M411221 五、新型說明: 【新型所屬之技術領域】 本創作係提供一種醫學檢測系統,尤指一種具有數字顯 示器便於觀看二轴座標之距離並操作手術之醫學檢測系統。 【先前技術】 - 按現行醫學越來越進步伴隨著醫學檢測儀器檢測結果亦 齡越鮮,無論是外科或是喃之醫學檢观H皆可提早 發現病灶進而即時施以正確的治療方式。 如核磁共振設備及X光機及正子電腦斷層掃目肖儀及電腦 斷層掃r田儀等等,而核磁共振設備亦稱磁振造影(magnetic resonance imaging’MRI)是近年來在臨床診斷上相當重要 的影像工具。此種使神確而不錢人人體就可以得到人體 内部器官造影的方法’對醫學的診斷、醫療和後續工作都十 分重要。 φ 進行刪時’先把病人放在一個像随道的大磁鐵裏,利 用電磁波刺激病人,再以伯測器收集病人所釋出的回波。在 、經過多次複雜的「刺激—回波」手續後,便可以根據這歧龐 大的資料驗㈣有高解析度的影像。由於不_組織受到M411221 V. New description: [New technical field] This creation provides a medical detection system, especially a medical detection system with a digital display for viewing the distance of the two-axis coordinates and operating the operation. [Prior Art] - According to the current medical science, the results of medical testing instruments are getting younger and younger. Whether it is surgery or medical examination, it is possible to detect the lesions early and apply the correct treatment immediately. Such as nuclear magnetic resonance equipment and X-ray machines and Orthogonal Computer Tomography and computerized tomography, and nuclear magnetic resonance imaging (MRI) is a clinical diagnosis in recent years. Important imaging tools. This method of making the body visible to the human body without the human body can be very important for medical diagnosis, medical treatment and follow-up work. φ is used to delete the time. First, the patient is placed in a large magnet like a track, and the patient is stimulated by electromagnetic waves, and then the echoes released by the patient are collected by a detector. After many complicated "stimulus-echo" procedures, it is possible to test (4) high-resolution images based on this vast data. Because no organization is affected
刺激後,釋出不P] M H 出波,因此在影像上便會產生非常良好 3 譜顯示癌細胞的聚集處,就像氣象雷達顯示不同的降雨量。 但電腦斷層掃描(CT)所顯示出的解剖性影像就像「地圖」一 樣’告§斥醫生癌細胞的所在。而正子/電腦斷層掃描儀(PEt/ct) 就如同電視雷達,結合電腦斷層掃描儀及正子斷層掃描儀的 功能,精確地將癌細胞的活動狀況及位置融合在一張影像資 料中。 這項劃時代檢查儀器的投入,讓醫生得到更多資料,以確 認病患的病情及病變組織位置,協助醫生確定療程並評估其 成效。 其中所述醫生可涵檢查魅確認病患的病情及病變組 織位置,但其_儀器大多是設置在獨立空間内,且該檢查 儀器所檢查到之影像資料係傳送到另一獨立空間之電腦裝 置,並經由電腦裝置將其影像資料轉換為三軸座標之距離^ 顯示其座標距離數字,以供醫生可得知_標轉數字並在 病患上針雜域健進行穿麻樣,或於病變組織位 置進行穿刺標示位置並後續進行局部性治療之目的;但其較 生必須在電職置上得知並記錄該三標之距離,再Z 查儀器的空間針對病患進行穿刺之動作,因此,其操作之流 程上相§不便’且其位置誤差機率也相對提高。 【新型内容】 爰此,為解決上述習知技術之缺點,本創作之 係提供-種具有數字顯示器便於觀看三軸座標之輯的醫學 檢測系統。 本創作之再一After the stimulation, the release of the P] M H wave is generated, so the image will produce a very good 3 spectrum showing the accumulation of cancer cells, just like the weather radar shows different rainfall. But the anatomical image displayed by computed tomography (CT) is like a "map". The Orthodox/Computed Tomography (PEt/ct) is like a TV radar. Combined with the functions of a computed tomography scanner and a positron tomography scanner, it accurately combines the activity and location of cancer cells into a single image. The investment in this epoch-making instrument allows doctors to obtain more information to confirm the patient's condition and the location of the diseased tissue, to assist the doctor in determining the course of treatment and to assess its effectiveness. The doctor can check the condition of the patient and the location of the diseased tissue, but most of the instruments are arranged in a separate space, and the image data detected by the inspection device is transmitted to another independent space. And through the computer device to convert its image data into a three-axis coordinate distance ^ display its coordinate distance number, so that the doctor can know the _ index number and wear the needle in the patient's needle, or in the lesion The position of the tissue is used to puncture the marked position and follow-up for local treatment; however, it is necessary to know and record the distance between the three targets on the electric job, and then check the space of the instrument for the patient to puncture. The operation process is inconvenient and the position error probability is relatively increased. [New Content] Accordingly, in order to solve the above-mentioned shortcomings of the prior art, the present invention provides a medical detection system having a digital display for viewing a three-axis coordinate. One more of this creation
檢測設備係電性連接所述電腦裝置, 一数予顯示器,該醫學 該電腦裝置顯示有該醫 學檢測設備所檢_之檢測數據並產生有複數檢測座標訊 號,且該電腦裝置係連接至所述數字顯示器,該數字顯示器 具有複數顯示區,並由所述顯示區顯示其檢_標訊號;藉 此’其數予顯示器可顯示三軸座標之距離並可依操作手術位 置變換設置之位置,進而達到方便手術之操作與有效降低位 置誤差之機率。 【實施方式】 本創作係提供一種醫學檢測系統,圖示係為本創作醫學 檢測系統之一較佳實施例。 請參閲第1圖及第2圖所示,係為本創作醫學檢測系統 10較佳實施例之示意圖及方塊示意圖,如圖所示,所述醫學 檢測系統10係包含:一醫學檢測設備20及一電腦裝置30 及一數字顯示器40 ; 所述醫學檢測設備20係為具有一設備本體21及一檢測 隧道22及一檢測平台23,所述檢測隧道22軸向延伸貫通該 設備本體21,該檢測平台23呈可移動地設於該檢測隧道22 M411221 内並於檢測元畢後產生有檢測數據且該醫學檢測設備加 係可為核磁共振②備及X光機及正子電職層儀及電腦 斷層掃瞄儀其中任一者; 所述電腦裝置30係電性連接所述醫學檢測設備2〇,並 接收其醫學檢職備20所產生之檢_據,且該電腦裝置 30係顯科檢缝據並將魏_據轉換成檢測座標訊 唬’雜測座標訊號包括有X軸座標距離、γ抽座標距離及z 軸座標距離,又該電齡置3G具有—訊號發射模組31發送 所述檢測座標訊號; 所述數字顯不器40係連結所述電腦裝置3〇,且該數字 顯示器40具有-訊號接收模組4U妾收所述檢測座標訊號, 並於本實酬巾,該數字顯示|| 4G無電職置加間係為 無線傳輸之訊號傳送型態財線傳輸之訊號傳送鶴或無線 傳輸跟有線傳輸組合其中任一; 又該數字顯示器40之顯示區42包括有—第一顯示區 421及-第二顯示區422及-第三顯示區423,該第一顯示區 421、第二顯示區422及第三顯示區423則分別顯示其X軸座 標距離、Y轴座標距離及Z軸座標距離。 請同時配合參閱第2圖及第3圖所示,係為本創作醫學 檢測系統10較佳實施例之方塊示意圖及實施示意圖如圖所 示,其中所述醫學檢測設備20係設置於第一獨立空間5〇之 檢測站位置處,反觀該電腦裝置3〇則是設置在第二獨立空間 60之醫生工作站位置處; 而受測者(圖中未示)透過所述檢測平台23軸向移動所 述檢測_ 22時,該醫學檢測職2()職卿受測者之癌 細胞的活触況及癌細胞位置並產生有所述檢測數據,在將 其檢測數據傳送到電腦裝置3〇,再經由電腦裝置即將其檢 測數據以影像資料呈現,以清楚得知該癌細胞位置,並將其 檢測數觀由細之呈現產生鎌標減,其檢 測座標訊號可區分有所述χ軸座標距離、γ軸座標距離及z 軸座標距離,且將其X _標距離、γ減標距離及z轴座 標距離以訊號發賴組31發送至數字顯示器4〇之訊號接收 模組41,並分別由第一顯示區421顯示X軸座標距離與由第 二顯示區422顯示Y軸座標距離與由第三顯示區似顯示z 軸座標距離; 立該數字顯示器40便可依照醫生之判定而選擇設置之環 境,而於本實施射’其數字_器4()係設置於檢測站位置 處之第-獨立空間50内,而醫生即可在受測者受測完畢且欲 在受測者身上針對其病變組織位置進行穿刺取樣,或於病變 組織位置進行穿刺標•示位置時,可直接觀看其數字顯示器如 之X軸座標距離、γ軸座標距離及z軸座標距離進行手術操 作’進而_方便手術之操作與有效降低位置誤差之機率。 游睛參閱第4圖所示’係為本創作數字顯示器仙另一較佳 實施方式之實施示意圖’其中所述數字顯示器4〇更具有—操 方向指示區45,而該電腦裝置3〇 (如第ι圖所示)於 所迷檢測座標訊騎更產生有—操財向訊號,其操作 訊號同時可顯示於所述操作方向指示區45,贈該數字和 器4〇上同時可顯示其手術操作時之進針之方向。… 准以上所述者’僅係本創作之較佳可行之實施例而已, 舉凡利用本創作上述之方法、形狀、構造、裝置所為之變化, 皆應包含於本案之權利範圍内。 【圖式簡單說明】 第1圖係為本創作醫學檢曝統較佳實細之示意圖。 第2圖係為本創作醫學m纟練佳實翻之方塊示意圖。 第3圖係為本創作醫學檢㈣紐佳實補之實施示意圖。 第4圖係為本創倾字顯衫另-較佳實施例之實施示。 【主要元件符號說明】 醫學檢測系統1〇 醫學檢測設備20 設備本體21 檢測隧道22 檢測平台23 電腦裝置30 訊號發射模組31 數字顯示器40 訊號接收模組41 顯示區42 第一顯示區421 第二顯示區422 第三顯示區423 操作方向指示區45 第一獨立空間50 第二獨立空間60The detecting device is electrically connected to the computer device, and the computer device displays the detection data detected by the medical detecting device and generates a plurality of detecting coordinate signals, and the computer device is connected to the a digital display having a plurality of display areas, and displaying the inspection signal by the display area; thereby, the number of the display can display the distance of the three-axis coordinate and can be changed according to the operation position of the operation, and further Achieve convenient operation and reduce the chance of positional errors. [Embodiment] The present invention provides a medical detection system, which is a preferred embodiment of the creative medical detection system. Please refer to FIG. 1 and FIG. 2 , which are schematic diagrams and block diagrams of a preferred embodiment of the creative medical detection system 10 . As shown, the medical detection system 10 includes: a medical detection device 20 . And a computer device 30 and a digital display device 40; the medical device 20 has a device body 21 and a detection tunnel 22 and a detection platform 23, and the detection tunnel 22 extends axially through the device body 21, The detection platform 23 is movably disposed in the detection tunnel 22 M411221 and generates detection data after the detection element is completed. The medical detection device can be a nuclear magnetic resonance 2 device, an X-ray machine and a positron electric level meter and a computer. Any one of the tomographic scanners; the computer device 30 is electrically connected to the medical testing device 2, and receives the inspection data generated by the medical examination service 20, and the computer device 30 is displayed The seam data is converted into a detection coordinate signal. The miscellaneous coordinate signal includes an X-axis coordinate distance, a γ-pitch coordinate distance, and a z-axis coordinate distance, and the electrical age is set to 3G with a signal transmitting module 31 transmitting station. Detection coordinate The digital display device 40 is connected to the computer device 3, and the digital display device 40 has a signal receiving module 4U for receiving the detection coordinate signal, and the digital display is displayed on the actual reward towel. The 4G non-electricity service is a combination of a signal transmission type transmission of a wireless transmission type transmission line or a wireless transmission and a wired transmission combination; and the display area 42 of the digital display 40 includes a first display area 421. And a second display area 422 and a third display area 423, wherein the first display area 421, the second display area 422, and the third display area 423 respectively display an X-axis coordinate distance, a Y-axis coordinate distance, and a Z-axis coordinate distance. Please refer to FIG. 2 and FIG. 3 together, which is a block diagram and an implementation diagram of a preferred embodiment of the creative medical detection system 10, wherein the medical detection device 20 is disposed in the first independent manner. At the position of the detection station of the space 5 ,, the computer device 3 is disposed at the position of the doctor workstation in the second independent space 60; and the subject (not shown) moves axially through the detection platform 23 When the test _ 22, the medical test 2 () job of the subject's cancer cells and the location of the cancer cells and the detection data generated, the test data is transmitted to the computer device 3, and then Through the computer device, the detection data is presented as image data, so as to clearly know the location of the cancer cell, and the detection number is reduced by the fine representation, and the detection coordinate signal can distinguish the coordinate distance of the axis, The γ-axis coordinate distance and the z-axis coordinate distance, and the X _ standard distance, the γ-subtraction distance, and the z-axis coordinate distance are sent to the signal receiving module 41 of the digital display 4 by the signal squaring group 31, and respectively One display The area 421 displays the X-axis coordinate distance and the Y-axis coordinate distance displayed by the second display area 422 and the z-axis coordinate distance displayed by the third display area; the digital display 40 can select the setting environment according to the doctor's judgment, and In the present embodiment, the digital device 4 is placed in the first independent space 50 at the position of the detecting station, and the doctor can test the position of the lesion on the subject after the subject is tested. When performing puncture sampling, or performing the puncture mark at the position of the diseased tissue, you can directly view the digital display such as the X-axis coordinate distance, the γ-axis coordinate distance, and the z-axis coordinate distance for the operation operation. Effectively reduce the chance of position error. Referring to FIG. 4, there is shown a schematic diagram of another preferred embodiment of the present digital display device, wherein the digital display device 4 further has a direction indicating area 45, and the computer device 3 is As shown in Fig. 1 ), the signal riding signal is generated in the detection seat, and the operation signal can be displayed in the operation direction indication area 45 at the same time, and the operation can be displayed on the digital device. The direction of the needle when operating. The above-mentioned embodiments are merely preferred embodiments of the present invention, and variations of the methods, shapes, structures, and devices described above are intended to be included in the scope of the present invention. [Simple description of the figure] The first picture is a schematic diagram of the better and better details of the medical examination and exposure system. The second picture is a block diagram of the creative medicine. The third picture is a schematic diagram of the implementation of the creative medical examination (4) New Jiashi. Figure 4 is an illustration of another embodiment of the preferred embodiment of the invention. [Main component symbol description] Medical detection system 1〇 Medical testing equipment 20 Equipment body 21 Detection tunnel 22 Detection platform 23 Computer device 30 Signal transmitting module 31 Digital display 40 Signal receiving module 41 Display area 42 First display area 421 Second Display area 422 third display area 423 operation direction indication area 45 first independent space 50 second independent space 60