M415757 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種壓電裝置之設計,特別是關於一 種具有散熱導引功能之壓電震盪裝置。 【先前技術】 利用壓電陶竞(Piezoelectric Ceramic)通電而產生震 動之裝置包含有,例如:超音波清洗裝置、超音波熔接 裝置、乳化裝置等。其中超音波清洗是一種無污染的清 洗方法’利用超音波在液體中的空化效應達到清洗目 的’超音波在液體中能加速溶解,除氣效果也非常顯 著’故此被廣泛應用在機械、電子、醫療、化學等領域。 超音波的洗淨原理是利用超音波裝置(Uhras〇nic Cleaner)發出高頻震盪信號,通過一轉換器轉換成高頻 機械震盪,並在清洗液體中散播,使得液體流動產生數 以萬計的微小氣泡,這些氣泡在超音波傳播過程所形成 的負壓區中成型、生長,並在正壓區中迅速閉合。此過 程可產生1000個大氣壓的瞬間高壓,且連續不斷,稱 之為空化效應(Cavitation)。就像—連串爆炸,不斷沖擊 物體表面及縫隙,可將附著在物件表面及死角細縫之污 垢打散,達到清洗的效果。M415757 V. New description: [New technical field] This creation is about the design of a piezoelectric device, especially regarding a piezoelectric oscillation device with a heat-dissipating guiding function. [Prior Art] A device that generates vibration by energization of Piezoelectric Ceramic includes, for example, an ultrasonic cleaning device, an ultrasonic welding device, an emulsifying device, and the like. Ultrasonic cleaning is a non-polluting cleaning method. Utilizing the cavitation effect of ultrasonic waves in the liquid to achieve the purpose of cleaning. Ultrasonic waves can accelerate the dissolution in liquids, and the degassing effect is also very significant. Therefore, it is widely used in machinery and electronics. , medical, chemical and other fields. Ultrasonic cleaning principle is to use the ultrasonic device (Uhras〇nic Cleaner) to emit high-frequency oscillation signals, which are converted into high-frequency mechanical oscillations by a converter and spread in the cleaning liquid, so that the liquid flow generates tens of thousands of Microbubbles that are shaped, grown, and rapidly closed in the negative pressure zone formed by the ultrasonic propagation process. This process produces an instantaneous high pressure of 1000 atmospheres and is continuous, called the Cavitation. Just like a series of explosions, constantly impacting the surface and gaps of the object, it can disperse the dirt attached to the surface of the object and the slits of the dead angle to achieve the cleaning effect.
經焊頭接觸塑膠工 ,並形忐良好外觀。 件之加工部位’得以將該部位炫合,The welder contacts the plastic worker and has a good appearance. The processed part of the piece can be dazzled by the part,
3 M415757 (Mechanical Effect)、對流運輸(Convective Transport or Streaming)與空化效應(Cavitation Effect)等。 【新型内容】 本創作所欲解決之技術問題 壓電陶究係在通電的情況下會有震動效應的產 ^,然,,壓電陶瓷產生震動的同時必然會產生熱能, ,度越高,壓電陶瓷的壓電性會逐漸減弱,高於一特定 $度(居禮溫度)時,甚至會造成壓電陶瓷永久喪失壓電 * ’ ^者,由於壓電陶瓷係靠通電而產生震動,故通電 現壓象電陶鐵的溫度也越高,會造成去極 果就丨電陶瓷產生震動的裝置來說,散熱效 侍極為重要,但是,現今市面上戋已八開的f立 波洗淨裝詈#、为士从,丨叫工4匕公開的超曰 效的具體改良特別針對賴這方面提出實質且有 二端ίί電波^淨裝置放置於清洗槽時,其 有相同極後’係同時產生具 桿中之你同,此一震盪模態雖然可使置於清洗 玲中之物件達到清洗的目 、 洗淨效果以及更声卩…法達到更趨完美的 緣此,本及細㈣物件清洗面積。 功能之壓電二的即是提供-種具有散熱導引 體結構因工作時所 二,裝置的整 音波變化b“,"Μ —出而導致超 之壓電it# 散熱導引功能 糸叮應用於各__電喊之超音 4 波震動裴置β 向之之另-目的是提供Κ “ τη 之雳動的壓電震盪裝置,藉由姦广產生不同極化方 及廣震得洗淨效果及物產以 本創作題之技術手段 係Α 創作為解決習知技術之門# 盪具有散熱導引功能之曾所採用之技術手段 “件=有—金屬容置構件裝置’該壓電震 。壓電構件設置在金屬電構件及-散熱導 引構件包括有複數個散熱導?丨^構,之内,而散熱導 片具有一第一熱導連接端及—第—每一個散熱導引鳍 導連接端係設置在壓電構件之外=導連接端’第-熱 端係連接金屬容置構件之内壁面,而第二熱導連接 壓電控制訊號而產生具有特定極化/方壓電構件係藉由 電構件因震動所產生之熱能係向之震動’以及壓 導至金屬容置構件之外壁面。政”、、導引構件而傳 在本創作之一實施例中, 執導引鰭片係環狀設置在壓電構件的^構件之各個散 散熱導引鰭片之間具有一間距。 '外表面’且每一個 在本創作之一實施例中,散熱導 熱導弓1鰭片係螺旋地間隔設置在壓電構件的外個散 在本劍作之-實施射,壓€構件電 ° 電 控制裝置,壓電控制裝置係產生壓電控_ 構件,藉以控制壓電構件。 一至壓電 在本創作之-實施例中,金屬容置構 金屬材質、〆不鏽鋼金屬材質、一鋁金屬材質二’ 屬材質或任何一具有熱傳導之金屬材質。 β,3 M415757 (Mechanical Effect), Convective Transport or Streaming and Cavitation Effect. [New content] The technical problem that the creative institute wants to solve is that the piezoelectric ceramics will have a vibration effect when it is energized. However, when the piezoelectric ceramic generates vibration, it will inevitably generate heat energy, and the higher the degree, The piezoelectricity of piezoelectric ceramics will gradually weaken. When it is higher than a certain $degree (the temperature of the courtesy), the piezoelectric ceramics may even be permanently lost. [Piezoelectric ceramics are vibrated by energization. Therefore, the higher the temperature of the electric current, the higher the temperature of the electric ceramic iron, the more it will cause the vibration of the electric ceramics. The heat dissipation effect is extremely important, but nowadays, the f-wave washing equipment has been opened in the market.詈#, 士 从, 丨 工 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 匕 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体 具体Produce the same in the rod, this oscillating mode can make the objects placed in the cleaning linger clean, the washing effect and the more hoarse... The method is more perfect, this and the fine (4) objects Cleaning area. The function of the piezoelectric two is to provide a type of heat-dissipating guide body structure due to the second operation, the device's whole sound wave changes b ", " Μ - resulting in super-piezoelectric it# heat conduction guiding function糸叮It is applied to each of the __ electric shouting supersonic 4 wave vibration set to the other side - the purpose is to provide Κ " τη 雳 的 的 的 的 的 的 压电 τ 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 产生 产生 产生 产生 产生 产生 产生 产生The net effect and the product are based on the technical means of this creation. The creation is the door to solving the conventional technology. The technical means used by the swaying heat-dissipating function is "the piece = the metal-receiving member device". The piezoelectric member is disposed on the metal electrical component and the heat dissipation guiding member includes a plurality of heat dissipation guides, wherein the heat dissipation guide has a first thermal conduction connection end and - each of the heat dissipation guides The fin lead connection end is disposed outside the piezoelectric member = the lead connection end 'the first hot end is connected to the inner wall surface of the metal receiving member, and the second thermal guide is connected to the piezoelectric control signal to generate a specific polarization/square pressure The electrical component is caused by the thermal energy generated by the electrical component due to vibration The vibration 'and the pressure guiding to the outer wall surface of the metal accommodating member. The directional", and the guiding member are transmitted in an embodiment of the present invention, and the guiding fins are annularly disposed on the respective members of the piezoelectric member. There is a gap between the heat dissipation guide fins. 'Outer surface' and in each of the embodiments of the present invention, the heat-dissipating heat-conducting guide fins 1 are spirally spaced apart from each other in the outer part of the piezoelectric member - the implementation of the injection, the pressure of the component The control device, the piezoelectric control device, generates a piezoelectric control member to control the piezoelectric member. In the case of the present invention, the metal is made of a metal material, a stainless steel metal material, an aluminum metal material, or any metal material having heat conduction. β,
M415757 I 含有-金屬容置構件、二個壓;; 件。金屬容置構件包括-金屬連接部及_ 熱導引構 屬連接部之二端的金屬容置部,而壓電=連接於金 金屬容置部之内,散熱導引構件設置在壓 散熱導引鰭片具有-第-熱導連接端及1 J端,第-熱導連接端係設置在壓電構件之第::導= 第二熱導連接端係連接金屬容置部之 卜表面而 壓電構件係藉由壓電控制訊號而分 面,其中二個 極化方向之震動,以及其中二個壓電 具有一特定 之熱能係經由散熱導引構件而傳導震動所產生 壁面。 埒導至金屬容置部之外 在本創作之一實施例中,散熱導 熱導引鰭片係環狀設置在壓電構件的 冓件之各個散 散熱導引鰭片之間具有一間距。 表面,且每一個 在本創作之一實施例中,散熱 熱導引鰭片係螺旋地間隔設置在壓 牛之各個散 在本創作之-實施例中,:電外表面。 接壓電控制裝置,壓電控制裝置係 糸分別電性連 至該壓電構件,藉以控制該壓電構件。該壓電控制訊號 在本創作之一實施例中,去— 接收壓電控制訊號時,其中一個H垫電構件係同時 極化方向係為一緊縮極化方向,以及2之震動之特定 件之震動之特粒化方向係為 ^時另i虔電構 經由本創作所採用之技術 件係設置在壓電構件的外表面,且二5於散熱導弓I 且政熱料構件之熱 本創作對照先·術之魏 尹、張極化方向。 弓i構 導M415757 I contains - metal receiving member, two pressure; The metal accommodating member includes a metal connecting portion of the metal connecting portion and the _ heat guiding structure connecting portion, and the piezoelectricity is connected to the gold metal accommodating portion, and the heat dissipating guiding member is disposed at the pressure dissipating guide The fin has a first-thermal conduction connection end and a 1 J end, and the first-thermal conduction connection end is disposed on the piezoelectric member: the second conductive connection end is connected to the surface of the metal receiving portion and pressed The electrical component is surfaced by a piezoelectric control signal, wherein two polarization directions are vibrated, and two of the piezoelectrics have a specific thermal energy that conducts vibrations through the heat dissipation guiding member to generate a wall surface. Leading to the outside of the metal receiving portion In one embodiment of the present invention, the heat-dissipating heat-guiding fins are annularly disposed with a spacing between the respective heat-dissipating guide fins of the member of the piezoelectric member. Surfaces, and in each of the embodiments of the present invention, the heat-dissipating heat-guiding fins are helically spaced apart from each other in the embodiment of the embossing, in the embodiment: an electrical outer surface. Connected to the piezoelectric control device, the piezoelectric control device is electrically connected to the piezoelectric member, respectively, thereby controlling the piezoelectric member. In one embodiment of the present invention, the piezoelectric control signal is used to receive a piezoelectric control signal, wherein one of the H-pad components is simultaneously polarized in a direction of polarization, and the specific component of the vibration of 2 The special granulation direction of the vibration is ^ when the other electrical structure is set on the outer surface of the piezoelectric member through the technical part used in the creation, and the heat is created by the heat conduction guide I and the thermal component In contrast to the first, the Wei Yin, Zhang polarization direction. Bow i
M415757 I 連接端係接觸在金屬容置構件之内壁面,而包括有複數 個散熱導引鰭片之散熱導引構件可環狀設置或螺旋地 間隔設置在壓電構件的外表面,使得壓電構件因震動所 產生的熱能可藉由各個散熱導引鰭片迅速傳達到金屬 容置機構的金屬壁面,有效改善習知壓電陶瓷裝置因工 作時產生熱能無法順利排出而導致超音波出現不穩定 的缺點。 由於散熱的問題得以有效解決,故本創作利用壓 電陶瓷產生震動之裝置,例如:超音波清洗裝置、超音 波熔接裝置、乳化裝置的產品生命週期將更為持久,此 外,超音波清洗裝置的清洗效果或是超音波熔接裝置、 乳化裝置的熱處理效果也因熱能有效傳導及利用而更 加明顯,進而使得裝置的工作效率提高。 再者,當本創作之壓電震盪裝置係用作為超音波 洗淨裝置時,其二端之壓電陶瓷在接收高頻震盪信號 後,藉由具有不同極化方向之震動而產生不同的振幅堆 疊,亦即,其震動方向頻率相異,產生更複雜及更多型 態的震動方向,使得此一震盪模態達到更好的洗淨效果 以及更廣闊及細微的物件清洗效果。 本創作所採用的具體實施例,將藉由以下之實施 例及附呈圖式作進一步之說明。 【實施方式】 參閱第1圖所示,其係顯示本創作之一實施例之局 部立體圖。本創作之具有散熱導引功能之壓電震盪裝置 100包含有一金屬容置構件1、一壓電構件2及一散熱 導引構件3。壓電構件2設置在金屬容置構件1之内, 而散熱導引構件3包括有複數個散熱導引鰭片31,各 7 M415757 個散熱導引韓片31传淨感-雨 面,且每-個散熱導==電有=的再:表 -第二熱導連接端312,笛U ,導連接端311及 壓電構件2之外表面 接端311係設置在 丨_件係連接金 二熱導連接端312係、向外凸伸而頂抵金屬第 内壁面’使得散熱導引韓片31 _ =置構件1之 置構件1與壓f構件2之間。〜Q也連接在金屬容 在本實施例中,金屬容置構件 質、一不鏽鋼金屬材質、一鋁 ’、為鈦金屬材 或任何-具有熱傳導之金屬材f。一銅金屬材質 本創作之壓電震盪裝置1〇〇 裝置4,其係電性連接 更广有-壓電控制 在本創作之壓電震盈裝置電:牛作2動裝置4係 波頻率的震盪。使用時,在壓構件2產生超音 壓電控制訊號S1(高週波雷構牛之銀電極上加上 件2之共振頻上 流的頻率與壓電構 共振而產生超音波门而2中之震動子 〇告ς u古、《丄 s寬控制裝置4調整壓雷批 制訊被S1U週波電流)之頻率可產生^控 動,每個頻率都會產生且右 士應該頻率之震 外,在本創作中H構Γ2=化方向之震動。此 率,並可穩定產生=構件2擁有报高的能量轉換效 當本創作之壓電震盪裴置】 波清洗裝置、超音波熔接裝晋qπ肤應用在例如.超音 在下文中詳細說明),經::二,裝置中時(將 產生愿電控制訊號控制裝置4 翌電構件2,壓電構件2會產 8 M415757 ^ =特定極化方向之震動’而壓電構件2因震動所產 之熱能可迅速地經由散熱導引構件3 導引鰭片31傳導至金屬容置構件丨之壁面。 …、The M415757 I connection end contacts the inner wall surface of the metal receiving member, and the heat dissipation guiding member including the plurality of heat dissipation guiding fins may be annularly disposed or spirally spaced on the outer surface of the piezoelectric member, so that the piezoelectric The thermal energy generated by the vibration of the component can be quickly transmitted to the metal wall of the metal receiving mechanism by the respective heat-dissipating guide fins, thereby effectively improving the instability of the conventional piezoelectric ceramic device due to the heat energy generated during operation. Shortcomings. Since the problem of heat dissipation can be effectively solved, the creation of the device using piezoelectric ceramics for vibration, such as: ultrasonic cleaning device, ultrasonic welding device, and emulsifying device, the product life cycle will be more durable, in addition, the ultrasonic cleaning device The cleaning effect or the heat treatment effect of the ultrasonic welding device and the emulsifying device is also more obvious due to the effective conduction and utilization of the heat energy, thereby improving the working efficiency of the device. Furthermore, when the piezoelectric oscillating device of the present invention is used as an ultrasonic cleaning device, the piezoelectric ceramics at both ends thereof generate different amplitudes by receiving vibrations of different polarization directions after receiving the high-frequency oscillation signal. Stacking, that is, the vibration direction frequency is different, resulting in a more complex and more type of vibration direction, so that this oscillation mode achieves better cleaning effect and a wider and finer object cleaning effect. The specific embodiments used in the present application will be further illustrated by the following examples and accompanying drawings. [Embodiment] Referring to Fig. 1, there is shown a partial perspective view of an embodiment of the present creation. The piezoelectric oscillation device 100 having the heat dissipation guiding function of the present invention comprises a metal receiving member 1, a piezoelectric member 2, and a heat dissipating guiding member 3. The piezoelectric member 2 is disposed inside the metal receiving member 1, and the heat dissipating guiding member 3 includes a plurality of heat guiding guide fins 31, and each of the 7 M415757 heat guiding guides 31 transmits a net feeling-rain surface, and each - a heat conduction guide == electric has = again: the table - the second thermal conduction connection end 312, the flute U, the conductive connection end 311 and the outer surface end 311 of the piezoelectric member 2 are arranged in the 丨_piece system connection The guiding connection end 312 is protruded outwardly and abuts against the metal inner wall surface ′ so that the heat dissipation guides the Korean piece 31 _ between the member 1 of the member 1 and the pressing member 2 . 〜Q is also connected to the metal. In the present embodiment, the metal accommodating member, a stainless steel metal material, an aluminum alloy, or a titanium metal material or any metal material having heat conduction f. A copper metal material The piezoelectric oscillating device 1 〇〇 device 4 of the present invention has a wider electrical connection. Piezoelectric control is applied to the piezoelectric shock device of the present invention: the electric wave of the cattle is 2 Shock. In use, the supersonic piezoelectric control signal S1 is generated in the pressing member 2 (the frequency of the upper frequency of the resonant frequency of the high-frequency wave of the bull's silver electrode is added to the resonance of the piezoelectric element to generate a supersonic wave and the vibration in the second 〇 〇 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古 古Medium H configuration 2 = vibration of the direction. This rate, and can be stably generated = the energy conversion effect of the component 2 has a high value. The piezoelectric oscillating device of the present invention] the wave cleaning device, the ultrasonic splicing device, for example, the supersonic is described in detail below) After:: 2, in the device (the electrical control signal control device 4 will be generated, the piezoelectric member 2 will produce 8 M415757 ^ = vibration in a specific polarization direction) and the piezoelectric member 2 is produced by vibration. The heat energy can be quickly conducted to the wall surface of the metal accommodating member 经由 via the heat guiding member 3 to guide the fins 31.
參閱第2圖所示,其係顯示本創作之另—實施例 之局部立體圖。本實施例之壓電震盪裝置1〇〇a之組成 兀件與上述實施例相同,故相同之元件乃標示以相同之 70件編號,以資對應。其差異在於本實施例中之散熱導 引構件3a之各個散熱導引賴片31a係螺旋地間隔設置 在壓電構件2的外表面,同樣地,散熱導引鰭片31a包 括有一第一熱導連接端311a及一第二熱導連接端 312a,此一結構設計同樣地能將壓電構件2因震動所產 生的熱能迅速導引至金屬容置構件1之壁面,達到散熱 的效果。 •…Referring to Fig. 2, there is shown a partial perspective view of another embodiment of the present invention. The components of the piezoelectric oscillating device 1A of the present embodiment are the same as those of the above embodiment, and the same components are denoted by the same 70-piece numbers. The difference is that the heat dissipation guiding sheets 31a of the heat dissipation guiding member 3a in the embodiment are spirally spaced apart from the outer surface of the piezoelectric member 2. Similarly, the heat dissipation guiding fins 31a include a first thermal conduction. The connecting end 311a and the second heat conducting connecting end 312a are similarly designed to rapidly guide the thermal energy generated by the piezoelectric member 2 due to the vibration to the wall surface of the metal receiving member 1 to achieve the heat dissipating effect. •...
同時參閱第3至第5圖所示,第3圖係顯示本創 作之實際應用之一之剖面示意圖,第4圖係顯示本創作 之實際應用之一之立體示意圖’第5圖係顯示本創作之 實際應用之一之波形圖。此一實施例係顯示壓電震盛裝 置100b係為具有超音波清洗功能之超音波清洗裝置。 其中金屬容置構件lb包括一金屬連接部η及二個分別 連接於金屬連接部11之二端的金屬容置部12,一引導 構件13係延伸設置於二個金屬容置部12之内且通過金 屬連接部11,再者,金屬容置構件lb係為管狀金屬結 構,而金屬連接部11可為實心結構或中空結構。 二個壓電構件2b分別設置在二個金屬容置部12 之内並電性連接引導構件I3。而散熱導引構件3b係可 環狀設置或螺旋地間隔設置在壓電構件2b之外表面。 再者,金屬容置部12具有一插接開口 121,壓電控制 裝置4係可通過插接開口 121並經由弓丨導構件13電性 9 M415757 t 連接壓電構件2b,置 控制訊號S卜並經由引:控制裝置4係可產生壓電 2b ’藉以控制壓電構件2攝件13分別傳送至壓電構件 導構件U除了可當訊號=動。在本實施财1 接麼電構件2b轉電媒介之外,亦可當作連 過之媒介(圖未顯Ϊ ]以4之間的—電線由此經 當操作者將本實施例之壓電震盪裝置1〇〇b置入至 -清洗液體中而對-待洗物進行超音波洗淨時,首先, 經由操作壓電控制裝置4而使得其產生壓電控制 S1,壓電控制訊號S1傳送至壓電構件2b,壓電構件孔 在收到壓電㈣減S1時會分财生超音波振動。 如同第5圖戶斤示,二個墨電構件2b分別收到壓電 =S1時’其中一個,構件之震動之 電 方向係為一緊縮極化方向Μ ’以及同時另一個 件之震動之特定極化方向係為1張極化方向Α2 圖可知,在同-時間點,二個髮電構件 波Wl、W2係在同一個時間點上1士^ 1 ^ (-個緊縮及另一個擴張)。亦c二= 造成不同的震賴態’進錢4_振 ^ 清洗液體中之更複雜、更多型一震動方 =See also Figures 3 to 5, Figure 3 is a schematic cross-sectional view showing one of the practical applications of this creation, and Figure 4 is a perspective view showing one of the practical applications of the creation. A waveform diagram of one of the practical applications. In this embodiment, the piezoelectric vibration device 100b is an ultrasonic cleaning device having an ultrasonic cleaning function. The metal accommodating member 1b includes a metal connecting portion η and two metal accommodating portions 12 respectively connected to the two ends of the metal connecting portion 11. The guiding member 13 extends through the two metal accommodating portions 12 and passes through Further, the metal connecting portion 11b is a tubular metal structure, and the metal connecting portion 11 may be a solid structure or a hollow structure. The two piezoelectric members 2b are respectively disposed in the two metal accommodating portions 12 and electrically connected to the guiding member I3. The heat radiation guiding members 3b are annularly disposed or spirally spaced apart from the outer surface of the piezoelectric member 2b. Furthermore, the metal receiving portion 12 has a plug opening 121, and the piezoelectric control device 4 can connect the piezoelectric member 2b through the plug opening 121 and via the bow guide member 13 to electrically control the signal Sb. And through the control device 4, the piezoelectric device 2b can be generated to control the piezoelectric member 2 to be respectively transferred to the piezoelectric member guide member U except for the signal = movement. In addition to the electrical medium of the present invention, it can also be used as a medium to be connected (the figure is not shown) to be between the wires - thus the operator will use the piezoelectric of the embodiment. When the oscillating device 1〇〇b is placed in the cleaning liquid to ultrasonically wash the to-be-washed material, first, the piezoelectric control device 4 is operated to generate the piezoelectric control S1, and the piezoelectric control signal S1 is transmitted. To the piezoelectric member 2b, the piezoelectric member hole will be subjected to ultrasonic vibration when receiving the piezoelectric (four) minus S1. As shown in Fig. 5, when the two ink-electric members 2b receive the piezoelectric=S1 respectively In one of them, the electrical direction of the vibration of the component is a direction of polarization Μ ' and the specific polarization direction of the vibration of the other component is 1 polarization direction Α2. It can be seen that at the same time point, two power generations The component waves W1 and W2 are at the same time point 1 士 ^ 1 ^ (--one contraction and another expansion). Also c 2 = cause different shock states 'into the money 4_ vibration ^ more complex in the cleaning liquid More types of vibrations =
廣闊及細微的清洗效果。 H 產生㈣能可藉由二個 ,㈣之二個金屬容置部12的壁面而迅^ 散熱,有效地將熱能排出’且因散熱導 在壓電構件2b及金屬容置部12之内壁面之間, 的配置結構有效改善因產生熱能而導 出、= 穩定的缺點。 曰疚出現不 10 參閱第6圖所示,其係顯示本創作 一之立體示意圖。此一實施例係顯示壓電 用之 :際應用在超音波熔接裝置中。在超音波熔‘ 100c 中,壓電震盪裝置1〇〇c係設置在如圖示 、置5 樣包括有金屬容置構件、壓電構件、散 姓其同 =褒置(圖未顯示),藉由訊號控制愿==壓 構:ίί::因,速震動所產生的熱能經由金屬Ϊ置 構件及其他辅助導引構件傳導至焊頭51 /置 咼溫焊接塑膠工件之加工部位(圖未顯 =51 部位熔合。 )以將該加工 一 „ 7圖所示’其係顯示本創作之實際應用之 二之立體不意圖。此一實施例係顯示壓電震盪裴 實際應用在乳化裝置中。在乳化裝置6中,壓電 置I00d係設置在如圖示之位置,其同樣包括有金屬^ 置構件、壓電構件、散熱導引構件及壓電控制裝置(圖 未顯示)’同樣地,藉由訊號控制壓電構件高速^動, 使得乳化頭61因高速震動、高溫而將不相溶的二相物 質(例如:油脂、溶液)進行、攪拌、乳化而製備成乳化 物。 由以上之實施例可知’本創作所提供之具有散熱 導引功能之壓電震盪裝置確具產業上之利用價值,故^ 創作業已付合於專利之要件。惟以上之敘述僅為本創作 之較佳實施例說明,凡精於此項技藝者當可依據上述之 說明而作其它種種之改良,惟這些改變仍屬於本創作之 創作精神及以下所界定之專利範圍中。 【圖式簡單說明】 第1圖係顯示本創作之一實施例之局部立體圖。 M415757 第2圖係顯示本創作之另一實施例之局部立體圖。 第3圖係顯示本創作之實際應用之一之剖面示意圖 第4圖係顯示本創作之實際應用之一之立體示意圖 第5圖係顯示本創作之實際應用之一之波形圖。 第6圖係顯示本創作之實際應用之二之立體示意圖 第7圖係顯示本創作之實際應用之三之立體示意圖 【主要元件符號說明】 100、100a、100b、100c、100d 壓電震盪裝置 1、lb 金屬容置構件 11 金屬連接部 12 金屬容置部 121 插接開口 13 引導構件 2 ' 2b 壓電構件 3、3a、3b 散熱導引構件 31、31a、31b 散熱導引鰭片 311 、 311a 第一熱導連接端 312 ' 312a 第二熱導連接端 4 壓電控制裝置 5 超音波熔接裝置 51 焊頭 6 乳化裝置 61 乳化頭 A1 緊縮極化方向 12 M415757 A2 擴張極化方向 SI 壓電控制訊號 13Wide and subtle cleaning effect. H generates (4) heat can be dissipated by the wall surfaces of the two metal receptacles 12, and the heat energy is efficiently discharged, and is guided by the heat dissipation on the inner wall surface of the piezoelectric member 2b and the metal housing portion 12. The configuration between the two is effective in improving the disadvantage of being derived from the generation of thermal energy and being stable.曰疚 appears not 10 See Figure 6, which shows a three-dimensional diagram of this creation. This embodiment shows the use of piezoelectrics in the application of ultrasonic welding devices. In the ultrasonic fuse '100c, the piezoelectric oscillating device 1〇〇c is disposed as shown in the figure, and includes a metal accommodating member, a piezoelectric member, and a dislocation (not shown). By signal control will == pressure structure: ίί:: Because the thermal energy generated by the rapid vibration is transmitted to the processing head of the welding head 51 / the temperature-welded plastic workpiece through the metal argon member and other auxiliary guiding members (Fig. The fusion of the portion 51 is shown in Fig. 7 which shows the practical application of the second embodiment of the present invention. This embodiment shows that the piezoelectric oscillation is actually applied in the emulsifying device. In the emulsifying device 6, the piezoelectric device I00d is disposed at a position as shown, which also includes a metal member, a piezoelectric member, a heat dissipating guide member, and a piezoelectric control device (not shown). By controlling the high-speed movement of the piezoelectric member by the signal, the emulsification head 61 is prepared by mixing, stirring, and emulsifying the incompatible two-phase substance (for example, oil and fat, solution) due to high-speed vibration and high temperature. The example can be seen as 'this creation The piezoelectric oscillating device with the heat-dissipating guiding function has the industrial value, so the operation has been paid for the patent. However, the above description is only for the preferred embodiment of the present invention. The artist may make other improvements according to the above description, but these changes still belong to the creative spirit of the creation and the scope of patents defined below. [Simplified illustration] Figure 1 shows one implementation of this creation. A partial perspective view of an example. M415757 Fig. 2 is a partial perspective view showing another embodiment of the present creation. Fig. 3 is a schematic cross-sectional view showing one of the practical applications of the present invention. Fig. 4 shows one of the practical applications of the present creation. Fig. 5 is a waveform diagram showing one of the practical applications of the present invention. Fig. 6 is a perspective view showing the practical application of the present invention. Fig. 7 is a perspective view showing the practical application of the present invention. DESCRIPTION OF SYMBOLS] 100, 100a, 100b, 100c, 100d Piezoelectric oscillation device 1, lb Metal accommodating member 11 Metal connection portion 12 Metal accommodating portion 121 Opening 13 guiding member 2' 2b piezoelectric member 3, 3a, 3b heat-dissipating guiding member 31, 31a, 31b heat-dissipating guiding fin 311, 311a first heat-conductive connecting end 312' 312a second heat-conductive connecting end 4 piezoelectric Control device 5 Ultrasonic welding device 51 Welding head 6 Emulsifying device 61 Emulsifying head A1 Tightening polarization direction 12 M415757 A2 Dilation polarization direction SI Piezoelectric control signal 13