TWM480354U - Sound wave and vibration wave conduction pad - Google Patents
Sound wave and vibration wave conduction pad Download PDFInfo
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- TWM480354U TWM480354U TW103201036U TW103201036U TWM480354U TW M480354 U TWM480354 U TW M480354U TW 103201036 U TW103201036 U TW 103201036U TW 103201036 U TW103201036 U TW 103201036U TW M480354 U TWM480354 U TW M480354U
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Landscapes
- Ultra Sonic Daignosis Equipment (AREA)
Description
本新型係關於一種聲波與震波傳導介質,特別係關於一種用於超音波診斷、治療之聲波與震波傳導墊片,可應用於超音波、震波碎石與透過矽膠塗液接合探頭(Probe)與人體接觸之非侵入式程序。The present invention relates to an acoustic wave and seismic wave transmission medium, and particularly relates to an acoustic wave and seismic wave conduction pad for ultrasonic diagnosis and treatment, which can be applied to ultrasonic waves, shock wave crushing stones and probes through a silicone coating liquid probe. Non-invasive procedures for human contact.
在1921年前後,法國製作了超音波偵測器。第二次世界大戰時,隨著聲納(SONAR,sound of navigation and range)的發展,工業用超音波裂痕偵測器來偵測魚群的定位。在動力方面則以加工機、洗淨機為中心。如此興起了超音波的熱潮。在醫師與工程師的努力,加上壓電晶體的發展與改良,使儀器越來越精密,並符合臨床診斷的要求。超音波在醫學診斷上是非常重要的非侵入性(non-invasive)的診斷工具,它可以直接觀察人體解剖部位及器官運動的情況而對人體幾乎無傷害性。Around 1921, France produced an ultrasonic detector. During the Second World War, with the development of SONAR (sound of navigation and range), industrial ultrasonic crack detectors were used to detect the location of fish stocks. In terms of power, the processing machine and the washing machine are the center. This has raised the craze for ultrasound. The efforts of physicians and engineers, coupled with the development and improvement of piezoelectric crystals, have made the instruments more sophisticated and meet the requirements of clinical diagnosis. Ultrasound is a very important non-invasive diagnostic tool for medical diagnosis. It can directly observe the anatomy of the human body and the movement of the organ and is almost harmless to the human body.
另外,根據研究顯示,國人一生中,約9.3%比率人口的泌尿道曾結石。泌尿系統結石的成因非常複雜,最基本的原因為尿路系統中沉澱物過飽和,引起結晶而形成結石。體內新陳代謝需經過腎臟過濾,尿液排出的廢物有一定的量,如果尿中水份量太少,這些成分在尿中的濃度自然提高,也就容易沉澱形成結石。結石的其他原因尚包括體內新陳代謝異常、家庭遺傳因素、尿液發炎及泌尿系統結構異常等因素。因此,泌尿科醫師執業項目中,結石治療是相當重要的一環。結石手術治療,大致分兩種:「侵入性治療」及「低侵入性治療」。前者包括傳統的開刀取石術,軟式或硬式輸尿管鏡碎石術、膀胱鏡碎石術、以及經皮腎截石術;後者則 是體外震波碎石術。In addition, according to research, about 9.3% of the population in the country has a urinary tract with stones. The cause of urinary calculi is very complicated. The most basic cause is that the sediment in the urinary system is supersaturated, causing crystallization and forming stones. The body's metabolism needs to be filtered by the kidneys. The amount of waste discharged from the urine is a certain amount. If the amount of water in the urine is too small, the concentration of these components in the urine naturally increases, and it is easy to precipitate and form stones. Other causes of stones include factors such as metabolic abnormalities in the body, family genetic factors, urinary inflammation, and structural abnormalities in the urinary system. Therefore, in the practice of urologists, stone treatment is a very important part. There are two types of calculus surgery: "invasive treatment" and "low invasive treatment." The former includes traditional open stone removal, soft or rigid ureteroscopic lithotripsy, cystolithic lithotripsy, and percutaneous nephrolithiasis; the latter It is an extracorporeal shock wave lithotripsy.
使用超音波擷取影像或是利用震波碎石時,通常使用矽膠凝體塗液(silica gel)作為皮膚與超音波或震波探頭的耦合劑,使皮膚與超音波或震波探頭間緊密連接,讓超音波或震波能順利進入人體。此外,矽膠也能減少皮膚和探頭之間的摩擦力,矽膠塗抹的位置與用量,會影響到超音波顯影與震波碎石的效果。When using ultrasound to capture images or using seismic debris, silica gel is often used as a coupling agent between the skin and the ultrasonic or seismic probe to tightly connect the skin to the ultrasonic or seismic probe. Ultrasonic or seismic waves can enter the human body smoothly. In addition, silicone can also reduce the friction between the skin and the probe. The position and amount of silicone coating will affect the effect of ultrasonic development and shock wave lithotripsy.
雖然超音波或震波目前所使用的矽膠,大幅改善了超音波或震波探頭與皮膚之間連接不緊密的問題。然而,使用矽膠做為耦合劑的主要缺點為探頭與人體直接接觸,僅透過矽膠做隔離,當醫生在執行超音波或震波碎石程序時,如果不小心造成傷口,體液與血液會流出,混在矽膠液與探頭上,醫師可能只使用紙巾簡單擦拭,就使用在下一個病人身上,如此容易造成病人之間的體液與血液傳播,安全衛生堪慮。Although the silicone used in ultrasonic or seismic waves has greatly improved the problem of poor connection between the ultrasonic or seismic probe and the skin. However, the main disadvantage of using silicone as a coupling agent is that the probe is in direct contact with the human body and is only isolated by silicone. When the doctor performs the ultrasonic or shock wave lithotripsy procedure, if the wound is accidentally caused, the body fluid and blood will flow out and be mixed. On the silicone gel and the probe, the doctor may simply wipe it with a paper towel and use it on the next patient, which is easy to cause fluid and blood transmission between the patients, which is safe and hygienic.
使用矽膠的另一缺點是塗液在病人皮膚上,冰冷的感覺會造成患者的不適,且隨著探頭的移動,矽膠塗液佈滿身體,醫療程序結束後,通常只給幾張紙巾供病人自行擦拭,大多時間都會因為紙巾或時間不夠而擦不乾淨。再者,矽膠的價格昂貴、無法重複使用、以及使用後需以大量紙類擦拭移除而造成使用不便等缺點,則是目前亟需解決的問題。Another disadvantage of using silicone rubber is that the coating liquid is on the patient's skin. The cold feeling will cause the patient's discomfort, and as the probe moves, the silicone coating liquid fills the body. After the medical procedure is finished, usually only a few paper towels are given to the patient. Wiping yourself, most of the time will not be cleaned because of paper towels or insufficient time. Moreover, the high cost, the inability to reuse, and the inconvenience of using a large amount of paper to be removed after use are the problems that need to be solved.
本新型之一目的,在提供一種具訊號與能量穿透性、且適用於人體各部位的聲波與震波傳導墊片。One of the purposes of the present invention is to provide an acoustic wave and seismic wave conducting gasket that has signal and energy permeability and is applicable to various parts of the human body.
為達上述目的,本新型提供一種聲波與震波傳導墊片,包含:一具有一厚度之片體,包含一第一表面與一相對於該第一表面之第二表面;以及一黏性層,覆於該第二表面上,其中該第一表面係與一超音波探頭接觸,黏性層係與一欲進行覆蓋的表面相配合,且其可為一自黏性膠 體。In order to achieve the above object, the present invention provides an acoustic wave and seismic wave conducting gasket, comprising: a sheet having a thickness, comprising a first surface and a second surface opposite to the first surface; and a viscous layer, Covering the second surface, wherein the first surface is in contact with an ultrasonic probe, the adhesive layer is matched with a surface to be covered, and the self-adhesive glue can be a self-adhesive glue body.
本新型所提供之聲波與震波傳導墊片,其中該片體之直徑為7~30cm;該片體之該厚度為2~10mm。The acoustic wave and seismic wave conducting gasket provided by the present invention, wherein the diameter of the sheet body is 7~30cm; the thickness of the sheet body is 2~10mm.
本新型之一實施例中,該聲波與震波傳導墊片進一步包含一離形紙,覆於該黏性層上。In an embodiment of the present invention, the acoustic wave and seismic wave conducting pad further comprises a release paper covering the adhesive layer.
本新型之一實施例中,該聲波與震波傳導墊片的片體為一軟性物體,較佳為固態水凝膠、生物纖維或其他能固化材料之本體,且具有透明或是半透明的態樣。In one embodiment of the present invention, the body of the acoustic wave and the seismic wave conducting pad is a soft object, preferably a solid hydrogel, a bio-fiber or other body capable of curing the material, and has a transparent or translucent state. kind.
本新型進一步提供一種聲波與震波傳導墊片,包含:一具有一厚度之片體,包含一第一表面與一相對於該第一表面之第二表面;其中該第一表面係與一超音波探頭接觸,該第二表面係與一欲進行覆蓋的表面相配合。The present invention further provides an acoustic wave and seismic wave conducting gasket, comprising: a sheet having a thickness, comprising a first surface and a second surface opposite to the first surface; wherein the first surface is coupled with an ultrasonic wave The probe is in contact with the second surface that mates with a surface to be covered.
本新型之聲波與震波傳導墊片,其包含一具有一厚度之片體以及一黏性層,具訊號與能量穿透性,敷蓋或貼在病患身上,取代矽膠塗液可有效隔離探頭與病患之直接接觸,以避免病人體液與血液殘留在探頭上,繼續汙染其他病人,並可解決病人之間的體液與血液傳播之潛在危險,減少病人進行醫療程序過程中的不適,改善習用超音波矽膠之價格昂貴、無法重複使用、以及使用後需以大量衛生紙擦拭而造成使用不便等等缺點,並且擁有比習用超音波矽膠更優異的聲波傳導效果。對於超音波診斷、治療上,提供了成本低廉、可於同患者之不同部位重複使用、不須繁複的擦拭程序即可去除之選擇。The sound wave and shock wave conduction pad of the present invention comprises a sheet body having a thickness and a viscous layer, which has signal and energy penetration, is applied or attached to the patient, and can replace the enamel coating liquid to effectively isolate the probe. Direct contact with the patient to prevent the patient's body fluid and blood from remaining on the probe, continue to contaminate other patients, and solve the potential danger of body fluids and blood transmission between patients, reduce the discomfort during the patient's medical procedures, and improve the abuse Ultrasonic silicone is expensive, cannot be reused, and is inconvenient to use due to the use of a large amount of toilet paper after use, and has superior acoustic transmission effects than conventional ultrasonic silicone. For the diagnosis and treatment of ultrasound, it provides a low cost, can be reused in different parts of the patient, and can be removed without a complicated wiping procedure.
以下將配合圖式進一步說明本新型的實施方式,下述所列舉的實施例係用以闡明本新型,並非用以限定本新型之範圍,任何熟習此技藝者,在不脫離本新型之精神和範圍內,當可做些許更動與潤飾,因此本新型之保護範圍當視後附之申請專利範圍所界定者為準。The embodiments of the present invention will be further described with reference to the drawings, which are set forth to illustrate the present invention and not to limit the scope of the present invention, and those skilled in the art, without departing from the spirit of the present invention. In the scope, the scope of protection of this new type shall be subject to the definition of the scope of the patent application.
10‧‧‧聲波與震波傳導墊片10‧‧‧Sonic and seismic wave conducting gaskets
11‧‧‧片體11‧‧‧Sheet
111‧‧‧第一表面111‧‧‧ first surface
112‧‧‧第二表面112‧‧‧ second surface
12‧‧‧黏性層12‧‧‧Adhesive layer
13‧‧‧離形紙13‧‧‧away paper
31‧‧‧患者31‧‧‧ patients
32‧‧‧震波探頭32‧‧‧shock probe
4‧‧‧假體4‧‧‧Prosthesis
41‧‧‧外殼41‧‧‧ Shell
42‧‧‧篩網42‧‧‧ screen
43‧‧‧超音波與震波傳導介質43‧‧‧Supersonic and seismic wave conducting media
60‧‧‧包裝袋60‧‧‧Package
601‧‧‧壓合邊601‧‧‧ Pressing edge
602‧‧‧易撕切口602‧‧‧ Easy torn incision
603‧‧‧夾層603‧‧‧Mezzanine
61‧‧‧加溫裝置61‧‧‧Heating device
80‧‧‧超音波探頭80‧‧‧Ultrasonic probe
80’‧‧‧超音波探頭80'‧‧‧Ultrasonic probe
80”‧‧‧超音波探頭80”‧‧‧Ultrasonic probe
第一圖係為本新型一實施例之聲波與震波傳導墊片的結構示意圖。The first figure is a schematic structural view of an acoustic wave and a seismic wave conducting gasket according to an embodiment of the present invention.
第二圖係為本新型另一實施例之聲波與震波傳導墊片的結構示意圖。The second figure is a schematic structural view of an acoustic wave and a seismic wave conducting pad according to another embodiment of the present invention.
第三圖係為本新型聲波與震波傳導墊片的使用狀態示意圖。The third picture is a schematic diagram of the state of use of the new acoustic wave and seismic wave conducting gasket.
第四圖係為震波碎石實驗示意圖。The fourth picture is a schematic diagram of the seismic wave gravel experiment.
第五圖係為使用(A)習用超音波凝膠與(B)本新型聲波傳導墊片於腎臟超音波影像之對照圖。The fifth figure is a comparison of the use of (A) conventional ultrasonic gel and (B) the novel acoustic wave conducting gasket in the ultrasound image of the kidney.
第六圖係為本新型聲波與震波傳導墊片之包裝示意圖。The sixth picture is a schematic diagram of the packaging of the new acoustic wave and seismic wave conducting gasket.
第七圖係為具有加溫裝置之本新型聲波與震波傳導墊片的包裝示意圖。The seventh figure is a package schematic diagram of the novel acoustic wave and seismic wave conducting gasket with a heating device.
第八~十圖係為本新型聲波與震波傳導墊片包覆超音波探頭之實施例的示意圖。The eighth to tenth drawings are schematic views of an embodiment of the novel acoustic wave and seismic wave conducting gasket coated ultrasonic probe.
請參考第一圖,該圖係為本新型一實施例之聲波與震波傳導墊片的結構示意圖。由圖中可看出聲波與震波傳導墊片10係一具有一厚度之片體11,本新型之一實施例中為一圓形片體,包含一第一表面111與一相對於該第一表面111之第二表面112;以及一黏性層12,覆於該第二表面112上,該黏性層可為一自黏性膠體,且該片體為一軟性物體,較佳為一固態水凝膠、生物纖維或其他能固化材料之本體,具有透明或是半透明的態樣。Please refer to the first figure, which is a schematic structural view of the acoustic wave and seismic wave conducting gasket according to an embodiment of the present invention. It can be seen from the figure that the acoustic wave and seismic wave conducting gasket 10 is a sheet body 11 having a thickness. In one embodiment of the present invention, a circular sheet body includes a first surface 111 and a first surface 111 a second surface 112 of the surface 111; and a viscous layer 12 overlying the second surface 112, the viscous layer may be a self-adhesive colloid, and the sheet is a soft object, preferably a solid A body of hydrogel, biofiber or other curable material that has a transparent or translucent appearance.
在本新型之一實施例中,該片體11之該厚度為2~10mm,該片體11之直徑為7~30cm。本新型聲波與震波傳導墊片應用於體外震波碎石術時,該片體11之直徑較佳為10~15cm;而用於超音波檢測時則視檢查範圍而定,7~30cm皆適用,較佳為13~18cm。In an embodiment of the present invention, the thickness of the sheet 11 is 2 to 10 mm, and the diameter of the sheet 11 is 7 to 30 cm. When the novel acoustic wave and seismic wave conducting gasket is applied to extracorporeal shock wave lithotripsy, the diameter of the body 11 is preferably 10-15 cm; and for ultrasonic detection, depending on the inspection scope, 7~30 cm is applicable. It is preferably 13 to 18 cm.
請參考第二圖,該圖為本新型另一實施例之聲波與震波傳導墊片的結構示意圖。由圖中可見,聲波與震波傳導墊片10可進一步於黏性 層12上加覆一離形紙13,使本新型聲波與震波傳導墊片10在未使用時,保護黏性層12不會有灰塵、砂子等髒東西附著黏性層12,使黏性層12之粘性減弱而影響聲波傳導效果。本新型聲波與震波傳導墊片10之製作,可由凝膠材料、生物纖維或其他能固化材料,以射出成形製成。Please refer to the second figure, which is a schematic structural view of an acoustic wave and a seismic wave conducting pad according to another embodiment of the present invention. As can be seen from the figure, the acoustic wave and seismic wave conducting gasket 10 can be further viscous The layer 12 is coated with a release paper 13 so that when the sound wave and the seismic wave conducting gasket 10 are not used, the protective layer 12 is protected from dust, sand and the like, and the adhesive layer 12 is adhered to the adhesive layer. The viscosity of 12 is weakened and affects the sound wave conduction effect. The novel acoustic wave and seismic wave conducting gasket 10 can be fabricated by injection molding from a gel material, biofiber or other curable material.
請考第三圖,該圖係為本新型聲波與震波傳導墊片之使用狀態示意圖。使用本新型聲波與震波傳導墊片10時,患有腎結石之患者31可仰躺於診療床上,雙手上舉於雙耳旁。操作者取一聲波與震波傳導墊片10,撕去離形紙13,片體11的黏性層12黏貼於對準結石處之皮膚上,與一欲進行覆蓋的表面相配合。接著將震波探頭32(即超音波換能器)接觸聲波與震波傳導墊片10的第一表面111,對準結石處以聲波與震波傳導墊片10作為間隔,向結石施予震波,使結石震碎為數個小碎塊而經由尿液自然排出。本新型之另一實施例,亦可由片體11的第二表面112貼合於對準結石處之皮膚上,與一欲進行覆蓋的表面相配合(圖中未顯示)。Please take the third picture, which is a schematic diagram of the state of use of the new acoustic wave and seismic wave conducting gasket. When using the novel sonic and seismic wave conduction pad 10, the patient 31 suffering from kidney stones can lie on the bed and raise both hands by the ears. The operator takes a sound wave and shock wave conducting spacer 10, tears off the release paper 13, and the adhesive layer 12 of the sheet body 11 is adhered to the skin on the aligned stone to match the surface to be covered. Then, the seismic wave probe 32 (ie, the ultrasonic transducer) is contacted with the acoustic wave and the first surface 111 of the seismic wave conducting pad 10, and the sound wave and the seismic wave conducting pad 10 are arranged at intervals on the stone, and the seismic wave is applied to the stone to make the stone shock. It is broken into several small pieces and naturally discharged through the urine. In another embodiment of the present invention, the second surface 112 of the sheet 11 may be attached to the skin at the alignment stone to cooperate with a surface to be covered (not shown).
為試驗本新型聲波與震波傳導墊片10之聲波傳導效果,以一假體(phantom)試驗本新型聲波與震波傳導墊片10與傳統超音波矽膠在相同條件下震碎結石之效果。In order to test the acoustic wave transmission effect of the novel acoustic wave and seismic wave conducting gasket 10, the effect of the new acoustic wave and seismic wave conducting gasket 10 and the conventional ultrasonic silicone rubber under the same conditions is tested by a phantom.
請參考第四圖,該圖係為震波碎石實驗示意圖。圖中假體4包含一外殼41以及一篩網42,外殼41內部充滿水或其他震波傳導液體,篩網42內置放直徑1cm的石頭,篩網之孔徑約為2mm。本實驗於震波探頭32與假體4之外殼41之間,置放一超音波與震波傳導介質43,該超音波與震波傳導介質43可為傳統超音波矽膠或是本新型聲波與震波傳導墊片10,並以不放任何超音波與震波傳導介質43作為對照組。所設定的震波脈衝頻率為80Hz,震波能量條件皆以本技術領域標準條件設定,並紀錄篩網42內石頭被震碎,並全部掉出篩網42外時,所需擊發的震波脈衝數目,以比較本新 型聲波與震波傳導墊片10與習用超音波矽膠在相同條件下震碎結石之效果。Please refer to the fourth figure, which is a schematic diagram of the seismic wave gravel experiment. In the figure, the prosthesis 4 comprises a casing 41 and a screen 42. The casing 41 is filled with water or other seismic wave conducting liquid. The screen 42 is internally provided with a rock having a diameter of 1 cm, and the mesh has a hole diameter of about 2 mm. In the experiment, an ultrasonic wave and a seismic wave conducting medium 43 is disposed between the seismic wave probe 32 and the outer casing 41 of the prosthesis 4. The ultrasonic wave and seismic wave conducting medium 43 can be a conventional ultrasonic silicone or the novel acoustic wave and seismic wave conducting pad. The sheet 10 was placed without any ultrasonic wave and seismic wave medium 43 as a control group. The set seismic wave pulse frequency is 80 Hz, and the seismic energy conditions are all set according to the standard conditions in the technical field, and the number of shock wave pulses required to be fired when the stones in the screen 42 are shattered and all fall out of the screen 42 are recorded. To compare this new The effect of the acoustic wave and seismic wave conducting gasket 10 and the conventional ultrasonic silicone rubber under the same conditions.
在未置放任何超音波與震波傳導介質43之對照組中,其脈衝數目為500次,超音波與震波傳導介質43為習用超音波矽膠時,其脈衝數目減少為400次,而超音波與震波傳導介質43為本新型聲波與震波傳導墊片10時,脈衝數目進一步減至為350次。由此結果可知,本新型聲波與震波傳導墊片10之震波傳導效果較習用超音波矽膠優異。In the control group in which no ultrasonic wave and seismic wave medium 43 were placed, the number of pulses was 500, and when the ultrasonic wave and seismic wave medium 43 were conventional ultrasonic gels, the number of pulses was reduced to 400 times, and the ultrasonic wave was When the seismic wave transmission medium 43 is the novel acoustic wave and seismic wave conduction pad 10, the number of pulses is further reduced to 350 times. From this result, it is understood that the seismic wave transmission effect of the novel acoustic wave and seismic wave conducting gasket 10 is superior to that of conventional ultrasonic silicone rubber.
請參考第五圖,第五A圖為使用習用超音波凝膠,對腎臟所擷取之影像,第五B圖為使用本新型聲波與震波傳導墊片10,對腎臟所擷取之影像。由第五A圖與第五B圖比較可知,使用習用超音波凝膠與本新型聲波與震波傳導墊片10於影像上為相同。Please refer to the fifth picture. The fifth picture A shows the image taken by the kidney using the conventional ultrasonic gel. The fifth picture B shows the image taken by the kidney using the new acoustic wave and seismic wave conduction pad 10. Comparing the fifth A picture with the fifth B picture, it is known that the conventional ultrasonic wave and the novel acoustic wave and seismic wave conducting pad 10 are identical in image.
如第六圖所示,聲波與震波傳導墊片10可置入一包裝袋60內保存。其中包裝袋60較佳具有四個壓合邊601以形成一容置空間,供容置聲波與震波傳導墊片10。包裝袋60可選擇性地設有至少一易撕切口602,使用時只要稍加施力於易撕切口602即可將包裝袋60撕開,取出聲波與震波傳導墊片10使用。As shown in the sixth figure, the acoustic wave and seismic wave conducting gasket 10 can be placed in a package 60 for storage. The packaging bag 60 preferably has four pressing edges 601 to form an accommodating space for accommodating the acoustic wave and seismic wave conducting pads 10. The packaging bag 60 can be selectively provided with at least one easy-to-cut slit 602. In use, the packaging bag 60 can be torn open by applying a slight force to the easy-to-tear slit 602, and the sound wave and seismic wave conducting pad 10 can be taken out.
本新型之聲波與震波傳導墊片10的包裝形式不限,除上述有四個壓合邊的形式外,另亦可製成三邊壓合邊的三面封或是背封的形式,但不僅限於此,只要能將聲波與震波傳導墊片10容置於其中之包裝袋皆可應用於此。The sound wave and the seismic wave conducting gasket 10 of the present invention are not limited in packaging form, and may be in the form of three-side sealing or back sealing of the three-side pressing edge, in addition to the above-mentioned four pressing side forms, but not only To be limited thereto, any package in which the acoustic wave and the seismic wave conducting gasket 10 can be accommodated can be applied thereto.
另外,為避免室溫之聲波與震波傳導墊片10直接置放於患者的皮膚上,仍會對患者體表造成冰涼不適感。因此,如第七圖所示,聲波 與震波傳導墊片10之包裝袋60亦可另隔出一夾層603,以置放加溫裝置61。該加溫裝置61可為內含鐵、活性碳、蛭石與鹽之透氣袋。當包裝袋60開啟,加溫裝置61接觸空氣後,因氧化反應而釋放熱量,對聲波與震波傳導墊片10進行加溫,可有效改善此問題。這裡所使用的加溫裝置61種類不限,只要能對聲波與震波傳導墊片10進行加溫的裝置即可,使聲波與震波傳導墊片10之溫度約為25~40℃。In addition, in order to prevent the sound wave at room temperature and the seismic wave conducting pad 10 from being directly placed on the skin of the patient, the patient's body surface may still be cold and uncomfortable. Therefore, as shown in the seventh figure, the sound wave The package 60 of the seismic wave conducting gasket 10 can also be separated from the interlayer 603 to place the warming device 61. The warming device 61 can be a breathable bag containing iron, activated carbon, vermiculite and salt. When the packaging bag 60 is opened and the heating device 61 is in contact with the air, heat is released by the oxidation reaction, and the sound wave and the seismic wave conducting gasket 10 are heated to effectively improve the problem. The type of the warming device 61 used herein is not limited as long as it can heat the acoustic wave and the seismic wave conducting pad 10, and the temperature of the acoustic wave and the seismic wave conducting pad 10 is about 25 to 40 °C.
聲波與震波傳導墊片10可製成包覆超音波探頭的形式,如第八至十圖所示。超音波探頭80、80’、80”前端以聲波與震波傳導墊片10包覆,將第一表面111與超音波探頭80前端緊密接觸,第二表面112係可直接接觸於人體皮膚,針對欲檢查之部位進行造影。The acoustic and seismic wave conducting pads 10 can be formed in the form of a coated ultrasonic probe, as shown in Figures 8 through 10. The front end of the ultrasonic probes 80, 80', 80" is covered with sound waves and seismic wave conducting pads 10, and the first surface 111 is in close contact with the front end of the ultrasonic probe 80, and the second surface 112 is directly in contact with human skin. The site to be examined is imaged.
綜上所述,本新型聲波與震波傳導墊片具有訊號與能量穿透性,敷蓋或貼在病患身上,取代矽膠塗液可有效隔離探頭與病患之直接接觸,以避免病人體液與血液殘留在探頭上,繼續汙染其他病人,並可解決病人之間的體液與血液傳播之潛在危險,減少病人進行醫療程序過程中的不適,且成本低廉、可於同患者之不同部位重複使用、由人體皮膚上移除而不須繁複的擦拭程序之優點,且擁有優異的聲波傳導效果。In summary, the novel acoustic wave and seismic wave conducting gasket has signal and energy penetration, and is covered or attached to the patient. Instead of the silicone coating solution, the direct contact between the probe and the patient can be effectively separated to avoid the patient's body fluid and The blood remains on the probe, which continues to contaminate other patients, and can solve the potential dangers of body fluids and blood transmission between patients, reduce the discomfort during the patient's medical procedures, and the cost is low, and can be reused in different parts of the patient. It is removed from the human skin without the need for complicated wiping procedures, and has excellent sound wave transmission effects.
惟,以上所述者,僅為本創作之較佳實施例,並非用以限定本創作之範圍,任何熟習此技藝者,在不脫離本創作之精神與範圍所作之等效修飾或變更,皆應涵蓋於本創作之專利範圍中。However, the above descriptions are merely preferred embodiments of the present invention and are not intended to limit the scope of the present invention. Any modifications or alterations made by those skilled in the art without departing from the spirit and scope of the present invention are It should be covered by the scope of the patent of this creation.
10‧‧‧聲波與震波傳導墊片10‧‧‧Sonic and seismic wave conducting gaskets
11‧‧‧片體11‧‧‧Sheet
111‧‧‧第一表面111‧‧‧ first surface
112‧‧‧第二表面112‧‧‧ second surface
12‧‧‧黏性層12‧‧‧Adhesive layer
Claims (11)
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| TW103201036U TWM480354U (en) | 2014-01-17 | 2014-01-17 | Sound wave and vibration wave conduction pad |
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| TWM480354U true TWM480354U (en) | 2014-06-21 |
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