M309345 八、新型說明: 【新型所屬之技術領域】 本申請案係有關蒸散殺蟲劑溶液或芳香劑溶液等的力σ - 熱蒸散裝置。 【先前技術】 加熱蒸散裝置之基本原理,係使收容於藥液瓶的殺蟲 _ 劑溶液或芳香劑溶液含浸吸液芯,該吸液芯係利用毛細現 - 象使溶液上昇,且呈自藥液瓶内側突出至頂部上側的狀 . 態’而將該突出狀態的吸液芯加熱。 關於對吸液芯的加熱方式係包含··藉隔既定距離圍繞 該吸液芯周圍的散熱環對自藥液瓶突出至上側的吸液芯加 熱的間接加熱方式,以及藉與該吸液芯的頂部直接接觸、 或透過熱導電板而接觸的散熱元件進行直接加熱的方式。 々習知間接加熱方式的加熱蒸散裝置中,採用熱敏電阻 • 等獨立的電阻元件作為散熱環的熱源。 、…、而,於此種電阻元件情況下,用以實現與電源連接 的配線設置、用以實現表面絕緣的絕緣膜塗布等固有製程 不可或缺。 於利用直接加熱方式的加 線等獨立的電阻元件情況下, 設置、用以實現表面絕緣的絕 或缺。 熱蒸散裝置中,在採用鎳鉻 用以實現與電源連接的配線 緣膜塗布等固有製程仍不可 如此 於習知加熱蒸散裝置中 ’無論是間接加熱方式 5 M309345 由簡單方式實現 或直接加熱方式’到目前為止尚未提出葬 用來加熱吸液芯的散熱環或散熱元件。9 【新型内容】 本創作的技術課題在於,提供可藉由簡單製程 接加熱方式及直接加熱方式的加熱蒸散裳置。、 為解決前述問題,本創作的基本構成如下。M309345 VIII. New description: [Technical field of new type] This application is a force σ-thermal evapotranspiration device for evapotranspiration solution or fragrance solution. [Prior Art] The basic principle of the heating and evapotranating device is to impregnate the absorbing liquid core with the insecticidal solution or the fragrance solution contained in the liquid medicine bottle, and the liquid absorbing core is used to raise the solution by capillary action. The inside of the liquid medicine bottle protrudes to the upper side of the top state, and the wick of the protruding state is heated. The heating method for the wick includes: an indirect heating method for heating the wick from the liquid medicine bottle to the upper side by a heat-dissipating ring around the wick at a predetermined distance, and borrowing the wick The top is directly in contact with, or the heat-dissipating element that is in contact with the thermal conductive plate is directly heated. In the heating and evapotranspiration apparatus of the indirect heating method, a separate resistance element such as a thermistor is used as a heat source of the heat dissipation ring. In the case of such a resistive element, an inherent process such as wiring arrangement for connection to a power source and application of an insulating film for surface insulation is indispensable. In the case of an independent resistive element such as a direct heating type, it is indispensable for setting the surface insulation. In the thermal evapotranation device, the inherent process of coating the wiring edge film with nickel-chromium for connection with the power source is still not so in the conventional heating evapotranspiration device 'whether indirect heating mode 5 M309345 is realized by simple method or direct heating mode' So far, no heat-dissipating rings or heat-dissipating components have been proposed for heating the wick. 9 [New content] The technical subject of this creation is to provide a heated evapotranspiration that can be heated by a simple process and directly heated. In order to solve the aforementioned problems, the basic composition of this creation is as follows.
熱蒸散裝置,係使收容於藥液瓶㈣殺蟲劑 j或:日祕液含浸自藥液瓶内部突出至外部上側的吸 液怒’藉隔既定距離圍繞該吸液芯周圍的散熱環進行間接 加熱;其特徵在於: -採用兩側端子與導電線連接、表面呈絕緣狀態的電阻 凡件作為散熱環的熱源,且該電阻元件與散熱環連接。 (2)—種加熱蒸散裝置,係使收容於藥液瓶内的殺蟲劑 溶液或芳香劑溶液含浸自藥液瓶内部突出至外部上側的吸 液芯,藉與該吸液芯的頂部直接接觸、或透過熱導電板而 接觸的散熱元件進行直接加熱,其特徵在於: 採用兩側端部與導電線連接、表面呈絕緣狀態的電阻 元件作為散熱元件。 【實施方式】 第2圖表示基本構成(1)的典型實施形態,其特徵在於, 以金屬板形成散熱環1,並且用該金屬板挾持電阻元件 周圍。 6 M309345 如此,利用散熱環1直接挾持電阻元件3,藉由 電阻元件3與電源的連接 利用保持具2對電阻元件3的支持 利用散熱環1對電阻元件3的挾持 \_ 此3步驟,可實現間接加熱方式,可免除習知技術的導電 線31與電阻元件3的連接、電阻元件3的表面的絕緣膜 塗布等多餘步驟。 第3圖表示(2)直接加熱方式的典型實施形態,其特徵 在於’採用大致長方體電阻元件3。 藉由如此採用大致長方體電阻元件3,吸液芯4的頂 部與電阻元件3可大面積直接接觸,本實施形態,可藉由 電阻元件3與電源的連接 利用保持具2對電阻元件3的支持 此2步驟,實現直接加熱方式,可免除前述習知技術的煩 雜步驟。 、 (實施例) 如第1 (a)、(b)圖所不’實施例的特徵在於,與電源連 接的導電線31以不變形的狀態支持電阻元件3。 、 亦即,在實施例中’連接電源與電阻元件3的導電線 3卜係兼用為第2圖、帛3圖所示保持具2,故於間接加 熱方式情況下能使前述3步驟成為2㈣,於直接加執方 式情況下能使前述2步驟成A i步驟,故可進一步 程的更為減少。 ^ 本申請案亦可利用於殺蟲劑的加熱蒸散裝置及芳香劑 M309345 的加熱蒸散裝置的任一種裝置中。 ㈣在前述基本構成⑴、⑺中,採用 ;接、表面呈絕緣狀態的電阻元件作為熱源,所提:之加 二療散裝置’習知電阻元件情形中為實現與電源連接 貫現表面絕緣狀態所需之特別步驟可省略方 式或直接加熱方式的任—方式 j … 液芯的散熱源,且降低成本。 冑由間早步驟設置吸 【圖式簡單說明】 第丄圖表示實施例的構成,⑷表示間接加熱方式的情 乂 (b)表不直接加熱方式的情形。 弟2圖表示間接加執 干制滿m …、方式炀形的典型實施形態,(a)表 不側視圖’(b)表示俯視圖。 干側L3圖表示直接加熱方式情形的典型實施形態,⑷表 不側視圖,(b)表示截面圖。 主要元件符號說明 1 散熱環 2 保持具 3 電阻元件 31 導電線 4 吸液芯 5 藥液瓶The heat evapotranspiration device is arranged to be contained in the liquid medicine bottle (4) insecticide j or: the Japanese secret liquid is impregnated from the inside of the liquid medicine bottle and protruded to the outer upper side of the liquid absorbing anger 'by a predetermined distance around the heat absorbing ring around the wick Indirect heating; characterized in that: - a resistor is used as a heat source for the heat-dissipating ring, and the resistor element is connected to the heat-dissipating ring. (2) a heating and evapotranating device, wherein the insecticide solution or the fragrance solution contained in the liquid medicine bottle is impregnated from the inside of the liquid medicine bottle and protruded to the outer upper side of the wick, directly from the top of the wick The heat dissipating element that is in contact with or in contact with the heat conducting plate is directly heated, and is characterized in that a resistive element whose both ends are connected to the conductive wire and whose surface is insulated is used as the heat dissipating component. [Embodiment] Fig. 2 shows a typical embodiment of the basic configuration (1), in which a heat dissipating ring 1 is formed of a metal plate, and the periphery of the resistive element is held by the metal plate. 6 M309345 In this way, the resistor element 3 is directly held by the heat-dissipating ring 1, and the connection of the resistor element 3 to the power source is supported by the holder 2 to the resistor element 3 by the heat-dissipating ring 1 by the heat-dissipating ring 1 By implementing the indirect heating method, unnecessary steps such as the connection of the conductive wire 31 and the resistive element 3 of the prior art and the application of the insulating film on the surface of the resistive element 3 can be eliminated. Fig. 3 shows a typical embodiment of the (2) direct heating method, characterized in that 'the substantially rectangular parallelepiped resistive element 3 is employed. By using the substantially rectangular parallelepiped resistive element 3 in this manner, the top of the wick 4 and the resistive element 3 can be directly in contact with each other over a large area. In the present embodiment, the support of the resistive element 3 can be supported by the holder 2 by the connection of the resistive element 3 to the power source. In the second step, the direct heating method is realized, and the complicated steps of the prior art can be eliminated. (Embodiment) The embodiment of the first (a) and (b) is characterized in that the conductive wire 31 connected to the power source supports the resistive element 3 in a state of no deformation. In other words, in the embodiment, the conductive wire 3 connecting the power source and the resistor element 3 is used as the holder 2 shown in FIG. 2 and FIG. 3, so that the three steps can be 2 (4) in the case of the indirect heating method. In the case of the direct addition method, the above two steps can be made into the A i step, so that the further process can be further reduced. ^ This application can also be utilized in any of the apparatus for heating the evapotranspiration device of the insecticide and the heating and evapotranating device of the fragrance M309345. (4) In the above basic composition (1), (7), the resistive element with the surface and the insulating state is used as the heat source, and the second therapeutic device is used in the case of the conventional resistive element to realize the surface insulation state with the power supply connection. The special steps required may omit the heat dissipation source of the liquid core of any mode or direct heating mode, and reduce the cost.设置Setting up by the early step [Simplified illustration] The figure shows the configuration of the embodiment, (4) shows the indirect heating method, and (b) shows the case where the direct heating method is not used. Fig. 2 shows a typical embodiment in which the indirect addition is completed, and the pattern is formed. (a) The side view is shown (b) is a plan view. The dry side L3 diagram shows a typical embodiment of the case of direct heating, (4) showing a side view, and (b) showing a cross-sectional view. Main component symbol description 1 Heat sink 2 Holder 3 Resistive component 31 Conductive wire 4 Suction core 5 Liquid bottle