過該間隙將該水導至下一層之該板管51,藉以有效達到水分子細化及長期定期之功效;惟,以上所述者,僅為本發明之最佳實施例,當不能以此限定本發明實施之範圍;故,凡依本發明申請專利範圍及發明說明書內容所做之簡單的等效變化與修飾,皆應仍屬本發明專利涵蓋之範圍內。 In order to facilitate the review of the contents of the present invention and the functions that can be achieved by the reviewing committee, the specific embodiments are listed with reference to the drawings, and the detailed description is as follows: Please refer to the first to fourth figures, which are perspective views of the present invention. a stereoscopic appearance of the first water molecule sequencing unit, a first water molecule sequencing unit decomposition diagram, and a first water molecule sequencing A cross-sectional view of the unit, as shown in the figure, the present invention mainly comprises a water inlet element 1, one end of which is connected to a scale treatment element 2, and the scale treatment element 2 is connected at the other end to a reverse osmosis device 3, the reverse osmosis device 3 The other end is connected to a water storage tank 4, and a first control element 41 is disposed between the water storage tank 4 and the reverse osmosis device 3 to control the water level in the water storage tank 4. The water storage tank 4 is connected to at least one first water at the other end. a molecular sequencing unit 5, a pressurizing member 42 is disposed between the water storage tank 4 and the first water molecule sequencing unit 5 to extract water inside the water storage tank 4, and the first water molecule sequencing unit 5 is connected at the other end. At least one second water molecule sequencing unit 6, the second water molecule sequencing unit 6 is further connected to a water outlet element 7, and a second control is arranged between the second water molecule sequencing unit 6 and the water outlet element 7. The element 81 has a container 8 at the other end for containing the water sent by the water outlet element 7, thereby effectively achieving the effect of refining and long-term shaping water molecules; the first water molecule sequencing unit 5 A plurality of plate tubes 51 and a plurality of eddy current elements 53 are included, each of the tube tubes 51 The first plate body 511 and the second plate body 512 are combined. The bonding mode can be a fitting and welding, and each of the plate tubes 51 has a water inlet 513, a hot body inlet 514, and a a water outlet 515 and a hot body outlet 516. The water inlet 513 has a larger diameter than the water outlet 515. The hot body outlet 516 has a larger diameter than the hot body inlet 514. Each of the plate tubes 51 is provided with at least one partition 52. Separating the flow path of the water and the hot body, each of the plate tubes 51 is arranged at intervals, so that each of the plate tubes 51 forms a structural design of a multi-faceted loop; the eddy current element 53 is disposed on each of the plates In the water flow channel of the tube 51, the eddy current element 53 is a sheet body having a plurality of irregular wave bends, and each of the eddy current elements 53 is internally provided with a plurality of active bodies 54, and the water inlet 513 and the heat body outlet 516 are Each of the tube tubes 51 is connected and internally connected, and the water outlet 515 and the hot body inlet 514 is penetrated through the plate tube 51 and communicates with the plate tube 51 at the bottom end; the second water molecule sequencing unit 6 includes the plate tube 51 and the eddy current element 53, each of the plate tubes 51 The first plate body 511 and the second plate body 512 are combined. The bonding mode may be a fitting and welding, and each of the plate tubes 51 has the water inlet 513, a cold body inlet 61, and the water outlet 515. And a cold body outlet 62, the water inlet 513 has a larger diameter than the water outlet 515, and the cold body outlet 62 has a larger diameter than the cold body inlet 61. Each of the plate tubes 51 is provided with at least one partition 52 for isolating water and The flow passages of the cold body are provided with at least one heat dissipating member 63 at intervals of the plate tubes 51. The eddy current elements 53 are disposed in each of the plate tubes 51, and the activating body 54 is disposed inside each of the eddy current elements 53. The water outlet 513 and the cold body outlet 62 are connected to the respective tube tubes 51 and communicate with each other, and the water outlet 515 and the cold body inlet 61 penetrate the respective tube tubes 51 and the plate tube 51 with the bottom end. Connected to; the pressurizing member 42 as described above, wherein the pressurizing member 42 is a pressurizing pump; the activating body 54 as described above, wherein the activator 54 is The utility model comprises a medical stone, an actinolite, a bubble stone, a zeolite, a wooden fish stone; the first control element 41 as described above, wherein the first control element 41 is used for regulating the water level of the water storage tank 4 when the water level is higher than The water inlet is stopped when the standard is low, and the water inlet operation is performed when the water level is too low; the first control element 41 as described above, wherein the first control element 41 is a solenoid valve; the second control element 81 as described above The second control element 81 is used to control the water level in the container 8, and stops when the water level of the container 8 has reached the standard. Water, and when the water level of the container 8 is insufficient, the water supply operation is performed through the water storage tank 4; the second control element 81 as described above, wherein the second control element 81 is a solenoid valve; Figure is a flow chart of the present invention, as shown in the figure: a. first water is fed through the water inlet element 1; b. the water system is magnetized via the scale treatment element 2; c. Filtering the impurities; d. detecting the water level in the water storage tank 4 through the first control element 41, stopping the water inlet when the water level has reached the standard, and replenishing the water when the water level is insufficient; e. and then flowing into the water storage tank 4 for standby; After that, the water inside the water storage tank 4 is extracted by the pressurizing element 42; g. is processed by the first water molecule sequencing unit 5 for ore activation and water molecule refinement, and simultaneously heat sterilization; h. The second water molecule sequencing unit 6 performs processing such as ore activation and water molecule refinement, and simultaneously performs cooling; i. then detects the water level inside the container 8 through the second control element 81, and serves as a container. If the water level in 8 has reached the standard, the water will be stopped. Otherwise, if the water level is If not enough, the water is replenished; j. Finally, the water outlet element 7 sends water to a container 8; the water molecules are refined as described above, wherein the water molecule refinement treatment is high pressure impact, shear effect, high speed jet and ultrasonic The high pressure impact system as described above flows through the present invention as the water passes through the high pressure flow rate. At the time, the inside of the water accumulates extremely high energy, and the vortex element 53 provided in the first water molecule sequencing unit 5 or the second water molecule sequencing unit 6 is further provided inside the eddy current element 53. The activated body 54 has a momentary pressure loss when the water penetrates the eddy current element 53, so that the high energy accumulated in the water is instantaneously released to cause a hole explosion, causing the water molecule group to be strongly pulverized to refine the water molecule. The shearing effect as described above is that when water passes through the eddy current element 53, since the eddy current element 53 is a sheet having a plurality of irregular wave bends, the water molecules in the water pass through The vortex element 53 is sheared; as described above, the high-speed jetting is such that when water passes through the gap between the activating body 54 and the other activating body 54, the jetting action is generated such that the velocity of the water is 0 m/ s is increased to more than 20m/s, so that the effect of refining water molecules and long-acting effect is better; as described above, the ultrasonic wave is based on the "cavitation" theory of ultrasonic waves, when water passes through the first water molecule sequence When the unit 5 is used, the water is generated by factors such as heating and impact. Bubbles, and when the bubbles break or collapse, they will generate shock waves, which are ultrasonically oscillated to effectively refine water molecules. The above process can also effectively refine water molecules and have long-term stereotypes; 6 is a cross-sectional view showing the state of use of water of the first water molecule sequencing unit of the present invention, through which the water system passes through the vortex element 53 and the activating body 54 and then passes through the water inlet 513. The water inlet 513 has a larger diameter than the water outlet 515. Therefore, the water inlet 513 has a gap between the water inlet 513 and the water outlet 515, and the water is guided to the lower layer of the plate tube 51, thereby effectively achieving water molecule refinement and long-term. Regular effect; 7 is a cross-sectional view showing the state of use of the first water molecule sequencing unit of the present invention. A vapor system passes through the hot body inlet 514 and enters each of the tube tubes 51. The plate tube 51 is in communication with the bottommost plate tube 51, thereby introducing the vapor into each of the plate tubes 51 to effectively heat the water in the plate tube 51, and through the plate tube 51. The partitioning portion 52 can effectively separate the steam and the water, thereby achieving the effect of heating and filtering; please refer to the eighth figure, which is a schematic diagram of the eddy current component of the present invention. As shown, the eddy current component 53 has a plurality of irregularities. The wavy bent piece, when the water passes through the eddy current element 53, a strong collision occurs, and the high shear force formed in the structure causes the water to generate high pressure impact, cavitation and shear Cutting effect, thereby effectively refining water molecules; please refer to the ninth figure, which is a sectional view of the use state of the second water molecule sequencing unit of the present invention. As shown in the figure, a cold system enters each through the cold body inlet 61. The plate tube 51 is further separated by each of the plate tubes 51. The heat dissipating member 63 is configured to effectively cool the water, and the cold body inlet 61 penetrates each of the plate tubes 51 and communicates with the bottom plate of the plate tube 51, thereby introducing the cold body into each of the plate tubes 51. The water in the tube 51 is effectively cooled, and the water passes through the water inlet 513 through the vortex element 53 and the activating body 54 and then passes through the water inlet 513 to have a larger diameter than the water outlet 515. The water inlet 513 has a gap between the water inlet 513 and the water outlet 515, and the water is guided to the lower layer of the plate tube 51 through the gap, thereby effectively achieving water molecule refinement and long-term periodic effects; however, as described above, only The preferred embodiments of the present invention are not intended to limit the scope of the present invention; therefore, any equivalent equivalent changes and modifications made in accordance with the scope of the present invention and the description of the invention should still be in the present invention. Within the scope of the patent.
1‧‧‧入水元件 1‧‧‧ water inlet components
2‧‧‧水垢處理元件 2‧‧‧scale treatment components
3‧‧‧逆滲透裝置 3‧‧‧ reverse osmosis unit
4‧‧‧儲水槽 4‧‧‧Water storage tank
41‧‧‧第一控制元件 41‧‧‧First control element
42‧‧‧加壓元件 42‧‧‧ Pressurized components
5‧‧‧第一水分子序化單元 5‧‧‧First water molecule sequencing unit
6‧‧‧第二水分子序化單元 6‧‧‧Second water molecule sequencing unit
7‧‧‧出水元件 7‧‧‧Water supply components
8‧‧‧容體 8‧‧‧ ‧ Body
81‧‧‧第二控制元件 81‧‧‧Second control element
Claims (10)
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TW104129375A TWI542551B (en) | 2015-09-04 | 2015-09-04 | May be the ordering method and apparatus for long-term water molecules |
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Publication number | Priority date | Publication date | Assignee | Title |
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CN109052590A (en) * | 2018-09-25 | 2018-12-21 | 张国安 | Water conservancy diversion Electromagnetic Launching component |
CN109095571A (en) * | 2018-09-25 | 2018-12-28 | 张国安 | Water flow is electrically coupled scale inhibition system from stirring multistage |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
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CN109052590A (en) * | 2018-09-25 | 2018-12-21 | 张国安 | Water conservancy diversion Electromagnetic Launching component |
CN109095571A (en) * | 2018-09-25 | 2018-12-28 | 张国安 | Water flow is electrically coupled scale inhibition system from stirring multistage |
CN109052590B (en) * | 2018-09-25 | 2023-11-17 | 智汇城投(北京)科技发展有限公司 | Diversion electromagnetic emission assembly |
CN109095571B (en) * | 2018-09-25 | 2023-11-17 | 智汇城投(北京)科技发展有限公司 | Water flow self-stirring multistage electric coupling scale inhibition system |
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