201117842 六、發明說明: 【發明所屬之技術領域】 例如用以產生帶電粒 本發明係關於帶電粒子產生器 子的靜電喷霧器。 【先前技術】 用以產生奈米大小帶電粒子(奈米大小薄霧)的靜電噴 霧器,傳統地已知有靜電噴霧器應用霧化電極(放電電極) 和反電極之間的高電壓產生放電,因而分解和撒播供應給 霧化電極(瑞利蜆變(_16_,“^他咖^〇1〇)的 水,將水霧化(例如,參考專利文件1 )。 帶電粒子包括氫氧自由基,如同其特性,生命期長且 可以大量疏散至空氣中。由於這些特性,"粒子對附著 於壁上、衣服、窗廉等的氣味成分起作用,產生除臭效果, 並發揮解除過敏物質如壁虱和花粉的效果。於是,關於用 以產生奈米大小薄霧的靜電噴霧器,考慮在各種應用中使 用0 ”專利文件2揭露一空氣據清器,使用uv(紫外線)、臭 氧化及/或離子化空氣常態化技術使空氣常態化。專利文件 2揭露有關空氣渡清器的配線零件的結構。配線零件具有 -壁上插座模型中一或一以上的插頭電源座分別適當 地配置,用以接收外部電氣裝置(未顯示)的電氣連接器, 饋、電μ至連接到電氣插頭***壁上插座模型的裝置。專 1文件2巾係、技術領域中眾所周知的—已知插頭電源座 201117842201117842 VI. Description of the Invention: [Technical Field of the Invention] For example, for generating charged particles, the present invention relates to an electrostatic atomizer for a charged particle generator. [Prior Art] An electrostatic atomizer for producing nano-sized charged particles (nano-sized mist) is conventionally known to have a high-voltage generating discharge between an atomizing electrode (discharge electrode) and a counter electrode using an electrostatic atomizer, and thus Decomposition and spreading are supplied to the atomizing electrode (Rayleigh enthalpy (_16_, "^他咖^〇1〇)), water is atomized (for example, refer to Patent Document 1). Charged particles include hydroxyl radicals, as Its characteristics, long life and can be evacuated to the air in large quantities. Due to these characteristics, the particles act on the odor components attached to the wall, clothing, window, etc., to produce deodorizing effects, and to release allergic substances such as walls. The effect of enamel and pollen. Therefore, regarding the electrostatic sprayer used to produce nano-sized mist, consider using 0 in various applications. Patent Document 2 discloses an air cleaner using uv (ultraviolet), ozonation and/or The ionized air normalization technique normalizes the air. Patent Document 2 discloses the structure of the wiring parts of the air conditioner. The wiring parts have one or more of the wall socket models. The plug power sockets are respectively appropriately configured to receive an electrical connector of an external electrical device (not shown), and to feed and electrically connect to the device for connecting the electrical plug to the socket model on the wall. 1 file 2, in the technical field Well known - known plug power socket 201117842
用作上述的插頭電源座D 又,專利文件3揭露-用於加熱空氣遽淨器或活化介 氣的模組,此模組裝設在上平面丨,上平面具有整合至: 組的夜燈。空氣攄淨器或加熱/活化空氣濾淨器從納入插頭 的開口中的連接終端接收電源。 。。靜電^霧器有時裝設在單一的電器中,例如空氣遽清 益或增^ °㈣在靜電喷霧“於小㈣的情況下,因 為電器占房間’產生空間的問題。又,當電氣用於發揮靜 電喷霧功能’電源插頭必須***壁上插座。結果,麻煩的 差事強加於使用者身上’而且連接至電源插頭的電纜妨礙 <專利文件2和3分別提出靜電喷霧器用作加熱空氣減 淨器模組或空氣衛生模組,用以解決上述的問題。^ 不=專利文件2揭露的空氣遽淨器具有專用結構, 其中空氣衛生模组、*名这丨 合 、、,王軋引入阜及空氣釋放埠形成於電源 插座周。因此,復難立^ ^ 'rt. 很難t裝空軋濾淨器至牆上已存在的孔‘ 專利文件3中’例如加熱空氣濾淨器模組的模组裝毅 ^ 上平面裝上牆上的情況下,從牆面突出的上平 面的部分可能相當大。 [專利文件] [專利文件1 ] [專利文件 2008-509797 號 [專利文件3 ] 日本公開公報第2007-20883號 2]曰本公開公報(PCT申請翻譯)第 日本公開公報第2003-264041號 4 201117842 【發明内容】 本發明的目的係提供帶 *統及配線袭置,帶電粒:產電=生器、帶電粒子產生 上,且不舍::不必強加麻須的差事於使用者身 上且不會產生空間問題。 百身 根據本發明的—形態的帶電粒子 殼,形成的形狀可裝上“,包括-外 裝框架;以及^ 線零件標準所指定的安 電粒子及1電粒子產生部’納入上述外殼並產生帶 的形構,帶電粒子產生器,包括上述外殼,形成 以及… 置1配線零件標準所指定的安裝框架; 手。因 :子產生部’納入上述外殼並產生帶電粒 微電:子/以貫現帶電粒子產生器能夠發揮除臭效果等, :=產:器裝設在單-電器上的情況下不會產生裝設 二間問且不必強加使用者做***電器的電源插頭至牆 上插座的麻須差事’也不會產生電器電變妨礙行走的缺點。 本發明其他的目的、特性及優點將藉由以下的詳細說 明及附圖充分闡明。 【實施方式】 以下,將參考圖式說明本發明的較佳實施例。應注意 以下各較佳實施例只是具體表現本發明的—範例,因此炎 非意圖限制本發明的技術範圍。 [第一實施例] 201117842 在此說明根據本發明的—實施例的帶電粒子產生器。 第1圖係顯不根據本發明第一實施例的靜電喷霧器的 外觀圖。第2圖係顯示第1圖所示的靜電喷霧器的分解立 體圖。 如第1圖及第2圖所示,根據本實施 i包括-靜電霧化部2;_壁上…用以八“錢' 2上插座3,用以分配來自電源 線的電源;-安裝框架4,用以安裝靜電霧化部2和壁^ 插座3至牆上;以及—覆蓋面5。 根據本實施例的靜電霧化部2 ,分解和撒播水(瑞利 蜆變將水霧化’因而產生奈米大小帶電粒子(奈米大小 的薄霧)。又,根據關於配線零㈣m(日本工業標準), 靜電霧化部2形成嵌入牆内的形狀。 先參考第3圖說明根據本實施例的靜電霧化部2 的結構及功能將。 第3圖係顯示靜雷霖外加π ^ 静電霧化部2的一結構範例剖面圖。如 第3圖所示,靜電霖仏0 ° 匕括一棒狀放電電極(霧化電 極)6、 反電極7、一游似也a 體供應4 8、以及一高壓施加部9。 反電極7具有开4 & μα 成;中心的一釋放孔7a,並位於以既 定距離與放電電極6的末 、 、 梢鳊6a隔開的位置。反電極7 以以切割和彎曲金屬如s ^ 〇4(不鏽鋼)製的導電材料來 化成。根據本貫施例的反 電極7的結構並不限於上述。 如,反電極7可以IV扯_1 θ成型,然後可以經過金屬電鍍。 或者,反電極7可以剎田道# u 用導電材料如導電塑膠來形成。 放電電極6具有速技$ 、有連接至帕兒帖(Peltier)單元1〇的冷 6 201117842 卻部10a的基部端6b ’並以帕兒帖(peltier)單元1〇來冷 卻。結果’放電電極6的表面產生水珠凝結的溼氣。水珠 凝結的溼氣用作靜電霧化的液體。 放電電極6可以由具有高熱導電材料如鋁、多孔材料 如多孔陶磁、具有氣孔的材料等製成。 反電極7具有與放電電極6的末梢端6a相對的内表面 7b,且内表面71)形成凹狀,環繞放電電極6的末梢端, 沿著經過放電電極6的末梢端6a的平面,往放電電極6的 突出方向延伸的垂直線與内表面7b的一部分平行。形成弧 形的部分的半徑,作為對應從末梢端6a到反電極7的内表 面7b的最短距離的直徑d,而放電電極6的末梢端定 為中心。 液體供應部8供應靜電噴霧化用的液體給放電電極6 的末梢端6a。放電電極6由多孔材料或具有氣孔的材料製 成的情況下,可以構成液體供應部8 ,將放電電極6的基 部端6b浸入液體槽(未圖示)内儲存的液體内。 问壓施加部9電氣連接至放電電極6和反電極7,並 在放電電極6和反電極7之間施加高電壓。當高壓施加部 9在放電電極6和反電極7之間施加高電壓時,反電極7 的内表面7b和放電電極6的末梢端6a之間產生電場。特 別在弧線部間的範圍内強烈地產生電場,而反電極7的内 表面7b和放電電極6的末梢端6a中到放電電極6的末 梢端6a的距離是最短距離d。 第3圖中,放電電極6的末梢端6a是圓形的但不限 201117842 於此。例如,末梢端6a可以是尖的。 其-人,祝明如上述構成的靜電霧化部2中產生帶電粒 子的過程。首先’液體供應部8供應液體至放電電極" 末梢端6a ’且末梢端6a留住液體。液體保留在放電電極6 的末梢端6a的狀態下,高壓施加部9在放電電極6和反電 極7之間施加高電壓。在此,由於施加電壓,電荷集中在 用作負電極的放電電極6的末梢端6a。當放電電極6和反 電極7之間施加高電壓時,#留在放電電極6的末梢端& 的液體充電。然後’庫倫力對充電液體起作用,因此液體 水平局部地以圓椎狀升高。 靜電霧化現象以所謂瑞利蛻變(Rayleigh,s disintegration)重覆產生,例如電荷集中在圓椎液體的頂 端(也稱作” Tal〇r cone(泰勒錐)”),因此密度增加,然 後液體分解和撒播,被密集電荷的斥力***。藉由靜電霧 化現象,包括活性種類(氫氧自由基)的奈米大小帶電粒子 液體大量產生’並以離子風從釋放孔7a釋放到外部。 第4A圖係顯示靜電霧化部2的正視圖。第4圖係顯示 靜電霧化部2的後視圖。第5A圖係顯示安裝框架4的正視 圖。第5 B圖係顯示靜電霧化部2和壁上插座3裝上安裝框 架4狀態下的側視圖。 如第4A和4B圖所示’靜電霧化部2係區塊的形式, 其中靜電霧化部2的組成零件例如放電電極6和反電極7, 納入大致長方形的外殼内。又,如第4B和5B圖所示,形 成靜電霧化部2,釋放孔7a從正面露出,而電源線連接終 8 201117842 端部2b從背面露出。For use as the plug power socket D described above, Patent Document 3 discloses a module for heating an air cleaner or activating a gas. The mold is assembled in an upper plane, and the upper plane has an integrated night light: . An air cleaner or a heated/activated air filter receives power from a connection terminal incorporated into the opening of the plug. . . The electrostatic mister has a fashion set in a single appliance, such as air 遽 益 或 或 增 四 四 四 四 四 四 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在In order to exert the electrostatic spray function, the power plug must be plugged into the wall socket. As a result, troublesome errands are imposed on the user' and the cable connected to the power plug is hampered. Patent Documents 2 and 3 respectively propose electrostatic sprayers for heating air. The cleaner module or the air sanitation module is used to solve the above problems. ^ No = the air cleaner disclosed in Patent Document 2 has a special structure, in which the air sanitary module, the * name, the combination, The introduction of helium and air release 埠 is formed in the power socket week. Therefore, it is difficult to install the empty filter to the existing hole on the wall. [Patent Document 3] For example, a heated air filter Modular assembly of the module ^ When the upper plane is mounted on the wall, the upper plane portion protruding from the wall surface may be quite large. [Patent Document] [Patent Document 1] [Patent Document 2008-509797 [Patent Document 3 ] Japan Japanese Laid-Open Patent Publication No. 2007-20883 (2) 曰 公开 ( PCT PCT PCT PCT PCT 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2003 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 2011 Producing electricity = live generators, charged particles, and disappointing:: There is no need to impose numbness on the user and there is no space problem. The shape of the charged particle shell according to the present invention can be formed into a shape Mounting ", including - exterior frame; and the electric particle and 1 electric particle generating portion specified by the wire component standard" are incorporated into the outer casing and generating the shape of the belt, the charged particle generator, including the above casing, forming and ... Set the mounting frame specified by the wiring part standard; hand. Because: the sub-generation part is incorporated into the above-mentioned outer casing and generates charged particle micro-electricity: the sub-/the continuous charged particle generator can exert the deodorizing effect, etc., :=Production: the device is not installed in the case of the single-electrical device There are two shortcomings in the installation of the two problems, and it is not necessary to impose a power plug for inserting the appliance into the wall socket. Other objects, features, and advantages of the invention will be apparent from the description and appended claims. [Embodiment] Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings. It should be noted that the following preferred embodiments are merely illustrative of the present invention, and thus the invention is not intended to limit the technical scope of the present invention. [First Embodiment] 201117842 A charged particle generator according to an embodiment of the present invention is explained herein. Fig. 1 is a view showing the appearance of an electrostatic atomizer not according to the first embodiment of the present invention. Fig. 2 is an exploded perspective view showing the electrostatic atomizer shown in Fig. 1. As shown in FIG. 1 and FIG. 2, according to the present embodiment, i includes an electrostatic atomization unit 2; a wall ... for eight "money" 2 sockets 3 for distributing power from a power line; - mounting frame 4, for mounting the electrostatic atomizing portion 2 and the wall socket 3 to the wall; and - the covering surface 5. According to the electrostatic atomizing portion 2 of the present embodiment, the water is decomposed and spread (Rayleigh enthalpy will atomize water) The nano-sized charged particles (nano-sized mist) are produced. Further, according to the wiring zero (four) m (Japanese Industrial Standard), the electrostatic atomizing portion 2 is formed into a shape embedded in the wall. First, the present embodiment will be described with reference to FIG. The structure and function of the electrostatic atomization unit 2 will be shown in Fig. 3. Fig. 3 is a cross-sectional view showing an example of the structure of the static argon-added π^ electrostatic atomization unit 2. As shown in Fig. 3, the static electricity is 0°. a rod-shaped discharge electrode (atomizing electrode) 6, a counter electrode 7, a similar a-body supply 48, and a high-voltage applying portion 9. The counter electrode 7 has an opening 4 &μα; a central release hole 7a And located at a predetermined distance from the end of the discharge electrode 6, spaced apart from the tip end 6a. The counter electrode 7 is cut to The curved metal is formed by a conductive material made of s ^ 〇 4 (stainless steel). The structure of the counter electrode 7 according to the present embodiment is not limited to the above. For example, the counter electrode 7 can be formed by IV θ θ and then can pass through the metal. Alternatively, the counter electrode 7 can be formed by a conductive material such as a conductive plastic. The discharge electrode 6 has a quick technology $ and has a cold connection to the Peltier unit 1 2011 17842 but the portion 10a The base end 6b' is cooled by a peltier unit 1 结果. As a result, the surface of the discharge electrode 6 generates moisture which is condensed by water droplets. The moisture condensed by the water droplets serves as an electrostatically atomized liquid. It may be made of a material having a high heat conductive material such as aluminum, a porous material such as porous ceramic, a pore having a pore, etc. The counter electrode 7 has an inner surface 7b opposed to the distal end 6a of the discharge electrode 6, and the inner surface 71) is formed in a concave shape. The distal end of the discharge electrode 6 surrounds the plane passing through the distal end 6a of the discharge electrode 6, and the vertical line extending toward the protruding direction of the discharge electrode 6 is parallel to a portion of the inner surface 7b. The radius of the curved portion is formed as The diameter d of the shortest distance from the distal end 6a to the inner surface 7b of the counter electrode 7 is set to be centered at the distal end of the discharge electrode 6. The liquid supply portion 8 supplies the liquid for electrostatic atomization to the distal end 6a of the discharge electrode 6. When the discharge electrode 6 is made of a porous material or a material having pores, the liquid supply portion 8 may be configured to immerse the base end 6b of the discharge electrode 6 in a liquid stored in a liquid tank (not shown). 9 is electrically connected to the discharge electrode 6 and the counter electrode 7, and applies a high voltage between the discharge electrode 6 and the counter electrode 7. When the high voltage application portion 9 applies a high voltage between the discharge electrode 6 and the counter electrode 7, the counter electrode 7 An electric field is generated between the inner surface 7b and the distal end 6a of the discharge electrode 6. Specifically, an electric field is strongly generated in the range between the arc portions, and the distance from the inner surface 7b of the counter electrode 7 and the distal end 6a of the discharge electrode 6 to the distal end 6a of the discharge electrode 6 is the shortest distance d. In Fig. 3, the distal end 6a of the discharge electrode 6 is circular but not limited to 201117842. For example, the distal end 6a can be pointed. It is a process of generating charged particles in the electrostatic atomizing section 2 constructed as described above. First, the liquid supply portion 8 supplies the liquid to the discharge electrode "the distal end 6a' and the distal end 6a retains the liquid. In a state where the liquid remains in the distal end 6a of the discharge electrode 6, the high voltage applying portion 9 applies a high voltage between the discharge electrode 6 and the counter electrode 7. Here, since a voltage is applied, electric charges are concentrated on the distal end 6a of the discharge electrode 6 serving as a negative electrode. When a high voltage is applied between the discharge electrode 6 and the counter electrode 7, the liquid remaining at the distal end & of the discharge electrode 6 is charged. Then the Coulomb force acts on the charging liquid, so the liquid level locally rises in a rounded shape. The electrostatic atomization phenomenon is repeated by the so-called Rayleigh s disintegration, for example, the charge is concentrated at the tip of the circular fluid (also called "Tal〇r cone"), so the density is increased, and then the liquid Decomposition and spreading, blasted by densely charged repulsion. By the electrostatic atomization phenomenon, a nano-sized charged particle liquid including an active species (hydroxyl radical) is generated in a large amount and released to the outside by the ion wind from the release hole 7a. Fig. 4A is a front view showing the electrostatic atomization unit 2. Fig. 4 is a rear view showing the electrostatic atomizing portion 2. Figure 5A shows a front view of the mounting frame 4. Fig. 5B is a side view showing the state in which the electrostatic atomizing portion 2 and the wall socket 3 are mounted with the mounting frame 4. The electrostatic atomization section 2 is in the form of a block as shown in Figs. 4A and 4B, in which the components of the electrostatic atomization section 2, such as the discharge electrode 6 and the counter electrode 7, are incorporated in a substantially rectangular outer casing. Further, as shown in Figs. 4B and 5B, the electrostatic atomizing portion 2 is formed, and the discharge hole 7a is exposed from the front side, and the power supply line is connected to the end portion 2b from the rear surface.
電源線連接終端部2b用於連接電源線電纜(例如VVF 電繞(聚氣乙烯絕緣聚氣乙烯被覆平型電纜)),具有與電源 線電氟(見第4B和5B圖)内的電源線等數量的終端。這此 ,冬端以—對應連接至電源線,因此靜電霧化部2經:電 源線接收電源,利用用作驅動源的電源,執行靜電噴霧操 作。 ’、 如第1和2圖所示,壁上插座3具有電源插頭(未顯示) ***及分離的插頭電源座3a。,壁上插座3在形成大致長 方形的區塊中,如同靜電霧化部2。 如第2圖所示’安裝框架4具有結構、尺寸、材料、 機械力、_溫、冷熱衝擊抗性以及腐純性,分別根據有 關配線零件的” JIS(曰本工業標準)C8375”來指定。安裝 框架4用於安裝靜電霧化部2和壁上插座3至牆上。、 如第5A圖所不’安裝框架4由一框架本體組成框架 本體形成-長方形的開口 4a。形成靜電霧化部2的方塊二 及形成壁上插座3的方塊分別具有根據開口乜的尺寸設計 的大小如第5A和5B圖所示’靜電霧化部2和壁上插座 3安插至安裝框架4的開口 4a。 其-人’參考第4A到5B圖,說明靜電霧化部2和壁上 插座3接合至安裝框架4的接合結構。 如第5B圖所示,在接合結構中,凸緣4b形成於安裝The power cord connection terminal portion 2b is used to connect a power cord cable (for example, a VVF electric winding (polyethylene-gas insulated gas-covered vinyl-covered flat cable)), and has a power cord in the electric fluorine of the power cord (see Figures 4B and 5B). The same number of terminals. In this case, the winter end is connected to the power supply line by the corresponding one, so that the electrostatic atomization unit 2 receives the power supply via the power supply line, and performs an electrostatic spray operation using the power source used as the drive source. As shown in Figures 1 and 2, the wall socket 3 has a plug power socket 3a into which the power plug (not shown) is inserted and separated. The wall socket 3 is formed in a substantially rectangular block like the electrostatic atomizing portion 2. As shown in Fig. 2, the mounting frame 4 has a structure, a size, a material, a mechanical force, a temperature, a thermal shock resistance, and a rot-purity, which are specified according to the JIS (Sakamoto Industry Standard) C8375 of the wiring component. . The mounting frame 4 is for mounting the electrostatic atomizing portion 2 and the wall socket 3 to the wall. As shown in Fig. 5A, the mounting frame 4 is composed of a frame body, and the body body is formed into a rectangular opening 4a. The square 2 forming the electrostatic atomizing portion 2 and the square forming the wall socket 3 respectively have a size designed according to the size of the opening 如 as shown in FIGS. 5A and 5B. The electrostatic atomizing portion 2 and the wall socket 3 are inserted into the mounting frame. The opening 4a of 4. Referring to Figs. 4A to 5B, the joint structure of the electrostatically atomized portion 2 and the wall socket 3 joined to the mounting frame 4 will be described. As shown in FIG. 5B, in the joint structure, the flange 4b is formed in the installation.
框架4的左右側邊缝。 ^ L A 1J違、,象。又’複數的接合孔4c形成於各凸緣 4b的適當位置。又,拉人η , Λ 接。凸出2a形成於靜電霧化部2的 201117842 左右側的適當位置’且接合凸出3b形成於壁上插座3的左 右側的適當位置。 靜電霧化部2 jfu 。, 土上插座3如下述裝上安裝框架4〇 接合凸出2a分別與接合孔4c接合具有朝向内側的釋放 孔73。然後’靜電霧化部2安插至安裝框架4的開口 4a。 同樣地’接合凸出3b公s,丨血姐人Λ 刀別”接5孔4c接合,具有朝向内 側的插頭電源座33。然後,壁上插座3安插至安裝框架4 的開口 4a。然後’靜電霧化部2和壁上插座3裝上安裝框 架4的開口 4a,垂直對齊。應注意到上述的接合結構只是 -範例;因此’根據本發明的接合結構的結構不限於上述。 如第2圖所示,覆蓋面5形成長方形環形,具有在中 心的開口 5a。覆蓋面5可以以例如塑膠製成。覆蓋“裝 上安裝框架4,覆蓋安裝框架4。形成覆蓋面5,在靜電霧 化部2和壁上插座3的插頭電源座3a裝上安裝框架4的狀 態下,靜電霧化部2的釋放孔73和壁上插座3的插頭電源 座%從開口 58露出。因此,藉由隱藏靜電霧化部2的釋 放孔7a和壁上插座3的插頭電源座^的其餘部分,覆蓋 面5美化了外觀。 其次’說明安裝如上述構成的各構件至牆上的程序, 用以在牆上裝設靜電喷霧器i。首先,靜電霧化部2和壁 上插座3’經由使用接合結構形成單—單元,裝上安裝框 架4°在此’用於靜電霧化部的電源線的頂端^及詩壁 上插座的電源線的頂端’分別先導入牆上將裝設靜電喷霧 器1的位置。因此,在上述單元中’用於靜電霧化部的電 10 201117842 源線的頂端可以連接至靜電霧化部2的終端2 b,而且用於 壁上插座的電源線的頂端可以連接至壁上插座3的終端 (未顯示)。之後,藉由形成於安裝框架4的適當位置的螺 旋釘孔4d(見第5A圖)以及螺旋釘(未顯示),上述單元裝 上將裝設靜電喷霧器1的位置。最後,覆蓋面5裝上牆上 的安裝框架4。 如上述,根據本實施例的靜電喷霧器1包括:安裝框 架4,根據有關配線零件的jIS而形成的;以及靜電霧化 部2,裝上安裝框架4,安插至安裝框架4的開口 4a。 藉由靜電喷霧器1,在單一電器如空氣濾清器或增溼 器被賦予靜電喷霧功能的情況下,可以實現除臭和解除過 敏物質,並不必強加麻煩的差事於使用者身上,例如使用 電器時,***電器的電源插頭至壁上插座,且不會產生裝 设空間的問題。 刊用上述結構,靜電喷霧 在的配線零件安裝孔 埏靜電霧化部2在高壓下執行放電操作,結果, ί::::當重叠置至壁上插座3中的電源傳輸路徑時, 此H喿音可能產生不好的影響。 為了消除此不利影響,如第6圖所 包括一噪音防1邱彳]# 電噴霧益1 之間,用以= 於靜電霧化部2和壁上插座3 音造成的不利影響。 ’、戍制止磁性噪 7施例中,如第6圖所示, 丄形成平面狀。 11 201117842 不過,根據本發明的 的术音防護部的結構不限 噪音防護部可以形虏A 川良於上述。例如, .^ y b 成為元全覆蓋靜電霧化部2中從安 架4往背部突出的部分。 丨z史仗女裝框 [第二實施例] 在此參考第7 。 圖,說明本發明的另一實施例。 第7圖係顯示根輔贷 第一實施例的靜電喷霧器40的外觀 圖。第8圖係顯示電调觉故〇 〇 a ,^ ^ α 原、亀路8〇Α的結構電路圖,用以供庫 電源給形成第7圖所+认 ’、應 _ “的靜電喷霧器40的靜電霧化部42。 圖斤下根據本實施例的靜電噴霧器40,包括 -輸入操控部(開關或按紐)12,用以在靜電霧化部 通狀態和切斷狀綠之門 兮 1、之間切換’取代第—實施例中所述的壁 上插座3。作為輸入摔$ 铞徑。卩12的一耗例,第7圖顯示 型輸入操控部,且右拟a、且 一 〃、有形成長方形的按鈕部。不過,根據本 實施例的輸人操控部12的結構並不限於上述。 如第8圖所示’電源電路8〇A具有開關13,用以根據 輸入操控。H2的操控’電氣連接/分離商業電源e和靜電 噴霧器40。當輸人操控部12導通時,開關13中開關元件 U連接至商業電源“則的終端。於是,商業電源e饋給電 源至靜電霧化部42中的各部件,靜電霧化部42開始執行 靜電喷霧細作。又’當輪入操控部i 2再導通時,開關【3 中開關it件與商業電源E側的終端切斷連線。於是,切斷 供應至靜電霧化部42中各部件的電源,停止靜電霧化部2 執行的靜電喷霧操作。 藉由上述的構造,使用者操控輸入操控部丨2,因而只 12 201117842 有在他/她想要传用德φ i -電喷霧器40時,才會啟動靜電喷霧 器40。 、根據第二實施例的靜電喷霧器包括輸入操控部12,取 代第-實%例中所述的壁上插座3。不過,根據本實施例 的靜電喷霧器的結構並不限於上述。例如,根據本實施例 的评電噴霧裔可以包括第—實施例中所述的壁上插座3以 及本實施例中所述的輸入操控部12兩者。 一又根據靜電喷霧器40的通/斷狀態而點燈/關燈的發 一 5例如LED(發光二極體),最好提供於輸入操控部 表面適田的位置’如第7圖所示。在此情況下,使用者 可以目視辨別靜電噴霧器40的通/斷狀態。 [第三實施例] 參考第9和1〇圖,在此說明本發明又另一實施例的靜 電喷霧器。 根據本實施例的靜電喷霧器與根據第二實施例的靜電 喷霧器4G的結構和功能相同。於是,與第二實施例中所述 的結構和功能相同的部件以相同的參數表示,並且不再說 明。 根據本發明的靜電喷霧器5",當輸入操控部12再 導通時切斷開關13,因此切斷供應給靜電霧化部5 2 y各部件的電源’停止靜電霧化部52的靜電錢操作,如 同根據第二實施例中的靜電喷霧器4〇。 时在下述點中,本實施例不同於第二實施例。即,觸發 益’用以切斷供應給靜電霧化部52中各部件的電源,並不 13 201117842 根據輸人操控部12的第 部12的導通操控經過的時門 "工 疋艮據輪入操控 參考第9圖,以下嗜 ,^ 月靜電噴霧器50的特性At 如第9圖所示,靜電噴霧器5 寺吐力此。 為靜電噴霧操作控制部j i括控制部16’作用 作執行通/斷控制。控制部:電勺霧化部52的靜電喷霧操 咖(中央處理單元二:二周邊(未顯示),例如 _(唯讀記憶體)、用以 曰疋#作的程式的 RAM(隨機存取記情體) 字储存-貝料並用作工作區的 … 以及暫時館存資料的ram。 靜電噴霧操作控制部17,包括計時部i 用輸入操控部12(例如靜電霧化部 測里使 的操控)的起始導通操控經過的時間。動的靜電喷霧操作 如第10圖所示,當使用輸入操 操控時,靜電喷霧操作控㈣17允^執订起始導通 執行靜電噴霧操作,以及允 /砰電霧化部52開始 操作^j旦 13 D ’ °卩18開始執行時間測量 侏忭田測里的時間到達既定時严 里 斷供應至靜電霧化邙52 刀斷開關1 3 ’而切 砰电務化邛52的電源,因此停 執行的靜電喷霧操作。第 。卩52 的起始導通朴門… 顯不只有在輸入操控部12 (始導通操控開始經過既定時間 霧操作的事實。 』轨仃靜電噴 根據本實施例所述的結構,當經過輪入操控部 始導通操控開始的既定時間TJ 一 ' £- _ , 子切斷供應至靜電嗜霰哭 的電源,因此關掉靜電喷霧器5〇。因此 、α 記關掉靜電喷霧器5〇,靜電嗔 吏使用者忘 取电貝輅m 50不可能連續操作〇 14 201117842 因此,此結構有助於省電。在此’控制部^包括⑽等, 不過,控制部16的結構不限於上述。例如,控制部16可 以利用邏輯電路構成。 [第四實施例] 參考第u到u圖’在此說明本發明又另一實施例的 靜電噴霧器。 ' 根據本實施例的靜電喷霧器6〇與根據前述各實施例 Z靜電喷霧器的結構基本上相同。於是,與前述各實施例 中所述的結構和功能相同的部件以相同的參數表示,並且 不再說明。 根據本實施例的靜電噴霧器6〇在下述點與根據第三 只把例的靜電喷霧器5〇不同。即 — 據第二實施例的靜電 ' P ’只是自動執行停止靜電霧化部52的靜電喷 : >另方面,根據本實施例的靜電喷霧器60中,不只 電霧化部62的靜電喷操作,還有自動執行起動靜 的靜電喷操作。第U圖係顯示根據本實施例 的外觀範例。第12圖係顯示根據本實施 例的靜電«器60的概略構造功能方塊圖。 =第11及12圖所示’靜電喷霧器60包括動作感應器 立^動作感應11 19檢測到有人從裝設靜電対器60的 ^既疋區域移動時,靜電喷霧器60執行靜電喷霧操 :電喷霧器60中,動作感應器19提供於靜電霧化部 W的上方,鄰接靜電霧化部62。 例如’可使用紅外線感應器作為動作感應器19。紅外 15 201117842 線感應器允許光學系統聚焦從^ ^ ^ ^ ^ ^ ^ ^ ^ ^ 的' 如的紅外線到熱電元件 寺構成的紅外線檢測部(夫顧千、 丨(禾顯不),並從紅外線檢測部 電壓信號,指^體的存在4存在或是有/沒有人移動。 。又’如第12圖所示’靜電噴霧器6()包括控制靜電嘴 霧操作的控制冑26。控制部26的功能,與第三實施例所 不的控制部1 6相同,扃补又_ no 在此不再s兄明。控制部26連接至動 作感應器1 9,能夠盥動祚片庙$,n, 此幻/、動作感應益19通訊。控制部26包括 動作檢測和處理部20以及靜電噴霧操作控制冑17。根據 動作感應器19輸出的電壓信號’動作檢測和處理部2〇檢 :人體的存在/不存在以及有/沒有人移動。當動作檢測和 處理部20檢測到人體和人的動作時,靜電喷霧操作控制部 17導通靜電_ 62。另 '方面,當動作檢測和處理部 2〇沒有檢測到人體和人的動作時,靜電喷霧操作控制部η 關掉靜電霧化部62。 根據本實施例,可以避免使用者做如前述實施例中開/ 關輸入操控部12的麻煩差事。根據本實施例的靜電喷霧器 6〇包括動作感應@ 19,因此只有在人經過靜電噴霧器μ 的情況下’可以執行靜電喷霧操作。結果,可以有效執行 除臭和解除過敏物質。 此 一動作感應器19沒有檢測到人體及人的移 動,靜電喷霧器60即切斷。如第13圖所示,或是,測量 動作感應器1 9沒有檢測到人體及人的移動的時間點開始 經過的時間,且此時間到達既定時間Τ2(測量動作感應器 1 9 ’又有檢測到人體及人的移動的時間點開始經過了既定時 16 201117842 " 間 T2)。 [第五實施例] 參考第14到17圖,在此說明本發明又另—實施例的 靜電喷霧器。 根據本實施例的靜電喷霧器40與根據第二實施例的 靜電喷霧器4 0的結構和功能相同。於是,與第二實施例中 所述的結構和功能相同的部件以相同的參數表示,並直不 再說明。 在下述點中,本實施例不同於第二實施例。第二實施 例中,輸入操控部12在靜電喷霧器40的導通狀態和切斷 狀態之間切換。本實施例中,照明設備L和靜電霧化部42 互相同同步開/關。 例如,注意力集中於一點’即許多例子中在房間内 的照明設備照明的情況下房間内有人,而在房間内的照明 設備媳燈的情況下房間内無人。在此一情況下,用以饋給 電源給靜電霧化部42的電源電路80B,可以構成如第14 圖所示。電源電路80B中,開關21串聯至靜電喷霧器4〇 和照明設備L的並聯電路,並在每次操控輸入操控部㈣ 開/關。如第15圖所示,照明設備L和靜電霧化部42兩者 玎以在輸入操控部12導通的期間導通,而照明設備l和靜 電霧化部42兩者可以在輸入操控部12切斷的期間切斷。 第1 6圖係顯示用以饋給電源給根據本實施例的靜電 霧化部42的電源電路的另一結構範例。第16圖所示的電 源電路80C包括具有終端T1到T3的三端開關22。終端n 17 201117842 連接至電源線。終端T2連接至靜電喷霧器40。終端T3連 接至照明設備L。開關2 2中’每次操控輸入操控部12時, 總是連接終端Τ1的開關元件23的連接標的在終端Τ2和終 端Τ3之間切換。 包括三端開關22的電源電路80c可適用於著重以下因 素的環境。即’假設是日間房間内沒人,但夜間房間内有 人。當人進入他/她的房子時(當照明設備L照明時),事先 準備了靜電喷霧操作建立舒適空間的狀態。 如第17圖所示,使用第16圖所示的電源電路8〇ε , 允許以下控制。即,當操控輸入操控部丨2時,照明設備l 導通,而靜電霧化部42切斷。又,當再度操控輸入操控部 1 2時,照明設備L切斷,而靜電霧化部42導通。 [第六實施例] 參考第18圖,在此說明本發明的又另一實施例。 根據本實施例的靜電喷霧器7〇與前述各實施例的靜 電喷霧器的不同點在包括了用以輸入靜電霧化部的操作時 間的輸入操控部。根據本發實施例的靜電喷霧器7〇的其餘 結構與前述各實施例的靜電噴霧器相同。於是,與前述實 施例中所述的結構和功能相同的部件以相同的參數表示, 並且不再說明。 如第18圖所示,例如,輸入操控部可以是撥盤型赛 操控部24。第18圖所示的輸入操控部24包括:撥盤2 可旋轉地從牆上突出;以及刻度標記26,在相對於撥盤 的圓周面的位置上’指示記入的操作時間。根據本實摊 18 201117842 的靜電喷霧器7〇,播 構成的方式為靜電霧化部72,以相對於 撥盤25的圓周方向中既中 疋位置的標記指示的操作時間(以 下稱作操作時間指示位置)操作。 刻度標記26,包括標記” OFF(切斷) 間為零。當操作時間指示定位置相對於標記”㈣(切 斷)”,可以停止靜電霧化部72。 如第18圖所示,靜電喷霧器70還包括輸入操控部27, 用以開/關除了靜電霧化部72和輸入操控部Μ之外還有照 明設備:在此’靜電喷霧器7。可以包括上述的動作感應 器,取代用於照明設備的輸入操控部2 7。 用以輸入操作時間的輸入操控部範例,除了撥盤型輸 入操控部24之外’輸入操控部還可包括:輸入操控部,包 括複數的按鈕,並經由使用各按鈕的處理指示想要的操作 時間;輸入操控部,根據使用一按鈕的操控頻率指示操作 時間;輸入操控部’包括一螢幕和一按鈕,藉由使用按鈕 的操控增/減螢幕的顯示時間,並指示顯示時間為操作時 間’以及觸控面板型輸入操作部。 [第七實施例] 參考第19和2 0圖,在此說明根據本發明的一實施例 的靜電霧化系統。 如第1 9圖所示’根據本實施例的靜電霧化系統1 〇 〇, 包括·複數的靜電喷霧器1;無線接收部1 — 1和靜電喷霧 操作控制部1-2,連接至關聯的靜電噴霧器i ;以及分配面 板31和控制部2 8,分別連接至複數的靜電喷霧器1。 19 201117842 形成根據本發明的靜電霧化系統1 00的靜電喷霧器, 可以是根據前述各實施例的靜電喷霧器。 如第1 9圖所示,例如,假設各靜電噴霧器裝設在房子 和建築物的房間r内。 靜電霧化系統1 〇〇可以以獨立的靜電喷霧器!在各房 間R内操作的方式構成。或者是,靜電霧化系、统1 〇〇可以 以集體控制操作裝設在各房m内的靜電喷霧器1的方式 構成。在此情況下,在使用者進入房間前,可以事先改善 房間環境。 /考第19圖,在此說明根據本實施例的靜電霧化系統 10 0的結構範例。 第19圖係顯示利用無線通訊集體控制操作各靜電喷 霧器1的靜電霧化系統!。。的一結構範例圖。在根據本實 施例的靜電霧化系、统100中,如第19圖所示,控制部以 集體控制操作各靜電喷霧器1。控制部28包括操作指令信 號產生部29以及無線傳輸部3()。操作指令信號產生部μ 產生用以開/關靜電喷霧器1的指令信號。無線傳輸部3〇 以無線傳輸操作指令信號產生部29產生的操作指令信號。 另方面,如上述,靜電噴霧器1連接至無線接收部 1和靜電噴霧操作控制部L_2。無、線接收部Η以無線接 收#作指令信號。於是,靜電喷霧操作控制部卜2,根據 無接收。Ρ 1 1接收的操作指令信號,導通/切斷靜電霧化 部2。 第19圆所示的靜電霧化系統1〇〇巾,在必須導通/切 20 201117842 斷靜電喷霧器1的時機’控制部 9Q m 控制刼作指令信號產生 邛29,因此操作指令信號產生 < 9產生彳呆作指令作號。 又,控制部28控制無線傳輸部3〇, ° 你 U因此無線傳輸部30以 …線集體傳輸操作指令信號給各靜電噴霧器卜 :-方面’在各靜電喷霧器丨中,當無線接收部Η 攸…線傳輸部30接收無線傳輸的操作指令信號時,靜電喷 霧操作控制部"控制靜電霧化部2,因此根據操作指令 W導通/切斷靜電霧化部2。在此,各靜電喷霧器!連接 經由分配面板31從商業電源接收^(交流) 電源。 根據本發明的靜電霧化系統1〇〇的結構係使用盎線通 訊集體控制各靜電喷霧器!。因此,靜電霧化系統ι〇〇且 有的優點係控制部28不必以通訊線連接至各靜電喷霧器 1 ’不像使用電纜通訊集體控制複數的靜電喷霧器i的系 統。此結構實現了降低成本。 不過,根據本發明的靜電霧化系統可以是使用電纜通 訊集體控制各费電喷霧器1的系統。 第20圖係顯示根據本實施例的靜電霧化系統的另一 結構範例圖,集體控制裝設在各房間的複數的靜電噴霧器 1。第20圖所示的靜電霧化系統2〇〇,使用以電源線為通 訊線的通訊技術的PLC(電力線通訊)轉換技術,集體控制 裝設在各房間R的靜電喷霧器1。 如第20圖所示’靜電霧化系統200包括控制部32, 用以集體控制操作各靜電喷霧器1。控制部3 2包括操作指 21 201117842 令信號產生部33和PLC傳輸部34。操作指令信號產 33產生操作指令信號’用以導通/切斷靜電噴霧胃 傳輸部34具有的功能係使用似傳輸操作指令信號 33產生的操作指令信號。似傳輸部34包括調變電路、: 輸電路等(未顯示)。 傳 另一方面,如上述,靜電喷霧器i連接至pLc接 二及靜電噴霧操作控制部卜4。似接收部Η接收操; ^信號。根據PLC接收部卜3接收的操作指令信號,、 電喷霧操作控制部卜4導通/切斷靜電霧化部卜 靜 控制部3 2和各靜雷啥裳·| 、 由分配面板37,使用以電=“互相連接,經 7使用以電源線L為通訊線的pLC互相通訊。 弟2。圆所示的靜電霧化系統2。〇中, 斷靜電喷霧器丨的時機,控制部32控制操作指二: =’使操作指令信號產生部33產生操作指令;=生The left and right side edges of the frame 4 are sewn. ^ L A 1J violates, like. Further, a plurality of engaging holes 4c are formed at appropriate positions of the respective flanges 4b. Also, pull people η, Λ connect. The projection 2a is formed at an appropriate position on the left and right sides of the 201117842 of the electrostatic atomization unit 2, and the engagement projection 3b is formed at an appropriate position on the left and right sides of the wall socket 3. Electrostatic atomization unit 2 jfu. The earth socket 3 is attached to the mounting frame 4 as described below. The engaging projections 2a are respectively engaged with the engaging holes 4c and have release holes 73 facing inward. Then, the electrostatic atomization portion 2 is inserted into the opening 4a of the mounting frame 4. Similarly, the 'engagement projection 3b s, the sputum sputum slasher' is connected to the 5 hole 4c, and has the plug power socket 33 facing inward. Then, the wall socket 3 is inserted into the opening 4a of the mounting frame 4. Then ' The electrostatic atomizing portion 2 and the wall socket 3 are mounted with the opening 4a of the mounting frame 4 in vertical alignment. It should be noted that the above-described joint structure is merely an example; therefore, the structure of the joint structure according to the present invention is not limited to the above. As shown, the cover surface 5 is formed in a rectangular ring shape with a central opening 5a. The cover surface 5 can be made of, for example, plastic. The cover "mounts the mounting frame 4 to cover the mounting frame 4. The cover surface 5 is formed, and in the state where the electrostatic atomizing portion 2 and the plug power supply holder 3a of the wall socket 3 are mounted with the mounting frame 4, the release hole 73 of the electrostatic atomizing portion 2 and the plug power supply seat of the wall socket 3 are opened from the opening. 58 exposed. Therefore, the cover 5 is aesthetically pleasing by hiding the release hole 7a of the electrostatic atomizing portion 2 and the rest of the plug power supply socket of the wall socket 3. Next, the procedure for mounting the components constructed as described above to the wall is described to mount the electrostatic sprayer i on the wall. First, the electrostatic atomizing portion 2 and the wall socket 3' are formed into a single unit by using a joint structure, and the mounting frame 4 is mounted on the top end of the power supply line for the electrostatic atomization portion and the power supply for the socket on the poem wall. The top of the line is first placed on the wall and the position of the electrostatic sprayer 1 will be installed. Therefore, in the above unit, the top end of the electric source 10 201117842 for the electrostatic atomization portion can be connected to the terminal end 2 b of the electrostatic atomization portion 2, and the top end of the power supply line for the wall socket can be connected to the wall. Terminal (not shown) of the socket 3. Thereafter, the unit is mounted with the position of the electrostatic atomizer 1 by means of a screw hole 4d (see Fig. 5A) formed at an appropriate position of the mounting frame 4 and a screw (not shown). Finally, the cover 5 is fitted with the mounting frame 4 on the wall. As described above, the electrostatic atomizer 1 according to the present embodiment includes: a mounting frame 4 formed in accordance with jIS of the wiring component; and an electrostatic atomizing portion 2 to which the mounting frame 4 is attached and inserted into the opening 4a of the mounting frame 4. . By means of the electrostatic atomizer 1, in the case where a single electric appliance such as an air cleaner or a humidifier is given an electrostatic spray function, deodorization and deodorization can be achieved without cumbersome nuisance to the user. For example, when using an electric appliance, insert the power plug of the appliance into the wall socket, and there is no problem of installation space. With the above structure, the wiring member mounting hole of the electrostatic spray is mounted on the electrostatic atomizing portion 2 at a high voltage, and as a result, ί:::: when superimposed on the power transmission path in the wall socket 3, this H voice may have a bad influence. In order to eliminate this adverse effect, as shown in Fig. 6, including a noise protection 1 彳 彳 # 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 电 静电 静电 静电 静电 静电', 戍 磁性 磁性 磁性 磁性 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 7 11 201117842 However, the structure of the soundproofing portion according to the present invention is not limited to that of the noise shielding portion. For example, .^ y b becomes a portion of the electrostatically atomized portion 2 that protrudes from the gantry 4 toward the back.丨z史仗女框 [Second embodiment] Reference is made here to section 7. The figure illustrates another embodiment of the present invention. Fig. 7 is a view showing the appearance of the electrostatic atomizer 40 of the first embodiment of the root auxiliary loan. Figure 8 shows the structural circuit diagram of the electrical tuning 〇〇a, ^^α original, and the 亀路8〇Α, which is used to supply the power supply to the electrostatic sprayer that forms the image of Fig. 7 and recognizes The electrostatic atomizing portion 42 of 40. The electrostatic atomizer 40 according to the present embodiment includes an input control portion (switch or button) 12 for turning on the state of the electrostatically atomized portion and the green threshold of the cut-off state. 1. Switch between the 'wall sockets 3' described in the first embodiment. As an input, the 铞12 is a consumption example, and the seventh figure shows the type input control unit, and the right one is a and one 〃, there is a button portion forming a rectangular shape. However, the configuration of the input manipulating portion 12 according to the present embodiment is not limited to the above. As shown in Fig. 8, the power supply circuit 8A has a switch 13 for maneuvering according to an input. The operation of H2 'electrically connects/separates the commercial power source e and the electrostatic atomizer 40. When the input control unit 12 is turned on, the switching element U of the switch 13 is connected to the terminal of the commercial power source. Then, the commercial power source e feeds the power to the respective components in the electrostatic atomizing portion 42, and the electrostatic atomizing portion 42 starts the electrostatic spray fine work. Further, when the wheel control unit i 2 is turned on again, the switch [3] in the switch is disconnected from the terminal on the commercial power source E side. Then, the power supplied to each component in the electrostatic atomizing unit 42 is cut off, and the electrostatic spraying operation performed by the electrostatic atomizing unit 2 is stopped. With the above configuration, the user manipulates the input manipulation unit ,2, and thus only 12 201117842 has the electrostatic sprayer 40 activated when he/she wants to pass the φ i -electrospray 40. The electrostatic atomizer according to the second embodiment includes an input manipulation portion 12 which is substituted for the wall socket 3 described in the first embodiment. However, the structure of the electrostatic atomizer according to the present embodiment is not limited to the above. For example, the electric sprayer according to the present embodiment may include both the wall socket 3 described in the first embodiment and the input manipulation portion 12 described in the embodiment. A lamp 5 (light emitting diode) that is turned on/off according to the on/off state of the electrostatic atomizer 40 is preferably provided at a position where the surface of the input control portion is adapted to the field 'as shown in FIG. 7 Show. In this case, the user can visually recognize the on/off state of the electrostatic atomizer 40. [Third Embodiment] Referring to Figures 9 and 1 , an electrostatic sprayer according to still another embodiment of the present invention will be described. The electrostatic atomizer according to the present embodiment has the same structure and function as the electrostatic atomizer 4G according to the second embodiment. Thus, the same components and functions as those described in the second embodiment are denoted by the same parameters and will not be described. According to the electrostatic atomizer 5" of the present invention, when the input control unit 12 is turned on again, the switch 13 is turned off, so that the power supply supplied to the electrostatic atomizing unit 5 2 y is turned off, and the static electricity of the electrostatic atomizing unit 52 is stopped. The operation is as in the electrostatic atomizer 4 according to the second embodiment. The present embodiment is different from the second embodiment in the following points. That is, the triggering benefit ' is used to cut off the power supply to the components in the electrostatic atomizing section 52, and does not 13 201117842. According to the conduction control of the first portion 12 of the input control unit 12, the time gate " Refer to Figure 9, the following characteristics, ^ characteristics of the electrostatic sprayer At, As shown in Figure 9, the electrostatic sprayer 5 Temple spit. The electrostatic spray operation control unit j includes a control unit 16' for performing on/off control. Control unit: electrostatic spray operation of the electric spoon atomizing unit 52 (central processing unit 2: two peripherals (not shown), for example, _ (read only memory), RAM for the program used for 曰疋# (random storage) The word storage - the bait material is used as the work area... and the ram of the temporary library data. The electrostatic spray operation control unit 17 includes the timekeeping unit i by the input control unit 12 (for example, the electrostatic atomization unit) The starting time of the control is controlled. The static electrostatic spray operation is as shown in Fig. 10. When using the input operation, the electrostatic spray operation control (4) 17 allows the initial conduction to perform the electrostatic spray operation, and Allow/砰Electric atomization unit 52 starts operation ^jdan 13 D ' °卩18 Start execution time measurement The time in the 侏忭田 survey reaches the timing and is supplied to the electrostatic atomization 邙52 knife switch 1 3 ' Switching on the power supply of the electric power supply 52, so stop the electrostatic spray operation. The first turn-on of the 卩52 is turned on... It is not only the fact that the input control unit 12 (the initial conduction control starts to pass the predetermined time fog operation)仃 仃 仃 electrostatic spray according to the embodiment The structure is supplied to the power source of the static amateur crying when the wheeled control unit starts to conduct the control for a predetermined time TJ a ' £- _ , so the electrostatic sprayer 5 turns off. Therefore, α Turn off the electrostatic sprayer 5〇, the static electricity user forgets to take the electric bellows m 50 is not possible to operate continuously 〇14 201117842 Therefore, this structure helps to save electricity. Here the 'control unit ^ includes (10), etc., but The configuration of the control unit 16 is not limited to the above. For example, the control unit 16 may be configured by a logic circuit. [Fourth Embodiment] An electrostatic atomizer according to still another embodiment of the present invention will be described with reference to FIGS. The electrostatic atomizer 6A of the present embodiment is substantially the same as the structure of the electrostatic sprayer according to the foregoing embodiments Z. Thus, the same components and functions as those described in the foregoing embodiments are represented by the same parameters. The electrostatic atomizer 6 according to the present embodiment is different from the electrostatic atomizer 5 according to the third example at the following point. That is, the static 'P' according to the second embodiment is only automatically executed to stop the static electricity. Atomization section 5 Electrostatic spray of 2: In another aspect, in the electrostatic atomizer 60 of the present embodiment, not only the electrostatic spray operation of the electrospraying portion 62 but also the electrostatic spray operation for automatically performing the static activation is performed. An example of the appearance of the present embodiment. Fig. 12 is a block diagram showing the schematic configuration of the electrostatic device 60 according to the present embodiment. = "Electrostatic sprayer 60 shown in Figs. 11 and 12 includes a motion sensor. 11 19 When it is detected that a person moves from the area where the electrostatic discharge device 60 is mounted, the electrostatic atomizer 60 performs an electrostatic spray operation: in the electric atomizer 60, the motion sensor 19 is provided to the electrostatic atomization portion W. Above, the electrostatic atomizing portion 62 is adjacent. For example, an infrared sensor can be used as the motion sensor 19. Infrared 15 201117842 Line sensor allows the optical system to focus from ^ ^ ^ ^ ^ ^ ^ ^ ^ ^ 'infrared to the infrared detection part of the thermoelectric element temple (Fr. Gu, 丨 (Wu Xian), and from the infrared The detection unit voltage signal indicates that the presence of the body 4 exists or has/has no movement. Further, as shown in Fig. 12, the 'electrostatic sprayer 6 () includes a control unit 26 for controlling the operation of the electrostatic nozzle mist. The function is the same as that of the control unit 16 which is not in the third embodiment, and the _no is no longer here. The control unit 26 is connected to the motion sensor 19 and can move the 庙 temple, $, n, The control unit 26 includes a motion detection and processing unit 20 and an electrostatic spray operation control unit 17. The motion detection and processing unit 2 detects the presence of the human body based on the voltage signal output from the motion sensor 19. When the motion detecting and processing unit 20 detects the motion of the human body and the person, the electrostatic spray operation control unit 17 turns on the static electricity _ 62. In other respects, when the motion detecting and processing unit 2 No human and human motion detected The electrostatic spray operation control unit η turns off the electrostatic atomization portion 62. According to the present embodiment, it is possible to prevent the user from doing the trouble of turning on/off the input manipulation portion 12 as in the foregoing embodiment. The electrostatic spray according to the present embodiment The device 6 includes motion sensing @ 19, so the electrostatic spraying operation can be performed only when the person passes the electrostatic atomizer μ. As a result, the deodorizing and deodorizing substances can be effectively performed. This motion sensor 19 does not detect the human body. And the movement of the person, the electrostatic atomizer 60 is cut off. As shown in Fig. 13, or the measurement action sensor 19 does not detect the time when the human body and the person move, the time elapsed, and the time arrives. The predetermined time Τ2 (measurement action sensor 19′′ and the time point at which the movement of the human body and the person is detected starts to pass the timed 16 201117842 " between T2). [Fifth Embodiment] Referring to Figures 14 to 17, in This describes an electrostatic atomizer of still another embodiment of the present invention. The electrostatic atomizer 40 according to the present embodiment has the same structure and function as the electrostatic atomizer 40 according to the second embodiment. The components having the same structure and function as those described in the second embodiment are denoted by the same parameters and will not be described again. In the following points, the present embodiment is different from the second embodiment. In the second embodiment, the input control unit 12 Switching between the on state and the off state of the electrostatic atomizer 40. In the present embodiment, the illumination device L and the electrostatic atomization portion 42 are simultaneously turned on/off in the same manner. For example, attention is focused on one point, that is, in many examples. In the case of lighting of the lighting in the room, there is a person in the room, and in the case of a lighting device in the room, there is no one in the room. In this case, the power supply circuit for feeding the power to the electrostatic atomizing portion 42 80B, can be constructed as shown in Figure 14. In the power supply circuit 80B, the switch 21 is connected in series to the parallel circuit of the electrostatic sprayer 4A and the illumination device L, and is turned on/off each time the input control portion (4) is manipulated. As shown in Fig. 15, both the illumination device L and the electrostatic atomization portion 42 are turned on during the conduction of the input manipulation portion 12, and both the illumination device 1 and the electrostatic atomization portion 42 can be cut off at the input manipulation portion 12. Cut off during the period. Fig. 16 shows another structural example of a power supply circuit for feeding a power supply to the electrostatic atomization portion 42 according to the present embodiment. The power supply circuit 80C shown in Fig. 16 includes a three-terminal switch 22 having terminals T1 to T3. Terminal n 17 201117842 is connected to the power cord. Terminal T2 is connected to electrostatic sprayer 40. Terminal T3 is connected to lighting device L. In the switch 2 2, each time the input control unit 12 is manipulated, the connection target of the switching element 23 of the terminal Τ1 is always switched between the terminal Τ2 and the terminal Τ3. The power supply circuit 80c including the three-terminal switch 22 can be applied to an environment in which the following factors are emphasized. That is, it is assumed that there is no one in the room during the day, but there are people in the night room. When a person enters his/her house (when the lighting device L is illuminated), a state in which the electrostatic spray operation establishes a comfortable space is prepared in advance. As shown in Fig. 17, the following control is permitted by using the power supply circuit 8 〇 ε shown in Fig. 16. That is, when the input manipulation portion 操控2 is manipulated, the illumination device 1 is turned on, and the electrostatic atomization portion 42 is turned off. Further, when the input manipulation unit 12 is operated again, the illumination device L is turned off, and the electrostatic atomization unit 42 is turned on. [Sixth embodiment] With reference to Fig. 18, still another embodiment of the present invention will be described. The electrostatic atomizer 7A according to the present embodiment is different from the electrostatic atomizer of the foregoing embodiments in that it includes an input manipulation portion for inputting an operation time of the electrostatic atomization portion. The remaining structure of the electrostatic atomizer 7A according to the embodiment of the present invention is the same as that of the electrostatic sprayers of the foregoing embodiments. Thus, the same components and functions as those described in the foregoing embodiments are denoted by the same parameters and will not be described again. As shown in Fig. 18, for example, the input manipulation portion may be the dial type manipulation portion 24. The input manipulation portion 24 shown in Fig. 18 includes the dial 2 rotatably projecting from the wall, and the scale mark 26 indicating the operation time of the entry at a position relative to the circumferential surface of the dial. According to the electrostatic atomizer 7 of the present embodiment 18 201117842, the configuration is the electrostatic atomization portion 72, and the operation time indicated by the mark of the middle position relative to the circumferential direction of the dial 25 (hereinafter referred to as operation) Time indicates the position) operation. The scale mark 26, including the mark "OFF" is zero. When the operation time indicates the fixed position relative to the mark "(four) (cut)", the electrostatic atomization portion 72 can be stopped. As shown in Fig. 18, the electrostatic spray The mister 70 further includes an input control portion 27 for turning on/off the illumination device in addition to the electrostatic atomization portion 72 and the input manipulation portion :: here the 'electrostatic sprayer 7. may include the above-described motion sensor, Instead of the input control portion 27 for the illumination device, the input control portion for inputting the operation time, in addition to the dial type input control portion 24, the input control portion may further include: an input manipulation portion including a plurality of buttons, And indicating the desired operation time by using the processing of each button; inputting the manipulation portion, indicating the operation time according to the manipulation frequency using one button; the input manipulation portion 'including a screen and a button, by using the button manipulation to increase/decrease the screen Display time, and indicates that the display time is the operation time' and the touch panel type input operation portion. [Seventh Embodiment] Referring to FIGS. 19 and 20, an embodiment according to the present invention will be described herein. Electrostatic atomization system. As shown in Fig. 19, the electrostatic atomization system 1 according to the present embodiment includes a plurality of electrostatic atomizers 1; a wireless receiving unit 1 - 1 and an electrostatic spray operation control unit. 1-2, connected to the associated electrostatic atomizer i; and the distribution panel 31 and the control portion 28, respectively connected to a plurality of electrostatic atomizers 1. 19 201117842 Electrostatic spray forming the electrostatic atomization system 100 according to the present invention The electrostatic atomizer according to each of the foregoing embodiments may be as shown in Fig. 19. For example, it is assumed that each electrostatic atomizer is installed in a room r of a house and a building. The electrostatic atomization system 1 The independent electrostatic atomizer is configured to operate in each room R. Alternatively, the electrostatic atomization system or the system 1 can be configured to collectively control the electrostatic atomizer 1 installed in each room m. In this case, the room environment can be improved in advance before the user enters the room. / Figure 19 is a diagram showing an example of the structure of the electrostatic atomization system 100 according to the present embodiment. Communication collective control An example of a structure of an electrostatic atomization system of each of the electrostatic atomizers 1. In the electrostatic atomization system 100 according to the present embodiment, as shown in Fig. 19, the control unit operates collectively. Electrostatic sprayer 1. The control unit 28 includes an operation command signal generation unit 29 and a wireless transmission unit 3 (). The operation command signal generation unit μ generates a command signal for turning on/off the electrostatic atomizer 1. The wireless transmission unit 3〇 The operation command signal generated by the operation command signal generating unit 29 is wirelessly transmitted. On the other hand, as described above, the electrostatic atomizer 1 is connected to the wireless receiving unit 1 and the electrostatic spray operation control unit L_2. The line receiving unit Η receives the command by wireless # Signal. Therefore, the electrostatic spray operation control unit 2, according to no reception. Ρ 1 1 Received an operation command signal to turn on/off the electrostatically atomizing unit 2. The electrostatic atomization system 1 shown in the 19th circle is required to turn on/cut 20 201117842 When the electrostatic atomizer 1 is turned off, the control unit 9Q m controls the command signal generation 邛29, so the operation command signal generates < 9 produces a slap in the command number. Further, the control unit 28 controls the wireless transmission unit 3, °, so that the wireless transmission unit 30 collectively transmits the operation command signal to each of the electrostatic atomizers in the line: - in the respective electrostatic atomizers, when the wireless receiving unit攸 攸 When the line transmission unit 30 receives the operation command signal for wireless transmission, the electrostatic spray operation control unit controls the electrostatic atomization unit 2, so that the electrostatic atomization unit 2 is turned on/off according to the operation command W. Here, each electrostatic sprayer! The connection receives the (AC) power from the commercial power source via the distribution panel 31. The structure of the electrostatic atomization system 1 according to the present invention collectively controls each of the electrostatic atomizers using the IG communication! . Therefore, the electrostatic atomization system has the advantage that the control unit 28 does not have to be connected to each of the electrostatic atomizers 1 by a communication line, unlike the system of the electrostatic atomizer i that controls the plurality of electrostatic atomizers i using the cable communication. This structure achieves a reduction in cost. However, the electrostatic atomization system according to the present invention may be a system for collectively controlling the respective electric sprayers 1 using cable communication. Fig. 20 is a view showing another configuration example of the electrostatic atomization system according to the present embodiment, collectively controlling a plurality of electrostatic atomizers 1 installed in each room. In the electrostatic atomization system 2 shown in Fig. 20, the electrostatic atomizer 1 installed in each room R is collectively controlled by a PLC (Power Line Communication) conversion technique using a communication technique in which a power supply line is a communication line. As shown in Fig. 20, the electrostatic atomization system 200 includes a control unit 32 for collectively controlling the operation of each of the electrostatic atomizers 1. The control unit 3 2 includes an operation finger 21 201117842 command signal generating unit 33 and a PLC transmission unit 34. The operation command signal generation 33 generates an operation command signal ' to turn on/off the electrostatic spray stomach. The transfer portion 34 has a function that uses an operation command signal generated by the transfer operation command signal 33. The transmission unit 34 includes a modulation circuit, a transmission circuit, and the like (not shown). On the other hand, as described above, the electrostatic atomizer i is connected to the pLc and the electrostatic spray operation control unit 4. It seems that the receiving unit receives the operation; ^ signal. According to the operation command signal received by the PLC receiving unit 3, the electrospray operation control unit 4 turns on/off the electrostatic atomization unit, the static control unit 3 2 and each of the static squirts, and is used by the distribution panel 37. The electric power is "interconnected, and the pLC is used to communicate with each other via the power line L as the communication line. 2. The electrostatic atomization system 2 shown by the circle. In the middle, the timing of breaking the electrostatic sprayer ,, the control unit 32 The control operation refers to two: = 'the operation command signal generating portion 33 generates an operation command;
:^ 32控制PLC傳輸部34,使pLc傳輸部 傳輸操作指令信號至各靜電喷霧器卜 PLC 從二二:’在各靜電噴霧器…當PLC接收部卜3 :收操作指令信號時,靜電喷霧操作控制 :Η根據操作指令信號導通/切斷靜電霧化部2。在本: %例中,饋給電源至久德+ ^ 號至各靜雷❹ 霧器1以及傳輸操作指令信 就至各静電喷霧器1, 同時執行。 使用同一線路(例如電源線L) 為了馈給電源給電器 器,典型地,有廣…? 内裝設的家庭電:^ 32 Control PLC transmission unit 34, so that the pLc transmission unit transmits the operation command signal to each electrostatic sprayer PLC from the second two: 'In each electrostatic sprayer... When the PLC receives the part 3: receives the operation command signal, the electrostatic spray Fog operation control: 导 The electrostatic atomization unit 2 is turned on/off according to an operation command signal. In this example: %, feed the power supply to the Jiude + ^ to each static squirt 1 and transfer the operation command letter to each electrostatic sprayer 1, and execute at the same time. Using the same line (for example, power line L) In order to feed power to the appliance, typically, is it wide...? Built-in home electricity
、 的系統,用以從商業電源饋給AC 22 201117842 電源給電器。不過’近年來,已提出裝設在家中以分配 電源給房内各房間的電器的一系,統,即轉換器例如開關電 源,用以將AC電源從商業電源轉換成DC (直流)電源。 又,根據本發明的靜電喷霧器i可以構成與此電源相 容。在此’電源線傳輪通訊可以執行的方式為通訊信號重 疊在分配DC電源至各房間内的電器的DC電源線上。 本發明可以利用以下修改的實施例,取代前述實施 例’或附加於上前述實施例。 (1)前述實施例中,一靜電喷霧器丨包括一靜電霧化部 2。或是,-靜電喷霧器!可包括複數的靜電霧化部2。不 過,在靜電霧化部2和配線零件並排的情況下,配線零件 的類型不限於上述。本發明可以使用不同的零彳,例如用 以發出導通/切斷通風指令的輸入操控部、以及用於通訊的 寺果組插座。 在複數的靜電喷霧器裝設在房間内的情況下,各靜 電噴霧器1中的靜電霧化部2可以互相同步操作。更特別 地,在各靜電喷霧器丨十提供輸入操控部(未顯示)。當操 控其中-靜電噴霧H 1中的輸入操控部時,所有的靜電喷 霧器1或同步的靜電喷霧器丨可以互相同步操作。 (3)靜電霧化部2的靜電喷霧操作可以依據時間起動 或停止。 汽(4)根據本發明的帶電粒子產生器不限於利用瑞利蛻 變產生帶電粒子,並適於提供空氣中離子的—般裝置,例 如利用電漿放電產生離子的裝置。 1 23 201117842 如上述’根據本發明的一形態,帶 一外殼,形成的形狀可I上帶 "產生器包括 少狀r裝上壁置型配線零 安裝框架;以及一帶電粗子產生部, 斤“的 帶電粒子。 上述外殼並產生 結構,帶電粒子產生器的結構包括上述外殼, /成的形狀可裝上依壁置型 *;以及上述,電…生部」 粒子。因此,可以實現能夠發揮除臭效果等的帶電粒:產 生器,帶電粒子產生器裝設在單一電器上的:=二產 裝又工間問4,且不必強加使用者做***電器 頭至牆上插座的麻須差事, “ 的缺點。 ¥也不會產生電器電纜妨礙行走 站„ ^電粒子產生器的結構包括上述外殼,形成的形 可附加於依壁置型配線零件標準所指定的安裝框竿·: ::述子產r,納入上述外殼並產生帶電二? 的帶電粒子時裝上牆上已存在的配線零件安裝孔 ^述結構中,上述帶電粒子產生部最好包括_ 連接至電源線’並以沿著安裝框架形成的接合.構; 上安裝框架。 〇構震 =上结構,帶電粒子產…沿著安裝框架 接〇結構裝上安裝框牟 子產生部牢固h安^ 以簡單結構將帶電教 "女裝框罙。即使帶電粒子產生部從 框架移除,罄Φ^ ▼電粒子產生部的連接終端仍連接至電源線。 201117842 因此’可以防止帶電粒子產生部從牆上掉落。 述、。構巾τ電粒子產生器最好更包括安裝框架, 帶電粒子產生部裝安插安裝框架的部分開σ,並且根據標 準指定的壁置型配線零件也安插至安裝框架的開口。 在此情況下,除了產生帶電粒子的功能之外,還可以 給帶電粒子產生器用作配線零件的功能。 上述、。。構中壁置型配線零件最好包括一輸入操控 部’用以輸入導通/切斷帶電粒子產生部的指♦,並且帶電 粒子產生部根據輸人操控部的操控而操作。在此情況下, 使用者可以在任何需要的時候使用帶電粒子產生器。 上述結構中,壁置型配線零件最好包括一壁上插座。 在此隋况下’ & 了產生帶電粒子的功能外,還可以給帶電 粒子產生器分配線路電源的功能。 上述結構中,在靜電霧化部和壁上插座之間,最好置 入一噪音防護部。 在此情況下’噪音防護部置入靜電霧化部和壁上插座 之間。sub ’可以防止或抑制帶電粒子產生部產生的磁性 噪音重疊在壁上插座中的電源轉換路徑上。 在上述結構中,壁置型配線零件最好包括一輸入操控 部,用以輸入導通/切斷照明設備的指令,並且帶電粒子產 生部與輸入操控部操控的照明設備同步操作。 根據此結構,輸入操控部發出導通/切斷照明設備的指 令以及導通/切斷帶電粒子產生部的指令兩者。因此,與帶 電粒子產生器包括用以輸入導通/切斷照明設備指令的輸 25 201117842 入操控部以及用以輸入導通/切斷帶電粒子產生部指令的 輸入操控部互相獨立的情況相較,可以降低帶電粒子產生 器的零件數。 上述結構中,帶電粒子產生器最好更包括安裝框架, 帶電粒子產生部安插至安裝框架的部分開口,而且根據標 準指定的動作感應器也安插至安裝框架的開口,並且根據 動作感應器的檢測結果導通/切斷帶電粒子產生部。 根據此結構’帶電粒子產生器更包括安裝框架,且動 :乍感應器安插至安裝框架的部分開口。又,帶電粒子產生 部根據動作感應器的檢測結果導通/切斷。因此,可以σ在 應器(即’帶電粒子產生器)的空間有人的情況 下操作帶電粒子產生器。 電粒ΐΐΓ结構中’帶電粒子產生器更包括安裝框架,帶 電粒子產生部安插至安裝框架 指宕廿a # Μ _ 上且很據標準 也電粒子產生部的操作時間的輸入操" =插至安裝框架的開口,當帶電粒子產生部的操= 止。 卩接收的時間時,帶電粒子產生部的操作停 入操:據本明,帶電粒子產生器更包括安裝框竿,且於 入刼控部安插至安梦 不化彔,且輸 產生部的操作時間開口並用於輸入帶電粒子 達輸入操控部接收的時二:電:子產生部的操作時間到 作。因此,可以只在使帶電粒子產生部的操 器。 者而要的時段操作帶電粒子產生 26 201117842 化雷Γ上述結構中,帶電粒子產生部最好構成包括:-霧 二液體供應裝置,用於供應液體給上述霧化電極; 乂及一南壓電源電路 址一古 應一间電麼給上述霧化電極,而 上述液體供應裝置供應上 <狀m,.Ό上述霧化電極,一 電場中靜電霧化上述液體。 。 :據本發明另—形態的帶電粒子產生系統包括"复數 ^電粒子產生器’各具有上述的結構;以及—集體控制 部,集體控制操作各帶電粒j 4 。 二 帑¥粒子產生盗内的帶電粒子產生部。, the system used to feed AC 22 201117842 power from the commercial power supply to the appliance. However, in recent years, it has been proposed to install a system for distributing power to various rooms in a room, that is, a converter such as a switching power source for converting an AC power source from a commercial power source to a DC power source. Further, the electrostatic atomizer i according to the present invention can be constructed to be compatible with this power source. Here, the power line transmission can be performed in such a manner that the communication signal is overlapped on the DC power line that distributes the DC power to the appliances in each room. The present invention can be modified by the following modified embodiments in place of or in addition to the foregoing embodiments. (1) In the foregoing embodiment, an electrostatic atomizer 丨 includes an electrostatic atomizing portion 2. Or, - electrostatic sprayer! A plurality of electrostatic atomization sections 2 may be included. However, in the case where the electrostatic atomization unit 2 and the wiring components are arranged side by side, the type of the wiring component is not limited to the above. Different zero turns can be used in the present invention, such as an input control for issuing an on/off ventilation command, and a temple socket for communication. In the case where a plurality of electrostatic atomizers are installed in the room, the electrostatic atomizing portions 2 in the respective electrostatic atomizers 1 can be operated in synchronization with each other. More specifically, an input control unit (not shown) is provided at each of the electrostatic sprayers. When the input control unit in the electrostatic spray H 1 is operated, all the electrostatic sprayers 1 or the synchronized electrostatic sprayers 丨 can operate in synchronization with each other. (3) The electrostatic spraying operation of the electrostatic atomizing unit 2 can be started or stopped depending on the time. Vapor (4) The charged particle generator according to the present invention is not limited to a device which generates charged particles by Rayleigh dysfunction and is suitable for supplying ions in the air, for example, a device for generating ions by plasma discharge. 1 23 201117842 as described above, according to one aspect of the present invention, with a casing formed into a shape, the generator includes a small-sized r-mounted wall-mounted wiring zero-mounting frame; and a charged rough generating portion, "The charged particles. The outer casing and the structure are produced. The structure of the charged particle generator includes the above-mentioned outer casing, and the shape of the electric particle generator can be mounted on the wall-mounted type *; and the above-mentioned electric particles. Therefore, it is possible to realize a charged particle: generator capable of exerting a deodorizing effect or the like, and the charged particle generator is mounted on a single electric appliance: = 2 production and work 4, and it is not necessary to impose a user to insert the electric head to the wall The numbness of the upper socket, "The disadvantages. ¥ does not cause electrical cables to interfere with the walking station. ^ The structure of the electric particle generator includes the above-mentioned outer casing, and the formed shape can be attached to the mounting frame specified by the wall-mounted wiring component standard.竿·: :: The debuter produces r, which is included in the above shell and produces electrified two? In the structure of the wiring component mounting hole which is already present on the wall of the charged particle fashion, the above-mentioned charged particle generating portion preferably includes a connection to the power supply line 'and a structure formed along the mounting frame; the upper mounting frame. 〇 震 = = upper structure, charged particles produced... along the mounting frame 〇 〇 装 装 装 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 产生 牢固 牢固 以 以 以 以 以 以 以 以 以 以 以 以 以 以 以Even if the charged particle generating portion is removed from the frame, the connection terminal of the 粒子Φ^ ▼ electric particle generating portion is still connected to the power supply line. 201117842 Therefore, it is possible to prevent the charged particle generating portion from falling off the wall. Said. Preferably, the τ electric particle generator further includes a mounting frame, and the charged particle generating portion is provided with a partial opening σ of the mounting frame, and the wall-mounted wiring member specified according to the standard is also inserted into the opening of the mounting frame. In this case, in addition to the function of generating charged particles, the charged particle generator can be used as a function of wiring parts. Above. . Preferably, the wall-mounted wiring member includes an input manipulation portion for inputting a finger for turning on/off the charged particle generating portion, and the charged particle generating portion operates in accordance with manipulation of the input manipulation portion. In this case, the user can use the charged particle generator whenever he needs to. In the above structure, the wall-mounted wiring member preferably includes a wall socket. In this case, the function of generating charged particles can be assigned to the charged particle generator. In the above structure, it is preferable to place a noise shielding portion between the electrostatic atomizing portion and the wall socket. In this case, the noise protection unit is placed between the electrostatic atomization unit and the wall socket. The sub' can prevent or suppress the magnetic noise generated by the charged particle generating portion from overlapping the power conversion path in the wall socket. In the above structure, the wall-mounted wiring member preferably includes an input manipulation portion for inputting an instruction to turn on/off the lighting device, and the charged particle generating portion operates in synchronization with the illumination device operated by the input manipulation portion. According to this configuration, the input control unit issues both an instruction to turn on/off the illumination device and an instruction to turn on/off the charged particle generation unit. Therefore, compared with the case where the charged particle generator includes an input control unit for inputting the on/off command of the illumination device and an input control unit for inputting the on/off command of the charged particle generation unit, Reduce the number of parts in the charged particle generator. In the above structure, the charged particle generator preferably further includes a mounting frame, the charged particle generating portion is inserted into a part of the opening of the mounting frame, and the motion sensor specified according to the standard is also inserted into the opening of the mounting frame, and is detected according to the motion sensor. As a result, the charged particle generating portion is turned on/off. According to this structure, the charged particle generator further includes a mounting frame, and the 乍 sensor is inserted into a part of the opening of the mounting frame. Further, the charged particle generating unit is turned on/off according to the detection result of the motion sensor. Therefore, the charged particle generator can be operated with the space of the sigma (i.e., the 'charged particle generator'). In the electric particle structure, the charged particle generator further includes a mounting frame, and the charged particle generating portion is inserted into the mounting frame finger a # Μ _ and is input according to the standard operation time of the electric particle generating portion. To the opening of the mounting frame, when the charged particle generating portion is operated.卩 When the time of reception is received, the operation of the charged particle generating unit is stopped. According to the present invention, the charged particle generator further includes a mounting frame, and is inserted into the control unit to be installed, and the operation of the output unit is performed. The time is open and used to input the charged particles up to the input of the input control unit: electricity: the operation time of the sub-generation unit is up. Therefore, it is possible to operate only the charged particle generating portion. In the above structure, the charged particle generating portion is preferably configured to include: a mist two liquid supply device for supplying liquid to the atomizing electrode; and a south voltage power source The circuit address should be supplied to the atomizing electrode at a time, and the liquid supply device supplies the atomizing electrode, which electrostatically atomizes the liquid in an electric field. . The charged particle generating system according to another aspect of the present invention includes the "complex electric particle generators' each having the above-described structure; and a collective control unit for collectively controlling the charged particles j 4 . The second 粒子¥ particle generates a charged particle generating unit within the pirate.
根據此結構,可以铋隹M k A 了以組織集體控制複數的帶電 器的系統。 叩电祖于屋生 在上·述結構中,集體批浩彳n A 號產生部,產生摔作二Γ包操作指令信 生琴㈣八. 4號,用以發出操作帶電粒子產 ,以及—無線傳輸部,無線傳輸 信號產生部產生的操作指 她” 其中,帶電粒子產生部包括電粒子產生器; 厓玍D丨包括無線接收部, =線傳輸部無線接收上述操作指令信號;以及_ 2 和根據上述無線接收部接收的 " 帶電粒子產生部。 …士钿作 根據此發明,利用益绩彳g 4 ㈠ 線通訊可以組織集體控制複數的 T電粒子產生器的系統。 複數的 在上述結構中,集體控制部最好包 產生部,產生操作指令信號,用以發 號 器的指令;以及一 PLC傳轸 、π電拉子產生 生部產生的操作指令作號在卜φ 指令信號產 遽在饋給電源給帶電粒子產生器的 27 201117842 電源線上’·其中,上述帶電粒子產生部包括·· — 接收 部,經由上述電源線從上述PLC傳輸部接收上述操作指令 信號;以及一操作控制部,根據上述PLC接收部接收二: 述操作指令信號,操作上述帶電粒子產生部。 根據此結構,利用重#上述操作指令信號產生部產生 的操作指令信號在饋給電源給帶電粒子產生器的電源線上 的技術,可以組織集體控制複數的帶電粒子產生器的系統。 根據本發明又另-形態的配線裝置,具有—壁置型配 線零件以及依壁置型配線零件標準所指定的一安裝框架。 此配線裝置包括•·一外殼,形成可裝上安裝框架的形狀; 以及-帶電粒子產生部,納入外殼並產生帶電粒子。 根據此結構,可以實現具有產生帶電粒子功能的一配 線零件。 、實施本發明的模式中所述的特定實施例或範例只是用 以闡明本發明的技術内容,並且不應在這些有限的範例内 轉本發明,而依本發明精神及以下所述的申請專利範圍 内可以以不同的方式作修正。 [產業上的應用性] 應用根據本發明的-靜_雷j& 口。 ^ ㈣昨電喷霧益作為空氣渡清器、增溼 益、殺菌器、花粉防護器等的靜電噴霧器。 【圖式簡單說明】 [第1圖]係顯示根據本發 的外觀圖; 月第-貫施例的靜電喷霧器 28 201117842 圓心的靜電対器的分解立雜 [第3圖j係顯示根據本實施例 面圖; 、靜電霧化部的結構剖 [弟4A圖Ί孫愿§ -始, _」係顯不第1圖所示 化部的正視圖; 评電喷霧益中的靜電霧 [第4B圖]係顯示第i圖所示 化部的後視圖; 、靜電喷霧器中的靜電霧 [第5A圖]係顯示第i圖所 架正視圖; ’、靜電噴霧器中的安裝框 [第5B圖]係顯示靜 所干的忠继1 M〇壁上插座裝上第5A ® 所不的女裝框架的狀態說明圖; 发上第5A圖 [第6圖]係顯示靜電霧化 靜電霧化部和壁±彳 。上插座裝上具有置於 1 π z上插座間的嗓i 說明圖; 方護部的安裝框架的狀態 實施例的靜電喷霧器 的外LV;圖]係顯示根據本發明第 [第8圖]係顯示第7 的電路圖; 厅不的靜電喷霧器的電源電路 [第9圖]係顯示根據本發 的概略結構功能方塊圖; [第1〇圖]係顯示根據本發 器的操作時序圖; [第11圖]係顯示根據本發 明第三實施例的靜電喷霧器 明第三實施例的靜電喷霧 明第四實施例的靜電喷霧 29 201117842 器的外觀圖; 四實施例的靜電喷霧 四實施例的靜電喷霧 [第12圖]係顯示根據本發明第 器的概略結構功能方塊圖; 13圖]仏顯示根據本發明第 器的操作時序圖; [第14圖]係顯示根據 51 λα φ φ . 本發月第五貫施例的靜電喷 原電路的-結構範例的電路圖; [第15圖]係顯示第14圖 明奘借、认4。h '、的電路(靜電霧化部和 明裝備)的操作時序圖; [第1 6圖]係顯示根據 32 _ + 4 β第五貫施例的靜雷 器的電源電路的另…士 I㈣㈣%嘴 、,°構範例的電路圖; [第17圖]係顯示第丨 明裝備)的操作時序圖; 的電路(靜電霧化部和 [第18圖]係顯示根據 器的結構說明圖; 月第,、貫施例的靜電喷 明第七實施例的靜電 明第七實施例的靜電 [第19圖]係概略顯示根據本發 霧化系統的一結構範例說明圖;以^ [第20圖]係概略顯示根據本發 霧化系統的另一結構範例說明圖。 【主要元件符號說明】 1〜靜電噴霧器; 1 ~ 1〜無線接收部; 1 一2〜靜電喷霧操作控制部; 30 201117842 1-3〜PLC接收部; 卜4〜靜電喷霧操作控制部; 2〜靜電霧化部; 2a〜接合凸出; 2b〜電源線連接終端部; 3〜 壁上插座; 3a - -插頭電源座 3b- -接合凸出; 4 安裝框架; 4a〜開口; 4b^ -凸緣; 4c’ -接合孔; 4d- -螺旋釘孔; 5〜 覆蓋面; 5a〜開口; 6〜 放電電極; 6a〜末梢端; 6 b〜基部端; 7〜 反電極; 7a^ ^釋放孔; 7b〜内表面; 8〜 液體供應部 9〜 高壓施加部 10a t〜冷卻部; 31 201117842 11〜防護部; 12〜輸入操控部; 13〜開關; 14〜開關元件; 1 5〜發光部; 1 6〜控制部; 17〜靜電噴霧操作控制部; 18〜計時部; 1 9〜動作感應器; 2 0〜動作檢測和處理部; 21〜開關; 2 2〜三端開關; 23〜開關元件; 2 4〜輸入操控部; 2 5〜撥盤; 2 6〜刻度標記; 26〜控制部; 2 7〜輸入操控部; 28〜控制部; 29〜操作指令信號產生部; 3 0〜無線傳輸部; 31〜分配面板; 3 2〜控制部; 33〜操作指令信號產生部; 32 201117842 34〜PLC傳輸部; 37- /分配面板; 40- /靜電喷霧器; 42- /靜電霧化部; 50- /靜電喷霧器; 52- "靜電霧化部; 60- /靜電喷霧器; 62、 /靜電霧化部; 70〜靜電喷霧器; 72、 /靜電霧化部; 80A 〜電源電路; 80B 〜電源電路; 80C 〜電源電路; 100 〜靜電霧化系統; 200 〜靜電霧化系統; d〜 直徑; E〜 商業電源; L〜 照明設備; R〜 房間; T1〜既定時間; T2- -既定時間;以及 T1- T 3〜終端。 33According to this configuration, it is possible to organize a system in which a plurality of charged collectors are collectively controlled.叩 叩 于 于 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在 在a wireless transmission unit, the operation generated by the wireless transmission signal generating unit refers to her”, wherein the charged particle generating unit includes an electric particle generator; the cliff D玍 includes a wireless receiving unit, and the = line transmitting unit wirelessly receives the operation command signal; and _ 2 And a charged particle generating unit received by the wireless receiving unit. According to the invention, a system for collectively controlling a plurality of T-electron generators can be organized by using the performance 彳g 4 (one) line communication. In the structure, the collective control unit preferably generates a part generating unit, and generates an operation command signal for the command of the numbering device; and a PLC transmission, the π electric puller generates the operation instruction generated by the living part, and the signal is generated in the φ command signal. 27In the 27 201117842 power supply line that feeds the power to the charged particle generator, the above-mentioned charged particle generating unit includes a receiving unit, and the above-mentioned power supply line is used from the above The PLC transmission unit receives the operation command signal, and an operation control unit operates the charged particle generation unit based on the operation command signal received by the PLC reception unit. According to this configuration, the operation command signal generation unit generated by the operation # A technique for operating a command signal on a power supply line for feeding a charged particle generator to a system for collectively controlling a plurality of charged particle generators. According to another aspect of the present invention, a wiring device having a wall-mounted wiring component and A mounting frame specified by the standard for wall-mounted wiring parts. The wiring device includes a housing that is shaped to fit the mounting frame, and a charged particle generating portion that is incorporated into the housing and generates charged particles. A wiring component having the function of generating charged particles. The specific embodiments or examples described in the modes of carrying out the invention are only for clarifying the technical content of the invention, and should not be transferred to the invention in these limited examples. The spirit of the present invention and the scope of the patent application described below may be The same method is used for correction. [Industrial Applicability] Applying the static-lei j& mouth according to the present invention. ^ (4) Yesterday's electric spray benefits as an air conditioner, humidification benefit, sterilizer, pollen protector, etc. Electrostatic sprayer [Simplified illustration] [Fig. 1] shows an external view according to the present invention; Electrostatic sprayer 28 of the first embodiment of the month 2011 17842 Decomposition of the electrostatic discharge of the center of the circle [Fig. 3] The j system shows a surface view according to the present embodiment; and the structure of the electrostatic atomization unit is divided into a front view of the chemical part shown in Fig. 1; The electrostatic mist in the middle [Fig. 4B] is a rear view showing the portion shown in Fig. i; the electrostatic mist in the electrostatic atomizer [Fig. 5A] shows the front view of the first drawing; ', the electrostatic atomizer The installation frame in the middle [Fig. 5B] shows the state diagram of the women's frame of the 5A 所 忠 ; ; ; ; ; ; ; ; ; ; ; ; 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 5 The electrostatically atomized electrostatic atomization section and the wall ± 彳 are displayed. The upper socket is provided with an 嗓i explanatory diagram placed between the sockets on 1 π z; the outer LV of the electrostatic atomizer of the state embodiment of the mounting frame of the square guard; FIG. 7 shows the first diagram according to the present invention. The circuit diagram of the seventh is displayed; the power supply circuit of the electrostatic atomizer of the hall [Fig. 9] shows a functional block diagram according to the schematic structure of the present invention; [Fig. 1] shows the operation sequence according to the present device. Fig. 11 is an external view showing an electrostatic spray 29 201117842 of the electrostatic spray according to the third embodiment of the electrostatic sprayer according to the third embodiment of the present invention; The electrostatic spray of the fourth embodiment of the electrostatic spray [Fig. 12] is a functional block diagram showing the schematic structure of the apparatus according to the present invention; 13] shows the operation timing chart of the apparatus according to the present invention; [Fig. 14] A circuit diagram showing an example of the structure of the electrostatic priming circuit according to the fifth embodiment of the present month; [Fig. 15] shows the fourth figure. Operation sequence diagram of h ', circuit (electrostatic atomization part and bright equipment); [Fig. 16] shows another power supply circuit of static arrester according to the 32 _ + 4 β fifth embodiment (I) (4) (4) % mouth, circuit diagram of the example of the structure; [Fig. 17] shows the operation timing chart of the first device; (the electrostatic atomization part and [Fig. 18] shows the structure explanatory diagram of the base device; The electrostatic discharge of the seventh embodiment of the electrostatic discharge according to the seventh embodiment is schematically shown in a schematic diagram of a structure according to the present atomization system; BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a schematic view showing another configuration example of the atomization system of the present invention. [Description of main components] 1 to electrostatic atomizer; 1 to 1 to wireless receiving unit; 1 to 2 to electrostatic spray operation control unit; 30 201117842 1-3~PLC receiving unit; Bu 4~ electrostatic spray operation control unit; 2~ electrostatic atomization unit; 2a~ joint projection; 2b~ power cord connection terminal part; 3~ wall socket; 3a - - plug power supply Seat 3b--joining projection; 4 mounting frame; 4a~ opening; 4b^-flange; 4c' - joint hole; 4d - - screw hole; 5 ~ cover; 5a ~ opening; 6 ~ discharge electrode; 6a ~ tip end; 6 b ~ base end; 7 ~ counter electrode; 7a ^ ^ release hole; 7b~ Inner surface; 8~ liquid supply part 9~ high pressure application part 10a t~cooling part; 31 201117842 11~ guard part; 12~ input control part; 13~ switch; 14~ switching element; 1 5~lighting part; 1 6~ Control unit; 17~ electrostatic spray operation control unit; 18~ timekeeping unit; 1 9~ motion sensor; 2 0~ motion detection and processing unit; 21~ switch; 2 2~ three-terminal switch; 23~ switching element; ~ Input control section; 2 5~ dial; 2 6~ tick mark; 26~ control section; 2 7~ input control section; 28~ control section; 29~ operation command signal generation section; 3 0~ wireless transmission section; ~ distribution panel; 3 2~ control unit; 33~ operation command signal generation unit; 32 201117842 34~PLC transmission unit; 37- / distribution panel; 40- / electrostatic atomizer; 42- / electrostatic atomization unit; / electrostatic sprayer; 52- " electrostatic atomization; 60- / electrostatic spray Mist; 62, / electrostatic atomization; 70 ~ electrostatic sprayer; 72, / electrostatic atomization; 80A ~ power circuit; 80B ~ power circuit; 80C ~ power circuit; 100 ~ electrostatic atomization system; Electrostatic atomization system; d~ diameter; E~ commercial power supply; L~ lighting equipment; R~ room; T1~ set time; T2--established time; and T1-T3~ terminal. 33