五、新型說明: 【新型所屬之技術領域】 本創作係關於一種可改變薄膜形態的耳套裝置,特別是 指一種耳套的薄膜上具有預定高度之凸起部,能使用不同尺 寸的探頭擠壓施力,俾讓薄膜拉伸變形後改變厚度的圍繞於 探頭之側邊的耳套裝置。 【先前技術】 一般耳溫搶之耳套通常係用手拿取後再套入耳溫槍之探 頭非予谷易產生耳套污染及感染問題,為避免以手接觸耳 套如美國專利第4,993,424號所揭露之感測光源體溫量測 裝置,其係於耳溫搶(即感測光源體溫量測裝置)内設置耳套 (如圖一所示)儲存室及輸送裝置,以便直接將耳套裝入耳溫 搶内並輸送至搶頭,當探頭縮進搶頭時,耳套便可直接套住 探頭。而其構成上亦有其缺點,即:⑴耳套係由開放端藉材 料加壓塑性變形延展至封閉端’塑性變形甚長距離,一般耳 套變形量在超過2〇倍,因此材質選用必須特別好,製作過 程品質控制也必須特別優異,如此材質與製作品質導致價袼 昂貴;⑺整體結構非常複雜且體型較大,導致價格昂貴,非 一般消費者所能購買。 、用溫度計的感測光源探頭用的耳套裝置係如美國公主 第5,⑹,川號專利案’其主要構成特徵為罩套及—環 M399314 狀之基底,該罩套係由一片厚度約〇 〇〇丨英吋的感測光源可 穿透式膜所製成,g亥罩套之封開端成平整狀,構成感測光源 之視窗區,其周壁成褶疊狀,其開放端的周圍黏著於該環狀 之基底上,該基底被設計成可與溫度計探頭密合,將此耳套 之基底套上耳溫計之探頭時會使該視窗區平貼該探頭之前 端入口;而其構成上之主要缺點為當此耳套進入耳道中時,V. New description: [New technical field] This creation is about a kind of earmuff device that can change the shape of the film, especially the convex part with a predetermined height on the film of the earmuff, which can be squeezed with different sizes of probes. Pressing the force, the earmuff device surrounding the side of the probe is changed in thickness after the film is stretched and deformed. [Prior Art] The ear cover that is generally used for ear temperature is usually taken by hand and then placed in the ear thermometer. The probe is not susceptible to ear cover pollution and infection. To avoid touching the ear cover by hand, such as US Patent No. 4,993, The sensing light source body temperature measuring device disclosed in No. 424 is provided in the ear temperature grabbing device (ie, the sensing light source body temperature measuring device), and the ear cover (shown in FIG. 1) is provided with a storage chamber and a conveying device for directly directing the ear The sleeve is placed in the ear temperature and transported to the head. When the probe is retracted, the earmuff can directly cover the probe. And its composition also has its shortcomings, namely: (1) the earmuffs are extended from the open end by the plastic deformation of the material to the closed end 'plastic deformation very long distance, the general earmuff deformation is more than 2 times, so the material selection must be Especially good, the quality control of the production process must also be particularly excellent, so the material and the quality of the production lead to high price; (7) the overall structure is very complicated and large, resulting in expensive, non-general consumers can buy. The earmuff device for sensing the light source probe with a thermometer is, for example, the American princess 5th, (6), and the main constituent feature of the Kawasaki patent is the cover and the ring M399314-shaped base, the cover is composed of a thickness of about one piece. 〇〇〇丨 吋 吋 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感 感On the annular substrate, the substrate is designed to be in close contact with the thermometer probe, and the base of the earmuff is placed on the probe of the ear thermometer to make the window area flat on the front end of the probe; The main disadvantage is that when the earmuff enters the ear canal,
其罩套之周壁的褶痕會到到耳道表皮會令人非常不舒服,而 且罩套本身受到擠壓時會發出相當的噪音。另外,將此耳套 裝在探頭上時感測光源視窗區可能會出現皺摺,導致感測光 源的雜散輻射(stray radiati〇n)而影響所測溫度的準確性。而 圖一之耳套亦為現在眾多耳溫搶其探頭所使用之耳套。 再,習用耳溫計之探測耳套如美國公告第5,088 834號之The creases on the perimeter wall of the cover can be very uncomfortable to the epidermis, and the cover itself is quite irritated when squeezed. In addition, when the ear cover is mounted on the probe, wrinkles may appear in the sensing light source window area, which causes stray radiation of the light source to affect the accuracy of the measured temperature. The earmuffs in Figure 1 are also the earmuffs used in many of the ear thermometers. Furthermore, the earmuffs of the ear thermometers are used, as disclosed in U.S. Bulletin No. 5,088 834.
構成特徵為:-體成形的平戴頭形的罩套及—基底,該罩套 係由感測光源可穿透式材料所―體製成和耳溫計之探頭相 互吻合’其封閉端(遠側部)之厚度漸縮,而使得位於遠側端 之視窗厚度最薄’約在0.001至〇 〇〇〇5英时之間該基底接 合在罩套開放端(近側端)的周圍,用來將薄膜固定在耳溫搶 之探頭上,此㈣式㈣無摺痕,㈣上較為料,其構成 上…、亦声其缺點,即’因為薄膜係由開放端藉材料加壓塑性 變形延展至封閉端,塑抖锑e m ^ h 型11變形甚長距離,其厚度約自0.03 英吋漸縮至0,0005英吋,+制、Α 、 在製以過程中品質的控制較為困 難0 4 M399314 本案創作人鑑於上述耳套裝置所衍生的各項缺點,乃亟 思加以改良創新,終於成功完成本件可改變薄膜形態的耳套 裝置。 【新型内容】 本創作之目的即在於提供一種可改變薄臈形態的耳套裝 置’俾能提供不同尺寸的探頭於凸起部之任一位置擠壓施 力,使薄膜沿著凸起部凸起的方向延伸、延展而改變薄膜的 _ 體積或形態的圍繞於探頭之側邊。 本創作之次一目的係在於提供一種可改變薄膜形態的耳 套裝置,俾能提供不同尺寸的探頭於凸起部之任一位置擠壓 施力,使薄膜沿著凸起部凸起的方向延伸、延展,以供薄膜 貼合探頭的視窗,不會於視窗周圍產生細小的褶皺。 本創作之另一目的係在於提供一種結構簡單、製造過程 品質容易控制,且價格低廉、使用簡單的一種耳套裝置。 籲 本創作之又一目的係在於提供一種可改變薄膜形態的耳 套裝置圍繞於探頭之側邊時,薄膜於探頭的周壁形成光滑面 (無褶痕現象),因此不會到到耳道表皮,不會令人感到不舒 服。 本創作之再一目的係在於提供一種可改變薄膜形態的耳 套裝置,當耳套裝在探頭上時感測光源視窗區不會出現皺 指’以消除感測光源產生雜散輻射來影響所測溫度的準確 性。 M399314 可達成上述創作目的之可改變薄膜形態的耳套裝置,係 用於套设在一耳溫搶之探頭,包括具有一開口與一厚度的基 座’ β亥基座包括具延展性的薄膜形成於開口的空間位置,該 薄膜並於表面呈現一凸起部,該凸起部的高度係大於基座的 厚度,且小於開口面寬的半數,以提供探頭接觸薄獏後能沿 著施力方向做數倍長度變化; 該薄膜上具有預定高度之凸起部,能使用不同尺寸的探 _ 頭擠慶施力’並使薄膜沿著凸起部凸起的方向延伸、延展而 產生薄膜的體積或形態的改變以圍繞於探頭之側邊,以供薄 膜貼合探頭的視窗,不會於視窗周圍產生細小的褶皺,防止 薄膜影響視窗之感測光源的穿透,以避免溫度量測時產生誤 差。 【實施方式】 請參閱圖三,本創作所提供之可改變薄膜形態的耳套褒 • 置,主要包括有一開口 11與一厚度12的基座1,該基座! 包括具延展性的薄膜2形成於開口 11的空間位置,該薄膜2 並於表面呈現一凸起部21,該凸起部21的高度係大於基座 1的厚度12’且小於開口 11面寬的半數,以提供探頭31接 觸薄膜2後能沿著施力方向做數倍長度變化。 該溥膜2上具有預定南度之凸起部21,能使用不同尺寸 的探頭3 1擠壓施力’並使薄膜2沿著凸起部2 1凸起的方向 延伸、延展而產生薄膜2的體積或形態的改變(本創作為使薄 6 M399314 臈2可延展3〜5倍、或3〜7倍的形態)以圍繞於探頭之侧 邊(如圖七與圖八所不),以供薄膜2貼合探頭h的視窗”, 不會於視由32周圍產生細小的褶皺,防止薄膜2影響視窗 32之感測光源的穿透’以避免溫度量測時產生誤差。 如圖-所示’ s亥基座1包括有-開口 11與一厚度12, 該薄膜2是以具延展性材料製成,並以邊緣重疊地貼合於該 基座1的一頂面’其薄膜2製作於基座1時,為以一模具(圖 未顯示)來播壓,纟中該模具具有一凸出之頭部(圖未顯示), 該頭部之形狀係與該薄膜2的凸起部21近似或相同,而該 頭P上具有預定之凹凸紋路(圖未顯示),俾於擠壓後,基座 1與薄膜2退出模具時,該凹凸紋路能避免薄膜2黏貼於模 具的頭部,而防止模具到傷薄膜2之一保護設計。 再如圖四至圖六所示,該基座!進而包括有頂座13與底 座4 „玄頂、底座13,14分開後形成一中空容室,該薄膜2 的邊緣把置於中空容室’使該頂、底座13, Μ密合後所構成 的也封腔至15包覆住該薄膜2之周緣。該基座質可 為4乂堅硬的塑膠材質’而薄膜2之材質可係為塑膠材質且具 延展性的材料,並能讓感測光源穿透。請參考圖七至圖九, 當基座1套固在耳溫槍3之探頭31結構上,該探頭3〗接觸 薄膜2後’位於探頭31至基座i開。^之間的薄膜2,會 沿著施力方向做數倍長度變化,使耳溫搶3之前端的探頭3ι 視窗32以及於耳溫搶3探頭31之側部圍繞有薄膜2,由於 M399314 薄膜2對應探頭31的視窗32處係為透光膜設計,且視窗η 區不會出現皱摺,將讓感測光源完全穿過薄膜2對人體耳部 進行溫度檢測,且此感測光源將因薄膜2無敞指阻隔而不會 產生能量折損或產生雜散輻射來影響所測溫度的準確性。The utility model is characterized in that: a body-formed flat-head-shaped cover and a base are made of a sensing light source transmissive material and the probe of the ear thermometer is matched with each other's closed end ( The thickness of the distal portion is tapered such that the thickness of the window at the distal end is the thinnest 'about 0.001 to 英5 inches. The base is joined around the open end (proximal end) of the cover, It is used to fix the film on the probe of ear temperature. This (4) type (4) has no creases, (4) is more material, and its composition is... and also its shortcoming, that is, because the film is plastically deformed by the open end. Stretched to the closed end, the plastic 锑em ^ h type 11 deformed very long distance, its thickness is reduced from 0.03 inches to 0,0005 miles, + system, Α, quality control during the process is difficult. 4 M399314 The creator of this case, in view of the shortcomings derived from the above-mentioned earmuff device, has improved and innovated, and finally successfully completed the earmuff device which can change the shape of the film. [New content] The purpose of this creation is to provide an earmuff device that can change the shape of the thin raft. 俾 It can provide different sizes of probes to press the force at any position of the convex portion, so that the film is convex along the convex portion. The direction of extension extends and expands to change the _ volume or morphology of the film around the sides of the probe. The second objective of the present invention is to provide an earmuff device capable of changing the shape of a film, which can provide a probe of different sizes to press a force at any position of the convex portion to cause the film to protrude along the convex portion. Extends and stretches to allow the film to conform to the window of the probe without creating fine wrinkles around the window. Another object of the present invention is to provide an earmuff device which is simple in structure, easy to control in quality, and low in cost and simple in use. Another object of the present invention is to provide a mask that can change the shape of the film around the side of the probe. The film forms a smooth surface on the peripheral wall of the probe (no crease), so it does not reach the ear canal skin. It won't be uncomfortable. A further object of the present invention is to provide an earmuff device capable of changing the shape of a film. When the ear is set on the probe, the wrinkle finger is not detected in the window region of the light source to eliminate the stray radiation generated by the sensing light source to affect the measured The accuracy of the temperature. M399314 An earmuff device capable of changing the shape of the film for the above-mentioned purpose, which is used for arranging a probe for temperature monitoring, including a pedestal having an opening and a thickness. The pedestal includes a ductile film. Formed in the spatial position of the opening, the film presents a convex portion on the surface, the height of the convex portion is greater than the thickness of the base, and is less than half of the width of the opening surface, so as to provide a probe contact with the thin The force direction is changed by several times; the film has a protrusion with a predetermined height, and the film can be squeezed and stretched in the direction of the protrusion of the protrusion to form a film by using different sizes of the head. The volume or shape changes around the side of the probe to allow the film to conform to the window of the probe without creating fine wrinkles around the window, preventing the film from affecting the penetration of the sensing source of the window to avoid temperature measurement There is an error. [Embodiment] Referring to FIG. 3, the earmuff device provided by the present invention for changing the shape of the film mainly includes an opening 11 and a base 12 having a thickness of 12, the base! The film 2 including the ductility is formed at a spatial position of the opening 11, and the film 2 presents a convex portion 21 on the surface, the height of the convex portion 21 being greater than the thickness 12' of the susceptor 1 and smaller than the opening width of the opening 11. Half of the number is provided so that the probe 31 can be made to vary in length by several times in the direction of the force application after contacting the film 2. The ruthenium film 2 has a predetermined south degree convex portion 21, which can be pressed and applied by the probes 3 1 of different sizes, and the film 2 is extended and extended along the convex portion 2 1 to form the film 2 Volume or shape change (this creation is to make the thin 6 M399314 臈2 can extend 3 to 5 times, or 3 to 7 times the shape) to surround the side of the probe (as shown in Figure 7 and Figure 8), The film 2 is attached to the window of the probe h", and no fine wrinkles are generated around the 32, preventing the film 2 from affecting the penetration of the sensing light source of the window 32 to avoid errors in temperature measurement. The susceptor base 1 includes an opening 11 and a thickness 12, and the film 2 is made of a ductile material and is attached to the top surface of the susceptor 1 with its edges overlapping. In the case of the susceptor 1, it is embossed by a mold (not shown) having a convex head (not shown), and the shape of the head is attached to the convex portion of the film 2. 21 is approximately or identical, and the head P has a predetermined embossing pattern (not shown), and after squeezing, the susceptor 1 and the film 2 exit the dies. The embossing pattern can prevent the film 2 from sticking to the head of the mold, and prevent the mold from protecting the design of the damaged film 2. As shown in FIG. 4 to FIG. 6, the pedestal further includes a top seat 13 and a base 4 „The top and the bases 13 and 14 are separated to form a hollow chamber, and the edge of the film 2 is placed in the hollow chamber, so that the top, the base 13 and the cymbal are tightly closed, and the cavity is sealed to 15 The periphery of the film 2. The pedestal can be made of 4 乂 hard plastic material ‘and the material of the film 2 can be made of plastic material and malleable material, and can penetrate the sensing light source. Referring to Fig. 7 to Fig. 9, when the base 1 is fixed on the structure of the probe 31 of the ear thermometer 3, the probe 3 is in contact with the film 2 and is located at the probe 31 to the base i. Between the film 2, the length of the film 2 will be changed several times along the direction of the force application, so that the ear 3 is at the front end of the probe 3, the window 32, and the side of the ear temperature robbing 3 probe 31 is surrounded by the film 2, since the M399314 film 2 The window 32 corresponding to the probe 31 is designed as a light-transmissive film, and wrinkles are not present in the window n region, so that the sensing light source completely passes through the film 2 to perform temperature detection on the human ear, and the sensing light source will be due to the film. 2 There is no open finger barrier without energy loss or spurious radiation to affect the accuracy of the measured temperature.
本創作為該基座1接合在薄膜2邊緣的周緣,用來將薄 联2固定在耳溫搶3之探頭31上,此種型式薄膜2形成光 滑之外表,故在使用上不致於因指痕而對耳道磨擦產生不舒 適感’使用上較為舒適’因為薄膜2係由凸起部21藉探頭 31擠壓施力將薄膜2材料從探頭31_32加壓塑性變形 延展至基座1的開口 1丨,塑性變形距離適中在製造過程中 品質容易控制。 本創作所提供之可改變薄膜形態的耳套裝置’與前述引 證案及其他習用技術相互比較時,更具有下列之優點: 1. 該薄膜2上具有預定高度之凸起部21,能使用不同尺 •寸的探頭31擠壓施力,俾讓薄膜2拉伸變形後改變厚度12 的圍繞於探頭31之側邊,供薄臈2貼合探頭31的視窗32, 不會於視窗32周圍產生細小的褶皺。 2. δ亥濤膜2上具有預定高度之凸起部2丨結構簡單、製造 過程品質容易控制,能使用不同尺寸的探頭31擠壓施力, ϋ使溥膜2沿著凸起部2 1凸起的方向延伸、延展而產生薄 膜2的體積或形態的改變以圍繞於探頭31之側邊時,薄膜2 於探頭31的周壁形成光滑面(無褶痕現象),以消除感測光源 |B99314 . .. 產生雜散輻射來影響所測溫度的準確性。 上列詳細說明係針對本創作之一可行實施例之具體說 明’惟該實施例並非用以限制本創作之專利範園,凡未脫離 本創作技藝精神所為之等效實施或變更,均應包含於本案之 專利範圍中。 ‘综上所述,本案不但在空間型態上確屬創新,並能較習 用物品增進上述多項功效’應已充分符合新穎性及進步性之 •法疋新型專利要件,妥依法提出巾請,懇冑貴局核准本件 新型專利中請案,以勵創作,至感德便。 【圖式簡單說明】 圖一與圖二為習用之耳套結構; 圖三為該可改變薄媒形態的耳套裝置第一實施之剖視 团 · 圃, ®四為該可改變薄膜形態的耳套裝置第二實施之剖視 • 圖; 圖五為耳套裝置第二實施之頂面立體分解視圖; 圖六為該可改變薄臈形態的耳套裝置第二實施之立體租 合圖; ^ 卜圖七至圊九為該耳套褒置套固在耳溫搶之探頭,該薄膜 μ 力方向做數倍長度變化之動作示意圖。 【主要元件符號說明】 9 M399314 1基座 11開口 12厚度 13 頂座 14 底座 15 密封腔室 2 薄膜 0 21凸起部 3 耳溫搶 3 1 探頭 3 2 視窗The creation of the base 1 is joined to the periphery of the edge of the film 2 for fixing the thin joint 2 to the probe 31 of the ear temperature. The type film 2 forms a smooth outer surface, so that it is not used in the use. It is uncomfortable for the ear canal friction to be 'comfortable to use' because the film 2 is pressed by the convex portion 21 by the probe 31 to extend the film 2 material from the plastic deformation of the probe 31_32 to the opening of the base 1 1丨, the plastic deformation distance is moderate and the quality is easy to control during the manufacturing process. The earmuff device of the present invention which can change the shape of the film has the following advantages when compared with the above cited documents and other conventional techniques: 1. The film 2 has a convex portion 21 of a predetermined height, which can be used differently. The inch-inch probe 31 is pressed and applied, and the film 2 is stretched and deformed to change the thickness of the side of the probe 31 around the probe 31, and the window 32 of the probe 31 is attached to the window 32, which does not generate around the window 32. Small folds. 2. The protrusion portion 2 having a predetermined height on the δHai Tao film 2 has a simple structure and easy control of the quality of the manufacturing process, and can be pressed and applied by the probe 31 of different sizes, so that the ruthenium film 2 is along the convex portion 2 1 When the direction of the protrusion is extended and extended to cause a change in the volume or shape of the film 2 to surround the side of the probe 31, the film 2 forms a smooth surface (no crease phenomenon) on the peripheral wall of the probe 31 to eliminate the sensing light source| B99314 . . . produces stray radiation to affect the accuracy of the measured temperature. The detailed description above is a detailed description of one of the possible embodiments of the present invention. It is intended that the present invention is not intended to limit the scope of the present invention. In the scope of the patent in this case. 'In summary, this case is not only innovative in terms of space type, but also can enhance the above-mentioned multiple functions compared with the conventional items. 'The new type of patents that should be fully in line with the novelty and the progressiveness of the law should be submitted in accordance with the law. You have approved the application of this new type of patent in order to encourage creation and to be sensible. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 and FIG. 2 are conventional earmuff structures; FIG. 3 is a cross-sectional view of the first embodiment of the earmuff device capable of changing the thin medium form, and the fourth is the shape of the changeable film. Figure 2 is a perspective exploded view of the second embodiment of the earmuff device; Figure 6 is a perspective view of the second embodiment of the earmuff device capable of changing the shape of the thin jaw; ^ 卜图七至圊九 is a schematic diagram of the operation of the earmuff set in the ear temperature grabbing, the film μ direction of the force direction is changed several times. [Main component symbol description] 9 M399314 1 base 11 opening 12 thickness 13 top seat 14 base 15 sealed chamber 2 film 0 21 raised part 3 ear temperature grab 3 1 probe 3 2 window