201144178 六、發明說明: 【發明所屬之技術領域] 。本發明係有關-種可將收納對象物保濕及保冷的容 器。 【先前技術】 、,在-㈣冷藏設備中’要將冷藏空_濕度維持成和 冷治p刚相陳度是有困難的。那是因為用以冷卻空氣 溫面會凝縮水分而去除空氣中的水分之緣故。此時,於低 濕度中冷藏生鮮食品等之時,會有食品中的水分喪失而損 及品質的情況’故需要能在轉濕度下進行冷藏的設備。、 例如專利文獻1記載一種將庫内加濕及冷卻的高濕卢 =冷庫。該高濕度保冷庫具有配置在賴容器内的循環^ 段、冷卻手段及加濕手段。密閉容器内的空氣係透過循環 手段循環’透過冷卻手段冷卻,同時透過加濕手段加濕。 力口、濕手段係透過對循環的空氣散佈水而進行加濕者。 [先前技術文獻] [專利文獻] 專利文獻丨日本特開2006 — 31729號公報(段茨 [0032],圖 1 ) /〇 【發明内容】 [發明所欲解決之課題] 然而,以專利文獻丨所記載的高濕度保冷庫而言,在 運轉當中需要有散佈水的動力,有所謂運轉成本高的問 題。特別疋就异是收納對象物少的情況,密閉容器内全體 仍舊會被加濕而消耗多餘的動力。 有鑒於如以上之情形,本發明之目的在於提供一種無 g 5/26 201144178 需拍费用於保濕之成本的保祕冷㈣容器。 丨用以解決課题之手段】 =成上述目的’本發明的—形態相關的容器係藉 由西L盘在冷卻成指定溫卢的 &的1間内’以將收納對象物保渴 保θ的谷器,其具備容器本體及蓋。 、上述容器本體為金屬製且具有:底壁;側壁,其包圍 上述底壁的周圍而形成内部空間;及層板,其連接於上述 側壁’且籍由區隔上述内部空間而形成用於收納上述收納 對象物的空間部,在以上述指定溫度進行冷卻後,該空間 部的濕度比冷卻前還高。 上述0金屬其藉由氣密地安狡於上述側壁而將 上述内部空間密閉。 為達成上述目的’本發明的一形態相關的容器為,將 收納對象物收納於容器的内部空間。 在以札定溫度進行冷卻時,透過在上述内部空間設置 層板而形成用以維持上述收納對象物的保水量之空間部。 上述空間部係藉由將上述容器冷卻成上述指定溫度, 其濕度變得比冷卻前還高。 【實施方式】 本發明的一實施形態相關的容器,係藉由配置在冷卻 成指定溫度的空間内,以將收納對象物保濕保冷的容器, 其具備容器本體及蓋。 上述谷器本體為金屬製且具有:底壁;側壁,其包圍 上述底壁的周圍而形成内部空間;及層板,其連接於上述 側壁,且藉由區隔上述内部空間而形成用於收納上述收納 對象物的空間部,在以上述指定溫度進行冷卻後,該空間 6/26 201144178 部的濕度比冷卻前還高。 述二 =屬製’籍由氣密地安裝於上述側壁而將上 祕ΐ =本體的空間部收納有收納對象物,藉由將蓋所 饴地女哀於側壁而將内部空間密閉。,盍轧 指定溫度的空間内時會被冷氣^在被冷卻成 的容器使内部空間内的空氣:二被冷卻後 =象物。此時,連接於側壁的層板亦因:自: 二了分的情況,水分會暫時從收納對象物放出 :的被層板區隔成複_ 出,水刀贿在各空間部。藉由伴隨著冷卻之濕皮 使仔被放出的水分再度被收崎象 :升’ 物得以被保濕。 使收納對象 上述容器本體可具有··第一收納托 底壁的第-底壁部、及構成上述側壁的一^=成上述 =第二收納托盤,其具有構成上述層板的第二底辟:壁 及連接於上述第二錢部且構成上述側㈣外—部^ 一側壁部,及密封構件’其配置在 第二側壁部之間。 训土。卩和上述 透過在第-及第二收納托盤收納收納對象 可形成收納著收納對象物的容器本體。在相對於收=象 7/26 201144178 物的量,内部空間的容積過大時,會有在冷卻開始時於内 部空間溫度為高之狀態下,從收納對象物放出的水分擴散 於内部空間内而使濕度不充分之情況。由於該容器本體係 堆暫第一收納托盤和第二收納托盤所構成,所以可依照收 納對象物的量來調節收納托盤的數量,亦即調節内部空間 的容積。藉此,即使在收納對象物少的情況,内部空間的 濕坟仍舊被維持成比冷卻前還高的濕度,使收納對象物得 以被保濕。 上述谷:¾本微可具有:水分供給部,用以朝上述内部 二μ供給保濕用的水分;及通路’用以讓上述空間部各自 地連通。 々在原壞境是低濕度或收納對象物所含的水分少的情況 專,會有將收納對象物保濕用的水分不足之情況。利用水 分供給部㈣部”供給水分,且其水分藉Μ路而被連 通至各㈣部’以維持内部空間的濕度,使收納對象物得 以被保濕。 上述通路亦可為形成於上述層板的貫通孔。 依據此構成水分供給部供給的水分,係經由相 >成於層板的貫通孔,而與各空間部連通。 收卿上ί收崎絲為農作物’上述容器本體亦可具有嗯 收肢,用以吸收由上述農作物放出的乙烯。 為植是農作物的情況,會有從農作物放出做 置成熟或促進腐敗的情況。利用配 内。l間内的乙烯吸收體來吸收 乙細,以抑制農作物腐敗或成熟。 十象物放出的 8/26 201144178 上述層板係按照以上述指定溫度進行冷卻時能維持上 述收納對象物的保水量之大小來形成上述空間部。 藉由層板來區隔内部空間,以形成小容積的複數個空 ,。卩。藉此,防止在冷卻開始時於内部空間之溫度高的狀 態下’從收納對象物放出的水分擴散於内部空間,而使收 納對象物得以被保濕。 上述收納對象物係農作物,上述内部空間係具有收納 上述農作物的I納空間、以及用以分解由上述農作物放出 =乙=的乙烯分解空間,上述容器亦可進一步具備:乙烯 刀解I置,其配置於上述乙烯分解空間;及循環部,在上 迷收納空間和上述乙稀分解空間之間讓上述内部空間内的 氣體循環。 二從辰作物所放出的植物生長激素(乙烯氣體等,以下 5己載為^烯)藉由循環部運送至乙烯分解空間時,會被設 置於乙烯分解空間的乙烯分解I置所分解。藉此,可抑制 乙烯所導致的農作物腐敗或成熟。 _上,乙烯^解襞置係為在上述乙烯分解空間内產生」 氣的臭氧產生☆、或為對上述乙烯分解m⑽料 3外線放射源,上述容器亦可進—步具備臭氧去除部 二糸由,上述乙烯分解空p日,送出到上述收納空間的氣體1 去除臭氧。 ,據此構成’利用由臭氧產生器產生的臭氧或從紫》 、·泉放射源放射的紫外線使乙稀被分解。此外,在二 f置是紫糾放射源的情況,亦_藉紫 : 然"’亦有當臭氧-與收納空間内的201144178 VI. Description of the invention: [Technical field to which the invention belongs]. The present invention relates to a container which can moisturize and keep cold of a storage object. [Prior Art] In the - (4) refrigerating apparatus, it is difficult to maintain the refrigerating air_humidity and cold-treating p-phase. That's because the cooling of the air surface will condense the water and remove the moisture from the air. In this case, when the fresh food or the like is chilled in a low humidity, the moisture in the food is lost and the quality is deteriorated. Therefore, a device capable of refrigerating under humidity can be required. For example, Patent Document 1 describes a high humidity lube = cold storage which humidifies and cools the interior of the warehouse. The high-humidity cold storage has a circulation section disposed in the container, a cooling means, and a humidifying means. The air in the closed container is circulated through the circulation means to be cooled by the cooling means and humidified by the humidifying means. The force and wet means are humidified by distributing water to the circulating air. [Prior Art Document] [Patent Document] Japanese Unexamined Patent Publication No. Hei No. Hei. No. Hei. No. 2006-31729 (Zouzi [0032], Fig. 1) / [Content of the Invention] [Problems to be Solved by the Invention] However, the patent document丨In the high-humidity cold storage described above, there is a need to disperse water during operation, and there is a problem that the operation cost is high. In particular, the difference is that the object to be stored is small, and the entire container is still humidified to consume excess power. In view of the above circumstances, it is an object of the present invention to provide a secret-preserving (four) container which does not require g 5/26 201144178 to be costly for moisturizing.手段 丨 丨 = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = = The bar of θ has a container body and a lid. The container body is made of metal and has a bottom wall, a side wall surrounding the bottom wall to form an internal space, and a laminate connected to the side wall and partitioned by the internal space for storage After the space portion of the object to be stored is cooled at the predetermined temperature, the humidity of the space portion is higher than that before cooling. The zero metal seals the inner space by hermetically sealing the side wall. In order to achieve the above object, the container according to one aspect of the present invention stores the object to be stored in the internal space of the container. When cooling is performed at the temperature of the setting, a space portion for maintaining the water retention amount of the storage object is formed by providing a laminate in the internal space. The space portion is cooled to a predetermined temperature by the container, and the humidity thereof is higher than before cooling. [Embodiment] A container according to an embodiment of the present invention is a container that is placed in a space cooled to a predetermined temperature to moisturize and keep the object to be stored, and includes a container body and a lid. The trough body is made of metal and has a bottom wall, a side wall surrounding the bottom wall to form an internal space, and a laminate connected to the side wall and formed to be accommodated by partitioning the internal space. When the space portion of the object to be stored is cooled at the predetermined temperature, the humidity of the space 6/26 201144178 is higher than that before cooling. In the space where the cover is airtightly attached to the side wall and the upper part of the main body is stored, the object to be stored is accommodated, and the inner space is sealed by the cover of the side wall. When rolling the space of the specified temperature, it will be cooled by the air. In the container that is cooled, the air in the internal space is cooled: after the object is cooled. At this time, the layer connected to the side wall is also caused by: from the case where the water is temporarily discharged from the object to be stored: the layer is divided into layers, and the water knife is bribed in each space portion. The moisture released by the larvae is again condensed by the wet skin with cooling: the liters are moisturized. The container body of the storage object may have a first bottom wall portion of the first storage tray bottom wall and a second storage tray constituting the side wall, and having a second bottom constituting the laminate The wall is connected to the second money portion and constitutes the side (four) outer portion, and the sealing member ' is disposed between the second side wall portions. Training.卩 and the above-described container body that accommodates the storage object by the storage of the storage object in the first and second storage trays. When the volume of the internal space is too large with respect to the amount of the object, the amount of water discharged from the object to be stored is diffused in the internal space when the internal space temperature is high at the start of cooling. In case of insufficient humidity. Since the container system is constituted by the first storage tray and the second storage tray, the number of storage trays can be adjusted in accordance with the amount of the object to be received, that is, the volume of the internal space can be adjusted. As a result, even when the object to be stored is small, the wet grave of the internal space is maintained at a higher humidity than before cooling, and the object to be stored is moisturized. The above-mentioned valleys may have a water supply unit for supplying moisture for moisturizing to the inner two μ, and a passage for allowing the space portions to communicate with each other. In the case where the original environment is low in humidity or the amount of water contained in the object to be stored is small, there is a case where the moisture for absorbing the object to be stored is insufficient. The water supply unit (four) is supplied with water, and the water is connected to each of the (four) portions by the weir to maintain the humidity in the internal space, and the object to be stored is moisturized. The passage may be formed on the laminate. According to the above, the water supplied from the water supply unit is connected to each of the space portions via the through hole formed in the layer. The collection of the greet is a crop. The limbs are used to absorb the ethylene released from the above crops. In the case of plants being crops, there will be cases where the crops are released for maturity or promote corruption. The ethylene absorbers in the room are used to absorb the fines. In order to suppress the spoilage or maturity of the crops, the above-mentioned layer is formed by the layer plate in accordance with the amount of water retention of the object to be stored when cooling at the specified temperature. Separating the internal space to form a plurality of empty spaces of a small volume, thereby preventing the temperature from being high in the state where the internal space is high at the start of cooling The water discharged from the elephant is diffused in the internal space, and the object to be stored is moisturized. The object to be stored is a crop, and the internal space has a space for accommodating the crop and is decomposed to be released by the crop = B = In the ethylene decomposition space, the container may further include: a vinyl knife solution disposed in the ethylene decomposition space; and a circulation portion for allowing gas in the inner space between the upper storage space and the ethylene decomposition space The plant growth hormone (ethylene gas, etc., which is contained in the following 5) is transported to the ethylene decomposition space by the circulation part, and is decomposed by the ethylene decomposition I set in the ethylene decomposition space. In this way, it is possible to suppress the spoilage or maturation of the crop caused by ethylene. In the above, the ethylene is decomposed to generate ozone in the ethylene decomposition space, or to decompose the ethylene to m(10)3. The source, the container may further be provided with an ozone removal unit, and the ethylene is decomposed into a space, and sent to the storage space. An ozone gas removal. According to this, the ethylene is decomposed by ultraviolet rays emitted from the ozone generated by the ozone generator or from the violet source. In addition, in the case where the two f is the purple correction source, it also _ borrows purple: ran "’ also has ozone - and the storage space
S 觸時,會產生收納對象物被脫色或氧化等之影響6 9/26 201144178 ,由自乙稀 故能防止收 w况。依據上述構成,因為是利用臭氧去除部 分解空間送出到收納空間的氣體中去除臭氧, 納對象物被臭氧所影響。 、 本發明的一#施形態相關的保濕保冷方法為,將收納 對象物收納於容器的内部空間。 在以指定溫度進行冷卻時,用以維持上述收納對象物 的仏水里之空間部’係·透财上述内部空間設置廣板而形 成。 上述企間部係藉由將上述容器冷卻成上述指定溫度, 使得濕度變得比冷卻前還高,, 容器本體的内部空間收納著收納對象物,透過在内部 空間設置層板而形成空間部。藉由容器被冷卻成指定溫 度门。卩空間的空氣之飽和水蒸氣量降低,空間部的濕度 成為比冷卻前還高的濕度,因而收納對象物被保濕。’、 以下,一邊參照圖式一邊說明本發明的實施形態。 (第一實施形態) 兹針對第一實施形態作説明。 圖丨係顯示本發明的第一實施形態相關的容器丨之剖 面圖。 / 4如同一圖所示,容器〗配置在冷藏庫F内,容器丨收 衲著收納對象物S。冷藏庫F係維持成例如5°c。在本實施 形態t,收納對象物s是農作物。 谷器丨係具有容器本體2、蓋3及支持台4。支持台4 被安置在冷藏庫F的地板。容器本體2載置於支持台4上, 蓋3被安裝於容器本體2。容器本體2、蓋3及支持台4係 由紹等之熱傳導性高的金屬製成。 10/26 201144178 如圖丨所示,容器本體2係具有底壁5、側壁6、及層 板7。藉由底壁5和側壁6來包圍側面及下面而形成上面開 放的空間,即内部空間。内部空間係藉由層板7區隔而形 成複數個空間部R。 ★—容器本體2,係以第一收納托盤】】、第二收納托盤12、 第三收納托盤13、第四收納托盤】4、第五收納托盤15、第 六收納托盤16、第七收納托盤17及第八收納托盤18這樣 的順序攸下堆豐而構成。在各收納托盤之間配置有用以維 持氣密的密封構件20。 詳細將敘述如後’其中藉由第—收納托盤n的第一底 壁部11a來構成容器本體2的底壁5,藉由第二至第八收納 托&】2〜18各自的底壁部來構成層板7。又,藉由第一至 第八收納托盤1】〜18的各側壁部來構成容器本體2之側壁 6 〇 圖2係顯示第一收納托盤1〗的構成之斜視圖。 如同一圖所示’第一收納托盤丨丨係具有第一底壁部丨u 和第一側壁部lib。第一側壁部lib係立設於第一底壁部 Ua的周緣。第一底壁部11a係設成正方形,但未受此所限, 亦可為圓形等形狀。在第一側壁部1丨b形成有供密封構件 20嵌入的溝lie。第一底壁部丨U係構成容器本體2的底壁 5 ’第一侧壁部lib係構成容器本體2之側壁6的一部分。 第二至第八收納托盤丨2〜18各自具有和第—收納托盤 Η相同的構成。亦即’第二至第八收納托盤係各自具有第 二至第八底壁部12a〜〗8a、及第二至第八側壁部丨沘〜 18b。第二至第八底壁部12a〜18a係構成容器本體2的層 板7,第二至第八側壁部12b〜18b係構成容器本體2之側 i? 11/26 ^ 201144178 璧6的一部分。 笫一至笫八收納托盤,較適合者為按照收納對象物S 的大小使容積儘可能變小。例如,圖1所示,在收納對象 物S的大小是一樣且預定收納於上下二層的情況,係透過 將第一至第八侧壁部丨丨b〜丨8b的高度設為收納對象物s高 度的兩倍左右’可讓剩餘的容積設為最小限度。 蓋3係籍由氣密地安裝於側噬6而將由底壁5和側壁6 所形成的内部空間密閉。蓋3係透過密封構件2()而被安裝 於收納托盤的最上層,亦即第八收納托盤丨8„ 支持台4係被冷藏庫丨,'内的空氣所冷卻,藉以防止冷 藏庫F的地板與容器本體2之間的熱傳導。在冷藏庫F的 地板成為足夠低溫的情況,亦可不設置支持台4。 各空間部R的收納對象物s的周圍鋪設有乙烯吸收片 22。乙烯吸收片22係吸收從收納對象物s放出的乙稀。乙 婦吸收片22係例如含沸石或碳酸鈣等之薄片。本實施形態 中,乙烯吸收片22相當於吸收體。 &針對使用如以上構成的容器丨的保濕保冷方法作説 明0 △要將收,對象物s收納在容器I收納的情形,於支持 口 4上載置第—收納托盤U,將收納對象物s收納於第一 收納托盤内。复涂,傻^ 人將松封構件20嵌入溝】〗c,將第二收 隹養於第一收納托盤"上。此外,密卿^ ^收被組裝於溝。其次,於第二收納托盤 上收树納對象物並堆4於 第三至第八收·般n 收、'内托盤1丨町將 邊收納縣物S =:透物罐2G —邊堆4一 此外亦可按照收納對象物s的量來調節 12/26 201144178 堆疊的收納托盤之數量。最後將蓋3安裝於最上層的收納 托盤。 v 設置於各部的密封構件20 ’係因第二至第八收納托盤 12〜18及蓋3的重量而彈性變形’使得各空間部只被穷閉。 此外,此收納作業亦可在冷藏庫F的内部進行,亦可"於"令 藏庫F的外部進行後,再將容器】搬入冷藏庫ρ内。冷^ 庫F亦可在從容器1被裝配或搬入前就被維持低溫,^可 在容器1被裝配或搬入後再開始冷卻。又’亦可在—入 藏庫F内配置複數個容器〗。 7 在如以上那樣地收納著收納對象物s的狀態下,内 空間疋被賴的。容If 1係被冷藏庫F内之低溫的 冷卻’接著利用被冷卻的容器i使内部空間内的空氣被冷 卻。在此’用以區隔内部空間的層板7亦因來自於側壁: 之熱傳導而被冷卻,所以内部空間被快速冷卻。 土 冷卻-開始後,内部空間隨即成為收納著收納對 之際的環境(以下’稱為原環境)。伴隨著内部空間被 由於内部空間的飽和水蒸氣量降低,濕度(相對渴度)上 昇,所财錢被㈣對_ s所魏,使㈣對象 以被保濕。此外’在原環境是較低濕度或收納對象物s人 有大量水分的情形’暫時地從收納對象物S朝内部空間放 在:匕’由於内部空間被層板7區隔成複數個空間 部11,所以被放出的水分係停留在各空間部R。藉由伴隨2 卻所致濕㈣上昇’所放出的水分係再度被I納對象物^ 所吸收,使收納對象物得以保濕。 合古t對於收納對象物S的量,内部空間的容積過大時, 會有導致敎崎祕8放_水分仙擴散而 13/26 201144178 濕度不充分之情況。由於容器本體2是籍由堆疊的第一至 第八收納托盤丨丨〜18所構成,所以可按照收納對象物s的 量來調節收納托盤的數量,亦即,調節内部空間的容積。 藉此,即使在收納對象物S的量少之情況,仍舊可維持内 部空間的濕度,使收納對象物s得以被保濕。 又,本實施形態相關的容器本體2係具有被收納在各 二丨部R的乙坤吸收片22。由於收納對象物s是農作物, 所以會有植物成熟之際所放出之屬生長激素即乙烯的放 出,且因卬留於空間部R而促進農作物成熟或腐败的情 况° fe由在空間部R配置乙稀吸收片22,以吸收被放出的 乙烯,可抑制農作物腐敗或成熟。 (第二實施形態) 其次,針對第二實施形態作説明。 以下’針對具有和第一實施形態相關的容器!相同的 構成之部分’賦予相同的元件符號並省略説明。 本實施形態相關的容器和第一實施形態相關的容器I 在容器本體的構成上不同。 圖3係顯示本發明的第二實施形態相關的容器丨〇〇之 剖面圖。 如同一圖所示,本實施形態相關的容器100係具有容 器本體102、蓋3、及支持台4。蓋3及支持台4的構成係 和第一實施形態相關的容器丨相同。 如圖3所示,容器本體丨〇2係具有底壁丨〇5、側壁丨〇6、 及層板107。利用後述之儲水托盤11〇和側壁1〇6包圍侧面 及下面而形成上面開放的空間,即内部空間。内部空間係 藉層板107區隔成複數個空間部r。 14/26 201144178 容器本體102,係以儲水托盤】1〇、第一收納托盤ιη、 第二收納托盤〗】2、第三收納托盤〗]3、第四收納托盤114、 第^'收納托盤U5、第六收納托盤1]6、第七收納托盤117 及第八收納托盤〗18這制順序從下方堆疊而構成。在儲 水托盤11G和第—收納托盤⑴之間及各收納托盤之間, 配置有用以維持氣密的密封構件20。此外,第三至第八收 納托盤113〜1〗8係按照需要而被堆疊。 利用後述之第一收納托盤1Π的第一底壁部llla來構 成容器本體1G2的底壁1Q5,且利用第二至第八收納托盤 112〜118各自的底壁部來構成層板1〇7。又,藉由第一至 第八收納托盤lll〜n8的各側壁部構成容器本體1〇2 壁 106。 一儲水托盤110係具有和圖2所示的第一收納托盤m 同樣的構成,因而省略圖示。亦即,儲水托盤11〇係具有 底壁部110a和側壁部11%,側壁部11%係立設於底壁部 110a的周緣。在側壁部n〇b中形成有供密封構件2〇嵌入 之未圖示的溝。在儲水托盤Π0中儲存有水w。此外,儲 水托盤110的位置未限定在第一收納托盤ln之下例如, 亦可配置在第四收納托盤〗14和第五收納托盤ns之間戋 第八收納托盤Π8和蓋3之間。儲水托盤丨丨〇係相當於水 分供給部。 圖4係顯示第一收納托盤U1的構成之斜視立體圖。 如同一圖所示,第一收納托盤m係具有第—底壁部 11 la和第一側壁部】丨】卜第一側壁部l nb係立設於第一底 壁部丨11a的周緣。第一底壁部llla係設成正方形,但未受 此所限,亦可為圓形等形狀。在第一底壁部1Ua中形成 15/26 201144178 f通孔⑴d。贯通孔丨丨1d的形狀及數量係可適宜變曼。在 尔側壁部丨丨丨b中形成有供密封構件2〇嵌入的溝丨丨丨C。 第-底壁部Ilia係構成容器本體|〇2的底壁|〇5,第一側 壁部mi)係構成容器本體102之側壁1()6的一部分。 第二至第八收納托盤112〜118各自具有和第一收納托 盤m相同的構成。亦即,第二至第八收納托盤係各自具 有為,一至第人底壁部I丨2a〜丨丨8a及第二至第人側壁部H2b 118丨”在$一至第八底壁部丨丨2a〜丨丨如,分別形成赏通 孔M2d〜118心第二至第八底壁部|12a〜||8a係構成容器 本體102的廣板丨07,第二至第八侧壁部U2b〜丨⑽係構 成容器本體丨02之侧壁丨()6的一部分。 各空^ R的收納對象物S的周圍鋪設有乙稀吸收片 22。又,在第八收納托盤丨丨8與儲水托盤n〇之空間部尺 收納有乙稀吸收粉體袋2丨。乙馳收片22及乙敎收粉體 袋2丨係例如含有彿石或碳酸鱗。此外,乙稀吸收粉體袋 2丨只需設置在内建空間的任意位置即可。又,亦可桉照需 要僅設置乙烯吸收粉體袋21和乙烯吸收片22當中任一 者。乙烯吸收粉體袋2丨及乙稀吸收片22係相當於吸收體。 飲針對使用如以上構成的容器]〇〇之保濕保冷方法 説明。 雖與第一實施形態相關的容器1同樣地進行收納對象 物S之收納及收納托盤之堆疊,但在容器丨〇〇中,—開始 在儲水托盤丨10儲存有水,且在儲水托盤n〇上堆疊第— 收納托盤丨丨丨。儲水托盤110所儲存之水的量,係按照於收 納對象物S所含有的水分量作調節。 在收納有收納對象物S的狀態下,内部空間被密閉。 16/26 201144178 容器100係被冷藏庫F内之低溫的空氣所冷卻,接著利用 被冷部的谷态〗〇〇來冷卻内部空間内的空氣。在此,用以 區隔内部空間的層板]〇7亦因來自於側壁】〇6之熱傳導而 被冷卻,所以内部空間被快速冷卻。在本實施形態相關的 谷為100中亦同樣地,伴隨著内部空間被冷卻濕度會上 昇’所以收納對象物s被保濕。 又’因為容器本體102係由經堆疊的第一至第八收納 托盤111〜1】8所構成,所以可按照於收納對象物s的量來 調節收納托盤的數量,亦即,調節内部空間的容積。藉此, 就异是收納對象物S的量少之情況,仍舊能維持内部空間 的濕度’使收納對象物S得以被保濕。 除此之外,本實施形態相關的容器本體1〇2係具有儲. 存水的儲水托盤110、及設置在各收納托盤的貫通孔lud 〜H8d。在内部空間的濕度低的情況,被儲存的水蒸發而 產生水蒸氣並通過貫通孔11 Id〜118d供給至各空間部r。 因此’在原環境是低濕度或收納對象物所包含的水分是少 量的情況等’即使水分不足以直接保濕收納對象物S,仍舊 可維持各空間部R的濕度。 (弟二實施形態) 其次’茲針對第三實施形態作説明。 以下’針對具有和第二實施形態相關的容器1〇〇相同 的構成之部分,賦與相同的元件符號並省略説明。 圖5係顯示本發明的第三實施形態相關的容器2〇〇之 剖面圖。 如同一圖所示’本實施形態相關的容器2〇〇係具有容 為本體202、蓋203、及支持台4。支持台4的構成係和第 17/26 201144178 一 if施形態相關的容器200相同。又,容器200係具有乙 姊分解牧罝230、臭氧去除部231、及循環部232。 如_ 5所示,容器本體2〇2係具有底壁205、側壁2〇6、 及層板207。藉由後述之儲水托盤2丨〇和側壁206來包圍側 面及下面而形成上面開放的空間,即内部空間。内部空間 係藉由層板207區隔成複數個空間部R。 容.¾'本體202 ’係以姑水托盤2丨()、第一收納托盤丨丨丨、 珙一收納托盤丨丨2、第三收納托盤丨丨3、第四收納托盤^4、 笫五收納托盤丨丨5、第六收納托盤丨丨6、第七收納托盤丨丨7 及第八收納托盤丨丨8這樣的順序從下堆疊而構成。在儲水 托盤丨丨0和第一收納托盤丨丨丨之間及各收納托盤之間,配 置有用以維持氣密的密封構件20。此外,第三至第八收納 托盤113〜丨丨8係按照需要而被堆疊。 儲水托盤210係具有底壁部2l〇a和侧壁部210b,側壁 4 210b係立设於底壁部210a的周緣。在儲水托盤2丨()中 設有配管210c。配管210c係以貫通側壁部210b且一端在 容器本體202的外侧而另一端在容器本體202的内側之方 式來配置的管。在儲水托盤210中儲存有水w,儲水把盤 21〇係相當於水分供給部。 盍203係錯由氣密地安裝於側壁206而將由底壁2〇5 和侧壁206所形成的内部空間密閉。蓋203係透過密封構 件20而被安裝於收納托盤的最上層,亦即第八收納托般 丨18。 | 蓋203係具有乙烯分解裝置230及臭氧去除部23丨。且 蓋203設有配管203a。乙烯分解裝置230可以是臭氧產生 器或UV (ultraviolet)燈。臭氧產生器係只要採用2〇ev以 18/26 201144178 上之電暈放電的簡易型者就已足夠。uv燈係可放射紫外線 的螢光管或LED ( Light Emitting Diode )等的燈,可使用放 射能分解乙烯的波長例如200〜400nm的紫外線者。 配管203a係以貫通蓋203的壁面且一端會在容器本體 202的外侧而另一端在容器本體2〇2的内側之方式作配置的 管。在配管203a的内部空間側的端部,設有凸緣狀的氣體 遮蔽板203b。 臭氧去除部231係由二氧化錳、沸石、活性碳、或篩 孔狀或毛織品狀等之表面積大且加工成不妨礙氣體通過的 形狀之金屬所構成。不鏽鋼、鋁、鐵、銅等之金屬等為有 效。臭氧去除部231係由第一臭氧去除體23〗a和第二臭氧 去除體231b構成。第一臭氧去除體231a係配置成包圍乙 烯分解裝置230的周圍,且連接於氣體遮蔽板2〇3b。藉由 第一臭氧去除體231a和氣體遮蔽板203b而在乙烯分解裝 置230的周圍形成乙烯分解空間τ。因此,配管2〇如係使 乙烯分解空間T與循環部232連通。配管203a中被填充有 第二臭氧去除體231b。以下,將内部空間當中的乙烯分解 空間T以外的空間做為收納空間。 循環部232係由風扇233、配管234、配管2〇3a、配管 210c及形成於各收納托盤的貫通孔】Ud至n8d所構成。 風扇233係連接於儲水托盤2〗〇的配管21〇c,配管234係 連接於風扇233和蓋203的配管203a。配管234亦可設為 月b按,日、?、於收納托盤的層數而伸縮的蛇腹。循環部係在 各部藉由凸緣等而被氣密地連接。風扇233係將循環部M2 内的氣體從配管203a侧朝配管2〇lc側送風。藉此,產生 從風扇233通過配管2〗〇c到達容器本體2〇2並從配管加如 19/26 201144178 通過配管234而返回風扇233的氣流。在圖5,此氣流以箭 頭表示。 在乙姊分解空間Ί'的附近,氣流係從收納空間通過笫 矣、氧去除體23丨a而流入乙婦分解空間T。由於配管2()3a 的開口設有氣體遮蔽板203b,所以氣流被防止從配管203a 的附近流入配管203a,且在與LiV燈的紫外線照射或臭氧 產生器產生的岛氧接受某種程度之混合後,再流入配管 203a。 拔針對使用如以上那樣構成的容器200的保濕保冷方 法作説明。When S is touched, it will cause the object to be stored to be discolored or oxidized. 6 9/26 201144178 can prevent the situation from being absorbed by ethylene. According to the above configuration, the ozone is removed by the gas sent out to the storage space by the ozone removing unit decomposition space, and the object is affected by the ozone. In the moisturizing and cooling method according to the aspect of the present invention, the object to be stored is housed in the internal space of the container. When the cooling is performed at a predetermined temperature, the space portion in the drowning water for maintaining the object to be stored is formed by providing a wide plate in the internal space. In the inter-chamber portion, the container is cooled to the predetermined temperature so that the humidity is higher than before the cooling, and the storage space is accommodated in the internal space of the container body, and the space is formed by providing the laminate in the internal space. The container is cooled to a designated temperature gate. The amount of saturated water vapor in the air in the space is lowered, and the humidity in the space portion is higher than that before cooling, so that the object to be stored is moisturized. Hereinafter, embodiments of the present invention will be described with reference to the drawings. (First Embodiment) A first embodiment will be described. Fig. 1 is a cross-sectional view showing a container 相关 according to a first embodiment of the present invention. / 4 As shown in the same figure, the container is placed in the refrigerator F, and the container is placed next to the storage object S. The refrigerator F is maintained at, for example, 5 ° C. In the present embodiment t, the storage object s is a crop. The bark has a container body 2, a lid 3 and a support table 4. The support table 4 is placed on the floor of the refrigerator F. The container body 2 is placed on the support table 4, and the cover 3 is attached to the container body 2. The container body 2, the lid 3, and the support table 4 are made of a metal having high thermal conductivity. 10/26 201144178 As shown in Fig. ,, the container body 2 has a bottom wall 5, side walls 6, and a laminate 7. The open space, that is, the internal space, is formed by the bottom wall 5 and the side wall 6 surrounding the side surface and the lower surface. The internal space is formed by dividing the plurality of space portions R by the partition 7 . ★—the container body 2 is a first storage tray】, a second storage tray 12, a third storage tray 13, a fourth storage tray 4, a fifth storage tray 15, a sixth storage tray 16, and a seventh storage tray The sequence of 17 and the eighth storage tray 18 is formed by stacking and stacking. A sealing member 20 for maintaining airtightness is disposed between the storage trays. The bottom wall 5 of the container body 2 is constituted by the first bottom wall portion 11a of the first storage tray n as follows, and the bottom walls of the second to eighth storage trays & 2 to 18 are respectively described. The parts are formed into a laminate 7. Further, the side walls of the container main body 2 are formed by the respective side wall portions of the first to eighth storage trays 1 to 18. Fig. 2 is a perspective view showing the configuration of the first storage tray 1. As shown in the same figure, the first storage tray has a first bottom wall portion 丨u and a first side wall portion lib. The first side wall portion lib is erected on the periphery of the first bottom wall portion Ua. The first bottom wall portion 11a is formed in a square shape, but is not limited thereto, and may have a circular shape or the like. A groove lie into which the sealing member 20 is fitted is formed in the first side wall portion 1b. The first bottom wall portion 丨U constitutes the bottom wall 5 of the container body 2. The first side wall portion lib constitutes a part of the side wall 6 of the container body 2. Each of the second to eighth storage trays 2 to 18 has the same configuration as the first storage tray Η. That is, the 'second to eighth storage trays' each have the second to eighth bottom wall portions 12a to 8a and the second to eighth side wall portions 丨沘 to 18b. The second to eighth bottom wall portions 12a to 18a constitute the ply 7 of the container body 2, and the second to eighth side wall portions 12b to 18b constitute a part of the side of the container body 2 i? 11/26 ^ 201144178 璧6. From the first to the eighth storage trays, it is more suitable to make the volume as small as possible according to the size of the storage object S. For example, in the case where the size of the storage object S is the same and is intended to be stored in the upper and lower layers, the height of the first to eighth side wall portions 丨丨b to 丨8b is set as the storage object. The height of the s is about twice as long as the remaining volume is set to a minimum. The cover 3 is hermetically sealed to the side space 6 to seal the internal space formed by the bottom wall 5 and the side wall 6. The cover 3 is attached to the uppermost layer of the storage tray through the sealing member 2(), that is, the eighth storage tray 丨8 „the support table 4 is cooled by the air in the refrigerator ,, to prevent the refrigerator F from being cooled. Heat transfer between the floor and the container body 2. When the floor of the refrigerator F is sufficiently cold, the support table 4 may not be provided. The vinyl absorber 22 is placed around the object s of each space portion R. The absorbing film 22 is, for example, a sheet containing zeolite or calcium carbonate. In the present embodiment, the ethylene absorbing sheet 22 corresponds to an absorber. In the case where the object s is stored in the container I, the first storage tray U is placed on the support port 4, and the storage object s is stored in the first storage tray. Overcoating, silly ^ People will embed the loose-sealing member 20 into the ditch] 〗 C, the second collection will be raised on the first storage tray " In addition, Mi Qing ^ ^ collection is assembled in the ditch. Second, in the second Receiving objects on the storage tray The stack 4 is in the third to eighth collections, and the inner tray 1 丨 将 accommodates the prefectures S =: the permeable tank 2G - the side stack 4 can also be adjusted according to the amount of the storage object s 12 /26 201144178 The number of stacked storage trays. Finally, the cover 3 is attached to the uppermost storage tray. v The sealing member 20' provided in each part is elastic due to the weight of the second to eighth storage trays 12 to 18 and the cover 3. The deformation is such that each space portion is only poorly closed. In addition, the storage operation can be performed inside the refrigerator F, and the container can be moved into the refrigerator after the container F is externally stored. The cold storage library F can also be kept cold before being assembled or moved from the container 1, and can be cooled after the container 1 is assembled or moved in. Further, a plurality of cold storage tanks can be placed in the storage container F. In the state in which the storage object s is stored as described above, the internal space is smashed. The capacity If 1 is cooled by the low temperature in the refrigerator F. The air inside is cooled. Here, the layer 7 used to separate the internal space is also used. In the side wall: the heat is transmitted and cooled, so that the internal space is rapidly cooled. After the soil cooling starts, the internal space immediately becomes the environment in which the storage pair is stored (hereinafter referred to as the original environment). The amount of saturated water vapor in the space is reduced, and the humidity (relatively thirsty) is increased. The money is (4) _ s Wei, so (4) the object is moisturized. In addition, 'the original environment is lower humidity or storage object s people have a large number In the case of the water, the water is temporarily placed in the internal space from the storage object S: 匕' Since the internal space is partitioned into the plurality of space portions 11 by the laminate 7, the released moisture stays in each of the space portions R. The moisture released by the wet (four) rise of 2 is absorbed by the object of the object, and the object to be stored is moisturized. When the volume of the internal space is too large, the amount of the internal object space may be too large, and the humidity may be insufficient. 13/26 201144178 The humidity may be insufficient. Since the container body 2 is constituted by the stacked first to eighth storage trays 丨丨 18, the number of storage trays can be adjusted in accordance with the amount of the storage object s, that is, the volume of the internal space can be adjusted. As a result, even when the amount of the object S to be stored is small, the humidity in the internal space can be maintained, and the object to be stored s can be moisturized. Further, the container main body 2 according to the present embodiment has the K-Ben absorbent sheet 22 accommodated in each of the second dam portions R. Since the storage object s is a crop, there is a release of the growth hormone, that is, ethylene, which is released when the plant is mature, and the crop is matured or spoiled by being retained in the space portion R. The ethylene absorbing sheet 22 absorbs the emitted ethylene to inhibit the spoilage or maturation of the crop. (Second embodiment) Next, a second embodiment will be described. The following 'for the container having the first embodiment! The same components are denoted by the same reference numerals, and their description will be omitted. The container according to the present embodiment differs from the container 1 according to the first embodiment in the configuration of the container body. Fig. 3 is a cross-sectional view showing a container 相关 according to a second embodiment of the present invention. As shown in the same figure, the container 100 according to the present embodiment has a container body 102, a lid 3, and a support table 4. The configuration of the cover 3 and the support base 4 is the same as that of the container 相关 according to the first embodiment. As shown in FIG. 3, the container body 2 has a bottom wall 丨〇5, a side wall 丨〇6, and a laminate 107. The upper open space, that is, the internal space, is formed by surrounding the side surface and the lower side with the water storage tray 11 后 and the side wall 1 〇 6 which will be described later. The internal space is partitioned into a plurality of spatial portions r by the laminate 107. 14/26 201144178 The container body 102 is a water storage tray, a first storage tray, a second storage tray, a second storage tray, a third storage tray 114, and a second storage tray. The U5, the sixth storage tray 1]6, the seventh storage tray 117, and the eighth storage tray 18 are stacked in this order from the bottom. A sealing member 20 for maintaining airtightness is disposed between the water storage tray 11G and the first storage tray (1) and between the storage trays. Further, the third to eighth receiving trays 113 to 1 are stacked as needed. The bottom wall 1Q5 of the container body 1G2 is configured by the first bottom wall portion 111a of the first storage tray 1A, which will be described later, and the floor panels 1A7 are formed by the bottom wall portions of the second to eighth storage trays 112 to 118. Further, the container body 1〇2 wall 106 is constituted by the respective side wall portions of the first to eighth storage trays 111 to n8. Since the water storage tray 110 has the same configuration as the first storage tray m shown in FIG. 2, the illustration is omitted. That is, the water storage tray 11 has a bottom wall portion 110a and a side wall portion 11%, and the side wall portion 11% is erected on the periphery of the bottom wall portion 110a. A groove (not shown) into which the sealing member 2 is fitted is formed in the side wall portion n〇b. Water w is stored in the water storage tray Π0. Further, the position of the water storage tray 110 is not limited to the first storage tray ln, for example, and may be disposed between the fourth storage tray 14 and the fifth storage tray ns, between the eighth storage tray 8 and the lid 3. The water storage tray is equivalent to the water supply unit. Fig. 4 is a perspective perspective view showing the configuration of the first storage tray U1. As shown in the same figure, the first storage tray m has a first bottom wall portion 11 la and a first side wall portion. The first side wall portion 11 n is erected on the periphery of the first bottom wall portion 11a. The first bottom wall portion 111a is formed in a square shape, but is not limited thereto, and may have a circular shape or the like. A 15/26 201144178 f through hole (1)d is formed in the first bottom wall portion 1Ua. The shape and number of the through holes 丨丨1d can be suitably changed. A groove C into which the sealing member 2 is fitted is formed in the side wall portion 丨丨丨b. The first bottom wall portion Ilia constitutes a bottom wall|〇5 of the container body|〇2, and the first side wall portion mi) constitutes a part of the side wall 1() 6 of the container body 102. Each of the second to eighth storage trays 112 to 118 has the same configuration as the first storage tray m. That is, the second to eighth storage trays each have a first to a person bottom wall portion I丨2a to 8a and a second to a person side wall portion H2b 118丨" in the first to eighth bottom wall portions. 2a~, for example, forming the through holes M2d to 118, the second to eighth bottom wall portions |12a to ||8a are the wide plate 构成 07 constituting the container body 102, and the second to eighth side wall portions U2b 〜 The 丨(10) is a part of the side wall )6 of the container body 丨02. The absorbing sheet 22 is placed around the storage object S of each empty space R. Further, the eighth storage tray 丨丨8 and the water storage are provided. The space part of the tray n 收纳 contains the Ethylene absorbing powder bag 2 丨 乙 乙 乙 及 及 及 及 及 及 及 及 及 及 及 及 及 及 及 乙 乙 乙 乙 乙 乙 乙 乙 乙 乙 或 或 或 或 或 或 或 或 或 或丨 It is only necessary to set any position in the built-in space. Alternatively, only one of the ethylene absorbing powder bag 21 and the ethylene absorbing sheet 22 may be provided as needed. The ethylene absorbing powder bag 2 and the ethylene absorbing agent The sheet 22 corresponds to an absorbent body. The description of the method of using the above-described container is the same as that of the first embodiment. In the same manner, the container 1 stores the storage object S and the storage tray. However, in the container ,, water is stored in the water storage tray 10, and the storage tray is stacked on the water storage tray n〇. The amount of water stored in the water storage tray 110 is adjusted according to the amount of water contained in the storage object S. The internal space is sealed in a state in which the storage object S is stored. 16/26 201144178 The container 100 is cooled by the low-temperature air in the refrigerator F, and then the air in the internal space is cooled by the valley state of the cold portion. Here, the laminate for partitioning the internal space is also Since the air is cooled by the heat conduction from the side wall 〇6, the internal space is rapidly cooled. In the case of the valley 100 according to the present embodiment, the humidity is increased as the internal space is lowered. Further, since the container body 102 is composed of the stacked first to eighth storage trays 111 to 1 8 , the number of storage trays can be adjusted in accordance with the amount of the storage object s, that is, the inside is adjusted. In this case, the amount of the storage object S is small, and the humidity of the internal space can be maintained, so that the storage object S can be moisturized. In addition, the container body 1 according to the present embodiment is provided. The 〇 2 system has a water storage tray 110 for storing and storing water, and through holes lud to H8d provided in each storage tray. When the humidity in the internal space is low, the stored water evaporates to generate water vapor and pass through the through hole 11 Id to 118d are supplied to the respective space portions r. Therefore, when the original environment is low in humidity or the amount of moisture contained in the storage object is small, the space portion R can be maintained even if the water is insufficient to directly moisturize the storage object S. Humidity. (Different Embodiment) Next, the third embodiment will be described. In the following, the same components as those of the container 1A according to the second embodiment are denoted by the same reference numerals, and their description will be omitted. Fig. 5 is a cross-sectional view showing a container 2 according to a third embodiment of the present invention. As shown in the same figure, the container 2 according to the present embodiment has a main body 202, a lid 203, and a support table 4. The structure of the support table 4 is the same as that of the container 200 related to the form of the 17/26 201144178. Further, the container 200 includes an acetaminophen 28, an ozone removing unit 231, and a circulation unit 232. As shown in FIG. 5, the container body 2〇2 has a bottom wall 205, side walls 2〇6, and a laminate 207. The above-mentioned open space, that is, the internal space, is formed by surrounding the side surface and the lower side by the water storage tray 2丨〇 and the side wall 206 which will be described later. The internal space is partitioned into a plurality of space portions R by the laminate 207.容.3⁄4' body 202' is a guar tray 2 丨 (), a first storage tray 丨丨丨, a storage tray 丨丨 2, a third storage tray 丨丨 3, a fourth storage tray ^ 4, 笫 five The order of the storage tray 丨丨5, the sixth storage tray 丨丨6, the seventh storage tray 丨丨7, and the eighth storage tray 丨丨8 is stacked from the lower side. A sealing member 20 for maintaining airtightness is disposed between the water storage tray 丨丨0 and the first storage tray 及 and between the storage trays. Further, the third to eighth storage trays 113 to 8 are stacked as needed. The water storage tray 210 has a bottom wall portion 21a and a side wall portion 210b, and the side wall 4 210b is erected on the periphery of the bottom wall portion 210a. A pipe 210c is provided in the water storage tray 2(). The pipe 210c is a pipe that is disposed to penetrate the side wall portion 210b and has one end on the outer side of the container body 202 and the other end on the inner side of the container body 202. Water w is stored in the water storage tray 210, and the water storage unit 21 corresponds to the water supply unit. The 盍203 is airtightly attached to the side wall 206 to seal the internal space formed by the bottom wall 2〇5 and the side wall 206. The lid 203 is attached to the uppermost layer of the storage tray through the sealing member 20, that is, the eighth storage tray. The lid 203 has an ethylene decomposition device 230 and an ozone removal unit 23A. Further, the cover 203 is provided with a pipe 203a. The ethylene decomposition unit 230 can be an ozone generator or an ultraviolet (ultraviolet) lamp. The ozone generator system is sufficient as long as it adopts a simple type of corona discharge on 18/26 201144178. The uv lamp is a lamp such as a fluorescent tube or an LED (Light Emitting Diode) which emits ultraviolet rays, and can emit ultraviolet rays having a wavelength of, for example, 200 to 400 nm which can decompose ethylene. The pipe 203a is a pipe that is disposed so as to penetrate the wall surface of the lid 203 and have one end on the outside of the container body 202 and the other end on the inside of the container body 2〇2. A flange-shaped gas shield plate 203b is provided at an end portion of the pipe 203a on the inner space side. The ozone removing unit 231 is made of manganese dioxide, zeolite, activated carbon, or a metal having a large surface area such as a mesh or a wool fabric and processed into a shape that does not hinder the passage of gas. Metals such as stainless steel, aluminum, iron, and copper are effective. The ozone removing unit 231 is composed of a first ozone removing body 23a and a second ozone removing body 231b. The first ozone removing body 231a is disposed to surround the periphery of the ethylene decomposition device 230, and is connected to the gas shielding plate 2〇3b. The ethylene decomposition space τ is formed around the ethylene decomposition device 230 by the first ozone removing body 231a and the gas shielding plate 203b. Therefore, the piping 2 is such that the ethylene decomposition space T communicates with the circulation portion 232. The pipe 203a is filled with a second ozone removing body 231b. Hereinafter, a space other than the ethylene decomposition space T in the internal space is used as the storage space. The circulation unit 232 is composed of a fan 233, a pipe 234, a pipe 2〇3a, a pipe 210c, and through holes Ud to n8d formed in each of the storage trays. The fan 233 is connected to the piping 21〇c of the water storage tray 2, and the piping 234 is connected to the piping 203a of the fan 233 and the lid 203. The pipe 234 can also be a bellow that is stretched and contracted by the month b, the day, and the number of layers of the storage tray. The circulation portion is hermetically connected to each other by a flange or the like. The fan 233 blows the gas in the circulation portion M2 from the side of the pipe 203a toward the side of the pipe 2〇lc. Thereby, the airflow from the fan 233 to the container main body 2〇2 through the pipe 2 〇c is generated, and the airflow is returned from the pipe to the fan 233 through the pipe 234 as in 19/26 201144178. In Figure 5, this airflow is indicated by an arrow. In the vicinity of the acetonitrile decomposition space Ί', the airflow flows into the cleavage space T from the accommodating space through the 笫 矣 and the oxygen removing body 23 丨 a. Since the gas shielding plate 203b is provided in the opening of the pipe 2 () 3a, the airflow is prevented from flowing into the pipe 203a from the vicinity of the pipe 203a, and is mixed to some extent with the ultraviolet rays of the LiV lamp or the island oxygen generated by the ozone generator. Then, it flows into the piping 203a again. The method of moisturizing and cooling using the container 200 constructed as described above will be described.
與名一實施形態相關的容器丨同樣地,進行收納對象 物S之收納和收納托盤之堆疊。蓋203經堆疊後,循環部 232被氣密地連接。饋入風扇233及乙烯分解裝置23〇的電 源,與第二實施形態相關的容器丨〇〇同樣地,藉由冷藏庫F 内之低溫的空氣冷卻容器200,使收納對象物S得以被保 濕0 在此 為如上述般藉由風扇233產生氣流,所以從 收納對象物S放出的乙稀係透過氣流而流入乙稀分解空間 丨且被來自乙晞分解裝置230白勺臭氧或紫外線所分解去 除。空氣中的氧會接受紫外線照射而產生臭氧,利用 此臭乳亦可分解乙稀。另—方面,#臭氧接觸收納對象物$ 時’收納對象物S會脫色、氧化,但可利用第—臭氧去 體23U及第二臭氡去除體㈣來去除臭氧,防納 對象物S造成影響。這是因為,在臭氧去除體咖及^ 去除體鳩的表面上,因臭氧之分解所產生的自备 激發態遷移到基態的緣故。 "< 20/26 201144178 如此一來,在本實施形態相關的容器200中,由於收 納對象物S被保濕,同時自收納對象物s放出的乙稀被分 解’所以可防止收納對象物s腐敗或成熟。 本發明未被限定為僅如上述的實施形態,可在未逸脫 本發明的要旨之範圍内進行變更。 在各實施形態中,收納對象物為農作物,但不受此所 限。亦可將鮮魚等f要保濕者當成I崎象物。 在各實施形怨中,各收納托盤的側壁部之高度亦可彼 此不同。可按照收納對象物s的大小作變更。 弟-貫施形態中’雖在各收納托盤形成貫通孔做為讓 内部空間各自連通用的通路,但未受限為貫通孔。通路亦 可設為是例如設置在各收納托盤的趣部的通氣孔。 第二實施形態令,亦可在内部空間設置用以讓内部空 的風扇等。藉由讓内部空間内的氣體循 ^環。 給手段供給至内部空_水蒸氣或乙稀 托般,容器本體雖係堆疊第-至第八收納 ff所構成’但不受此所限。例如,亦可透過在-個收納 =盤設置可裝卸的層板來構成容器本體。在該收納托盤 狀態下收納收納對象物’而在層板被安 1後層板上再度收納收納對象物。 【圖式簡單說明】 圖1為顯示第—實施形態相_容器之剖面圖。 ^ 2為顯示同—實施形態相關的第—收納托盤之斜視 立體圖。 £ 圖3為顯示第二實施形態相關的容器之剖面圖。 21 /26 201144178 丨四丨4為顯示同一實施形態相關的笫一收納托盤之斜视 立體!a。 圖5係顯示第三實施形態相關的容器之斜视立 【主要元件符號說明】 Λ ~ 1 ' 100 ' 200 容器 2、 102 、 202 容器本體 3 ' 203 蓋 4 支持台 5、 1()5、205 底壁 6、 106 ' 206 侧壁 7、 107 、 207 層板 || 、 111 第一收納托盤 11 a ' Ilia 第一底壁部 lib 、111b 第一侧壁部 11c 、lUc 溝 11 Id ' 112d ' 113d 114d 、 115d 、 116d 117d 、 118d 貫通孔 12、 112 第二收納托盤 12a 、112a 第二底壁部 12b 、112b 第二側壁部 13、 113 第三收納托盤 13a 、113a 第三底壁部 13b ' 113b 第三側壁部 14、 114 第四收納托盤 14a 、114a 第四底壁部 22/26 201144178 14b 、 114b 第四側壁部 15 、 115 第五收納托盤 15a、115a 第五底壁部 15b > 115b 第五側壁部 16、116 第六收納托盤 16a、116a 第六底壁部 16b 、 116b 第六側壁部 17、117 第七收納托盤 17a 、 117a 第七底壁部 17b ' 117b 第七側壁部 18 ' 118 第八收納托盤 18a 、 118a 第八底壁部 18b > 118b 第八側壁部 20 密封構件 21 乙烯吸收粉體袋 22 乙烯吸收片 203a 配管 203b 氣體遮ί敗板 210 儲水托盤 210a 底壁部 210b 側壁部 210c 配管 230 乙稀分解裝置 231 臭氧去除部 231a 第一臭氧去除體 231b 第二臭氧去除體 23/26 201144178 232 循環部 233 風廟 234 配管 I< 冷藏庫 R 空間部 S 收納對象物 T 乙烯分解空間 w 水 24/26In the same manner as the container 相关 related to the first embodiment, the storage object S is stored and the storage tray is stacked. After the cover 203 is stacked, the circulation portion 232 is hermetically connected. In the same manner as the container 相关 according to the second embodiment, the low-temperature air-cooling container 200 in the refrigerator F is used to moisturize the storage object S in the same manner as the container 相关 according to the second embodiment. Since the airflow is generated by the fan 233 as described above, the ethylene-based airflow discharged from the storage object S flows into the ethylene decomposition space and is decomposed and removed by ozone or ultraviolet rays from the acetonitrile decomposition device 230. Oxygen in the air is exposed to ultraviolet light to produce ozone, which can also be used to decompose ethylene. On the other hand, when the ozone is in contact with the object to be stored, the object S is decolored and oxidized, but the ozone-depleted body 23U and the second skunk-removing body (4) can be used to remove ozone, and the object S can be affected. . This is because the self-prepared excited state generated by the decomposition of ozone migrates to the ground state on the surface of the ozone removing body and the body removing body. < 20/26 201144178 In the container 200 according to the present embodiment, since the storage object S is moisturized and the ethylene discharged from the storage object s is decomposed, it is possible to prevent the object s from being stored. Corrupt or mature. The present invention is not limited to the above-described embodiments, and modifications may be made without departing from the spirit and scope of the invention. In each of the embodiments, the object to be stored is a crop, but is not limited thereto. It is also possible to treat fresh fish and other moisturizers as I. In each of the executions, the height of the side wall portions of the storage trays may be different from each other. It can be changed according to the size of the storage object s. In the younger embodiment, the through holes are formed in the respective storage trays as passages for allowing the internal spaces to communicate with each other, but are not limited to the through holes. The passage may be, for example, a vent hole provided in the interesting portion of each storage tray. In the second embodiment, a fan or the like for allowing the interior to be empty may be provided in the internal space. By circulating the gas in the internal space. The means for supplying the means to the internal air_water vapor or the ethylene tray, the container body is constructed by stacking the first to eighth storage units ff, but is not limited thereto. For example, the container body can also be configured by providing a detachable laminate on a storage tray. The storage object is stored in the storage tray state, and the storage object is again stored in the laminate after the laminate is placed. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a cross-sectional view showing a phase-container of a first embodiment. ^ 2 is a perspective view showing a slanting of the first storage tray relating to the embodiment. Fig. 3 is a cross-sectional view showing the container according to the second embodiment. 21 / 26 201144178 丨 丨 4 4 is a squint of a storage tray related to the same embodiment. Fig. 5 is a perspective view showing a container according to a third embodiment [main element symbol description] Λ ~ 1 '100 '200 container 2, 102, 202 container body 3 '203 cover 4 support table 5, 1 () 5, 205 Bottom wall 6, 106' 206 Side wall 7, 107, 207 Laminate||, 111 First storage tray 11 a ' Ilia First bottom wall portion lib, 111b First side wall portion 11c, lUc Groove 11 Id ' 112d ' 113d 114d, 115d, 116d 117d, 118d through hole 12, 112 second storage tray 12a, 112a second bottom wall portion 12b, 112b second side wall portion 13, 113 third storage tray 13a, 113a third bottom wall portion 13b' 113b third side wall portion 14, 114 fourth storage tray 14a, 114a fourth bottom wall portion 22/26 201144178 14b, 114b fourth side wall portion 15, 115 fifth storage tray 15a, 115a fifth bottom wall portion 15b > 115b Fifth side wall portions 16, 116 sixth storage trays 16a, 116a sixth bottom wall portions 16b, 116b sixth side wall portions 17, 117 seventh storage trays 17a, 117a seventh bottom wall portions 17b' 117b seventh side wall portions 18' 118 Storage trays 18a, 118a eighth bottom wall portion 18b > 118b eighth side wall portion 20 sealing member 21 ethylene absorbent powder bag 22 ethylene absorbent sheet 203a pipe 203b gas shield plate 210 water storage tray 210a bottom wall portion 210b side wall portion 210c pipe 230 ethylene decomposition device 231 ozone removal unit 231a first ozone removal body 231b second ozone removal body 23/26 201144178 232 circulation unit 233 wind temple 234 pipe I< refrigerator R space unit S storage object T ethylene decomposition space w water 24/26