201126118 六、發明說明: 【發明所屬之技術領域】 ,發明疋’-種減振結構與其應用之空調系統,尤指 =空調系統巾配管與殼體_對振軸度,進而達㈣音降低 者0 * 【先前技術】 統在時’其玉作元件包括壓201126118 VI. Description of the invention: [Technical field to which the invention belongs], the invention of the air-conditioning system of the vibration-damping structure and its application, especially the air-conditioning system towel piping and the housing _ the vibration axis, and then the (four) tone reduction 0 * [Prior Art] At the time of the time, its jade components include pressure
:生導致蒸發器亦 〜_“二 本θ干擾。在S知技藝中,為了減輕配 二配^用,田二二用橡’重塊固定於配管,再加上消音器的 。-,β大致解決配管振動引發噪音之問題。 纟,現嫩雜系統 冷媒所造成管流壓力的h5倍;換句話說, R-4·冷媒的使用會令配管振動的情形進一步加劇。 接配重橡膠配重塊為因應對策,由於橡膠配重塊直 力电超過上限值,會树i管^^ 題 的對策解決R-4I0A冷媒帶來的配管振動加 【發明内容】 調夺统,俜的.’即是在提供一種減振結構與其應用之空 處措由減振結構之至少一第一減振體連結一減振平台,並固定 201126118 體,藉構之至4 ―第二減振财賊振平台與殼 體精此將配官連結固定於殼體以減低配: 幅度,進-㈣少魏鱗功元㈣送 其應用之空調系統產生較少噪音。 -,、、發益之振動置’使 ^發明之另-目的,在於提供一種減振結構, 人工搬ί時=生1震,降低載具移動或 本^种’空調系統由至少一殼體所包覆,並且包含至少一 振==—=及至少—減振結構。工作元件可為壓縮機,減 =、、·。構包广減振平台、至少—第—減振體以及至少—第 平台振體結合減振平台細定配管,第二減振體連接減振 以及實Γ減振體更包含一第一減振橡膠 —^ ,、中第減振橡膠更包含一夾合部以夾合固 疋配官,m定件將第—減振轉目定於減振平台。 σ 在本發明之一實施例中,第-減振體更包含-第-減振橡膠 少’合件’、其中第—減振橡膠更包含—套合部以套ί固 疋配官,夾合件自減振平台延伸以將第—減振橡㈣合固定於減 振平台。 ' a八在t發明之一實施例中’第—減振體為-第-減振橡膠,並 03-弟一導軌’減振平台包含二第二導執,其中第一導轨係可 滑動地結合於導軌’贿第—減振橡膠可祕地結合於減振: Produce the evaporator also ~ _ "two θ interference. In the S knowing skills, in order to reduce the use of the two, ^ Tian Er two with the 'heavy' fixed to the pipe, plus the silencer. -, β It roughly solves the problem of noise caused by vibration of the piping. 纟, the pressure of the pipe flow caused by the refrigerant in the tender system is h5 times; in other words, the use of R-4·refrigerant will further aggravate the vibration of the pipe. The weight is the countermeasure, because the rubber counterweight straight-through power exceeds the upper limit, the countermeasures of the problem will be solved by the R-4I0A refrigerant. [Summary of the invention] 'That is to provide a vibration damping structure and its application space to at least one first damping body of the damping structure to connect a damping platform, and fix the 201126118 body, by the structure to the fourth - second vibration thief The vibrating platform and the shell are fixed to the shell to reduce the matching: the amplitude, the in-fourth and the less the scales work element (4) to send the air conditioning system to the application to generate less noise. -,,, Another object of the invention is to provide a vibration damping structure, artificially moving ί = = 1 earthquake, reduce the movement of the vehicle or the 'air conditioning system is covered by at least one casing, and contains at least one vibration ==-= and at least-damping structure. The working element can be a compressor, Subtracting =,, ·. Constructing a wide damping platform, at least - the first damping body and at least - the platform vibration body combined with the damping platform fine-tuning piping, the second damping body connecting the damping and the actual damping body The first damping rubber Φ, the middle damping rubber further comprises a clamping portion for clamping the solid locating, and the m fixing member aligns the first damping vibration to the vibration damping platform. σ is in the invention In one embodiment, the first-damper body further comprises a -th-damping rubber less 'combination', wherein the first-damping rubber further comprises a sleeve portion for the sleeve, and the clamp member is self-decreasing The vibrating platform extends to fix the first-damping rubber (four) joint to the vibration-damping platform. 'A eight in one embodiment of the invention, the first-damper body is - the first-damping rubber, and the 03-dipole one guide rail' The vibration damping platform comprises two second guides, wherein the first guide rail is slidably coupled to the guide rail bribe first - the damping rubber is secretly combined with the vibration damping
平台上。同第二減振體係為-第二減振橡軸-減振彈箐中 之一者,並嵌合固定於減振平台上。 只T 在本發明之-實施例中,第—減振體、第二減振體與減振平 台中之至少二者係-體成型m減振體與第二減振體可 -體成型’第-減振體與第二減振體中之一者與減振平台可一體 成型’且第-減振體、第二減振體與減振平台三者也可—體成型。 201126118 同:合二查—委二^ 【實施方式】 -減係應用於一空調系統’該空調系統受至少 =包覆’且包含下列工作元件:一_ 一 3=2脹閥,各I作元件係經由—配管連結。關於i調系 之所ί 2’/ι所屬技術領域者之通常知識而縣發明重點 之所在,故在此不多作贅述。 如第:示本發明第—實施例之管路示意圖。 . 不,一二凋糸統10〇包含二減振結構1與la、複數 本實施例中為-_、-冷㈣、-ίί ⑨發Θ 3)與至少—肋連結各王作元件之配。 運Γ ’上触1作元件艇指各财工作時會產生振動 可為—加、—加壓馬達或其他紅作時會產 Χ之工作70件,且減振結構係連接於-殼體200 (標示於第 -圖)〇 、不 Υ私當^系統觸運作時,壓縮機2、冷縮器〜膨脹元件%、 1益3專工作元件之振動會傳遞至配管4,使配管*相對於各 2几件或殼Μ以-相對振動幅度產生振動,並因而產生噪立 in。為I減低配管4之相對於各工作元件或殼體間s 可在連結於#作元件之配管4裝設本發明之減振 mr由於在空調系統100之所有工作元件中,漫 成配管4相對於各卫作元件或殼體間之相對 ==大;因此,可將減振結構1設置於連結於壓縮機2與 ί ΐ ^並可將減振賴la設置树肖__ 2 與冷—2a間之配管4。在實務運用上,當配管4跨接各 201126118 距過長時,亦會產生較大之振動輕音;目此,在配管 _ 叙跨财減,或在上述之姆幅度較大 ^。亦可k本發明之減減構丨,細減低上述之相對振動幅 处構第二圖’其係顯示本發明第一實施例中之減振 、.,。構與配官之外觀結構圖。如第二圖所示,上 減與lla、四個第二減振體(第四圖中健i =接:二苐―減振體12、12&與121))以及一減振平台i3。其中, 為;具有較高剛性之剛性板件’如金_ 以及H施ίΓ,第一減振體11包含一第一減振橡膠⑴ 二上:第1=)將其二侧底端鎖固'二振= 上猎此將弟一減振橡膝ln、结合固定於減振平台13。 以將1:= 膠iU具有一夾合部1111,夾合部ΗΗ可樓開 減振橡^ m 其+。在本發明之另—實施態樣中’第一 部(未繪製),套合部可為一通孔,以 並連接減振平台 面、頂而偽πη田二Α者第一減振體12可固定於殼體200之底 200之外「第id。值得—提的是,除了固定於殼體 ㈣固4 ίί 可ττ他外在岐物,如空調 «^ 12 幅度之減振或吸振元件在可減低上述相對振動 減振橡膠。 在本只_中,弟二減振體為第二 體振由於減振結構1將配管4連結固定於殼 體2〇〇麟過弟-減振體u及第二減振體】2依次吸收振動所 S.1 7 201126118 ϋΓ 減配管4相對於工作元件或殼體200間之相對 進而降低振動所產生的噪音。因此,相較於習知技術^ 用;ίίί Α等冷媒會使配管4振動情形加劇,但是,在應 有實施例所提供之減振結構後,仍可藉由減振結構^ 靜:,進⑽持高靜音水準,為制者帶來舒適安 除了上述㈣減構丨外,減減構 =,,合圖式做進一步說明 : Φ Φ ⑼:^^外觀圖。如第= =構5包含減: 1減振目f (在本細种為四個第 5叫與-減^台―其中卿二減振橡膠52、仏與 上底端各 振平台53上具有二個配合於3第^執不其中一弟一導執如。減 511係可滑動地結合於該二第_ 第導軌 滑動地結合於舰平台橡膠51可 度,調整第-趣_51靖於输目對振動幅 ,實際需要,將第―:較佳者’ 度較大處,並利用一鎖固元件 =一4^目對振動幅 定於減振平台53,藉以達到最佳減振效果第—減振橡勝51固 請參閱第四圖,其係顯示本 配管之相對位置關係示意圖。=月^貫,中之減振結構與 ,結構6取代上述之減振結構^ ’係以另- 體61與複數個第二減振體霉減振:構6包含-第-減振 膠’且第四圖僅標示其中m:為複數個第二減振椽 S.1 ^個苐—減振橡膠62)與—減振平台 8 201126118 3第減振體61包含一第一減振橡膠611與一夾合件612。 63 — 第體膠611炎合固定配管4,夾合件612自減振平台 振平台63。6n夹合固定於減 冬二可利用塑膠射出成型的方式達成-體成型之工藝; 5鐘、:二^振平台63係由高剛性之金屬板件所製成時,可利 人件與擠型等成型方式達成—體細之玉藝。另外,夾 631Ϊ _橡和丨之_,細夾合岐p雜橡膠6ιι。 ㈣閱第五圖’其侧林發明第四實施财之減振 ir位置關係示意圖。如圖,在第四實施例中,係 構7取代上述之減振結構1。減振結構7包含一第 減振橡勝複數個第二減振體(在本實施例中為複數個第二 振平X台7'3’。紅圖僅標示其中一個第二減振橡膠72)與一減 減振平台73亦由橡膠所組成,且第 =2與減振平台73係一體成型。其中,二用適當二: 出成型溫度、壓力、添加硬化劑或婦射出成型 手段)使減振平台73具備較高之剛性。此外, 72係開設螺絲孔721以供螺絲穿設其中,藉以將 打領域中具有通常知識者皆能輕易理解, 在本發种’弟-減振體、第二減振體與減振平台當中的至少二 者亦可利用一體成型之工藝加以製作。 讀述,以本發明第—實施例為例,由於減振結構i 100運作時,減低配管4之相對振動幅度,所以 發出之噪音;另—方面,由於減振結構1 可以對財4提供支撐,因此,在運送空娜統⑽的過程中, 2〇ll26lls ίΓΐΐ降域具移_人讀運時所魅之震朗配管4所 。成之知害’進而提升空猶統雇之管路連結良率。 明所述係彻較佳實施例詳細·本㈣,而麵制标 和範圍。 把要義所在’林脫離本發明之精神 綜上所述,本發明實施之具體性, 之發明專利要件,謹請貴審查 ^ ^專利法中所規定 —貝心于審視並賜准專利為禱。 201126118 【圖式簡單說明】 第一圖係顯示本發明第一實施例之管路示意圖; 第二圖係顯示本發明第一實施例中之減振結構與配管之外 觀結構圖; 第三圖係顯示本發明第二實施例中之減振結構與配管之外 觀結構圖; 第四圖係顯示本發明第三實施例中之減振結構與配管之相 對位置關係示意圖;以及 • 第五圖係顯示本發明第四實施例中之減振結構與配管之相 對位置關係示意圖。 【主要元件符號說明】 100 空調系統 200 殼體 1 ' la 減振結構 11 > 11a 第一減振體 111 第一減振橡膠 1111 夾合部 112 金屬固定件 12〜12b 第二減振體 13 減振平台 2 壓縮機 2a 冷縮器 201126118on the platform. The second damping system is one of the second damping rubber shaft-damping magazine and is fixedly mounted on the vibration damping platform. Only T In the embodiment of the present invention, at least two of the first damping body, the second damping body and the vibration damping platform are body-formed, the m damping body and the second damping body are formable. One of the first damper body and the second damper body may be integrally formed with the damper platform, and the first damper body, the second damper body, and the damper platform may be integrally formed. 201126118 同:合二查—委委二^ [Embodiment] - Reduction system is applied to an air conditioning system 'The air conditioning system is at least = covered' and contains the following working elements: one _ one 3 = 2 expansion valve, each I The components are connected via a pipe. Regarding the general knowledge of the technical field of the i's ί 2'/ι, and the focus of the county invention, it is not repeated here. For example, the schematic diagram of the pipeline of the first embodiment of the present invention is shown. No, one or two withering 10〇 includes two damping structures 1 and la, plurals in this embodiment are -_, -cold (four), -ίί 9 hairpins 3) and at least - ribs are connected to each kingpiece component . Γ 'Upper touch 1 is a component of the boat. When the work is done, the vibration can be generated. - Adding, - Pressurizing the motor or other red work will produce 70 pieces of work, and the damping structure is connected to the - housing 200. (marked in the first figure) 〇, 不Υ私当 When the system touches the operation, the vibration of the compressor 2, the cold-shrinkage device~the expansion component%, and the 1-3 special working component is transmitted to the pipe 4, so that the pipe* is relative to Each of the two pieces or shells vibrates with a relative vibration amplitude and thus produces a noise in. The damping vibration mr of the present invention can be installed in the piping 4 connected to the #-component as the I-reducing pipe 4 relative to each working element or the casing s. Since all the working elements of the air-conditioning system 100, the diffusing piping 4 is relatively The relative == large between the various components or the housing; therefore, the damping structure 1 can be placed in the compressor 2 and ί ΐ ^ and the damping can be set to the tree __ 2 and cold - Pipe 4 between 2a. In practice, when the piping 4 is connected to each of the long distances of 201126118, a large vibration and light tone will also be generated; therefore, in the piping _ 〗 〖 cross-finance reduction, or the above-mentioned magnitude is larger ^. It is also possible to reduce the structure of the relative vibration of the present invention and to reduce the vibration of the first embodiment of the present invention. The structure of the structure of the structure and the official. As shown in the second figure, the upper and lower lla, the four second damper bodies (the fourth figure in the figure i = connect: the second 苐 - the damper bodies 12, 12 & and 121)) and a damper platform i3. Wherein, the rigid plate member having a high rigidity such as gold _ and H Γ, the first damper body 11 includes a first damping rubber (1) on the second: the first =) locks the bottom sides of the two sides 'Two vibrations> On the hunter, this younger brother, a damping rubber knee ln, is fixed to the vibration damping platform 13. In order to make the 1:= glue iU have a clamping portion 1111, the clamping portion can be opened to reduce the vibration of the rubber. In another embodiment of the present invention, the first part (not drawn), the fitting portion may be a through hole to connect the vibration damping platform surface and the top portion, and the first damper body 12 may be the first damper body 12 Fixed to the bottom 200 of the housing 200. "The id. It is worth mentioning that, besides being fixed to the housing (four), it is fixed by 4 ίί ττ, and the external damping, such as the air conditioning «^ 12 amplitude damping or vibration absorbing element The above-mentioned relative vibration damping rubber can be reduced. In this case, the second vibration is the second body vibration, and the pipe 4 is connected and fixed to the casing 2 by the vibration damping structure 1 The second damper body 2 absorbs the vibration sequentially. S.1 7 201126118 ϋΓ The relative friction between the tube 4 and the working element or the housing 200 reduces the noise generated by the vibration. Therefore, compared with the conventional technique; Ίίί Α 冷 冷 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配 配Comfort is safe except for the above (4) reduction structure, reduction and reduction =,, together with the figure to further explain: Φ Φ (9): ^^ Viewing. For example, ==Construction 5 contains minus: 1 damping target f (in this subspecies, the fourth 5th and the minus ^ Taiwan) - where the second damping rubber 52, the cymbal and the upper end of each vibration platform 53 has two fits in the 3rd, and the other is a guide. The 511 is slidably coupled to the second _ the first guide rail slidingly combined with the rubber of the ship platform 51, adjust the first fun _ 51 Jing Yu in the eye of the vibration amplitude, the actual needs, will be the first: the better - 'larger degree, and use a locking component = a 4 ^ mesh on the vibration amplitude set on the vibration damping platform 53, in order to achieve the best Damping effect No. - damping rubber win 51 solid please refer to the fourth figure, which shows the relative position relationship of the pipe. = month ^, the damping structure and the structure 6 replace the above damping structure ^ ' The other body 61 and a plurality of second damping body mildew damping: the structure 6 contains - the first damping rubber ' and the fourth figure only indicates where m: is a plurality of second damping 椽 S. 1 ^苐—Vibration-damping rubber 62) and—Vibration-damping platform 8 201126118 3 The vibration-damping body 61 includes a first damping rubber 611 and a clamping member 612. 63 — The first rubber 611 is combined with the fixing pipe 4, and is clamped. 612 self-damping platform vibration platform 63. 6n clamping is fixed in the winter can be achieved by plastic injection molding method - body molding process; 5 clocks: two vibration platform 63 is made of high rigidity metal plate In the case of the time, the shape of the rivet and the extrusion type can be achieved - the fine jade art. In addition, the 631 Ϊ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ In the fourth embodiment, the structure 7 replaces the above-mentioned vibration damping structure 1. The vibration damping structure 7 includes a first damping rubber and a plurality of second damping. The body (in this embodiment, a plurality of second flattening X stages 7'3'). The red figure shows only one of the second damping rubbers 72) and the damping platform 73 is also composed of rubber, and the second = 2 is integrally formed with the damping platform 73. Among them, the second is suitable for two: the molding temperature, the pressure, the addition of a hardener or a woman's injection molding means to make the vibration damping platform 73 have a high rigidity. In addition, the 72-series has a screw hole 721 for the screw to be inserted therein, so that it can be easily understood by those who have the usual knowledge in the field, in the present invention, the vibration-damping body, the second vibration-damping body and the vibration-damping platform. At least two of them can also be fabricated using a one-piece process. It is to be noted that, in the first embodiment of the present invention, since the vibration damping structure i 100 operates, the relative vibration amplitude of the pipe 4 is reduced, so that the noise is emitted; on the other hand, since the vibration damping structure 1 can provide support for the financial 4 Therefore, in the process of transporting the air system (10), 2〇ll26lls Γΐΐ Γΐΐ Γΐΐ 具 具 _ _ 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 人 朗 朗 朗 朗 朗 。 Into the knowledge of the 'and then improve the pipeline connection yield of the empty squad. The details of the preferred embodiment are described in detail (4), and the standard and scope are described. In the above, the specificity of the implementation of the present invention, the patent requirements of the invention, please review the ^ ^ patent law - the heart of the review and grant the patent as a prayer. BRIEF DESCRIPTION OF THE DRAWINGS The first drawing shows a schematic view of a pipe according to a first embodiment of the present invention; the second figure shows the external structure of a vibration damping structure and a pipe in the first embodiment of the present invention; The external structure of the vibration damping structure and the piping in the second embodiment of the present invention is shown; the fourth drawing shows the relative positional relationship between the vibration damping structure and the piping in the third embodiment of the present invention; and A schematic diagram of the relative positional relationship between the vibration damping structure and the piping in the fourth embodiment of the present invention. [Main component symbol description] 100 Air conditioning system 200 Housing 1 'la Damping structure 11 > 11a First damping body 111 First damping rubber 1111 Clamping portion 112 Metal fixing members 12 to 12b Second damping body 13 Damping platform 2 compressor 2a cold shrinking device 201126118
2b 膨脹元件 3 蒸發器 4 配管 5 減振結構 51 、 51a 第一減振橡膠 511 第一導執 52〜52b 第二減振橡膠 53 減振平台 531 第二導軌 6 減振結構 61 第一減振體 611 第一減振橡膠 612 夾合件 62 第二減振橡膠 63 減振平台 7 減振結構 71 第一減振橡膠 72 第二減振橡膠 721 螺絲孔 73 減振平台 [s.i 122b Expansion element 3 Evaporator 4 Piping 5 Damping structure 51, 51a First damping rubber 511 First guide 52~52b Second damping rubber 53 Damping platform 531 Second rail 6 Damping structure 61 First damping Body 611 first damping rubber 612 clamping member 62 second damping rubber 63 damping platform 7 damping structure 71 first damping rubber 72 second damping rubber 721 screw hole 73 damping platform [si 12