200810823 九、發明說明: 【發明所屬之技術領域】 本案係關於一種濾網更新裝置,尤指一種濾網自動更 新裝置,可以應用於例如空調設備、排油煙機、過濾設備 以及下水道系統中,俾利更換或清洗設備或系統内部之濾 網0 【先前技術】 隨著科技的進步,各種電器設備的設計與應用除了使 人們生活更為便利外,亦逐漸地朝向改善人們生活環境品 質與健康的方向發展。舉例而言,為改善與提升人們曰常 生活環境與空間的健康與舒適度,室内溫度、.溼度及/或 微塵粒子數量的控制便逐漸地受到重視,因此空調設備便 成為曰常生活中不可或缺的電器設備。 以空調設備為例,濾網係為其内部用於收集微塵粒子 的一個重要裝置,以用於避免微塵粒子由空調設備之入風 口流入設備内部及/或由空調設備之出風口流出至環境空 間中。請參閱第一圖,其係顯示傳統具可拆卸濾網之空調 設備之結構示意圖。如第一圖所示,空調設備1之濾網10 係可拆卸地設置於空調設備1之本體11内部,因此使用 者只要將設置於本體11上的前面板12打開後即可拆卸濾 網10,以利清洗或更換濾網10。於清洗或更換濾網10之 6 200810823 後,再將更換或清洗後的濾網10安裝於設置位置後,並 盍回岫面板12即完成濾網更新。 然而,傳統的濾網清洗與更換方式存在許多缺點。舉 例而言,通常空調設備會設置於室内空間較高的位置,以 利於内部空氣的循環。然而,這樣的設置方式並不利於進 行頻繁地濾網拆卸動作,因此將造成使用者疏於對濾網進 _ 打清洗與更換,長久下來便會降低空調設備的溫度及/或 左度调節以及使空氣清淨的能力。此外,設置於高處亦容 易&成使用者於拆卸濾網時受傷,而且空調設備内部濾網 的拆卸機構設計各有不同,有些拆卸機構不便於拆解與組 衣因此造成使用者操作方面的困難’況且若拆卸機構使 用相對脆弱的材質或設計的話,頻繁地濾網拆卸動作將容 易使拆卸機構斷裂而使濾網無法組裝回去。 _ 因此,如何發展一種濾網自動更新裝置以解決習知技 術所面臨之問題,實為目前相關領威業者所迫切需要解決 之課題。 【發明内容】 本案之主要目的在於提供一種濾、網自動更新裝置,以 應用於例如空調設備、排油煙機、過濾设備以及下水道系 統中,俾利設備或系統内部之濾網清洗或更換。 本案之另一目的在於提供一種濾、網自動更新襞置,以 200810823 $免於更新遽網的過程中將濾網所收集之微塵粒子流入 5又備或系統内部或由設備或系統回流至環境中。 _本案之又一目的在於提供一種濾網自動更新裝置,以 — 動控制方式清洗或更換設備或系統内部之濾網,俾 減少使用者拆卸I網所可能造成之危險與問題。 為達上述目的,本案之一較廣義實施態樣為提供一種 鲁〉慮網2動更新裝置,應用於一設備或系統中,該渡網自動 '衣置d至少—濾、網;傳動I置’用以帶動濾網移 動;=及動力裳置,與傳動裝置連結,用以因應渡網之使 用狀態以自動驅動傳動裝置帶動濾網移動,俾自動更新濾 網。 〜200810823 IX. Description of the invention: [Technical field to which the invention pertains] The present invention relates to a filter updating device, and more particularly to a filter automatic updating device, which can be applied to, for example, an air conditioning device, a range hood, a filtering device, and a sewer system, Replace or clean the equipment or the filter inside the system. 0 [Prior Art] With the advancement of technology, the design and application of various electrical equipments not only make people's lives more convenient, but also gradually improve the quality and health of people's living environment. Direction development. For example, in order to improve and enhance the health and comfort of people's living environment and space, the control of indoor temperature, humidity and/or the number of fine dust particles is gradually taken seriously, so air-conditioning equipment becomes a constant life. Or missing electrical equipment. Taking air-conditioning equipment as an example, the filter screen is an important device for collecting dust particles inside, for preventing dust particles from flowing into the interior of the device from the air inlet of the air-conditioning device and/or flowing out to the environmental space by the air outlet of the air-conditioning device. in. Please refer to the first figure, which shows the structure of a conventional air conditioning unit with a detachable filter. As shown in the first figure, the screen 10 of the air conditioner 1 is detachably disposed inside the body 11 of the air conditioner 1. Therefore, the user can remove the screen 10 by opening the front panel 12 provided on the body 11. In order to clean or replace the filter 10. After cleaning or replacing the filter 10 of 200810823, the screen 10 after replacement or cleaning is installed in the set position, and the filter panel is completed by returning to the panel 12. However, conventional screen cleaning and replacement methods have a number of disadvantages. For example, air conditioning equipment is usually placed in a higher indoor space to facilitate internal air circulation. However, such a setting method is not conducive to frequent mesh removal operations, so that the user will be neglected to clean and replace the filter, and the temperature and/or left adjustment of the air conditioner will be lowered over a long period of time. And the ability to clean the air. In addition, it is easy to be placed in a high place and is injured when the user removes the filter screen, and the design of the disassembly mechanism of the internal filter screen of the air conditioner is different, and some disassembly mechanisms are inconvenient to disassemble and assemble the garment, thus causing user operation. Difficulty and if the disassembly mechanism uses a relatively fragile material or design, frequent mesh removal operations will easily break the disassembly mechanism and prevent the filter from being assembled back. _ Therefore, how to develop a filter automatic updating device to solve the problems faced by the prior art is an urgent problem that the relevant leading manufacturers need to solve. SUMMARY OF THE INVENTION The main object of the present invention is to provide a filter and net automatic updating device for use in, for example, an air conditioner, a range hood, a filtering device, and a sewer system, for cleaning or replacing a filter inside a device or a system. Another object of the present invention is to provide a filter and net automatic updating device, in which the dust particles collected by the filter are flown into the system or returned to the environment by the device or system during the process of updating the network from 200810823 $. in. _ Another object of the present invention is to provide a filter automatic updating device for cleaning or replacing the filter inside the device or the system in a dynamic control manner, thereby reducing the dangers and problems that may be caused by the user disassembling the I network. In order to achieve the above objectives, one of the more general implementations of the present invention provides a Lu>2 network dynamic update device, which is applied to a device or system, which automatically “fits at least d-filters, nets; 'Used to drive the filter to move; = and the power is placed, connected with the transmission device, used to automatically drive the filter to drive the filter to move according to the use state of the network, and automatically update the filter. ~
為達上述目的’本案之另一較廣義實施態樣為提供一 種渡網自動更新裝置,應用於―設備或系統_,該渡網自 動更新裝置包括:循環式_ ;傳動裝置,用以帶動循環 式遽網移動;動力裝置,與傳動裝置連結,用以因應循環 式濾、網之使用絲以自動驅動傳動裝置帶關環式滤網 移動’俾自動更新循環錢網;以及清洗裝置,用於清洗 循壞式滤網。 為達上述目的,本案之又一較廣義實施態樣為提供一 種濾網自動更新農置,應用於一設備或系統中,該濾網自 動更新裝置包括:至少一濾網;傳動軸組,用以帶動濾網 8 200810823 移動j傳動轴組包含有第—濾網轉軸以及第二滤網轉 輪;以及動力裝置’與第1網轉軸連結,用以因應滤網 之使用狀態以自動驅動傳動她帶動_轉,俾㈣更 新濾網。 【實施方式】 體現本案#徵與優點的_些典型實施例將在後段的 說财詳細敘述。應理解的是本案能夠在不同的態樣上具 有各種的變化,其皆不脫離本案的範圍,且其中的說明及 圖不在本質上係當作說明之用,而非用以限制本案。 凊茶閱第二圖(3)〜⑻’其係顯示本錄佳實施例之 濾、網自動更新裝置設置於—示範性空調設備之結構示意 圖。本案之濾網自動更新裝置3以設置於空調設備2内部 為較佳’可用於將收集微塵粒子之濾網進行自動更換或清 洗處理。當然,本案之濾網自動更新裝置3亦可設置於例 如除油煙機、過濾設備或下水道系統之内部,且不以此為 限。於一些實施例中,如第二圖⑷所示,本案之遽網自 1更新裝置3可設置於空調設備2之本體2〇的前面板2ι 背部,因此只需更換前面板21即可依使用者選擇而設置 或不設置濾網自動更新裝置3^於另一些實施例中,二第 二圖(b)所示,本案之濾網自動更新裝置3可設計為可拆 卸式匣體結構,並將其設置於空調設備2的本體2〇上且 面向前面板21之入風口處,因此只需更換匣體結構即可 依使用者選擇而設置或不設置濾網自動更新裝置3,如此 200810823 不只便於生產與製造,而且可以增加選擇的彈性以及節省 成本。 請參閱第三圖,其係顯示本案較佳實施例之濾網自動 更新裝置之結構示意圖。如第三圖所示,本案之濾網自動 更新裝置3包括至少一濾網31、傳動裝置32以及動力裝 置33,其中濾網31係用於收集由空調設備2之入風口(未 圖示)所攜入之微塵粒子,傳動裝置32則用於攜載濾網31 並帶動濾網31移動,而動力裝置33則與傳動裝置32連 結,以用於因應濾網31的使用狀態而自動驅動傳動裝置 32帶動濾網31移動,藉此以自動更新濾網31。於一些實 施例中,濾網31可為捲軸式濾網,且濾網31的張面可大 體上面向空調設備2之入風口處,藉此便可收集由空調設 備2之入風口所攜入之微塵粒子。另外,傳動裝置32可 為一傳動軸組所構成,其中該傳動軸組包括例如第一濾網 轉軸321以及第二濾網轉軸322,該第一濾網轉軸321可 用於捲收使用過的濾網31部分,該第二濾網轉軸322可 用於釋出未使用過的濾網31部分,藉此便可利用第一濾 網轉轴321、第二濾網轉軸322以及濾網31的相互配合而 帶動濾網31移動與更新。此外,動力裝置33可由例如步 進馬達或馬達所構成,其可以因應空調設備2内部控制單 元(未圖示)之控制而驅動傳動裝置32帶動濾網31移動。 於此實施例中,動力裝置33係與例如傳動裝置32之 第一濾網轉軸321連結,因此當動力裝置33因應空調設 備2内部控制單元之控制而致能時,便可驅動傳動裝置32 200810823 之第一濾網轉轴321轉動,進而帶動濾網31移動以及使 第二濾網轉軸322轉動。當傳動裝置32之第一濾網轉軸 321轉動後,使用過的濾網31部分將被第一濾網轉軸321 捲收,且第二濾網轉轴322會釋出未使用過的濾網31部 分,藉此便可完成濾網31之更新。 第四圖係顯示第三圖所示結構設置於一示範性空調 設備内部之結構側面圖。如第三與四圖所示,使用過的濾 網31會因動力裝置33驅動傳動裝置32之第一濾網轉轴 321而受第一濾網轉軸321轉動而捲收,而第二濾網轉軸 322會相對地受驅動而釋放出相當長度之濾網31,因此使 用過的濾網31便可以捲收並將收集於濾網31上的微塵粒 子包裹在裡面而不至於散落至空調設備2内部或被氣流攜 至環境中。於此實施例中,空調設備2於鄰近第一濾網轉 軸321以及内部冷凝管22上方的位置可選擇性地設置一 集塵部23,以便於在濾網更新過程中進一步地收集可能掉 落至空調設備2内部的微塵粒子。 請參閱第五圖,其係顯示本案較佳實施例之濾網自動 更新裝置使用另一種傳動裝置之結構示意圖。於此實施例 中,濾網31亦可為捲軸式濾網。另外,傳動裝置32可為 一傳動軸組所構成,其中該傳動軸組包括:驅動齒輪323、 第一齒輪組324、第一濾網轉軸325、第二齒輪組326、傳 動皮帶327以及第二濾網轉轴328。其中,驅動齒輪323 與動力裝置33連接,以因應動力裝置33之驅動而轉動。 第一齒輪組324與驅動齒輪323相配合,以因應驅動齒輪 11 200810823 323之驅動而轉動。另外,第一濾網轉轴325與第一齒輪 組324相連結,以因應第一齒輪組324之轉動而轉動並使 部份濾網31移動。第二齒輪組326則相對於第一齒輪組 324,且傳動皮帶327連結於第一齒輪組324與第二齒輪 組326,用以因應第一齒輪組324之轉動而帶動第二齒輪 組326轉動。此外,第二濾網轉軸328與第二齒輪組326 連結,以因應第二齒輪組326之轉動,俾釋出部份已捲繞 於第二濾網轉軸328之濾網31。 於此實施例中,由於傳動裝置32、動力裝置33以及 濾網31間的操作原理與第三圖以及第四圖所示實施例相 似,於此不再贅述。另外,空調設備2亦可如第四圖所示 實施例一樣選擇性地設置集塵部(未圖示)於第一濾網轉 軸325之下方,以於濾網更新過程中進一步地收集可能掉 落至空調設備2内部的微塵粒子。 此外,不論採用第三圖或第五圖所示之傳動裝置32 結構,在這些實施例中,由於使用後的濾網31會被捲收 於傳動裝置32之第一濾網轉軸321、325上,因此使用者 可於整捲濾網31皆使用後,再將濾網31拆卸更換或清 洗,如此可避免頻繁地拆卸濾網所可能造成之危險以及問 題。 於一些可替換之實施例中,本案之濾網自動更新裝置 3除了濾網31、傳動裝置32以及動力裝置33以外更可增 設一定位機構34,以用於定位濾網31、使濾網31平整以 及提供濾網31張力。請參閱第六圖,其係顯示本案較佳 12 200810823 實施例之濾網自動更新裝置所使用之定位機構之結構示 意圖。如第六圖所示,定位機構34包括例如至少一定位 板341以及至少一彈性元件342,其中定位板341係與傳 動裝置32之第二濾網轉軸322、328相配合,以用於定位 濾網31以及使濾網31平整。另外,彈性元件342,例如 窗簾内部所使用之預力彈簧(未圖示),係與定位板341連 結,該彈性元件342可以提供定位板341張力,進而使定 位板341定位濾網31以及使濾網31平整。彈性元件342 可以設置於一容置盒343内或第二濾網轉軸322、328内, 其中容置盒342係設置於第二濾網轉軸322、328之側端, 因此,當第二濾網轉軸322、328轉動時,將使彈性元件 342絞緊,藉此便可利用彈性元件342提供予定位板341 之張力,進而使濾網31定位與平整。 於其他可替換之實施例中,使用後之濾網31部分可 以不捲收於傳動裝置32之第一濾網轉轴321、325而直接 切割廢棄。於這些實施例中,本案之濾網自動更新裝置3 除了濾網31、傳動裝置32以及動力裝置33以外更可增設 一裁切機構35,以用於切割部分濾網31。 請參閱第七圖(a)〜(b),其係分別顯示本案較佳實施 例之濾網自動更新裝置所使用之手動式以及自動式裁切 機構之結構示意圖。如第七圖(a)〜(b)所示,本案之濾網 自動更新裝置3之裁切機構35係鄰設於傳動裝置32之第 一濾網轉軸321、352,以用於裁切傳動裝置32之第一濾 網轉軸321、352所驅動移出且未捲繞於第一濾網轉軸 13 200810823 321、352之濾網31部分。當使用者控制或者是於預定之 使用時間後啟動濾網自動更新裝置3時,動力裝置33將 驅動傳動裝置32,而使第一濾網轉軸321、325轉動,因 此使用過之濾網31部分會受第一濾網轉軸321、325帶動 而延伸出空調設備2外,如此便可以利用内部之裁切機構 35將使用過的濾網31部分以手動或自動方式切割廢棄。 第七圖(a)顯示手動式裁切機構之結構示意圖。該手 動式裁切機構35係由一鋸齒狀切割部351所構成,其可 以將使用過的濾網31部分以手動方式切割移除。另外, 未使用過的濾網31部分則會藉由動力裝置33以及傳動裝 置3 2的配合而使第二濾網轉軸3 2 2、3 2 8轉動而釋出未使〜 用的濾網31,藉此便可以完成濾網31更新。第七圖(b) 顯示自動式裁切機構之結構示意圖。該自動式裁切機構35 包括例如驅動馬達352、第一轉軸353、第二轉軸354、傳 動皮帶355以及切割元件356,其中切割元件356係設置 於傳動皮帶355上,以藉由傳動馬達352驅動第二轉軸 354,進而帶動傳動皮帶355繞該第一轉軸353以及第二 轉軸354而轉動,俾帶動切割元件356自動切割該使用過 的濾網31部分。 請參閱第八圖(a)〜(f),其係分別顯示本案較佳實施 例之濾網自動更新裝置所使用之濾網的各種預設圖案示 意圖。如第八圖(a)〜(f)所示,本案之濾網自動更新裝置3 所使用之濾網31可選擇性地形成複數個圖騰圖案於至少 一表面。其中,濾網31具有如第八圖(a)所示之預折線圖 14 200810823 案311以及如第八圖⑻〜⑴所示之各種預裁線圖案 312〜316,且該預折線圖案311或是預裁線圖案312〜316 使該濾網31分為複數個濾網單元317。其中,該預裁線圖 案312〜316使各該相鄰之濾網單元317間具有至少二個連 接部312a〜316a。此外,於一些實施例中,如第九圖(a) 與(b)所示,該濾網31可具一平面或一曲面,且不以此 限。 • 請參閱第十圖(a)〜(b),其係顯示適用於本案較佳實 施例之濾網自動更新裝置之另一種濾網結構示意圖。如第 十圖(a)〜(b)所示,本案濾網自動更新裝置3所使用之濾 網31可為例如摺疊式濾網。其中,摺疊式渡網可以由= 一長條濾網摺疊而構成,如第十圖(a)所示,亦或如抽取 式衛生紙般以多片分離的濾網單元,兩兩相接堆疊而成, 如第十圖(b)所示。當本案之濾網自動更新裝置3使用摺 疊式濾網31時,濾網自動更新裝置3更可設置一容收部 _ 36,如第十一谓所示,以容置摺疊式濾網31。 於一些實施例中,當本案之濾網自動更新裝置3採用 如第十圖(a)〜(b)所示之摺疊式濾網31時,傳動裝置32 '亦可使用如第三圖或第五圖所示結構。以採用如第五圖所 不之傳動裝置為例,傳動裝置32可包括驅動齒輪323、第 一齒輪組324、第一濾網轉轴325、第二齒輪組326、傳動 皮帶327以及第二濾網轉軸328。其中驅動齒輪323與動 力裝置33連接,以因應動力裝置33之驅動而轉動。第一 齒輪組324與驅動齒輪323相配合,以因應驅動齒輪323 15 200810823 之驅動而轉動。第一濾網轉軸325與第一齒輪組324相連 結,以因應第一齒輪組324之轉動而移動部份濾網31。第 二齒輪組326相對於第一齒輪組324,而傳動皮帶327連 結於第一齒輪組324與第二齒輪組326,用以因應第一齒 輪組324之轉動而帶動第二齒輪組326轉動。第二濾網轉 軸328與第二齒輪組326連結,以因應第二齒輪組326之 轉動,俾帶動與抽取容收部36内之摺疊式濾網31。 於一些實施例中,當本案之濾網自動更新裝置3使用 如第十圖(a)所示之摺疊式濾網31時,同樣地可藉由第一 濾網轉軸321、325將使用過之濾網31捲收後再拆卸更換 或清洗。此外,濾網自動更新裝置3亦可設置如第六圖所 示之定位機構34,以定位濾網31、使濾網31平整以及提 供濾網31張力,以及設置如第七圖(a)〜(b)所示之裁切機 構35,以將使用過的濾網31部分分割移除。於另一些實 施例中,當本案之濾網自動更新裝置3使用如第十圖(b) 所示之摺疊式濾網31時,則可以設置如第六圖所示之定 位機構34,但無須使用第七圖(a)〜(b)所示之裁切機構35 便可以將使用過的濾網31移除。 請參閱第十二圖(a)〜(b),其係顯示本案較佳實施例 之濾網自動更新裝置之感測裝置與警示裝置之結構示意 圖。如第十二圖(a)〜(b)所示,本案之濾網自動更新裝置 更包括一感測裝置37,鄰設於該濾網31,以用於感測濾 網31之使用狀態,並因應產生一感測訊號81,以傳送至 空調設備2内之控制單元24,藉以產生一控制訊號C1致 16 200810823 能該動力裝置33而驅動傳動裴置32。其中,咸 可以是如第十二圖(a)所示之遮斷式感測裝置或是如第十 二圖(b)所示之反射式感測裝置,且不以此為限。 請再參閱第十二圖(aMb)。於一些實施例,本荦之 濾、網自動更新裝置3更包括-警示裝置38’設置於空調設 備2之内部或外部’以因應該控制單元24之控制訊號ci 而提供-警示訊號,藉此以提醒使用者更新滤網31或將 φ 使用過的濾、網31切割廢棄。此外,本案之濾網自動更新 裝置3更可设置一遠端控制訊號接收裝置39,用以接收一 ,端遙控裝置40的遠端控制訊號,藉此以方便使用者於 遠端控制濾網31自動更新或進行其他處理。 根據本案之構想,本案之濾網自動更新裝置3可於例 如空調設備2停止送風時進行濾網31之自動更新,但不 以此為限。此外,本案之遽網自動更新襄置3不只適用於 例如冷氣機、空氣清淨機、暖氣機以及除濕機等空調設備 _ 外,亦可進一步應用於廚房排油煙機與下水道系統中,且 不以此為限。 凊芩閱第十三圖,其係顯示本案另一較佳實施例之濾 網自動更新裝置之結構示意圖。如第十三圖所示,本案之 濾網自動更新裝置3包括··循環式濾網41、傳動裝置 =力裝置33以及清洗裝置42。其中,傳動裝置犯係用於 帶動循環式濾網41移動,而動力裝置33與傳動裝置 連結,用以因應循環式遽網41之使用狀態以自動驅動傳 動裝置32帶動循環式濾網41移動,俾自動更新循環式濾 17 200810823 網41。另外,清洗裝置42係用於清洗該循環式濾網41。 於此實施例中,傳動裝置32與動力裝置33之結構以 及功能與第三圖以及第五圖所示實施例相似,並分別對應 地顯示於第十三圖以及第十四圖中,於此不再贅述。此 外,濾網自動更新裝置3之定位機構34(如第六圖所示)、 感測裝置37、警示裝置38、遠端控制訊號接收裝置39以 及空調設備2之控制單元24與遙控裝置40的結構與原理 亦與前述實施例相似,於此不再贅述。於此實施例中,與 前述實施例不同的地方在於濾網自動更新裝置3採用循環 式濾網41以及清洗裝置42以將循環式濾網自動清洗與使 用,藉以完成濾網之更新。循環式濾網41套設於傳動裝 置32之第一濾網轉軸321、325與第二濾網轉轴322、328 上,因此藉由動力裝置33以及傳動裝置32的驅動便可以 使循環式濾網41移動與循環。 請再參閱第十三圖與第十四圖所示,濾網自動更新裝 置3之清洗裝置42包括例如第一毛刷裝置421,設置於傳 動裝置32之第一濾網轉轴321、325以及第二濾網轉軸 322、328之間的位置且鄰近並實質上接觸循環式濾網41 之表面,藉此可於循環式濾網41移動時刷除收集於循環 式濾網41表面之微塵粒子。另外’於一些實施例中’清 洗裝置42亦可為一第二毛刷裝置422,鄰設於第二濾網轉 軸322、328且與第二濾網轉軸322、328上之循環式濾網 41之表面接觸,藉此可於循環式濾網41移動時刷除收集 於循環式濾網41表面之微塵粒子。此外,亦可將第二濾 18 200810823 網轉軸322、328以及第二毛刷裝置422設置於一清洗池 423内,以藉由清洗池423内之清洗液清洗循環式濾網41。 於另一些實施例中,清洗裝置42可為一超音波裝置 424,且第二濾網轉軸322、328設置於清洗池423内,藉 由超音波裝置424所產生之音波震盪,可使收集於循環式 濾網41表面之微塵粒子落於清洗池423内部之清洗液 中。於其他實施例中,清洗裝置42更可以是例如吸塵裝 置425,設置於傳動裝置32之第一濾網轉軸321、325以 及第二濾網轉轴322、328之間的位置且鄰近循環式濾網 41之表面’可用於將收集於循環式濾網41表面之微塵粒 子吸除,藉以達到清洗更新循環式濾網41之目的。此外, 吸塵裝置425亦可與第一毛刷裝置421相配合,而將第一 毛刷裝置421所刷除之微塵粒子吸除。 於其他可替換之實施例中,如第十五圖所示,清洗裝 置42可以是迴轉翼裝置426,且第二濾網轉軸322、328 設置於清洗池423内部,藉由迴轉翼裝置426攪動清洗池 423内部之清洗液,可將收集於循環式濾網41表面之微塵 粒子以清洗液清洗,俾達到更新濾網之目的。 於另一些可替換之實施例中,如第十六圖所示,清洗 裝置42亦可為泵供液裝置427,該泵供液裝置427包括泵 4271、冷凝水回收裝置4272以及收集槽4273,其中收集 槽4273可用於收集冷凝水回收裝置4272所回收之冷凝水 或者是接收外部所供應之清洗液。然後,利用泵4271與 管路4274、4275將收集槽4273内部之冷凝水或清洗液液 19 200810823 抽送並輸出至循環式濾網41,特別是輸出至第一濾網轉軸 321、325上之循環式濾網41,藉此可以將收集於循環式 濾網41表面之微塵粒子清洗至清洗池423内部。此外, 於其他可替換之實施例中,如第十七圖所示,清洗裝置42 亦可為泵供液裝置427,該泵供液裝置427除包括泵 4271、冷凝水回收裝置4272、收集槽4273、管路4274、 4275外,更可包括一清潔液容置槽4276,該清潔液容置 槽4276可用於容置清潔液,例如化學清洗液。該收集槽 4273具有一第一輸入端4273a、第二輸入端4273b以及輸 出端4273c。其中,第一輸入端4273a與冷凝水回收裝置 4272連接,用以將該空調設備内部所回收之冷凝水導入該 收集槽4273。該第二輸入端4273b與該清潔液容置槽4276 連接,用以將該清潔液導入該收集槽4273。另外,輸出端 4273c係與管路4274連結,以將收集槽4273内之清洗液 藉由泵4271以及管路4274、4275排出至循環式濾網41, 藉此可以將收集於循環式濾網41表面之微塵粒子清洗至 清洗池423内部。當然,清潔液容置槽4276内之清潔液 可於動力裝置33啟動時自動導入該收集槽4273,但不以 此為限。 於另一些可替換之實施例中,如第十八圖所示,清洗 裝置42可包括冷凝水回收裝置4272以及清洗池423,其 中第二濾網轉轴322係設置於清洗池423之清洗液中,並 由冷凝水回收裝置4272收集空調設備2内部之冷凝水, 並將其導流至清洗池423内以作為清洗液之主要來源,藉 20 200810823 此可以將收集於循環式濾網41表面之微塵粒子以清洗池 423内部之清洗液清洗。 於一些實施例中,如第十三圖與第十四圖所示,濾網 自動更新裝置3之清洗裝置42更可包括一烘乾裝置428, 設置於傳動裝置32之第一濾網轉軸321、325以及第二濾 網轉軸322、328之間的位置且鄰近循環式濾網41之表 面,藉此可用於烘乾該循環式濾網41。 綜上所述,本案之濾網自動更新裝置係利用濾網、傳 動裝置以及動力裝置達成自動更換或清洗濾網之目的。本 案之濾網自動更新裝置可以藉由自動控制方式清洗或更 換設備或系統内部之濾網,俾減少使用者拆卸濾網所可能 造成之危險與問題。此外,本案之濾網自動更新裝置亦可 以避免於更新濾網的過程中將濾網所收集之微塵粒子流 入設備或系統内部或由設備或系統回流至環境中。因此, 本案極具產業價值,且符合各項專利要件,爰依法提出申 請。 本案得由熟知此技術之人士任施匠思而為諸般修 飾,然皆不脫如附申請專利範圍所欲保護者。 21 200810823 【圖式簡單說明】 第圖·其係顯不傳統具可拆卸渡網之空調設備之結 構示意圖。 第一圖(a) (b).其係顯示本案較佳實施例之渡網自 動更新I置設Ϊ於-示紐空調設備之結構示意圖。 第三圖··其係顯示本案較佳實施例之濾網自動更新裝 置之結構示意圖。 第四圖:其係顯示第三圖所示結構設置於一示範性空 調設備内部之結構侧面圖。 第圖,、係,、、、員示本案較佳實施例之濾網自動更新裝 置使用另一種傳動裝置之結構示意圖。 弟六圖:其係顯示本案較佳實施例之渡網自動更新裝 置所使用之定位機構之結構示意圖。 第七圖(a)〜(b) ·其係分別顯示本案較佳實施例之濾 網自動更職置所使用之手動以及自動式裁切機構之 結構示意圖。 第八圖(a)⑴·其係分別顯示本案較佳實施例之遽 網自較新裝置所使用之濾網的各種預設圖案示意圖。 第九圖(a)⑹.其係分別顯示本案較佳實施例之遽 網自動更新裝置所使用之濾網的側面圖。 第十圖(a)〜(b)、其係顯示適用於本案較佳實施例之 22 200810823 濾網自動更新裝置之另一種濾網結構示意圖。 第十一圖:其係顯示本案較佳實施例之濾網自動更新 裝置所使用之容收部結構示意圖。 第十二圖(a)〜(b):其係顯示本案較佳實施例之濾網 自動更新裝置之感測裝置與警示裝置之結構示意圖。 第十三圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置之結構示意圖,其中濾網自動更新裝置使用第三 圖所示之傳動裝置。 第十四圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置之結構示意圖,其中濾網自動更新裝置使用第五 圖所示之傳動裝置。 第十五圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置所使用之清洗裝置之結構示意圖。 第十六圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置所使用之另一清洗裝置之結構示意圖。 第十七圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置所使用之又一清洗裝置之結構示意圖。 第十八圖:其係顯示本案另一較佳實施例之濾網自動 更新裝置所使用之另一清洗裝置之結構示意圖。 23 200810823 【主要元件符號說明】 1 :空調設備 U :本體 2 :空調設備 21 :前面板 23 :集塵部 3 :濾網自動更新裝置 32 ··傳動裝置 34 :定位機構 36 :容收部 38 :警示裝置 ·遠端遙控裝置 42 :清洗裝置 311 :預折線圖案 317 :濾網單元 321 :第一濾網轉軸 3 2 3 ·驅動歯輪 325 ·弟一濾網轉軸 327 :傳動皮帶 341 :定位板 343 :容置盒 10·: 濾網 12 : 前面板 20 : 本體 22 : 冷凝管 24 : 控制單元 31 : 濾網 33 : 動力裝置 35 : 裁切機構 37 : 感測裝置 39 : 遠端控制訊號接收裝置 41 : 循環式濾網 312' 316 :預裁線圖案 312a 〜316a :連接部 322 ·· 第二濾網轉卓由 324 : :第一齒輪組 326 : 弟二齒輪組 328 : :第二濾網轉軸 342 :彈性元件 351 •錐齒狀切割部 24 200810823 352 :驅動馬達 353 :第一轉軸 354 :第二轉軸 355 :傳動皮帶 356 :切割元件 421 :第一毛刷裝置 422 :第二毛刷裝置 423 ··清洗池 424 :超音波裝置 425 :吸塵裝置 426 :迴轉翼裝置 427 :泵供液裝置 428 :烘乾裝置 4271 ··泵 4272 :冷凝水回收裝置 4273 :收集槽 4274 :管路 4275 :管路 4276 :清潔液容置槽 4273a:收集槽第一輸入端 4273b :收集槽第二輸入端 4273c :收集槽輸出端 S1 :感測訊號 C1 :控制訊號 25In order to achieve the above object, another broad aspect of the present invention provides a ferry network automatic updating device, which is applied to an "equipment or system", and the automatic network updating device includes: a circulating type _; a transmission device for driving the cycle Movable net movement; power unit, coupled with the transmission device, for the use of the circulating filter, the use of the wire to automatically drive the transmission with the closed loop filter to move '俾 automatic update cycle net; and the cleaning device for Clean the filter. In order to achieve the above object, another broader embodiment of the present invention provides a filter for automatically updating a farm, which is applied to a device or system. The filter automatic updating device comprises: at least one filter; a drive shaft group, To drive the filter 8 200810823, the mobile j drive shaft set includes a first filter spool and a second filter runner; and the power unit is coupled with the first mesh shaft for automatically driving the filter according to the use state of the filter. Drive _ turn, 俾 (four) update the filter. [Embodiment] Some typical embodiments embodying the present invention and advantages will be described in detail in the latter paragraph. It is to be understood that the present invention is capable of various modifications in various embodiments and is not intended to limit the scope of the invention. The second figure (3) to (8)' of the tea is shown in the schematic diagram of the structure of the filter and the net automatic updating device of the preferred embodiment of the present invention. The automatic screen refreshing device 3 of the present invention is preferably provided inside the air conditioner 2, and can be used for automatically replacing or cleaning the screen for collecting fine dust particles. Of course, the automatic screen updating device 3 of the present invention can also be disposed inside, for example, a range hood, a filtering device or a sewer system, and is not limited thereto. In some embodiments, as shown in the second figure (4), the network of the present invention can be disposed on the front panel 2 ι of the body 2 of the air conditioner 2 from the 1 update device 3, so that only the front panel 21 can be replaced. In the other embodiments, as shown in the second figure (b), the automatic screen updating device 3 of the present invention can be designed as a detachable carcass structure, and It is disposed on the body 2〇 of the air conditioner 2 and faces the air inlet of the front panel 21, so the filter automatic updating device 3 can be set or not set according to the user's choice only by replacing the body structure, so that 200810823 is not only Easy to manufacture and manufacture, and can increase the flexibility of choice and save costs. Please refer to the third figure, which is a structural diagram showing the automatic screen updating device of the preferred embodiment of the present invention. As shown in the third figure, the automatic screen updating device 3 of the present invention includes at least one screen 31, a transmission unit 32 and a power unit 33, wherein the screen 31 is used for collecting the air inlet (not shown) of the air conditioner 2. The dust particles are carried, the transmission device 32 is used to carry the filter 31 and drive the filter 31 to move, and the power device 33 is coupled with the transmission device 32 for automatically driving the transmission according to the state of use of the filter 31. The device 32 drives the filter 31 to move, thereby automatically updating the filter 31. In some embodiments, the screen 31 may be a reel type screen, and the face of the screen 31 may substantially face the air inlet of the air conditioner 2, thereby being collected by the air inlet of the air conditioner 2 Dust particles. In addition, the transmission device 32 can be formed by a transmission shaft set including, for example, a first screen rotating shaft 321 and a second screen rotating shaft 322, which can be used for winding used filters. In the portion of the net 31, the second screen rotating shaft 322 can be used to release the unused portion of the screen 31, whereby the mutual cooperation of the first screen rotating shaft 321 , the second screen rotating shaft 322 and the screen 31 can be utilized. The filter 31 is moved and updated. Further, the power unit 33 may be constituted by, for example, a stepping motor or a motor, and the transmission unit 32 may be driven to move the screen 31 in response to the control of the internal control unit (not shown) of the air conditioner 2. In this embodiment, the power unit 33 is coupled to the first screen rotating shaft 321 of the transmission unit 32, for example, so that when the power unit 33 is enabled in response to the control of the internal control unit of the air conditioner 2, the transmission unit 32 can be driven. The first screen rotating shaft 321 rotates, thereby driving the filter screen 31 to move and rotating the second screen rotating shaft 322. When the first screen rotating shaft 321 of the transmission device 32 is rotated, the used screen 31 portion will be taken up by the first screen rotating shaft 321 and the second screen rotating shaft 322 will release the unused screen 31. In part, the update of the filter 31 can be completed. The fourth figure shows a side view of the structure in which the structure shown in the third figure is disposed inside an exemplary air conditioner. As shown in the third and fourth figures, the used filter screen 31 is rotated by the first screen rotating shaft 321 by the power unit 33 driving the first screen rotating shaft 321 of the transmission unit 32, and the second screen is wound. The rotating shaft 322 is relatively driven to release the filter 31 of a considerable length, so that the used filter 31 can be taken up and the dust particles collected on the screen 31 are wrapped therein without being scattered to the air conditioner 2 Internal or by airflow to the environment. In this embodiment, the air conditioning device 2 can selectively be disposed adjacent to the first filter rotating shaft 321 and the position above the internal condensing tube 22 to selectively collect a dust collecting portion 23 to facilitate further collection during the filter updating process. To the dust particles inside the air conditioner 2. Please refer to the fifth figure, which is a structural diagram showing the use of another type of transmission device for the automatic screen updating device of the preferred embodiment of the present invention. In this embodiment, the screen 31 can also be a spool screen. In addition, the transmission device 32 can be configured as a transmission shaft set including: a drive gear 323, a first gear set 324, a first filter shaft 325, a second gear set 326, a drive belt 327, and a second Filter shaft 328. Among them, the drive gear 323 is connected to the power unit 33 to rotate in response to the driving of the power unit 33. The first gear set 324 cooperates with the drive gear 323 to rotate in response to the drive of the drive gear 11 200810823 323. Further, the first screen rotating shaft 325 is coupled to the first gear set 324 to rotate in response to the rotation of the first gear set 324 and to move the partial screen 31. The second gear set 326 is opposite to the first gear set 324, and the drive belt 327 is coupled to the first gear set 324 and the second gear set 326 for driving the second gear set 326 to rotate according to the rotation of the first gear set 324. . In addition, the second screen rotating shaft 328 is coupled to the second gear set 326 to release a portion of the screen 31 that has been wound around the second screen rotating shaft 328 in response to the rotation of the second gear set 326. In this embodiment, since the operation principle between the transmission device 32, the power unit 33, and the filter screen 31 is similar to that of the third embodiment and the fourth embodiment, the details are not described herein. In addition, the air conditioner 2 can also selectively set a dust collecting portion (not shown) below the first screen rotating shaft 325 as in the embodiment shown in FIG. 4 to further collect the possibility during the filter updating process. The dust particles falling inside the air conditioner 2. Further, regardless of the configuration of the transmission device 32 shown in the third or fifth embodiment, in these embodiments, since the used filter 31 is to be retracted on the first filter shafts 321, 325 of the transmission 32. Therefore, the user can remove or replace the filter 31 after the whole filter 31 is used, so as to avoid the dangers and problems that may occur due to frequent removal of the filter. In some alternative embodiments, the screen automatic updating device 3 of the present invention may be further provided with a positioning mechanism 34 for locating the filter 31 and the filter 31 in addition to the filter screen 31, the transmission device 32 and the power unit 33. Flatten and provide strain on the mesh 31. Please refer to the sixth figure, which is a schematic view showing the structure of the positioning mechanism used in the automatic screen updating device of the embodiment of the present invention. As shown in the sixth figure, the positioning mechanism 34 includes, for example, at least one positioning plate 341 and at least one elastic member 342, wherein the positioning plate 341 is coupled with the second filter shafts 322, 328 of the transmission 32 for positioning the filter. The net 31 and the screen 31 are flattened. In addition, the elastic member 342, for example, a pre-stress spring (not shown) used inside the curtain, is coupled to the positioning plate 341, and the elastic member 342 can provide the tension of the positioning plate 341, thereby positioning the positioning plate 341 to the filter 31 and The screen 31 is flat. The elastic member 342 can be disposed in a receiving box 343 or in the second filter rotating shaft 322, 328. The receiving box 342 is disposed at the side end of the second screen rotating shaft 322, 328. Therefore, when the second filter is When the shafts 322, 328 are rotated, the elastic member 342 will be tightened, whereby the tension of the prepositioning plate 341 can be provided by the elastic member 342, thereby positioning and flattening the screen 31. In other alternative embodiments, the portion of the screen 31 after use can be directly cut and discarded without being caught on the first screen rotating shafts 321, 325 of the transmission unit 32. In these embodiments, the screen automatic updating device 3 of the present invention can be further provided with a cutting mechanism 35 for cutting a part of the screen 31 in addition to the screen 31, the transmission unit 32 and the power unit 33. Please refer to the seventh (a) to (b), which are structural diagrams showing the manual and automatic cutting mechanisms used in the automatic screen updating device of the preferred embodiment of the present invention. As shown in the seventh (a) to (b), the cutting mechanism 35 of the automatic screen updating device 3 of the present invention is adjacent to the first screen rotating shafts 321 and 352 of the transmission device 32 for cutting the transmission. The first screen rotating shafts 321 and 352 of the device 32 are driven to be removed and are not wound around the portion of the screen 31 of the first screen rotating shaft 13 200810823 321 and 352. When the user controls or starts the automatic screen refreshing device 3 after a predetermined period of use, the power unit 33 will drive the transmission 32 to rotate the first screen rotating shafts 321, 325, so that the used filter 31 portion is used. It will be driven by the first filter shafts 321 and 325 to extend out of the air conditioner 2, so that the used filter 31 can be cut and discarded manually or automatically by the internal cutting mechanism 35. Figure 7 (a) shows the structure of the manual cutting mechanism. The manual cutting mechanism 35 is constituted by a zigzag cutting portion 351 which can cut and remove the used portion of the screen 31 manually. In addition, the unused portion of the screen 31 will rotate the second screen rotating shaft 3 2 2, 3 2 8 by the cooperation of the power unit 33 and the transmission unit 3 2 to release the filter 31 which has not been used. Thereby, the filter 31 can be updated. Figure 7 (b) shows the structure of the automatic cutting mechanism. The automatic cutting mechanism 35 includes, for example, a drive motor 352, a first rotating shaft 353, a second rotating shaft 354, a transmission belt 355, and a cutting member 356, wherein the cutting member 356 is disposed on the transmission belt 355 to be driven by the transmission motor 352. The second rotating shaft 354 further drives the driving belt 355 to rotate around the first rotating shaft 353 and the second rotating shaft 354, and the cutting member 356 automatically cuts the used portion of the screen 31. Referring to Figures 8(a) to (f), respectively, various preset pattern illustrations of the screens used in the automatic screen updating device of the preferred embodiment of the present invention are shown. As shown in Figs. 8(a) to (f), the screen 31 used in the automatic screen updating device 3 of the present invention can selectively form a plurality of totem patterns on at least one surface. The filter screen 31 has a pre-fold line diagram 14 200810823 as shown in the eighth diagram (a) and various pre-cut lines 312 to 316 as shown in the eighth diagrams (8) to (1), and the pre-fold line pattern 311 or The pre-cut lines 312 to 316 divide the screen 31 into a plurality of screen units 317. The pre-cut lines 312-316 have at least two connecting portions 312a-316a between the adjacent filter units 317. Moreover, in some embodiments, as shown in Figures 9(a) and (b), the screen 31 may have a flat surface or a curved surface and is not limited thereto. • Referring to Figures 10(a) to (b), there is shown another schematic diagram of a filter structure suitable for use in the automatic screen renewal apparatus of the preferred embodiment of the present invention. As shown in Figs. 10(a) to (b), the screen 31 used in the automatic screen updating device 3 of the present invention may be, for example, a folding screen. Wherein, the folding type crossing net can be formed by folding a long strip filter, as shown in the tenth figure (a), or as a plurality of separate filter unit units like a removable toilet paper, which are stacked one on another. Cheng, as shown in Figure 10 (b). When the screen automatic updating device 3 of the present invention uses the folding screen 31, the automatic screen updating device 3 can further provide a receiving portion _36, as shown in the eleventh, to accommodate the folding screen 31. In some embodiments, when the automatic screen updating device 3 of the present invention adopts the folding screen 31 as shown in the first drawing (a) to (b), the transmission device 32' can also be used as shown in the third figure or the The structure shown in Figure 5. Taking the transmission device as shown in FIG. 5 as an example, the transmission device 32 may include a drive gear 323, a first gear set 324, a first filter shaft 325, a second gear set 326, a drive belt 327, and a second filter. The net shaft 328. The drive gear 323 is coupled to the power unit 33 to rotate in response to the drive of the power unit 33. The first gear set 324 cooperates with the drive gear 323 to rotate in response to the drive of the drive gears 323 15 200810823. The first screen rotating shaft 325 is coupled to the first gear set 324 to move the partial screen 31 in response to the rotation of the first gear set 324. The second gear set 326 is coupled to the first gear set 324, and the drive belt 327 is coupled to the first gear set 324 and the second gear set 326 for driving the second gear set 326 to rotate in response to the rotation of the first gear set 324. The second screen rotating shaft 328 is coupled to the second gear set 326 to drive and extract the folding screen 31 in the receiving portion 36 in response to the rotation of the second gear set 326. In some embodiments, when the screen automatic updating device 3 of the present invention uses the folding screen 31 as shown in the first drawing (a), it can also be used by the first screen rotating shafts 321, 325. After the filter 31 is wound up, it can be disassembled, replaced or cleaned. In addition, the automatic screen updating device 3 can also be provided with a positioning mechanism 34 as shown in FIG. 6 to position the filter screen 31, flatten the filter screen 31, and provide tension of the filter screen 31, and set as shown in the seventh figure (a). (b) The cutting mechanism 35 is shown to partially divide and remove the used screen 31. In other embodiments, when the screen automatic updating device 3 of the present invention uses the folding screen 31 as shown in FIG. 10(b), the positioning mechanism 34 as shown in FIG. 6 may be provided, but it is not necessary. The used filter 31 can be removed by using the cutting mechanism 35 shown in Figs. 7(a) to (b). Referring to Fig. 12 (a) to (b), there are shown schematic structural views of a sensing device and a warning device of the automatic screen updating device of the preferred embodiment of the present invention. As shown in FIG. 12(a) to (b), the automatic screen updating device of the present invention further includes a sensing device 37 adjacent to the filter screen 31 for sensing the use state of the filter screen 31. In response to the generation of a sensing signal 81 for transmission to the control unit 24 in the air conditioning unit 2, a control signal C1 is generated to enable the power unit 33 to drive the transmission unit 32. The salty sensing device as shown in Fig. 12(a) or the reflective sensing device as shown in Fig. 12(b) is not limited thereto. Please refer to the twelfth map (aMb). In some embodiments, the automatic filter/network automatic update device 3 further includes a warning device 38' disposed inside or outside the air conditioner 2 to provide a warning signal according to the control signal ci of the control unit 24, thereby The user is reminded to update the filter 31 or cut the filter or mesh 31 used by φ. In addition, the automatic screen updating device 3 of the present invention can further provide a remote control signal receiving device 39 for receiving the remote control signal of the remote control device 40, thereby facilitating the user to control the filter 31 at the remote end. Automatically update or perform other processing. According to the concept of the present invention, the automatic screen updating device 3 of the present invention can automatically update the filter screen 31 when the air conditioning device 2 stops supplying air, for example, but is not limited thereto. In addition, the automatic update device 3 in this case is not only applicable to air conditioners such as air conditioners, air cleaners, heaters, and dehumidifiers, but can be further applied to kitchen range hoods and sewer systems, and This is limited. Referring to Figure 13, there is shown a block diagram showing the structure of the automatic screen updating device of another preferred embodiment of the present invention. As shown in Fig. 13, the automatic screen updating device 3 of the present invention includes a circulating filter 41, a transmission = a force device 33, and a cleaning device 42. Wherein, the transmission device is used to drive the circulating filter 41 to move, and the power device 33 is coupled to the transmission device for driving the circulating filter 41 to move by the automatic drive transmission 32 in response to the use state of the circulating mesh 41.俾 Automatically update the circulating filter 17 200810823 Web 41. Further, the cleaning device 42 is used to clean the circulating screen 41. In this embodiment, the structure and function of the transmission device 32 and the power unit 33 are similar to those of the third and fifth embodiments, and are correspondingly shown in the thirteenth and fourteenth views, respectively. No longer. In addition, the positioning mechanism 34 of the automatic screen updating device 3 (as shown in FIG. 6 ), the sensing device 37 , the warning device 38 , the remote control signal receiving device 39 , and the control unit 24 of the air conditioner 2 and the remote control device 40 The structure and principle are also similar to the foregoing embodiments, and will not be described again. In this embodiment, the difference from the foregoing embodiment is that the automatic screen refreshing device 3 employs a circulating filter 41 and a cleaning device 42 for automatically cleaning and using the circulating filter to complete the updating of the filter. The circulating filter 41 is sleeved on the first screen rotating shafts 321 and 325 of the transmission device 32 and the second screen rotating shafts 322 and 328. Therefore, the circulating filter can be driven by the driving of the power unit 33 and the transmission unit 32. The net 41 moves and loops. Referring to FIG. 13 and FIG. 14 again, the cleaning device 42 of the automatic screen refreshing device 3 includes, for example, a first brush device 421, and first mesh rotating shafts 321, 325 disposed on the transmission device 32, and The position between the second screen rotating shafts 322, 328 is adjacent to and substantially contacts the surface of the circulating screen 41, whereby the dust particles collected on the surface of the circulating screen 41 can be brushed off when the circulating screen 41 moves . In addition, in some embodiments, the cleaning device 42 may also be a second brush device 422, adjacent to the second screen rotating shaft 322, 328 and the circulating screen 41 on the second screen rotating shaft 322, 328. The surface is in contact, whereby the fine dust particles collected on the surface of the circulating screen 41 can be removed while the circulating screen 41 is moved. In addition, the second filter 18 200810823 mesh rotating shafts 322, 328 and the second brush device 422 may be disposed in a cleaning pool 423 to clean the circulating filter screen 41 by the cleaning liquid in the cleaning pool 423. In other embodiments, the cleaning device 42 can be an ultrasonic device 424, and the second filter shafts 322 and 328 are disposed in the cleaning pool 423. The sound waves generated by the ultrasonic device 424 can be collected and collected. The fine dust particles on the surface of the circulating screen 41 fall in the cleaning liquid inside the cleaning tank 423. In other embodiments, the cleaning device 42 may be, for example, a dust suction device 425 disposed at a position between the first screen rotating shafts 321 and 325 of the transmission device 32 and the second screen rotating shafts 322 and 328 and adjacent to the circulating filter. The surface 'of the mesh 41' can be used to suck up the dust particles collected on the surface of the circulating filter 41, thereby achieving the purpose of cleaning and renewing the circulating filter screen 41. In addition, the dust suction device 425 can also cooperate with the first brush device 421 to absorb the dust particles removed by the first brush device 421. In other alternative embodiments, as shown in FIG. 15, the cleaning device 42 may be a rotary wing device 426, and the second screen rotating shafts 322, 328 are disposed inside the cleaning pool 423, and are agitated by the rotary wing device 426. The cleaning liquid inside the cleaning tank 423 can clean the fine dust particles collected on the surface of the circulating filter 41 with the cleaning liquid, so as to achieve the purpose of updating the filter. In other alternative embodiments, as shown in FIG. 16, the cleaning device 42 may also be a pump liquid supply device 427, which includes a pump 4271, a condensate recovery device 4272, and a collection tank 4273. The collection tank 4273 can be used to collect the condensed water recovered by the condensed water recovery unit 4272 or to receive the externally supplied cleaning liquid. Then, the pump 4271 and the pipes 4274, 4275 are used to pump the condensed water or the cleaning liquid liquid 19 200810823 inside the collecting tank 4273 and output it to the circulating screen 41, in particular, the circulation to the first screen rotating shafts 321, 325. The filter screen 41 can thereby clean the dust particles collected on the surface of the circulation screen 41 to the inside of the washing tank 423. In addition, in other alternative embodiments, as shown in FIG. 17, the cleaning device 42 may also be a pump liquid supply device 427, which includes a pump 4271, a condensate recovery device 4272, and a collection tank. 4273, in addition to the pipelines 4274 and 4275, a cleaning liquid accommodating tank 4276 can be further included, and the cleaning liquid accommodating tank 4276 can be used for accommodating a cleaning liquid, such as a chemical cleaning liquid. The collecting tank 4273 has a first input end 4273a, a second input end 4273b, and an output end 4273c. The first input end 4273a is connected to the condensed water recovery device 4272 for introducing the condensed water recovered inside the air conditioner into the collecting tank 4273. The second input end 4273b is connected to the cleaning liquid receiving groove 4276 for introducing the cleaning liquid into the collecting groove 4273. In addition, the output end 4273c is coupled to the conduit 4274 to discharge the cleaning liquid in the collection tank 4273 to the circulating filter 41 by the pump 4271 and the conduits 4274, 4275, whereby the collection can be collected in the circulation filter 41. The dust particles on the surface are cleaned to the inside of the washing tank 423. Of course, the cleaning liquid in the cleaning liquid holding tank 4276 can be automatically introduced into the collecting tank 4273 when the power unit 33 is started, but is not limited thereto. In still other alternative embodiments, as shown in FIG. 18, the cleaning device 42 may include a condensed water recovery device 4272 and a cleaning pool 423, wherein the second screen rotating shaft 322 is provided with a cleaning liquid disposed in the cleaning pool 423. And collecting the condensed water inside the air conditioner 2 by the condensed water recovery device 4272, and diverting it into the cleaning pool 423 as a main source of the cleaning liquid, which can be collected on the surface of the circulating filter 41 by 20 200810823 The fine dust particles are washed with a cleaning liquid inside the cleaning tank 423. In some embodiments, as shown in the thirteenth and fourteenth embodiments, the cleaning device 42 of the automatic screen refreshing device 3 further includes a drying device 428 disposed on the first filter shaft 321 of the transmission device 32. The position between the 325 and the second screen rotating shafts 322, 328 and adjacent to the surface of the circulating screen 41 can be used to dry the circulating screen 41. In summary, the automatic screen updating device of the present invention uses the filter screen, the transmission device and the power device to achieve the purpose of automatically replacing or cleaning the filter screen. In this case, the automatic filter updating device can automatically clean or replace the filter inside the device or the system, and reduce the dangers and problems that the user may cause by removing the filter. In addition, the automatic screen updating device of the present invention can also prevent the dust particles collected by the filter from flowing into the device or the system or being returned to the environment by the device or system during the process of updating the filter. Therefore, this case is of great industrial value and meets various patent requirements. This case has been modified by people who are familiar with the technology, but it is not intended to be protected by the scope of the patent application. 21 200810823 [Simple description of the diagram] The figure shows the structure of the air conditioning equipment with a detachable cable. The first figure (a) (b) shows a schematic diagram of the structure of the automatic updating of the ferry network in the preferred embodiment of the present invention. Fig. 3 is a schematic view showing the structure of the automatic screen updating device of the preferred embodiment of the present invention. Fig. 4 is a side view showing the structure of the structure shown in the third figure, which is disposed inside an exemplary air conditioning apparatus. The figure, system, and, and the screen automatic updating device of the preferred embodiment of the present invention use a schematic structural view of another transmission device. Sixth Diagram: It is a schematic structural view showing a positioning mechanism used in the automatic network renewal device of the preferred embodiment of the present invention. 7(a) to (b) are schematic structural views showing the manual and automatic cutting mechanisms used in the automatic screen changing of the preferred embodiment of the present invention. Fig. 8(a)(1) is a schematic view showing various preset patterns of the screen used by the newer device of the preferred embodiment of the present invention. Figure 9 (a) and (6) are side views showing the screens used in the automatic updating device of the preferred embodiment of the present invention. Fig. 10(a) to (b) are schematic diagrams showing another filter structure suitable for the automatic transmission device of the filter system of the preferred embodiment of the present invention. Figure 11 is a schematic view showing the structure of a receiving portion used in the automatic screen updating device of the preferred embodiment of the present invention. Fig. 12 (a) to (b) are schematic structural views showing a sensing device and a warning device of the automatic screen updating device of the preferred embodiment of the present invention. Figure 13 is a schematic view showing the structure of the automatic screen updating device of another preferred embodiment of the present invention, wherein the automatic screen updating device uses the transmission device shown in the third figure. Fig. 14 is a structural view showing the automatic screen updating device of another preferred embodiment of the present invention, wherein the automatic screen updating device uses the transmission device shown in Fig. 5. Fig. 15 is a schematic view showing the structure of a cleaning device used in the automatic screen updating device of another preferred embodiment of the present invention. Figure 16 is a schematic view showing the structure of another cleaning device used in the automatic screen updating device of another preferred embodiment of the present invention. Figure 17 is a schematic view showing the structure of another cleaning device used in the automatic screen updating device of another preferred embodiment of the present invention. Figure 18 is a schematic view showing the structure of another cleaning device used in the automatic screen updating device of another preferred embodiment of the present invention. 23 200810823 [Description of main components] 1 : Air conditioner U: Main body 2: Air conditioner 21: Front panel 23: Dust collector 3: Automatic filter update device 32 · · Transmission 34: Positioning mechanism 36: Receptacle 38 : Warning device · Remote control device 42 : Cleaning device 311 : Pre-fold line pattern 317 : Filter unit 321 : First filter shaft 3 2 3 · Drive wheel 325 · Brother-filter shaft 327 : Drive belt 341 : Positioning Plate 343: housing box 10·: screen 12: front panel 20: body 22: condenser tube 24: control unit 31: strainer 33: power unit 35: cutting mechanism 37: sensing device 39: remote control signal Receiving device 41: Circulating filter 312' 316: pre-cut pattern 312a to 316a: connecting portion 322 · · second filter rotating 324 : : first gear set 326 : second gear set 328 : : second Filter shaft 342: elastic member 351 • tapered tooth cutting portion 24 200810823 352 : drive motor 353 : first rotating shaft 354 : second rotating shaft 355 : transmission belt 356 : cutting element 421 : first brush device 422 : second hair Brush device 423 ·· Washing tank 424: ultrasonic device 425: vacuuming device 426: rotary wing device 427: pump liquid supply device 428: drying device 4271 • pump 4272: condensed water recovery device 4273: collecting tank 4274: line 4275: line 4276 : cleaning liquid receiving groove 4273a: collecting tank first input end 4273b: collecting tank second input end 4273c: collecting tank output end S1: sensing signal C1: control signal 25