TWM407391U - Device for detecting electromagnetic wave - Google Patents

Device for detecting electromagnetic wave Download PDF

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Publication number
TWM407391U
TWM407391U TW99224711U TW99224711U TWM407391U TW M407391 U TWM407391 U TW M407391U TW 99224711 U TW99224711 U TW 99224711U TW 99224711 U TW99224711 U TW 99224711U TW M407391 U TWM407391 U TW M407391U
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Taiwan
Prior art keywords
electromagnetic wave
usb
detecting device
drug
wave detecting
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TW99224711U
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Chinese (zh)
Inventor
zheng-guo Lai
Jia-Yan Kang
you-xuan Lai
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Sunup Energy Technology Co Ltd
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Priority to TW99224711U priority Critical patent/TWM407391U/en
Publication of TWM407391U publication Critical patent/TWM407391U/en

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Description

M407391 五、新型說明: 【新型所屬之技術領域】 本案係屬於醫療檢驗設備的領域,特別是關於 一種可檢測人體的電磁波訊號,或搭配檢測該人體 與欲服用之藥物的電磁波訊號之電磁波檢測裝置。 【先前技術】 按’經絡系統係人體運行氣血的管道,用以聯 絡臟腑肢印及溝通上下内外的通道。經絡學說係閣 釋經絡系統的生理功能、病理變化,及其與臟腑之 間的關係’作為分析人體生理、病理或對疾病進行 診斷治療之主要依據,而西方主流醫學利用解剖方 式研究經絡、穴位的組織,發現經絡或穴位處經常 是有較多的肥大細胞聚集,或有較密集的微血管, 或是神經叢的聚集’或是表皮的角質層較薄,提出 八位可能因為該處的汗腺的活性增加或皮下血管反 射,造成血管通透性(permeability)增加而導致的 低電阻’所以始終無法獲得精確的證實。 直到二十世紀初,因電學的蓬勃發展而對經絡 電性進行更深層的研究,首先即確認了經絡、穴位 之物理特性為低電阻、高電位及高音線之外甚至 於傳遞溝通物質、能量與信息的概念也漸趨明朗。 尤其是德國解剖生理學家傅爾(Reinholcl V〇n)利 用電針探測方式(又稱作穴道電檢法),發現手足經 絡系統循經各穴位對應的器官或組織呈現有次序的 3 M407391 排列,亦即表皮的經絡反應出與内在器官組織係呈 現圖譜排列。其不僅可用來了解各經絡之對應,且 可對新增的六位點作預期的功能判斷。而進一步清 楚說明經絡對應臟象的功能,並具體落實到某些特 定組織’闡述中醫所說之全相概念。傅爾醫師所發 現的圖譜排列之最重大意義係一對一的組織對應關 係’故能找出合適的功能性測量方法即能醫學治療 提供一清楚的診斷途徑。 種新的藥物試驗方法,其同樣透過電學原理而檢測 藥物影響人體經絡穴道的電位差異,從而找出該藥 物對於人體的合適性,其最大特色係不用透過口 服:注射或皮下給㈣途徑,就可以進行藥物 性篩選,或對該藥物的劑量作定量 物试驗法還可測量各種不同藥物對於身體 ” 且屬於非侵入式的檢測方法, 物之間的差異。 且-兼顧個發對於藥 然而,如何有效發揮經絡學說之精神沾八 術’將經絡學說實際運用於醫學:::今 係業界人士多年以來之研究目標上 係為祍會大眾提一 創作人 檢測裝置,大快速的非侵入式電磁波 裝置,大幅提昇檢測的效率及效果。 灰 新型内容】 本創作之一目的’旨在提 禋與—電腦設備 4 M407391 連接使用之電磁波檢測裝置’俾能快速檢測人體之 電磁波訊號,而確認人體的生理狀態。 本創作之另一目的,旨在提供一種可串接使用 之電磁波檢測裝置’而結合一藥物檢測平台,俾能 快速檢測藥物對於人體之料,對於臨床醫學有很 大的助益。 本創作之再一目的,旨在提供一種方便操作的 電磁波檢測裝置,俾利用USB介面快速與該電腦設 備電連接之安裝,且搭配該電腦設備中的操作模 組,而能快速檢測人體或人體與藥物間的電磁波訊 號’確認人體之生理狀態。 為達上述目的,本創作之電磁波檢測裝置,係 與一電腦設備電連接後,由該電腦設備操作對一人 體或一藥物之電磁波檢測工作,其包括:一殼體; 一訊號採集模組,設於該殼體内且至少具有一導電 部’利用該導電部靠合於該人體或該藥物後而採集 一電磁波訊號;一訊號放大濾波模組,係與該訊號 採集模組電連接,供以放大該電磁波訊號,並濾除 該電磁波訊號之外部雜訊;一訊號轉換模組,係與 該訊號放大濾波模組電連接,供以轉換該電磁波訊 號而使之成為一數位資料;一 USB裝置控制處理 器’與該訊號轉換模組電連接,該USB裝置控制處 理器具有一第一 USB連接部而與該電腦設備電連 接’以將該數位資料傳輸至該電腦設備中;及一操 5 M407391 作模組,設於該電腦設備内部,該操作模組具 硬體控制器,而與該USB裝置控制處理器電連=一 供以驅動該各個模組’並透過該第一 USB連接部 擷取該數位資料至該操作模組。 而 其中,該電磁波檢測裝置作為檢測人體時(或 稱作人體檢測器)’該殼體係製成具有一 * 5 穴娜之手柄 形狀結構體,且該殼體之一端設有該導電部,另一 端設有該第一 USB連接部以供連接該電腦設備。且 該導電部係以導電橡膠而製成之同心圓結構體。 其中,該電磁波檢測裝置作為檢測藥物時(或 稱作藥物檢測平台)’該殼體係製成具有一矩形盒狀 結構體,且該殼體之一平面上設有該導電部,其一 侧設有一第一 USB連接部,該第一 USB連接部|系供 連接該電腦設備。該殼體更具有一第二USB連接 部,該第:USB連接部係與該USB裝置控制處理器 電連接。且該導電部係一平板狀結構體而嵌合於該 鏤空部内。 其中,該操作模組更具有一操作視窗、一運算 單元及一資料庫,該運算單元分別與該操作視窗及 該資料庫相連接,該資料庫並與該USB裝置控制處 理器電連接而供儲放該數位資料,經該運算單元運 算後’於該操作視窗作顯示。 據此’本創作之該電磁波檢測裝置可單獨結合 該電腦設備使用,而利用該電腦設備操作該電磁波 6 M407391 檢測裝置,並可與該資料庫内存之資料相比對,而 快速獲得偵測人體健康狀態。或以複數形態實施 時’該藥物檢測平台係先連接至該電腦設備,再將 該人體檢測器串接於該藥物檢測平台上,使二者完 成與該電腦設備之電連接,以將藥物置放於該藥物 檢測平台,人體檢測器放置於人體適當之經絡或穴 位上,而分別獲得一藥物電磁波訊號及一生物電磁 波訊號,該等電磁波訊號經過該操作模組處理後, 而可快速獲得該藥物對於人體器官之影響,且操作 起來更加方便。 【實施方式】 為使貝審查委員能清楚了解本創作之内容,謹 以下列說明搭配圖式,敬請參閱。 。月參閱第1、2、3圖’係為本創作較佳實施例 的硬體方塊圖,其作為人體檢測器的立體外觀圖, 及作為藥物檢測平台的立體外觀圖。如圖中所示, 本創作之電磁波檢測裝置丨係與一電腦設備2電連 接後’且可由該電腦設備2操作對一人體或一藥物 ,電磁波檢測工作,該電磁波檢測裝置1係包括一 殼體u、一訊號採集模組1 2、一訊號放大過濾模組 13訊號轉換模組1 4、一 USB裝置控制處理器1 5 及一操作模組1 6。 其中該殼體11係可利用如金屬或塑膠等材質而 裝成其外形可如第2圖所示,其作為檢測人體時 7 (或稱作人體檢測器),該殼體1 1係製成具有一尖 端之手柄形狀結構體,且其尖端更具有一穿孔m, 且該殼體11之内部並具有一容置空間供以容置上 述之該訊號採集模纟且丨2、該訊號放大過濾模組1 3、 該訊號轉換模組1 4及該USB裝置控制處理器1 5, 使操作人員得以手持方式操作,增加其操作時的便 利性。或如第3圖所示’作為檢測藥物時(或稱作 藥物檢測平台)’該殼體丨丨係製成具有一矩形盒狀 結構體,且内部同樣具一容置空間而容置該各種模 組’該殼體11係便於放置於任意的一平坦面上,且 該设體11頂面係為一鏤空部112。 該訊號採集模組12係設於該殼體11内且至少 具有一導電部121,利用該導電部121靠合於該人 體或該藥物後而採集一電磁波訊號。再者,如第2 圖所不’該導電部121係設置於該殼體11之穿孔 111内,而成為位於該殼體u之一端的設置,且該 導電部1 21係以導電橡膠而製成之同心圓結構體。 另外如第3圖所示,該導電部121係設於該殼體12 之鏤空部112’且該導電部121係一平板狀結構體。 該訊號放大濾波模組1 3係與該訊號採集模組丄2 電連接,供以放大該電磁波訊號,並用以濾除該電 磁波訊號之外部雜訊。 該訊號轉換模组14係與該訊號放大濾波模組i 3 電連接’供以轉換該電磁波訊號而使之成為一數位 資料。 該USB裝置控制處理器15係與該訊號轉換模組 14電連接’該USB裝置控制處理器μ具有一第一 USB連接部151而與該電腦設備2電連接以將該 數位資料傳輸至該電腦設備2中。如第2圖所示, 該殼體11相對於該導電部121之另一端係設有一第 一 USB連接部丨5丨’而可利用該第一 USB連接部丄5 ^ 連接至該電腦設備2。又如帛3圖所示,於該殼體 之下方係叹有一第一 USB連接部151,且鄰近於該 第一 USB連接部151設有一第二USB連接部152, 且該第二USB連接部152並與該USB裝置控制處理 器15電連接。 該操作模組1 6係設於該電腦設備2内部,該操 作模組16具有一硬體控制器1 61,而與該USB裝置 控制處理器1 5電連接,供以驅動該各個模組,並透 過該第一 USB連接部151而擷取該數位資料至該操 2模組16。再者,該操作模組16更具有一操作視 窗162、一運算單元163及一資料庫164,該運算單 疋1 63分別與該操作視窗1 62及該資料庫丨64相連 接’該資料庫1 64並與該uSB裝置控制處理器1 5電 連接而供儲放該數位資料,且該數位資料經該運算 早元1 63運算後,可於該操作視窗1 62作顯示。應 ;主意的疋,該資料庫丨64係存放有採樣資料,以供 該運算單元1 63運算取用,而便於進行資料比對或 9 M407391 是進行判讀;又 ,該操作視窗162係提供對該電磁M407391 V. New description: [New technical field] This case belongs to the field of medical testing equipment, especially regarding an electromagnetic wave signal that can detect the human body, or an electromagnetic wave detecting device that detects electromagnetic waves of the human body and the drug to be taken. . [Prior Art] According to the 'meridary system, the human body runs blood and blood pipes to connect the organs and communicate with the upper and lower channels. Meridian theory is the main function of analyzing the physiological functions and pathological changes of the meridian system and its relationship with the viscera. As the main basis for analyzing human physiology, pathology or diagnosis and treatment of diseases, Western mainstream medicine uses anatomical methods to study meridians and acupoints. The organization found that there are often more mast cells in the meridians or acupoints, or more dense microvessels, or the accumulation of nerve plexus' or the stratum corneum of the epidermis is thinner, suggesting that eight people may be because of the sweat glands there. Increased activity or subcutaneous vascular reflexes, resulting in low resistance due to increased vascular permeability', so accurate confirmation is never available. Until the beginning of the twentieth century, due to the vigorous development of electricity, a deeper study of the meridian electrical properties first confirmed that the physical properties of the meridians and acupoints were low resistance, high potential and high treble, and even transmitted communication materials and energy. The concept of information and information is also becoming clearer. In particular, the German anatomical physiologist Reinholcl V〇n uses the electro-acupuncture detection method (also known as the acupoint electrical examination method) to find that the organs, organs and tissues corresponding to the acupoints in the hand, foot and meridian system are in an orderly 3 M407391 arrangement. That is, the meridian reaction of the epidermis and the internal organ tissue system are arranged in a map. It can be used not only to understand the correspondence of each meridian, but also to make the expected functional judgment of the newly added six points. It is further clear that the functions of the meridians correspond to the dirty images, and they are specifically implemented in some specific organizations to elaborate on the concept of omniscience described by Chinese medicine practitioners. The most significant significance of the map arrangement discovered by Dr. Fourr is a one-to-one organizational correspondence. It is therefore possible to find a suitable functional measurement method that provides a clear diagnostic path for medical treatment. A new drug test method, which also detects the potential difference of the drug in the meridian acupoints through electrical principles, thereby finding out the suitability of the drug for the human body. The greatest characteristic is that it does not need to be administered orally: by injection or subcutaneously (four). Drug-based screening can be performed, or the dose of the drug can be measured by a quantitative test to measure the difference between different drugs for the body and non-invasive methods, and - for both drugs How to effectively use the spirit of the meridian theory to embed the theory of meridians to apply the meridian theory to medicine::: The research target of the industry for many years is to provide a creator detection device for the public, a large and fast non-invasive The electromagnetic wave device greatly enhances the efficiency and effectiveness of the detection. The new content of ash] The purpose of this creation is to improve the electromagnetic wave detection device used by the computer device 4 M407391 to quickly detect the electromagnetic wave signal of the human body and confirm the human body. Physiological state. Another purpose of this creation is to provide a splicing The electromagnetic wave detecting device combines with a drug detecting platform, and can quickly detect the drug for the human body, which is of great benefit to clinical medicine. Another object of the present invention is to provide a convenient electromagnetic wave detecting device.俾Using the USB interface to quickly connect with the computer equipment, and with the operation module in the computer equipment, it can quickly detect the electromagnetic wave signal between the human body or the human body and the medicine to confirm the physiological state of the human body. To achieve the above purpose, The electromagnetic wave detecting device of the present invention is electrically connected to a computer device, and the computer device operates an electromagnetic wave detecting operation on a human body or a medicine, which comprises: a casing; a signal collecting module disposed in the casing Having at least one conductive portion 'acquiring an electromagnetic wave signal after the conductive portion is engaged with the human body or the medicine; a signal amplification filter module is electrically connected to the signal acquisition module for amplifying the electromagnetic wave signal And filtering out the external noise of the electromagnetic wave signal; a signal conversion module, and the signal amplification filter module Connected to convert the electromagnetic wave signal into a digital data; a USB device control processor is electrically connected to the signal conversion module, the USB device control processor has a first USB connection portion and is electrically connected to the computer device Connected to transmit the digital data to the computer device; and a 5 M407391 module, which is disposed inside the computer device, the operating module has a hardware controller and is electrically connected to the USB device control processor = one for driving the respective modules' and extracting the digital data to the operation module through the first USB connection portion, wherein the electromagnetic wave detecting device is used as a detecting body (or called a human body detector) The housing is formed into a handle-shaped structure body having a *5 hole, and the one end of the housing is provided with the conductive portion, and the other end is provided with the first USB connection portion for connecting the computer device. And the conductive portion is a concentric circular structure made of a conductive rubber. Wherein, the electromagnetic wave detecting device is used as a detecting drug (or referred to as a drug detecting platform). The casing is formed to have a rectangular box-shaped structure, and the conductive portion is provided on one of the sides of the casing, and one side of the casing is provided. There is a first USB connection portion for connecting the computer device. The housing further has a second USB connection, the first USB connection being electrically coupled to the USB device control processor. Further, the conductive portion is a flat structure and is fitted into the hollow portion. The operation module further has an operation window, an operation unit and a database, and the operation unit is respectively connected to the operation window and the database, and the database is electrically connected to the USB device control processor. The digital data is stored and displayed in the operation window after being operated by the operation unit. According to this, the electromagnetic wave detecting device of the present invention can be used alone in combination with the computer device, and the electromagnetic wave 6 M407391 detecting device is operated by the computer device, and can be compared with the data stored in the database, and the human body can be quickly detected. health status. Or when implemented in a plural form, the drug detection platform is first connected to the computer device, and then the human detector is connected in series to the drug detection platform, so that the two complete the electrical connection with the computer device to place the drug Placed on the drug detection platform, the human detector is placed on a suitable meridian or acupuncture point of the human body, and respectively obtains a drug electromagnetic wave signal and a biological electromagnetic wave signal, and the electromagnetic wave signals are processed by the operation module, and the body detector can be quickly obtained. The effect of drugs on human organs is more convenient to operate. [Embodiment] In order to make the Beck Review Committee understand the contents of this creation, please refer to the following description. . Referring to Figures 1, 2, and 3, a hardware block diagram of a preferred embodiment of the present invention is shown as a stereoscopic view of a human body detector and a stereoscopic appearance as a drug detection platform. As shown in the figure, the electromagnetic wave detecting device of the present invention is electrically connected to a computer device 2 and can be operated by the computer device 2 to operate a human body or a drug, and the electromagnetic wave detecting device 1 includes a shell. The body u, a signal acquisition module 1 2, a signal amplification filter module 13 signal conversion module 1 4, a USB device control processor 1 5 and an operation module 16. The housing 11 can be assembled into a shape by using a material such as metal or plastic, as shown in FIG. 2, which is used as a human body detector 7 (or called a human body detector). The handle has a tip-shaped structure, and the tip end thereof further has a through hole m, and the inside of the housing 11 has an accommodating space for accommodating the signal acquisition module and the signal is amplified and filtered. The module 1 3, the signal conversion module 14 and the USB device control processor 15 enable the operator to operate in a handheld manner, increasing the convenience of operation. Or as shown in Fig. 3, 'as a test drug (or called a drug detection platform)', the case is made of a rectangular box-like structure, and the interior also has an accommodation space for accommodating the various The module 'the housing 11 is conveniently placed on any flat surface, and the top surface of the housing 11 is a hollow portion 112. The signal acquisition module 12 is disposed in the housing 11 and has at least one conductive portion 121. The conductive portion 121 is used to collect an electromagnetic wave signal after being applied to the human body or the medicine. Further, as shown in FIG. 2, the conductive portion 121 is disposed in the through hole 111 of the casing 11, and is disposed at one end of the casing u, and the conductive portion 121 is made of conductive rubber. Concentric circle structure. Further, as shown in Fig. 3, the conductive portion 121 is provided in the hollow portion 112' of the casing 12, and the conductive portion 121 is a flat structure. The signal amplification filter module 13 is electrically connected to the signal acquisition module 丄2 for amplifying the electromagnetic wave signal and filtering external noise of the electromagnetic wave signal. The signal conversion module 14 is electrically coupled to the signal amplification filter module i 3 for converting the electromagnetic wave signal into a digital data. The USB device control processor 15 is electrically connected to the signal conversion module 14. The USB device control processor μ has a first USB connection portion 151 and is electrically connected to the computer device 2 to transmit the digital data to the computer. In device 2. As shown in FIG. 2, the housing 11 is provided with a first USB connecting portion 丨5丨' opposite to the other end of the conductive portion 121, and can be connected to the computer device 2 by using the first USB connecting portion 丄5^. . As shown in FIG. 3, a first USB connection portion 151 is slid under the housing, and a second USB connection portion 152 is disposed adjacent to the first USB connection portion 151, and the second USB connection portion is provided. 152 is electrically coupled to the USB device control processor 15. The operation module 16 is disposed inside the computer device 2, and the operation module 16 has a hardware controller 1 61 electrically connected to the USB device control processor 15 for driving the modules. And capturing the digital data to the operation 2 module 16 through the first USB connection unit 151. Furthermore, the operation module 16 further has an operation window 162, an operation unit 163 and a database 164. The operation unit 163 is respectively connected to the operation window 1 62 and the database 丨 64. 1 64 is electrically connected to the uSB device control processor 1 5 for storing the digital data, and the digital data is calculated by the operation early 1 63, and can be displayed in the operation window 1 62. According to the idea, the database 丨 64 is stored with sample data for the operation unit 163 to use for calculation, and is convenient for data comparison or 9 M407391 for interpretation; further, the operation window 162 provides The electromagnetic

組的運作狀態等。 係為本創作較佳實施 請再一併參閱第4、5圖, 例使用時的各種狀態示意圖。如圖中所示,本創作 之該電磁波檢測裝置丨可單獨結合該電腦設備2使 用,而利用s亥電腦設備2操作該電磁波檢測裝置工, 並可與該資料庫1 64内存之資料相比對,透過該導 電部1 21而可快速獲得偵測人體健康狀態。或以複 數形態實施時,將作為藥物檢測平台之該電磁波檢 測裝置1係連接至該電腦設備2 ’再將作為人體檢 測器之該電磁波檢測裝置1,透過該第一 USB連接 部1 51及該第二USB連接部1 52而與該藥物檢測平 台相串接’使二者完成與該電腦設備2之電連接, 以將藥物3置放於該藥物檢測平台之該導電部1 2丄 上’以及將該人體檢測器之該導電部1 21放置於人 體4適當之經絡或穴位上,以分別獲得一藥物電磁 波訊號及一生物電磁波訊號,該等電磁波訊號經過 該操作模組1 6處理後,而可快速獲得該藥物對於人 體器官之影響,且操作起來更加方便。 综上,本創作之該電磁波檢測裝置1可單機或 複數形態使用,透過與該電腦設備2之連接後,而 可於該電腦設備2進行對該電磁波檢測裝置1之相 關操作,以快速檢測人體之電磁波訊號而確認人體 10 M407391 的生理狀態之目的。再者,本創作之該電磁波檢測 裝置1係可以複數形態實施,同時搭配該人體檢測 器及該藥物檢測平台,俾能快速檢測藥物對於人體 之影響,對於臨床醫學有很大的助益。另外,本創 作係利用般*見之USB介面而能快速與該電腦設 備2電連接,其安裝與操作都相當方便。 唯’以上所述者’僅為本創作之較佳實施例而 已’並非用以限定本創作實施之範圍,其他如:該 设體的外形、材質或尺寸等,或是連接端口的型式 等’亦皆在本案的範疇之中;是故,此等熟習此技 術所作出等效或輕易的變化者,在不脫離本創作之 精神與範圍下所作之均等變化與修飾,皆應涵蓋於 本創作之專利範圍内。 11 M407391 【圖式簡單說明】 第1圖,為本創作較佳實施例的硬體方塊圖。 第2圖,為本創作較佳實施例作為人體檢測器的立 體外觀圖。 第3圖,為本創作較佳實施例作為藥物檢測平台的 立體外觀圖。 第4圖,為本創作較佳實施例使用時的狀態示意圖 (一)。 第5圖,為本創作較佳實施例使用時的狀態示意圖 (二)。 【主要元件符號說明】 I 電磁波檢測裝置 II 殼體 III 穿孔 112 鏤空部 12 訊號採集模組 121 導電部 13 訊號放大過濾模組 14 訊號轉換模組 15 USB裝置控制處理器 151 第一 USB連接部 152 第二USB連接部 16 操作模組 161 硬體控制器 12The operational status of the group, etc. This is a better implementation of the creation. Please refer to Figures 4 and 5 again for a description of the various states in use. As shown in the figure, the electromagnetic wave detecting device of the present invention can be used alone in combination with the computer device 2, and the electromagnetic wave detecting device is operated by the computer device 2, and can be compared with the data stored in the database 1 64. For example, the health of the human body can be quickly obtained through the conductive portion 121. Or in a plurality of forms, the electromagnetic wave detecting device 1 as a drug detecting platform is connected to the computer device 2', and the electromagnetic wave detecting device 1 as a human body detector is transmitted through the first USB connecting portion 1 51 and the The second USB connection portion 152 is connected in series with the drug detection platform to cause the two to complete electrical connection with the computer device 2 to place the drug 3 on the conductive portion 1 2 of the drug detection platform. And placing the conductive portion 121 of the human body detector on a suitable meridian or acupuncture point of the human body 4 to obtain a drug electromagnetic wave signal and a biological electromagnetic wave signal respectively, and the electromagnetic wave signals are processed by the operation module 16 The effect of the drug on human organs can be quickly obtained, and the operation is more convenient. In summary, the electromagnetic wave detecting device 1 of the present invention can be used in a single machine or in multiple forms. After being connected to the computer device 2, the computer device 2 can perform related operations on the electromagnetic wave detecting device 1 to quickly detect the human body. The electromagnetic wave signal confirms the physiological state of the human body 10 M407391. Furthermore, the electromagnetic wave detecting device 1 of the present invention can be implemented in a plurality of forms, and at the same time, the human body detector and the drug detecting platform can be used together to quickly detect the influence of the drug on the human body, which is of great benefit to clinical medicine. In addition, the creation system can quickly connect to the computer device 2 by using the USB interface, which is easy to install and operate. Only the above-mentioned 'is only the preferred embodiment of the present invention' is not intended to limit the scope of the present implementation, such as: the shape, material or size of the device, or the type of the connection port, etc. It is also within the scope of this case; therefore, those who are familiar with this technology in an equivalent or easy change, and the equal changes and modifications made without departing from the spirit and scope of this creation should be covered by this creation. Within the scope of the patent. 11 M407391 BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a hardware block diagram of a preferred embodiment of the present invention. Fig. 2 is a perspective view of the human body as a human body detector according to a preferred embodiment of the present invention. Fig. 3 is a perspective view showing the preferred embodiment of the present invention as a drug detecting platform. Fig. 4 is a schematic view showing the state of the preferred embodiment of the present invention (1). Figure 5 is a schematic view showing the state of the preferred embodiment of the present invention (2). [Main component symbol description] I Electromagnetic wave detecting device II Housing III Perforation 112 Hollowing portion 12 Signal collecting module 121 Conducting portion 13 Signal amplifying filter module 14 Signal conversion module 15 USB device control processor 151 First USB connecting portion 152 Second USB connection unit 16 operation module 161 hardware controller 12

Claims (1)

M407391 端之手柄形狀結構體,且該殼體之一端設有該導 電部,另一端設有該第一 USB連接部以供連接該 電腦設備。 3.如申請專利範圍第2項所述之電磁波檢測裝置, 其中,該導電部係以導電橡膠而製成之同心圓結 構體。 4·如申明專利範圍第丨項所述之電磁波檢測裝置, 其中,作為檢測藥物時,該殼體係製成具有一矩 形盒狀結構體,且該殼體之一平面上設有該導電 部,其一側設有一第一 USB連接部,該第一 usb 連接部係供連接該電腦設備。 5·如申請專利範圍第4項所述之電磁波檢測裝置, 其中,該殼體更具有一第二USB連接部,該第二 USB連接部係與該USB裝置控制處理器電連接。 6. 如申請專利範圍第4項所述之電磁波檢測袭置, 其中,該導電部係一平板狀結構體而嵌合於該鏤 空部内。 7. 如申請專利範圍第1項所述之電磁波檢測裝置, 其中,該操作模組更具有一操作視窗、一運算單 元及一資料庫,該運算單元分別與該操作視窗及 該負料庫相連接,該資料庫並與該USB裝置控制 處理器電連接而供儲放該數位資料,經該運算單 元運算後’於該操作視窗作顯示。 15The handle shape structure of the M407391 end, and the one end of the housing is provided with the conductive portion, and the other end is provided with the first USB connection portion for connecting the computer device. 3. The electromagnetic wave detecting device according to claim 2, wherein the conductive portion is a concentric circular structure made of a conductive rubber. 4. The electromagnetic wave detecting device according to the above aspect of the invention, wherein, as the detecting drug, the casing is formed to have a rectangular box-like structure, and the conductive portion is provided on one of the planes of the casing. A first USB connection is provided on one side thereof, and the first USB connection is connected to the computer device. 5. The electromagnetic wave detecting device of claim 4, wherein the housing further has a second USB connecting portion, the second USB connecting portion being electrically connected to the USB device control processor. 6. The electromagnetic wave detecting device according to claim 4, wherein the conductive portion is a flat structure and is fitted into the hollow portion. 7. The electromagnetic wave detecting device according to claim 1, wherein the operating module further has an operation window, an operation unit and a database, and the operation unit is respectively associated with the operation window and the negative library. Connected, the database is electrically connected to the USB device control processor for storing the digital data, and is displayed in the operation window after being operated by the operation unit. 15
TW99224711U 2010-12-21 2010-12-21 Device for detecting electromagnetic wave TWM407391U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102949175A (en) * 2011-08-18 2013-03-06 赖正国 System and method for real-time whole body meridian detection

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102949175A (en) * 2011-08-18 2013-03-06 赖正国 System and method for real-time whole body meridian detection
CN102949175B (en) * 2011-08-18 2014-12-10 赖正国 System and method for real-time whole body meridian detection

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