M409396 五、新型說明: 【新型所屬之技術領域】 本新型是有關於一種儲藏裝置,特別是指一種具相對 溼度調節功能的儲藏裝置。 【先前技術】 咼溫高溼的環境下,食物容易滋生細菌、腐敗;然而 有些食物一旦置放於過度低溫之儲存環境,便無法保有原 本品質或口感。因此,市面上出現各種為特定食品特別設 計的冰櫃。 舉例來說’由於葡萄酒等酒類在5以下環境,會因為 酒體睡著而影響口感,若存放在25°C以上環境則導致酵素 壞死;又,高溼度的環境,容易因細菌滋生造成酒質變酸 為了保持酒的品質’傳統是將酒儲存於地窖,因為地窖 可提供較穩定的特定溫度及溼度的環境。隨著科技發展, 取代地窖的儲酒冰櫃’則是利用控溫方式提供5°C ~20。(:的 環境,藉此保存酒的質感。 現有儲酒冰櫃’雖然藉由控溫技術也可同時讓冰櫃内 相對溼度維持在5〇%~8〇%之間但溼度高低變化較大仍 有改善空間。 【新型内容】 因此’本新型之目的,即在提供一種能夠準確控制溼 度的座度調節系統、其加座模組,及具渔度調節系統的儲 藏裝置。 於疋,本新型具溼度調節系統的儲藏裝置,包含一容 3 M409396 置單元及-溼度調節系統。該容置單元界定出一可封閉的 容置空間。該溼度調節系統設置於該容置空間内並包括一 溼度感測器、一加溼模組、一除溼模組及一控制模組。該 溼度感測器感測該容置空間中的相對溼度並產生一溼度感 測訊號。該加渔模組具有-界定出一封閉的纟液空間的殼 體、一貫穿形成於該殼體的開孔,及一設置於該開孔的霧 化器,該盛液空間内儲工作液體。該控制模組電連接該溼 度感測器、該加溼模組的霧化器及該除溼模組,内儲一第 一溼度閾值及一大於該第一溼度閾值的第二溼度閾值。該 控制模組接收β亥屋度感測§凡號並讀取一對應的相對渔度值 而與該第一溼度閾值'第二溼度閾值比對,當該相對溼度 值低於該第一 ’屋度閾值則啟動該霧化器,當該相對渔度值 高於該第二溼度閾值則啟動該除溼模組。 較佳地’該溼度調節系統的控制模組内儲的第一澄度 閾值為65%~70%之間的數值,該第二溼度閾值為7〇%~75 %之間的數值。 較佳地’該溼度調節系統的加溼模組的霧化器包括一 具有多數個微孔的噴孔片及一接觸該喷孔片的振動元件, 該振動元件受該控制模組控制而產生高頻振盪,帶動該噴 孔片震動而破壞該盛液空間内的工作液體的表面張力,並 產生朝該殼體外噴出的霧化微小液滴β更佳地,該振動元 件為壓電片,通電後震盪頻率為50kHz至300kHz之間。 較佳地,該溼度調節系統的加溼模組還具有一儲存工 作液體的水箱、一連接於該殼體與該水箱之間的連通管, 4 M409396 及一設置於該連通管的調節閥。更佳地,該調節閥與該控 制模組電連接,當該霧化器被啟動,則該調節閥也受控制 模組控制而開啟一段時間,水箱内的工作液體補充入該殼 體的盛液空間内;該調節閥關閉時間設定為在該霧化器關 閉前。 較佳地’該加渔模組的殼體具有多數相連的側壁,其 中至少一側壁的至少部分呈傾斜該開孔是形成於該呈傾 斜的部分。更佳地,該至少部分呈傾斜的側壁是上半部直 立’下半部朝外斜向延伸。 本新型之功效在於利用溼度調節系統執行之溼度調節 方法控制該容置空間内的相對溼度,可使相對溼度維持在 極小的變動範圍内,達到準確控制相對溼度的目的。 【實施方式】 有關本新型之則述及其他技術内容、特點與功效,在 乂下配合參考圖式之二個較佳實施例的詳細說明中,將可 清楚的呈現。 參閱圖1 ’本新型具溼度調節系統的儲藏裝置100之第 較佳實施例是一儲酒冰櫃,包含一容置單元1及一溼度 調節系統2。 在本實施例,容置單元】包括一界定出一容置空間ι〇 的櫃體11 ’及-可開啟或封閉該容置空間1〇的櫃門(圖未 示)。 配合參閱圖2,溼度調節系統2設置於該容置空間1〇 内’並包括-座度感测器3、—加渔模組4、—除渔模 5 及一控制模組6。溼度感測器3感測該容置空間10中的相 對座度並產生一溼度感測訊號》本實施例所述除溼模組5 不以特定除溼技術為限。 參閱圖3,加溼模組4具有一界定出一封閉的盛液空間 40的殼體41、一貫穿形成於該殼體41的開孔42,及一設 置於該開孔42的霧化器43。該盛液空間40内儲工作液體 。本實施例中’工作液體是水。在本實施例,殼體41頂部 設有一可受控封閉或開啟的入水孔(圖未示),在工作液體 不足時,系統維護者可從該入水孔自行補水。 殼體41具有相連的側壁411 ~414,其中側壁411上半 直立’下半部朝外斜向延伸,也就是下半部傾斜,該開 孔42是形成於該呈傾斜的部分。因此,連接該側壁411的 兩側壁412、413的形狀為上半部呈矩形,下半部呈上窄下 寬的梯形。 霧化器43包括一設置於該開孔42處的環形夾持片433 、一同軸設置於該夾持片433上且具有多數個微孔的喷孔 片431 ’及一接觸該喷孔片431的振動元件432。該振動元 件432用來產生高頻振盪’在本實施例為壓電片,通電後 震盪頻率為50kHz至300kHz之間。振動元件432產生的高 頻振盪帶動該噴孔片431震動而破壞該盛液空間内的工作 液體的表面張力,使工作液體穿過喷孔片431的微孔,產 生朝該殼體外喷出的霧化微小液滴β 同時參閱圖1、圖2及圖4,控制模組6電連接該溼度 感測器3、該加溼模組4的霧化器43及該除溼模組5,内 M409396 儲一第一溼度閾值、一大於該第一溼度閾值的第二溼度閾 值’及一介於第一溼度閾值與第二溼度閾值之間的第三溼 度閾值。在本實施例’第一溼度閾值為65%〜7〇%之間的數 值’較佳為68% ;該第二溼度閾值為70%〜75%之間的數 值’較佳為72% ;該第三溼度閾值為70%。 澄度調節系統2調節該容置空間1〇内相對溼度的方法 包括以下步驟: 步驟S1 —溼度感應器3感測該容置空間1〇中的相對溼 度並產生一溼度感測訊號。 步驟S2—控制模組6接收該溼度感測訊號並讀取—對 應的相對溼度值,並與該第一溼度閾值比對,判斷該相對 溼度值是否小於第一溼度閾值?若是,表示對於儲藏酒類 來說過於乾燥,則進行步驟S3;若否,則進入步驟S6。 步驟S3 —啟動加溼模組4,霧化器43的振動元件432 開始振盪。 步驟S4—渔度感應器3繼續感測該容置空間1〇中的相 對溼度並產生溼度感測訊號。 步驟S5 —控制模組6接收該溼度感測訊號、讀取對應 的相對溼度值,並與該第三溼度閾值比對,判斷該相對溼 度值是否低於第三溼度閾值?若是,表示對於儲藏酒類來 說澄度還不夠’則維持加溼模組4的啟動狀態;若否,則 表示溼度已適中,則進入步驟S6。 步驟S6—關閉加溼模組4。 在本實施例’由於加溼模組4的盛液空間40為封閉, 7 因此加溼模組4啟動過後,部分工作液體喷出,盛液空間 40内的氣壓會低於外部氣壓。藉此,可避免工作液體在振 動元件432不振里的情況下仍從喷孔片431滲出。 步驟S7—控制糢組6將相對溼度值與該第二溼度閾值 比對,判斷該相對溼度值是否小於第二溼度閾值?若是, 表示相對溼度適中,流程回到步驟S1 ;若否,表示容置空 間10内相對溼度對於儲藏酒類來說過於潮溼,接著進行步 驟S8。 步驟S8 —啟動該除溼模組5。 步驟S9—溼度感應器3繼續感測該容置空間1〇中的相 對渔度並產生溼度感測訊號。 步驟S10—控制模組6接收該溼度感測訊號、讀取對應 的相對溼度值,並與該第三溼度閾值比對,判斷該相對溼 度值是否小於第三溼度閾值?若是,表示溼度已適中則 進入v驟S11 ’關閉除溼模組5 ;若否,則表示對於儲藏酒 類來說仍過於潮溼,則維持除溼模組4的啟動狀態。 參閱圖5,本實施例實際使用狀況,儲酒冰櫃及溼度調 卞糸統1於至/m 22 C且相對、屋度85%時啟動,經過4〇分 鐘的調節達到平衡,可使相對溼度在8°C下穩定地維持在 67/6至70%之間而不會巨幅擺盡。 參閱圖6,本新型具溼度調節系統的儲藏裝置1〇〇之第 一較佳實施例與第一較佳實施例的差別在於,第二較佳實 施例的溼度調節系統2的加溼模組4還具有一儲存工作液 體的水箱44、一連接於該殼體41與該水箱44之間的連通 M409396 管45,及一設置於該連通管45且與控制模組6電連接的調 節閥46。 在本實施例,當該霧化器43被啟動,則該調節閥邨 啟動也受控制模組6控制而開啟一段時間,此時水箱44内 的工作液體補充入該殼體41的盛液空間4〇内;調節閥鉍 =閉時間設定為在該霧化器關閉前,在本實施例是設定調 節閥46開啟的時間長度短於霧化器43平均運作時間長度 。舉例來說,假設在澄度調節系統i運作—段時間後,^ 節達到平衡的情況下,每次步驟S3啟動加賴組4到座度 適中而在步驟S6關閉加澄模組4費時15秒鐘則調節閱 46被設定開啟的時間短於15秒鐘例如ι〇秒鐘。藉此, 盛液空間40内的氣壓會低於外部氣壓可避免工作液體在振 動凡:432不振盥的情況下仍從噴孔片431滲出。 當然,本實施例所述調節閥46,在另一種設計下也可 2非受控制模組6控制啟閉,當該霧化器43被啟動,該 卽閥46仍為關閉,而是在盛液空間4〇中工作液體不足 、,糸統維護者自行控制控制調節閥46而補水。 ’、·’、所述本新型具座度調節系統的健藏裝置⑽利 相it節系統2控制該容置空間1〇内的相對渔度,可使 ’又維持在極小的變動範圍内,使儲藏於容置空間1〇 物’例如酒’能夠維持在穩定的最佳保存條件下 故確實能達成本新型之目的。 —惟以上所述者,僅為本新型之較佳實施例而已,當不 ⑽此限定本_實施之範圍’即大凡依本新型申請專利 9 M409396 範圍及新型說明内容所作之簡單的等效變化與修飾皆仍 屬本新型專利涵蓋之範圍内。 【圖式簡單說明】 圖1是一示意圖,說明本新型具溼度調節系統的儲藏 裝置之第一較佳實施例的示意配置狀態; 圖2是一方塊圖’說明該實施例中溼度調節系統的架 構; z、 圖3是一立體圖’說明該實施例中,溼度調節系統的 加溼模組的外觀; 圖4是一立體分解圖’說明該實施例中,霧化器細部 元件; 圖5是一流程圖,說明該實施例中,溼度調節系統的 運作方法步驟; 圖6是一實測數據圖表,說明相對溼度隨時間的變化 ;及 圖7是本新型具溼度調節系統的儲藏裝置之第二較佳 實施例的溼度調節系統的加溼模組的平面示意圖。 10 M409396 【主要元件符號說明】 100....... 具溼度調節系統 42....... ••開孔 的儲藏裝置 43....... ••霧化器 1 .......... 容置單元 431 ·...· …喷孔片 10......... 容置空間 432 ..… ••振動元件 11......... 櫃體 433 ..… ••失持片 2 .......... 溼度調節系統 44....... ••水箱 3 .......... 溼度感測器 45....... ••連通管 4 .......... 加溼模組 46....... ••調節閥 40......... 盛液空間 5 ........ ••除溼模組 41......... 殼體 6 ........ ••控制模組 411-414 侧壁 S1〜S5 · ••步驟M409396 V. New description: [New technical field] The present invention relates to a storage device, and more particularly to a storage device with a relative humidity adjustment function. [Prior Art] In a high-humidity environment, food is prone to bacteria and spoilage; however, some foods cannot retain their original quality or taste once they are placed in an excessively low temperature storage environment. Therefore, there are various freezers specially designed for specific foods on the market. For example, 'wine wines and other alcohols in the environment below 5, will affect the taste of the body due to sleeping, if stored in the environment above 25 °C will lead to enzyme necrosis; in addition, high humidity environment, easy to cause bacterial changes due to bacterial growth In order to maintain the quality of the wine, the tradition is to store the wine in the cellar because the cellar provides a stable environment with a specific temperature and humidity. With the development of science and technology, the wine storage freezer that replaces the mantle is provided with a temperature control mode of 5 ° C ~ 20. (: The environment, in order to preserve the texture of the wine. The existing wine coolers, although the temperature control technology can also keep the relative humidity in the freezer between 5〇%~8〇%, but the humidity is still high. Improve the space. [New content] Therefore, the purpose of the present invention is to provide a seat adjustment system capable of accurately controlling humidity, a seat module thereof, and a storage device with a fishery adjustment system. The storage device of the humidity control system comprises a capacitor 3 M409396 unit and a humidity adjustment system. The accommodating unit defines a closable accommodating space. The humidity regulation system is disposed in the accommodating space and includes a sense of humidity. a humidifier module, a dehumidification module, and a control module, the humidity sensor senses relative humidity in the accommodating space and generates a humidity sensing signal. a casing defining a closed sputum space, an opening formed through the casing, and an atomizer disposed in the opening, the working liquid is stored in the liquid storage space. The control module is electrically connected Humidity sensing The atomizer of the humidifying module and the dehumidifying module store a first humidity threshold and a second humidity threshold greater than the first humidity threshold. The control module receives the beta housing sensing § The number and a corresponding relative fishery value are read and compared with the first humidity threshold 'the second humidity threshold, and the atomizer is activated when the relative humidity value is lower than the first 'house threshold'. The dehumidification module is activated when the relative fishery value is higher than the second humidity threshold. Preferably, the first stiffness threshold stored in the control module of the humidity adjustment system is between 65% and 70%. The second humidity threshold is a value between 7〇% and 75%. Preferably, the atomizer of the humidification module of the humidity adjustment system comprises a nozzle sheet having a plurality of micropores and a contact with the spray a vibrating element of the orifice piece, the vibrating element being controlled by the control module to generate high-frequency oscillation, causing the orifice sheet to vibrate to break the surface tension of the working liquid in the liquid containing space, and generating a mist sprayed toward the outside of the housing More preferably, the vibrating element is a piezoelectric piece, and the oscillation frequency after energization Preferably, the humidification module of the humidity control system further has a water tank for storing working liquid, a connecting tube connected between the housing and the water tank, 4 M409396 and a device disposed thereon Preferably, the regulating valve is electrically connected to the control module. When the atomizer is activated, the regulating valve is also controlled by the control module to be turned on for a period of time, and the working fluid in the water tank is supplemented. Entering the liquid storage space of the housing; the regulating valve closing time is set before the atomizer is closed. Preferably, the housing of the fishing module has a plurality of connected side walls, at least a part of at least one side wall The inclined opening is formed in the inclined portion. More preferably, the at least partially inclined side wall is an upper half erected and the lower half extends obliquely outward. The effect of the novel is to perform using a humidity adjustment system The humidity adjustment method controls the relative humidity in the accommodating space, so that the relative humidity can be maintained within a very small variation range, and the purpose of accurately controlling the relative humidity is achieved. [Embodiment] The detailed description of the two preferred embodiments of the present invention will be apparent from the following detailed description of the preferred embodiments. Referring to Fig. 1 'the preferred embodiment of the storage device 100 with a humidity control system of the present invention is a wine storage freezer comprising a housing unit 1 and a humidity conditioning system 2. In this embodiment, the accommodating unit includes a cabinet 11' defining a accommodating space ι and a cabinet door (not shown) which can open or close the accommodating space 1 。. Referring to FIG. 2, the humidity control system 2 is disposed in the accommodating space 1' and includes a sate sensor 3, a fish-filling module 4, a fishing mold 5, and a control module 6. The humidity sensor 3 senses the relative latitude in the accommodating space 10 and generates a humidity sensing signal. The dehumidifying module 5 of the embodiment is not limited to the specific dehumidification technology. Referring to FIG. 3, the humidifying module 4 has a housing 41 defining a closed liquid containing space 40, an opening 42 formed through the housing 41, and an atomizer disposed in the opening 42. 43. The liquid space 40 stores working fluid. In the present embodiment, the working liquid is water. In the present embodiment, the top of the casing 41 is provided with a water inlet hole (not shown) which can be controlledly closed or opened. When the working fluid is insufficient, the system maintainer can self-replenish water from the water inlet hole. The housing 41 has associated side walls 411-414, wherein the upper half of the side wall 411 extends obliquely outwardly, i.e., the lower half is inclined, and the opening 42 is formed in the inclined portion. Therefore, the two side walls 412, 413 connected to the side wall 411 are shaped such that the upper half has a rectangular shape and the lower half has a trapezoidal shape with a narrow upper and a lower width. The atomizer 43 includes an annular clamping piece 433 disposed at the opening 42 , an orifice plate 431 ′ coaxially disposed on the clamping piece 433 and having a plurality of micro holes, and a contact with the orifice plate 431 . Vibrating element 432. The vibrating element 432 is used to generate high frequency oscillations. In this embodiment, the piezoelectric piece is oscillated between 50 kHz and 300 kHz after being energized. The high frequency oscillation generated by the vibrating element 432 causes the orifice sheet 431 to vibrate to break the surface tension of the working liquid in the liquid containing space, so that the working liquid passes through the micropores of the orifice sheet 431 to generate a discharge toward the outside of the housing. The atomizing micro droplets β are simultaneously connected to the humidity sensor 3, the atomizer 43 of the humidifying module 4, and the dehumidifying module 5, as shown in FIG. 1 , FIG. 2 and FIG. M409396 stores a first humidity threshold, a second humidity threshold greater than the first humidity threshold, and a third humidity threshold between the first humidity threshold and the second humidity threshold. In the present embodiment, the value 'the first humidity threshold value between 65% and 7〇% is preferably 68%; the second humidity threshold value between 70% and 75% is preferably 72%; The third humidity threshold is 70%. The method for adjusting the relative humidity in the accommodating space 1 includes the following steps: Step S1 - The humidity sensor 3 senses the relative humidity in the accommodating space 1 并 and generates a humidity sensing signal. Step S2—The control module 6 receives the humidity sensing signal and reads the corresponding relative humidity value, and compares it with the first humidity threshold to determine whether the relative humidity value is less than the first humidity threshold. If it is, it means that it is too dry for the stored sake, and step S3 is performed; if not, it progresses to step S6. Step S3 - The humidifying module 4 is activated, and the vibrating member 432 of the atomizer 43 starts to oscillate. Step S4 - the fishing level sensor 3 continues to sense the relative humidity in the accommodating space 1 并 and generate a humidity sensing signal. Step S5 - The control module 6 receives the humidity sensing signal, reads the corresponding relative humidity value, and compares with the third humidity threshold to determine whether the relative humidity value is lower than the third humidity threshold. If it is, it means that the degree of stability is not enough for storing the wine, and the activation state of the humidification module 4 is maintained; if not, the humidity is already moderate, and the process proceeds to step S6. Step S6—The humidifying module 4 is turned off. In the present embodiment, since the liquid containing space 40 of the humidifying module 4 is closed, 7 after the humidifying module 4 is activated, part of the working liquid is ejected, and the air pressure in the liquid containing space 40 is lower than the external air pressure. Thereby, it is possible to prevent the working liquid from oozing out from the orifice sheet 431 without the vibrating member 432 being vibrated. Step S7—The control module 6 compares the relative humidity value with the second humidity threshold to determine whether the relative humidity value is less than the second humidity threshold. If so, indicating that the relative humidity is moderate, the flow returns to step S1; if not, it indicates that the relative humidity in the accommodation space 10 is too humid for the stored liquor, and then proceeds to step S8. Step S8 - The dehumidification module 5 is activated. Step S9 - the humidity sensor 3 continues to sense the relative degree of fish in the accommodating space 1 并 and generates a humidity sensing signal. Step S10—The control module 6 receives the humidity sensing signal, reads the corresponding relative humidity value, and compares with the third humidity threshold to determine whether the relative humidity value is less than the third humidity threshold. If it is, if the humidity is moderate, then the process proceeds to step S11 to turn off the dehumidification module 5; if not, it means that the moisture storage module 4 is still too humid, and the startup state of the dehumidification module 4 is maintained. Referring to FIG. 5, the actual use condition of the embodiment, the wine storage freezer and the humidity control system 1 are started at /m 22 C and the relative house width is 85%, and after 4 minutes of adjustment, the balance is reached, and the relative humidity can be obtained. It is stable between 67/6 and 70% at 8 °C without being overwhelming. Referring to FIG. 6, the first preferred embodiment of the present invention has a difference between the first preferred embodiment of the humidity conditioning system and the first preferred embodiment. The humidifying module of the humidity conditioning system 2 of the second preferred embodiment 4 further comprising a water tank 44 for storing the working liquid, a communication M409396 tube 45 connected between the housing 41 and the water tank 44, and a regulating valve 46 disposed on the communication tube 45 and electrically connected to the control module 6. . In this embodiment, when the atomizer 43 is activated, the control valve village start is also controlled by the control module 6 to be turned on for a period of time, at which time the working liquid in the water tank 44 is replenished into the liquid storage space of the housing 41. 4〇; adjustment valve 铋 = closing time is set before the atomizer is turned off, in this embodiment, the length of time for setting the regulating valve 46 to be opened is shorter than the average operating time of the atomizer 43. For example, suppose that after the stability adjustment system i is operated for a period of time, when the balance is reached, each time step S3 starts the squaring group 4 to the seat is moderate and the step S6 is closed. In seconds, the adjustment read 46 is set to open for less than 15 seconds, such as 〇 〇. Thereby, the air pressure in the liquid containing space 40 is lower than the external air pressure to prevent the working liquid from oozing out from the orifice sheet 431 in the case where the vibration is not vibrated. Of course, the regulating valve 46 of the present embodiment can also be controlled to open and close by the non-controlled module 6 under another design. When the atomizer 43 is activated, the valve 46 is still closed, but is in full In the liquid space 4〇, the working fluid is insufficient, and the maintenance system controls the control valve 46 to replenish water. ',·', the storage device of the new seat adjustment system (10), the phase-integration system 2 controls the relative fishing degree in the accommodating space 1 ,, and can be maintained within a very small variation range, so that Stored in the accommodating space 1 The sputum 'for example, wine' can maintain the stable optimal storage conditions, so it can achieve the purpose of this new type. - The above is only a preferred embodiment of the present invention, and does not (10) limit the scope of the present implementation, that is, the simple equivalent change of the scope and novel description of the new patent application 9 M409396 And modifications are still within the scope of this new patent. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a schematic view showing a schematic configuration state of a first preferred embodiment of a storage device with a humidity control system of the present invention; FIG. 2 is a block diagram illustrating the humidity control system of the embodiment. FIG. 3 is a perspective view showing the appearance of the humidifying module of the humidity adjusting system in the embodiment; FIG. 4 is an exploded perspective view showing the atomizer detailing component in the embodiment; FIG. A flow chart illustrating the steps of the operation method of the humidity adjustment system in the embodiment; FIG. 6 is a measured data chart illustrating the change of relative humidity with time; and FIG. 7 is the second storage device of the present invention with a humidity adjustment system A schematic plan view of a humidification module of the humidity conditioning system of the preferred embodiment. 10 M409396 [Description of main component symbols] 100....... Humidity adjustment system 42....... •• Storage device for opening holes 43....... •• Nebulizer 1 . ......... accommodating unit 431 ..... ... orifice sheet 10... accommodating space 432 ..... ••vibrating element 11... ... Cabinet 433 ..... •• Loss piece 2 .......... Humidity control system 44....... ••Water tank 3 .......... Humidity sensor 45....... ••Connecting tube 4 ..... Humidifying module 46....... •• regulating valve 40... ... Liquid space 5 ........ ••Dehumidification module 41......... Housing 6 ........ ••Control module 411-414 Side wall S1~S5 · •• steps
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