201250189 / opif 六、發明說明: 【發明所屬之技術領域】 本發明的實施方式涉及一種冰箱。 【先前技術】 在冰箱中’有具備隔熱箱體者,所述隔熱箱體採用在 内箱與外箱之間的空間配設有真空隔熱面板(panel)的結 構。内箱包含:合成樹脂的一體成形品,所述合成樹脂的 一體成形品是整體通過注入(injection)成形、或真空成 形而形成。 先前技術文獻 專利文獻 專利文獻1 :曰本專利特開平4-260780號公報 專利文獻2:曰本專利特開平6_147744號公報 上述冰箱中,未在内箱中形成有支撐部或導執(guide rail)安裝部之類的突出部,所述支撐部支撐設置在冰箱内 的擱板等,所述導軌安裝冑支推抽出式容器。此類突出部 在冰箱中是不可或缺的部件,因此必須設在内箱内。 但是’若要在上述冰箱中設置該突出部,則必須由獨 立於内箱的零件來構成突出部、並安裝該獨立零件,從而 存在製作工時多等問題。 【發明内容】 因此’本發明提供—種能夠實現製作工時的減少的冰 相0 根據實施方式的冰箱,包括隔熱箱體,所述隔熱箱體 201250189 包含:外箱、内箱及真空隔熱面板’所述真空隔熱面板配 置在所述外箱及内箱之間的空間,所述冰箱的特徵在於, 所述内箱具備突出至冰箱内的突出部,所述内箱包含分割 成多個的内板部,所述多個内板部中的至少一個包含一體 地形成有所述突出部的一體成形品。 由此,可提供一種能夠實現製作工時的減少的冰箱。 【實施方式】 <第1實施方式> 首先,參照圖1至圖20來說明第1實施方式的冰箱1<5 圖3所示的冰箱1是以在前表面形成有開口的隔熱箱體2 為主體而構成。在隔熱箱體2的前表面側,安裝著對開式 (法國式(French type))的左側的旋轉門3和右側的旋轉 門4、與多個抽出式門5〜8。 所述各門3〜8均包含:在内部具備隔熱材料(未圖示) 的隔熱門。左側的旋轉門3、右側的旋轉門4如圖1及圖2 所不’由文裝在隔熱箱體2上的上下一對欽鍵(hinge)部 3a、3b與同樣的上下一對鉸鏈部如、4b,而旋轉自如地予 以支撐。 隔熱箱體2是將分別作為單位隔熱壁的左側隔熱壁 9、右側隔熱壁10、上側隔熱壁11、下側隔熱壁12、後側 隔熱壁13連結而構成。這些隔熱壁9〜13將於後文敍述。 在該隔熱箱體2的開口部的左右緣部間,橫向架設有 橫樑構件51、52、53,進而在橫樑構件52、53上,在左 右方向的中間部,縱向架設有縱梁構件54。201250189 / opif VI. Description of the Invention: TECHNICAL FIELD OF THE INVENTION Embodiments of the present invention relate to a refrigerator. [Prior Art] In the refrigerator, there is a case in which a heat insulating box body is provided, and the heat insulating box body is provided with a vacuum heat insulating panel in a space between the inner box and the outer box. The inner box includes an integrally molded product of synthetic resin which is integrally formed by injection molding or vacuum forming. In the refrigerator described above, a support portion or a guide is not formed in the inner box (guide rail). a protruding portion such as a mounting portion that supports a shelf or the like provided in the refrigerator, and the rail is attached to the push-out type container. Such protrusions are an integral part of the refrigerator and must be located in the inner box. However, if the projecting portion is provided in the above-described refrigerator, it is necessary to form the projecting portion from the component independent of the inner box and to mount the separate component, which causes problems such as a large number of manufacturing man-hours. SUMMARY OF THE INVENTION Therefore, the present invention provides a refrigerator that can achieve a reduction in manufacturing man-hours. According to an embodiment of the refrigerator, the heat insulating box includes: an outer box, an inner box, and a vacuum. The heat insulating panel 'the vacuum heat insulating panel is disposed in a space between the outer box and the inner box, wherein the inner box is provided with a protruding portion protruding into the refrigerator, and the inner box includes a dividing portion A plurality of inner plate portions, at least one of the plurality of inner plate portions including an integrally molded product in which the protruding portions are integrally formed. Thereby, it is possible to provide a refrigerator capable of achieving a reduction in manufacturing man-hours. [Embodiment] <First Embodiment> First, a refrigerator 1 according to a first embodiment will be described with reference to Figs. 1 to 20. The refrigerator 1 shown in Fig. 3 is a heat insulation box having an opening formed on a front surface thereof. Body 2 is composed of the main body. On the front surface side of the heat insulating box 2, a left-hand type revolving door 3 of a French type (French type), a right side revolving door 4, and a plurality of drawing-out doors 5 to 8 are attached. Each of the doors 3 to 8 includes a heat insulating door having a heat insulating material (not shown) therein. The revolving door 3 on the left side and the revolving door 4 on the right side are the same as the upper and lower pair of hinges 3a and 3b mounted on the heat insulating box 2 as shown in Figs. 1 and 2 The parts are, for example, 4b, and are supported by rotation. The heat insulating box 2 is configured by connecting the left heat insulating wall 9 as the unit heat insulating wall, the right heat insulating wall 10, the upper heat insulating wall 11, the lower heat insulating wall 12, and the rear heat insulating wall 13. These heat insulating walls 9 to 13 will be described later. Beam members 51, 52, and 53 are laterally stretched between the left and right edge portions of the opening of the heat insulating box 2, and longitudinal members 54 are longitudinally supported on the beam members 52 and 53 at the intermediate portion in the left-right direction. .
S 6 201250189 二且在&樑構件51的後側’安裝签料找絃—a 隔的第1分隔壁55,而且,在讀儲心進行分 著對不同,進行分隔的第2==· 方形成1 乍在隔熱箱體2内’在第1分隔壁55上 分隔Ϊ藏室57,第2分隔壁56在與第1 豐55之間喊作為儲藏室的蔬菜室58。 53 :的,橫樑構件52與同樣的橫樑構件 藏室的小冷二構件54更右側形成作為儲 並曰:左側形成作為儲藏室的製冰室60。 成作為儲藏室的冷杉6卜 Θ下L域’形 且,轉門3與右側的旋轉門4來開閉。而 ,Hi…體地安裝著未圖示的蔬菜容器。 該抽出vti的前表面開口通過拙出式門6來開閉,在 收容ίί 側…體地安裝著未_的被冷康品 閉mt室⑻的前表關口通過抽出式門7來開 :容:該抽出式門7的背面側,-體地安装著未圖示的接 插出表面開σ通過抽料Η 8來開閉,在該 容容^。、肖面側’―體地安裝著相示的被冷床品收 第2分隔壁56是具有發泡苯乙烯(styr〇l)或發泡氨基 201250189 ~Γ知U / 怠 旨“ HO等的_材料而構成,以將儲藏溫度 ^大的&采室58、小冷康室59及製冰室6〇隔熱地分隔開 來’而且,例如,第!分隔壁55包含:合成樹脂製板材, 以將儲藏溫度差不太大的冷藏室57、與蔬菜室%分隔開 來。 接下來,對隔熱紐2及構成隔鋪體2的各隔熱壁9 〜13進彳τ詳述。首先,在圖i〜圖4巾,將構成隔熱箱體 2的整體外廓的外箱Η進行分割,而具有:左外板部i4A, 構成左外表面;右外板部14B,構成右外表面;上外板部 14C ’構成上外表φ ;下外板部⑽,構成下外表面;以 及後外板部14E,構成後外表面。 所述各外板部均包含鋼板,左外板部14A與右外板部 14B呈左右對稱形狀。 將構成隔熱箱體2的内面的内箱15進行分割,而具 有:左内板部15A,構成左内面;右内板部15B,構成右 内面;上内板部15C ’構成上内面;下内板部15D,構成 下内面;以及後内板部15E,構成後内面。 左内板部15A與右内板部15β呈左右對稱形狀,因此 對左内板部15A進行說明。作為内箱15的一部分的左内 板部15A具備:後述的搁板支撐部4〇a、4〇b、4〇c、導軌 安裝部41a、41b與分隔壁支撐部42a、42b,來作為突出 部。 這些擱板支撐部40a、40b、40c、導執安裝部41a、41b 與分隔壁支撐部42a、42b包含:一體地形成的一體成形品S 6 201250189 II. On the rear side of the & beam member 51, the first partition wall 55 is provided for the label to be positioned as a string, and the second partition wall 55 is separated by reading the center of the reservoir. In the heat insulating box 2, the storage compartment 57 is separated from the first partition 55, and the second partition 56 is called the vegetable compartment 58 as a storage compartment between the first partition 55 and the first partition 55. 53: The beam member 52 is formed on the right side of the small cold member 54 of the same beam member compartment as a storage port: the left side forms an ice making chamber 60 as a storage compartment. In the form of a fir 6 as a storage room, the swing door 3 and the right revolving door 4 are opened and closed. On the other hand, Hi... is a vegetable container (not shown). The front surface opening of the extraction vti is opened and closed by the pop-up door 6, and the front table opening of the cold-closed mt room (8) which is not mounted on the receiving ίί side is opened by the withdrawing door 7 in the body: On the back side of the draw-out door 7, a plug-in surface σ (not shown) is attached to the back surface of the draw-out door 7 to be opened and closed by the suction hopper 8, and the capacity is opened. The second partition wall 56 is provided with a foamed styrene (styr〇l) or a foamed amino group 201250189 ~ Γ知 U / 怠"" HO, etc. The material is configured to thermally separate the & chamber 58, the small cold chamber 59, and the ice making chamber 6 that have a large storage temperature. Moreover, for example, the first partition wall 55 includes: synthetic resin The sheet material is separated from the vegetable compartment by a refrigerator compartment 57 having a small difference in storage temperature. Next, the heat insulating core 2 and the heat insulating walls 9 to 13 constituting the partition body 2 are 彳τ In the first embodiment, the outer casing constituting the overall outer shape of the heat insulating box 2 is divided, and has a left outer plate portion i4A, which constitutes a left outer surface, and a right outer plate portion 14B. The upper outer surface portion 14C' constitutes the upper outer surface φ; the lower outer plate portion (10) constitutes the lower outer surface; and the rear outer plate portion 14E constitutes the rear outer surface. The outer plate portions each include a steel plate. The left outer panel portion 14A and the right outer panel portion 14B have a bilaterally symmetrical shape. The inner box 15 constituting the inner surface of the heat insulating box 2 is divided to have a left inner panel portion 15A. The left inner surface portion 15B constitutes the right inner surface; the upper inner plate portion 15C' constitutes the upper inner surface; the lower inner plate portion 15D constitutes the lower inner surface; and the rear inner plate portion 15E constitutes the rear inner surface. The left inner plate portion The left inner panel portion 15A is described as a left inner panel portion 15A. The left inner panel portion 15A which is a part of the inner box 15 includes shelf support portions 4a and 4b, which will be described later. 4〇c, rail mounting portions 41a and 41b and partition wall supporting portions 42a and 42b as protruding portions. These shelf supporting portions 40a, 40b, 40c, guiding mounting portions 41a and 41b and partition wall supporting portions 42a and 42b Including: integrally formed integrally formed product
S 8S 8
201250189 1 a( 的一體成形品1 b > 如圖6所不,上内板部15C包含:人 體成形品1e,所述—體成形品k 向冰相内突出的L狀部17,來作為彎折部。 八有 如圖7所示,下内板部15D包含^成樹 =r—體成形品1d-體地具有作為彎折部的= 這些-體成形品…心卜:^例如是通過注入成形而 形成。另外,也可採用真空成形。 後内板部UE包含:合成樹脂製的平板狀的片材構件 Sa。另外,該片材構件Sa並非使用特別形狀的成形模呈, 而是通過擠出成形或壓延成形等便可製造。而且,也可使 用作為市售品的平板狀的片材構件。 如圖4所示,在外箱14與内箱15之間設有真空隔敎 面板Μ,將該真空隔熱面板16進行分割,而具有:分別 作為單位面板的左單位面板16Α、右單位面板16Β、上單 位面板16C (圖1〇所示)、下單位面板(未圖示)及後單 位面板16Ε。 各單位面板的基本結構相同,因此,例如對左單位面 板16Α進行說明。 該左單位面板16Α如圖8及圖9所示,是將基材19收 ,至包體20内,並通過真空排氣對該包體2〇内部進行減 壓进封而構成,所述基材19是對玻璃棉(glass w〇〇i)等 的無機纖維的層疊材進行壓縮硬化而成形為板狀。201250189 1 a (Integral molded product 1 b > As shown in Fig. 6, the upper inner plate portion 15C includes a human body molded product 1e, and the L-shaped portion 17 in which the body molded product k protrudes into the ice phase is used as The bent portion is as shown in Fig. 7. The lower inner plate portion 15D includes a ^1 tree-r-body molded article 1d-body having a bent portion = these body-shaped molded articles... heart: ^ is, for example, injected Vacuum forming is also possible. The rear inner panel portion UE includes a flat sheet member Sa made of synthetic resin. Further, the sheet member Sa is not formed by using a molding die of a special shape but by It can be produced by extrusion molding, calender molding, etc. Further, a flat sheet member which is a commercially available product can be used. As shown in Fig. 4, a vacuum barrier panel is provided between the outer casing 14 and the inner casing 15 The vacuum heat insulating panel 16 is divided into: a left unit panel 16A as a unit panel, a right unit panel 16A, an upper unit panel 16C (shown in FIG. 1A), a lower unit panel (not shown), and The rear unit panel is 16Ε. The basic structure of each unit panel is the same, so For example, the left unit panel 16A will be described. As shown in FIGS. 8 and 9, the left unit panel 16 is configured to receive the substrate 19 into the package 20 and to reduce the inside of the package 2 by vacuum evacuation. The base material 19 is formed by compressing and hardening a laminated material of inorganic fibers such as glass wool to form a plate.
201250189 /〇pU 包體20為了獲得阻氣(gas barrier)性能,而包含例如 紹蒸鍵層或結洎層等的金屬層而構成。各單位面板一般也 被稱作真空隔熱面板。 左侧隔熱壁9如圖5所示,是在左外板部14A與左内 板部15A之間配置左單位面板16A,並通過接著劑來接著 這三者’而構成為單位隔熱壁。 並且,外箱14與内箱15中的前端部,例如該左側隔 熱壁9的左外板部14A前端部與左内板部15A前端部,如 圖8所示,通過隔熱性材料即合成樹脂製的前端用連結構 件21而連結。 此時,左外板部14A前端部及左内板部15A前端部分 別從左單位面板16A向前方突出,左外板部14A前端部朝 向内側’彎折成大致直角,該f折的前端所設的彎折部14Aa 採用=會進入隔熱箱體2内侧(儲藏室側)的結構,以防 止外相14 (左外板部14A)的熱(外部氣體熱)傳遞至儲 藏室。 左内板部15A前端部嵌合於前端用連結構件21的一端 =所《χ的嵌合部15Aa,前端用連結構件21的另一端側卡 σ於左外板部HA的彎折部i4Aa。 立並且,在由左單位面板16A前端、左外板部14A前端 邛内面削端用連結構件21内面所形成的内部空間部中, 插入配置著隔熱材料例如軟帶(soft tape) 22 ^另外,也可 取代該軟帶22而採用發泡苯乙烯。 右側隔熱壁10也與該左側隔熱壁9同樣(左右對稱形 201250189 *+^.o / opif 狀)地構成。 而且,上側隔熱壁u如圖2及圖1G所示,是在上内 板部15C與上外板# 14C之間配置上單位面板16C,並通 過接著劑來接著上内板部15C與上單位雜16C,且在上 單位面板16C與上外板部MC之間填充固化發泡氨基甲酸 乙酯24而構成。 上内板部15C如前所述,包含:合成樹脂的一體成形 f Ic’所述-體成形品;Te—體地具有向冰箱内突出的[狀 部17,來作為彎折部。 與此相對’上外板部14C也如圖2中的虛線所示,同 樣地具有L狀部l7a,_,上側隔熱壁u整體上呈後部 向:侧突出的形態,換言之,呈後部形成有凹狀部山的 开久態。 並且,由該上侧隔熱壁U的凹 ==械室Ub’在該機械室叫内配置冷 的壓鈿機(compressor)或冷凝器(c〇ndenser)等。 機械室lib是由圖3的機械室罩(c〇ver)Uc而堵夷。 而^,上外板部14C如圖1〇所示,遠離上單位硫 而與左侧隔熱壁9的左外板部以及右外板 而且’在上内板部15C上,在其兩 叫也參照圖6),所述連結部15C1用二 側壁的左内板部15A及右内板部15B連結,該連㈣⑽ 的則端部通過未圖示的連師,瞒結於左峨部Μ。 201250189 對左側的逵娃甚β 1 A —The 201250189 / 〇pU package body 20 is formed by, for example, a metal layer such as a vapor-bonding layer or a crucible layer in order to obtain a gas barrier property. Each unit panel is also commonly referred to as a vacuum insulated panel. As shown in FIG. 5, the left heat insulating wall 9 is a unit heat insulating wall in which a left unit panel 16A is disposed between the left outer plate portion 14A and the left inner plate portion 15A, and the three are adhered by an adhesive. . Further, the front end portion of the outer box 14 and the inner box 15, for example, the front end portion of the left outer panel portion 14A of the left heat insulating wall 9 and the front end portion of the left inner panel portion 15A, as shown in Fig. 8, are made of a heat insulating material. The front end connecting member 21 made of synthetic resin is connected. At this time, the front end portion of the left outer panel portion 14A and the front end portion of the left inner panel portion 15A protrude forward from the left unit panel 16A, and the front end portion of the left outer panel portion 14A is bent toward the inner side to be substantially right angle, and the front end of the f-fold The bent portion 14Aa is configured to enter the inside of the heat insulating box 2 (storage chamber side) to prevent heat (external gas heat) of the outer phase 14 (left outer plate portion 14A) from being transmitted to the storage chamber. The distal end portion of the left inner plate portion 15A is fitted to one end of the distal end connecting member 21 = the fitting portion 15Aa of the cymbal, and the other end side of the distal end connecting member 21 is σ σ to the bent portion i4Aa of the left outer plate portion HA. And a heat insulating material such as a soft tape is inserted into the internal space portion formed by the front end of the left unit panel 16A and the inner surface of the front end of the left outer panel portion 14A. It is also possible to use foamed styrene instead of the flexible tape 22. The right heat insulating wall 10 is also configured similarly to the left heat insulating wall 9 (left and right symmetrical shape 201250189 * + ^.o / opif). Further, as shown in Fig. 2 and Fig. 1G, the upper heat insulating wall u is disposed with the upper unit panel 16C between the upper inner plate portion 15C and the upper outer plate #14C, and is then adhered to the upper inner plate portion 15C and the upper portion by an adhesive. The unit is 16C, and is formed by filling a cured foamed urethane 24 between the upper unit panel 16C and the upper outer panel portion MC. As described above, the upper inner plate portion 15C includes an integrally formed synthetic resin (F Ic'), and a Te body having a [shaped portion 17 projecting into the refrigerator as a bent portion. In contrast, the upper outer plate portion 14C also has an L-shaped portion 17a, _, and the upper heat insulating wall u has a rear portion that protrudes toward the side as a whole, as shown in a broken line in FIG. 2, in other words, a rear portion is formed. There is a long-term state of the concave mountain. Further, a cold compressor, a condenser, or the like is disposed in the machine room by the recess == the mechanical chamber Ub' of the upper heat insulating wall U. The machine room lib is blocked by the mechanical chamber cover (c〇ver) Uc of Fig. 3. And the upper outer plate portion 14C is as shown in FIG. 1A, away from the upper unit sulfur and the left outer plate portion and the right outer plate of the left side heat insulating wall 9 and on the upper inner plate portion 15C. Referring also to Fig. 6), the connecting portion 15C1 is connected by the left inner panel portion 15A and the right inner panel portion 15B of the two side walls, and the end portion of the connecting portion (4) (10) is connected to the left side portion by a joint device (not shown). . 201250189 On the left side of the 逵 甚 β β 1 A —
用同樣 端部内-15C2, 帶23,來作為隔熱材料洩漏防止構件。 、 進而,從上單位面板16C上方到内部角隅^部, 填充固化有隔歸料、例如發泡氨基曱酸乙§旨24,而軟帶 23防止填充發泡氨基曱酸乙酯24時的洩漏。 而且,下側隔熱壁12是在下外板部14D與下内板部 15D之間配置未圖示的下單位面板,並通過接著劑來接著 這二者,而構成為單位隔熱壁。該下側隔熱壁12也可以是 接著下内板部15D與下單位面板,並在該下單位面板與下 外板部14D之間填充固化發泡氨基甲酸乙酯而構成。在該 下側隔熱壁12中,排水承接部18的最下部是連通至隔熱 箱體2的外部。 另外,後側隔熱壁13也是在後外板部14E與後内板部 15E之間配置後單位面板16E,並通過接著劑來接著這三 者而構成。此時,也可適當追加填充固化有發泡氨基甲酸 乙酯的結構。 包含烯烴(olefin)樹脂的一體成形品la、lb、Ic、Id (左内板部15A、右内板部15B、上内板部15C、下内板部 15D)中的與單位面板的接著面是:經表面加工以成為粗 糙面,由此,與單位面板的接著性變得良好。而且,包含 丙稀睛-丁二烯-苯乙烯(Acrylonitrile Butadiene Styrene ’ 12 201250189 Μ-Ζ,ο / opif ABS)樹脂的片材構件Sa (後内板部ΐ5Ε)與單位面板的 接著性良好。 對於左側隔熱壁9與後側隔熱壁13的連結結構,參照 圖9 一圖11圖14來進行說明。另外,右侧隔熱壁⑺與 後側隔熱壁13的連結結構是:和左側隔熱壁9與後側隔熱 壁13的連結結構呈左右對稱形,因此省略說明。 在左側隔熱壁9的左内板部15Α的後側端部,一體地 形成有片材構件用連結部25,所述片材構件用連結部25 構成片材構制連結構件,所糾材構制連結構件用於 連結左側隔熱壁9的左内板部15Α與後側隔熱壁13的後 内板部15Ε (片材構件sa)。 該片材構件用連結部25通過作為突出部的固定件 26,而安裝於後侧隔熱壁13,所述岐件%自獨立於片 材構件的獨立零件構成。 該固定件26包含:合成樹脂例如ABS樹脂,如圖u 〜圖14所示,呈稍稍縱長的矩形狀,且具有朝上下方向突 出的凸緣狀部26a、26a。進而,在該固定件26上形成有 螺絲孔部26c,所述螺絲孔部26c從一端面延伸至朝向另 一端面方向的中間部為止。 該固定件26在組裝後側隔熱壁13之前的階段,將固 定件26的包含凸緣狀部26a、26b的另一端面例如直接通 過接著劑、而接著於後單位面板16E。 然後’固定件26在預先形成在後内板部15e (片材構 件Sa)上的稍稍縱長的矩形狀的孔部15u内,從其背侧朝 13 201250189 wopif 向表側拖入配置,並將後單位面板16E與後内板部15E背 面(也包括固定件26的後單位面板16E侧的所述另一端 面)通過接著劑予以接著。 凸緣狀部26a、26a成為:由作為片材構件的後内板部 1/E、與作為真空隔熱面板的後單位面板16E所央持的形 態:由此,固定件26被安裝於後側隔熱壁13,並突出至 内箱15内。 —片材構件用連結部25上的固定件26配置部位,以沿 著固定件26的形狀而形成有凸起部嵌合部25a。 ° ^構件用連結部25與㈣件26是:在凸起部嵌合 4 25a中,通過螺絲26d而結合。 該固定件26在後侧隔熱壁13的左右兩侧端部 板部15E的左右兩端部)設置於上下多處部位。 另外,在片材構件用連結部25的背側空間部内, 配置有:作為隔熱材料的發泡笨乙烯28及軟帶29 入 而且’在後側隔熱壁13中的内箱15内面( 構件Sa的後内板部15Ε)上,在適當部位具=含片材 部的合成樹脂製的背面罩安裝件37,所述背面罩=出 由獨立於圖1及圖2所示的諸構件的獨立 ^牛 該背面罩安裝件37用於安裝背面罩,且成。 2Μ目同的安裝結構而安裝,所述背面罩用於;^與固定件 側隔熱壁13的前方部分的導管(duct) ^ 配置在後 而且,在所述冷凍室61的後部配設有冷 器64,排水承接部18位於該蒸發器64的 衣的蒸發 卜方’將對蒸發 201250189 ^fze/apif 器64的附著霜進行除霜時的除霜水等 導出至後側隔熱壁13的外部。 18 ’從排水承接部 壁二構件52與左側隔熱壁9及右侧隔轨 f的連…K的結構,參照圖15來進行說明。圖15 ’顯二出了橫樑構件52與左儀熱壁9的連結部分,但 侧隔,、、、壁10上的連結部分的結構也呈左右對稱形狀,基 本上相同。 土 橫樑構件52具有:構成前表面部的前表面分隔板52a、 加強板52b、背分隔罩52c及隔熱材料52d。另一方面,左 =隔熱壁9的左外板部14A具有:前表面部Ma卜且其 前端部折返而形成有折返部分14A2。 則表面分隔板52a由加強板52b與左外板部14A的折 返部分14A2所夾持。即,將前表面分隔板52a的端部抵 接於折返部分14A2背侧,將加強板52b的端部插入左外 板部14A的前表面部14A1背側,將通過前表面分隔板52a 端部及折返部分14A2後的螺絲62螺入加強板52b的螺絲 孔’以此來夾持前表面分隔板52a。 另外,前表面分隔板52a與加強板52b預先利用螺絲 63而被一體化。在前表面分隔板52a的後侧安裝著:收容 有隔熱材料52d的背分隔罩52c。利用前表面分隔板52a 來連結隔熱箱體2中的前表面開口的左右緣部,從而使左 侧隔熱壁9與右侧隔熱壁10得以固定,能夠防止隔熱箱體 2中的前表面開口打開或縮小,能夠將儲藏室保持為長方 15 201250189 ΗΖδ/Ορίΐ' 另外’如果前表面分隔板52a的強度南’則也可無加 強板52b。 而且,雖未圖示,但背分隔罩52c具有向下方突出的 安裝部,該安裝部利用與所述固定件26同樣的固定件而螺 固0 搁板支樓部40a、40b、40c在内箱15的左右側面(左 内板部15A、右内板部15B)成對,以支撐未圖示的擱板。 導軌安裝部41a用於安裝導執,所述導轨可抽出地支 撐與抽出式門5 —體化的蔬菜容器’而且’導軌安裝部41b 用於安裝導軌,所述導軌可抽出地支撲與抽出式門8 —體 化的所述冷凍品收容容器。 進而’分隔壁支撐部42a、42b用於分別支撐第1分隔 壁55、第2分隔壁56。 對搁板支樓部40a、40b、40c、導軌安襄部41a、41b 與分隔壁支撐部42a、42b的結構及加強結構進行說明。 搁板支撐部40a、40b、40c與導軌安裝部41a、41b的 前後方向的長度不同(導執安裝部41a、41b更長)但剖面 形狀相同,加賴構也糊,θ此對滅續 說明。 搁板支樓部40a如圖16〜圖18所示,在一體成形心 曰内板部15A上以朝向冰箱内方向突出的方式而突出, • ^^^^形财螺絲凸起部43。在該螺絲凸 〜丨U上形成有螺絲孔部43a。 並且,在左内板部15A中的搁板支樓部40a内面部分, 201250189 ^/δ/δριί 女裝作為加強構件的例如金屬板製的加強板44。即,該加 強板44形成為沿著搁板支撐部40a的内面的形狀,且具有 凸起部嵌合部44a ’在該凸起部嵌合部44a上形成有螺絲 插通孔部44b。 將該加強板44抵接至搁板支撐部40a内面部分,將通 過螺絲插通孔部44b後的螺絲45螺入螺絲孔部43a,從而 將加強板44安裝於搁板支撐部4〇a的内面,以對擱板支撐 部40a進行加強。 分隔壁支撐部42a、42b採用相同的結構,因此對上侧 的分隔壁支撐部42a進行說明。該分隔壁支撐部42a如圖 19及圖20所示,在作為一體成形品Ia的左内板部15八上 以朝向冰箱时向突出的方式而突出,且在㈣部形成有 螺絲孔部42u。 在該分隔壁支樓部仏的内面,通過螺絲47而安裝有 例如金屬板製的加強板46作為加強構件,分隔壁支樓部 42a及42b通過加強板46而受到加強。 另外,加強板44、46的螺固只要視f要進行即可也 可取而代之’而制藉助接著_定。總之,只要將加強 板44、46設在左單位面板16A與左内板部μ ( 一體成 形品)之間’加強板44、46來對分 板支撐部40a、40b、40c、導轨安乍為犬出的擱 支撲部42a、42b進行加強即/ MU、仙及分隔壁 在上述第1實施方式中,隔熱箱體2 嫌支撲部偷、働、4〇C、導執安裝部^、仙及分隔 17 201250189 ΗΖΟ /ορίί 壁支樓部42a、42b ’來作為突出至冰箱内的 並且’内箱15的左内板部15A及右内 ° -體地形成有這些突出部的一體成形品心 ^ 據此’由於與㈣15 _體地形成有 出部,因此無須作為獨立零件來製作突出部=内= 需要安裝工時,能夠減少製作工日弈。 並不限定於第1實施方式中說明的、將分判成多個的 内板部組合而構成㈣的U ^ 成有突出部的一個一體成形品。 體胁 另外’根據該第以施方式,由於内箱 因此在内箱15中,只要使與突 形口即可板部包含—體地具有突出部的一體成 ==低Γ體成形品的大小也可較小,能財助於製造 此:^==部’可採_構件,因 割數也可較。、成本的降低。料,内板部的分 外14卜Α相!^合/個分割的外板部,此時,包含:左外板 後外板部ME 二外^ 14C、下外板部14D及 的内板部,_ 與卜箱14同樣地包含多個分割 lsr '匕3 .左内板部15A、右内板部15B、 上^^C、下内板部加及後内板部15E。 内板^夕15C板部中的左内板部15A、右内板部15B、上 下内板部15D&含-體成形品Ia、Ib、Ic、 201250189 42878pifThe same end inner portion -15C2, belt 23 is used as the heat insulating material leakage preventing member. Further, from the upper portion of the upper unit panel 16C to the inner corner portion, the filling is solidified with a filler, for example, a foaming amino acid, and the soft tape 23 is prevented from being filled with the foamed amino phthalate 24 leakage. Further, the lower heat insulating wall 12 is provided with a lower unit panel (not shown) between the lower outer plate portion 14D and the lower inner plate portion 15D, and is formed as a unit heat insulating wall by an adhesive. The lower heat insulating wall 12 may be formed by the lower inner panel portion 15D and the lower unit panel, and filled with the cured foamed urethane between the lower unit panel and the lower outer panel portion 14D. In the lower heat insulating wall 12, the lowermost portion of the drain receiving portion 18 communicates with the outside of the heat insulating box 2. Further, the rear heat insulating wall 13 is also disposed such that the rear unit panel 16E is disposed between the rear outer panel portion 14E and the rear inner panel portion 15E, and is adhered to by the adhesive. In this case, a structure in which the foamed urethane is cured and filled may be appropriately added. The end surface of the unit panel in the integrally molded article la, lb, Ic, Id (the left inner plate portion 15A, the right inner plate portion 15B, the upper inner plate portion 15C, and the lower inner plate portion 15D) containing an olefin resin Yes: the surface is processed to become a rough surface, whereby the adhesion to the unit panel becomes good. Further, the sheet member Sa (the rear inner plate portion Ε5Ε) containing the acrylonitrile butadiene styrene (Acrylonitrile Butadiene Styrene' 12 201250189 Μ-Ζ, ο / opif ABS) resin has good followability with the unit panel. The connection structure between the left heat insulating wall 9 and the rear heat insulating wall 13 will be described with reference to Figs. 9 to 11 and Fig. 14 . Further, the connection structure between the right heat insulating wall (7) and the rear heat insulating wall 13 is such that the connection structure between the left heat insulating wall 9 and the rear heat insulating wall 13 is bilaterally symmetrical, and thus the description thereof is omitted. A sheet member connecting portion 25 is integrally formed at a rear end portion of the left inner plate portion 15A of the left heat insulating wall 9, and the sheet member connecting portion 25 constitutes a sheet forming connecting member. The structural connecting member is used to connect the left inner plate portion 15A of the left side heat insulating wall 9 and the rear inner plate portion 15A (sheet member sa) of the rear side heat insulating wall 13. The sheet member connecting portion 25 is attached to the rear side heat insulating wall 13 by a fixing member 26 as a protruding portion, and the element % is composed of independent parts independent of the sheet member. The fixing member 26 includes a synthetic resin such as an ABS resin, and has a rectangular shape that is slightly elongated as shown in Figs. 14 to 14 and has flange-like portions 26a and 26a that protrude in the vertical direction. Further, a screw hole portion 26c is formed in the fixing member 26, and the screw hole portion 26c extends from one end surface to an intermediate portion in the direction toward the other end surface. At the stage before the assembly of the rear side heat insulating wall 13, the other end surface of the fixing member 26 including the flange portions 26a, 26b is directly passed through the adhesive, for example, and then to the rear unit panel 16E. Then, the fixing member 26 is inserted into the slightly elongated rectangular hole portion 15u formed in the rear inner plate portion 15e (sheet member Sa) in advance, and is dragged into the configuration from the back side toward the 13 201250189 wopif side, and The back surface of the rear unit panel 16E and the rear inner panel portion 15E (including the other end surface on the rear unit panel 16E side of the fixing member 26) is then adhered by an adhesive. The flange-like portions 26a and 26a are formed by a rear inner plate portion 1/E as a sheet member and a rear unit panel 16E as a vacuum heat insulating panel: whereby the fixing member 26 is attached to the rear The side insulating wall 13 protrudes into the inner box 15. A portion where the fixing member 26 on the connecting portion 25 of the sheet member is disposed, and a boss fitting portion 25a is formed along the shape of the fixing member 26. The member connecting portion 25 and the (four) member 26 are joined by the screw portion 26d in the boss portion fitting 46a. The fixing member 26 is provided at a plurality of upper and lower portions on the right and left end portions of the left and right side end plate portions 15E of the rear side heat insulating wall 13. Further, in the back side space portion of the sheet member connecting portion 25, the foamed vinyl 28 and the soft tape 29 as the heat insulating material are disposed and the inner surface of the inner box 15 in the rear heat insulating wall 13 ( The rear inner panel portion 15 of the member Sa has a synthetic resin back cover mount 37 including a sheet portion at an appropriate portion, and the back cover = is independent of the members shown in FIGS. 1 and 2 The stand-up cover 37 is used to mount the back cover. Attached to the same mounting structure, the back cover is used for the front portion of the fixing member side heat insulating wall 13 and disposed at the rear of the freezing chamber 61. The cooler 64, the evaporation receiving portion 18 is located at the evaporation side of the clothes of the evaporator 64, and the defrosting water or the like when defrosting the adhesion frost of the evaporation 201250189 ^fze/apif 64 is led to the rear side heat insulating wall 13 The outside. The structure of the connection K from the drain receiving portion wall member 52 and the left side heat insulating wall 9 and the right side partition rail f will be described with reference to Fig. 15 . Fig. 15' shows the connection portion between the beam member 52 and the left-hand heat wall 9, but the structure of the side portion, the joint portion on the wall 10 is also bilaterally symmetrical, and substantially the same. The earth cross member 52 has a front surface partitioning plate 52a constituting a front surface portion, a reinforcing plate 52b, a back partitioning cover 52c, and a heat insulating material 52d. On the other hand, the left outer panel portion 14A of the left heat insulating wall 9 has a front surface portion Mab and the front end portion thereof is folded back to form a folded portion 14A2. Then, the surface partitioning plate 52a is held by the reinforcing plate 52b and the folded portion 14A2 of the left outer plate portion 14A. That is, the end portion of the front surface partitioning plate 52a abuts against the back side of the folded-back portion 14A2, and the end portion of the reinforcing plate 52b is inserted into the back side of the front surface portion 14A1 of the left outer plate portion 14A, passing through the front surface partitioning plate 52a. The screw 62 behind the end portion and the folded-back portion 14A2 is screwed into the screw hole 'of the reinforcing plate 52b to sandwich the front surface partitioning plate 52a. Further, the front surface partitioning plate 52a and the reinforcing plate 52b are integrated by screws 63 in advance. On the rear side of the front surface partitioning plate 52a, a back partitioning cover 52c accommodating the heat insulating material 52d is attached. The left and right edge portions of the front surface opening in the heat insulating box 2 are joined by the front surface partitioning plate 52a, so that the left side heat insulating wall 9 and the right side heat insulating wall 10 are fixed, and the heat insulating box 2 can be prevented from being The front surface opening is opened or contracted, and the storage compartment can be held in a rectangular shape. 201250189 ΗΖδ/Ορίΐ' In addition, if the strength of the front surface partitioning plate 52a is south, the reinforcing plate 52b may be omitted. Further, although not shown, the back partition cover 52c has a mounting portion that protrudes downward, and the mounting portion is screwed to the 0 shelf branch portions 40a, 40b, and 40c by the same fixing member as the fixing member 26. The left and right side faces (the left inner plate portion 15A and the right inner plate portion 15B) of the case 15 are paired to support a shelf (not shown). The rail mounting portion 41a is for mounting a guide, the rail can support the vegetable container 'which is integrated with the drawer door 5' and the rail mounting portion 41b is used for mounting the rail, and the rail can be withdrawn and extracted The frozen product storage container of the door 8 is formed. Further, the partition wall supporting portions 42a and 42b are for supporting the first partition wall 55 and the second partition wall 56, respectively. The structure and reinforcing structure of the shelf branch portions 40a, 40b, 40c, the rail mounting portions 41a, 41b, and the partition wall supporting portions 42a, 42b will be described. The shelf supporting portions 40a, 40b, 40c are different from the lengths of the rail mounting portions 41a and 41b in the front-rear direction (the guiding mounting portions 41a and 41b are longer), but the cross-sectional shape is the same, and the tiling structure is also pasted, and θ is described in the following. . As shown in Figs. 16 to 18, the shelf branch portion 40a protrudes toward the inside of the refrigerator in the integrally formed mandrel inner panel portion 15A, and is provided with a screw boss portion 43. A screw hole portion 43a is formed in the screw projection 丨U. Further, in the inner surface portion of the shelf branch portion 40a in the left inner panel portion 15A, a reinforcing plate 44 made of, for example, a metal plate is used as a reinforcing member. That is, the reinforcing plate 44 is formed in a shape along the inner surface of the shelf supporting portion 40a, and has a boss fitting portion 44a' having a screw insertion hole portion 44b formed in the boss portion fitting portion 44a. The reinforcing plate 44 is abutted to the inner surface portion of the shelf supporting portion 40a, and the screw 45 that has passed through the screw insertion hole portion 44b is screwed into the screw hole portion 43a, thereby attaching the reinforcing plate 44 to the shelf supporting portion 4a. The inner surface is reinforced with the shelf support portion 40a. Since the partition wall support portions 42a and 42b have the same configuration, the upper partition wall support portion 42a will be described. As shown in FIG. 19 and FIG. 20, the partition wall support portion 42a protrudes toward the left inner panel portion 15 as the integrally molded product Ia so as to protrude toward the refrigerator, and a screw hole portion 42u is formed in the (four) portion. . On the inner surface of the partition wall portion, a reinforcing plate 46 made of, for example, a metal plate is attached as a reinforcing member by screws 47, and the partition wall portions 42a and 42b are reinforced by the reinforcing plate 46. Further, the screwing of the reinforcing plates 44 and 46 may be carried out as long as it is to be carried out. In short, the reinforcing plates 44, 46 are provided between the left unit panel 16A and the left inner panel portion μ (integral molded article), the reinforcing plates 44, 46, the opposing plate supporting portions 40a, 40b, 40c, and the guide rails are mounted. In the first embodiment, the heat-insulating box 2 is suspected of being smashed, smashed, smashed, and smashed, and the guide mounting portion is reinforced by the shackles 42a and 42b. ^, 仙和隔隔17 201250189 ΗΖΟ /ορίί The wall supporting portions 42a, 42b' are integrally formed with the protruding portions as the left inner panel portion 15A and the right inner portion of the inner box 15 which protrude into the refrigerator. According to this, since there is a part with the body of the (4) 15 _ body, it is not necessary to make the protrusion as an independent part = inner = the number of man-hours required to be installed can reduce the number of production days. It is not limited to the one-piece molded product in which the U 4 formed with the protruding portion is formed by combining the inner panel portions which are divided into a plurality of sections described in the first embodiment. In addition, according to the first embodiment, since the inner case is in the inner case 15, the plate portion can be integrally formed with the protruding portion as long as the protruding portion is made == the size of the lower body molded article Can also be smaller, can help to make this: ^ = = Department 'can be _ components, because the number of cuts can be compared. , the cost is reduced. Material, the inner plate is divided into 14 different levels! The outer panel portion of the combined/divided panel includes the left outer panel rear outer panel portion ME second outer portion 14C, the lower outer panel portion 14D, and the inner panel portion, and includes a plurality of divisions similarly to the box 14 Lsr '匕3. The left inner plate portion 15A, the right inner plate portion 15B, the upper inner plate portion, and the lower inner plate portion are added to the rear inner plate portion 15E. The left inner plate portion 15A, the right inner plate portion 15B, the upper and lower inner plate portions 15D& and the body-shaped molded articles Ia, Ib, Ic, 201250189 42878pif in the inner panel 15C plate portion
Id,進而,真空隔熱面板16也同樣包含分割的多個單位面 板,此時包含:左單位面板16A、右單位面板16B、上單 位面板16C、下單位面板(未圖示)及後單位面板16E。 在這些分割的各外板部與所述内板部之間配置所述分 割的各單位面板,且構成多個作為單位隔熱壁的左侧隔熱 壁9、右側隔熱壁1〇、上側隔熱壁η、下侧隔熱壁12、後 側隔熱壁13 ’隔熱箱體2是將這些隔熱壁9〜13連結而構 成。 據此’通過將具備分別為真空隔熱面板的單位面板的 隔熱壁9〜13加以組裝,能夠構成隔熱箱體2,因此組裝 簡單。 先前’隔熱箱體是通過分別未分割的外箱與内箱的組 裝而構成’因此大型且組裝作業規模也大,但在該實施方 式中,組裝作業也容易。 而且,在第1實施方式中,内箱15的被分割的内板部 包括:含有一體成形品la、lb的内板部15Α、15Β,所述 一體成形品la、lb —體地形成有突出部;以及含有平板狀 的片材構件Sa的内板部15E,所述平板狀的片材構件Sa 設有獨立零件的突出部。 據此,在設置獨立零件的突出部時,能夠視需要來使 用成本低廉的片材構件。 内箱15的多個内板部15A〜15E中包括内板部15C、 15D,所述内板部15C、15D包含一體成形品Ic、Id,所述 一體成形品Ic、Id —體地形成有L狀部17、排水承接部 201250189 /δριι 18之類的、f折部’因此能夠由藉賴具的—體成形品 一次形成形狀複雜的彎折部。 由具備作為彎折部的L狀部17的—體成形品化(上内 板部15C)構成内箱15中的頂面,在該L狀部17的背侧 具備機械室lib’因此能夠由L狀部17來形成機械室仙。 含有具備L狀部17的—體成形品k的上内板部况, 在其侧緣部具有連結部uc卜所料結部丨幻用於 為内f目側壁的左内板部15A及右内板部15B連結,因此不 ^要作為獨立零件的連結構件,能夠實現零件數或組裝工 時的削減。 在含有具備L狀吾ρ π的一體成形品Ic的上内板部况 與作為内箱侧壁的左内板部15A之間、上内板部15c與右 =板。P 15B之間’分別填充了作為隔熱材料的發泡氨基甲 I乙酉曰24 ’在連結部15C1 +的内箱側壁的附近部位形成 有用於配置隔熱材料茂漏防止構件的凸肋15C2,因此能夠 ^凸肋15C2與左内板部15A之間、凸肋15C2與右内板 4 15B之間(該右内板部15B侧的凸肋15C2並未圖示) 插入軟帶23來作為隔熱材料浪斯方止構件,因此能夠防止 填充發泡氨基曱酸乙酯24時的洩漏。 在第1實施方式中,包含一體成形品的内板部即下内 ^。卩15D構成了内箱15的底面,且在下内板部i5D的後 4形成有排水承接部18來作為彎折部,因此能夠一次形成 形狀複雜的排水承接部18。 在一體成形品la、lb上設有:作為突出部的擱板支撐 20 201250189 I Vk/Al 部40a、40b、40c、導轨安裝部4ia、41b及分隔壁支撐部 42a、42b。在該一體成形品的情況下,考慮到材料成本低 廉而使用強度稍低(低於ABS樹脂)的烯烴樹脂(聚丙稀 (polypropylene)材料等),但可通過加強板44、46來彌 補其強度不足。 <第2實施方式> 圖21〜圖25表示第2實施方式。在該第2實施方式 中,左側隔熱壁9’及右侧隔熱壁1〇,的結構不同於第i實施 方式。 以下,對不同之處進行說明。左側隔熱壁9·及右侧隔 熱壁10呈左右對稱形狀,因此對左側隔熱壁9,進行說明。 如圖21〜圖23所示,在左側隔熱壁9,中,相對於一個 單位面板16A,左内板部15A,被分割成:分別作為内板部 的上側板部15Aa、與下側板部i5Ab這兩部分。 上側板部15Aa與下側板部l5Ab為上下鄰接。上侧板 部^5Aa例如通過注入成形或真空成形等而構成為一體成 形品1e。並且,該上側板部15Aa與第1實施方式同樣’ 一體地具有作為突出部的40a、40b、40c,並且一體地具 有片材構件用連結部25,。 片材構件用連結部25,位於冷藏室57,但位於蔬菜室 58 :小冷凍室59、製冰室60及冷凍室61中的片材構件用 連結板25”是作為獨立於上侧板部ISAa及下側板部l5Ab 的獨立零件而設置。 而且,下側板部15Ab包含平板狀的片材構件Sb,且 21 201250189 具備與第1實财式相同_定件26, 為獨立於該片材構件Sb "疋件疋作 下側板部祕上,安裝著大出部。進而,在 安裝件33、34、分隔壁支榜的突出部的導軌 的内""m^57而構成冷藏室^ η 板部i5Ab跨及蔬菜室58、小冷;東室 5/、製冰室6G、冷來室61而配置以構成所述各室的内t。 部—與下側板部^的邊界部分配置著第1 的雨導內=裝I33、34中的導軌安農件33位於蔬菜室58 == 裝件34位於冷,東室61的兩内側面。 1明導、34採用相同的結構’因此參照圖24來 說明導軌安裝件33。 軌安裝件33採用在板㈣本體部仏上一體地突 汉有導軌安裝部33b的結構,在該導軌安裝件33的背面, 形成有作為緊ϋ構件卡合部的螺絲孔部故,該螺絲孔部 33c的開口周緣部形成碟狀的沉頭孔33d。 並且’在下側板部15Ab中的蔬菜室%及冷束室Μ的 内面相當部位’形成有作為緊固構件插通孔部的螺絲插通 孔部3卜並且,在組裝左側隔熱壁9,之前使作為緊固構 件的平頭螺絲32從下側板部15Ab背側通過螺絲插通孔部 3卜並螺入導軌安裝件33、34的螺絲孔部故,從而將導 軌安裝件33、34固定於左内板部15A内面,使導軌安裝 件33、34突設在蔬菜室58中的内箱15内面上。 22 3 201250189 ΗΖδ/Opif 在逐漸螺入平頭螺絲32的過程中’平頭螺絲32的碟 狀的螺絲頭部32a使得:因為是片材構件而可以稍許變形 的左内板部15W的下側板部15Ab的螺絲插通孔部31周緣 部呈碟狀變形(朝冰箱内側突出),直至抵住沉頭孔33d。 其結果是,在圖25所示的左側隔熱壁9的組裝狀態下,螺 絲插通孔部31的周緣部31a相對於左單位面板16A而隔 離,平頭螺絲32成為不會從左内板部15A’的下側板部 15Ab背面朝向左單位面板16A方向突出的形態。 另外,該導執安裝件33用於安裝導執,所述導轨可抽 出地支撐與抽出式門5 —體化的蔬菜容器,而且,導軌安 裝件34用於安裝導執,所述導執可抽出地支撐與抽出式門 8 —體化的冷凍品收容容器。 分隔壁支撐件35用於支撐第1分隔壁55,而且,分隔 壁支撐件36用於支撐第2分隔壁56。所述分隔壁支撐件 35、%通過與第1實施方式的固定件26相同的安裝結構 而安裝。 在該第2實施方式中,相對於一個單位面板16A,鄰 接地設置^上側板部15Aa與下側板部丨遍,所述上侧板 邛15fa是包含一體成形品Ie的内板部所述下側板部 15Ab是包含平板狀的片材構件%的内板部,所述一體成 形品le -體地形成有作為突出部的擱板支撐部他、概、 :的二冓與其他的單位面板16B對應的内板部也採用 據此,即使是作為—個單位隔熱壁的左側隔熱壁9,通 23 201250189 HZO/opif 過使其内板部包括:含有一體成形品Ie的内板部(上側板 部15Aa)、及含有片材構件Sb的内板部(下側板部15Ab), 能夠對一個單位隔熱壁分開使用局部的一體成形品及片材 構件’從而設計的變化(variati〇ns)增加。 而且’在第2實施方式中,上側板部l5Aa構成冷藏室 57的内面,而且’下側板部15Ab構成蔬菜室別、小冷凍 至59、製冰室60、冷凍室61的内面,所述上側板部bAa 是包含一體成形品le的内板部,所述下侧板部15Ab是包 含平板狀的片材構件Sb的内板部,所述一體成形品Ie 一 體地形成有作為突出部的擱板支撐部4〇a、4〇b、4〇c。 換言之’上侧板部15Aa與下側板部15Ab構成不同的 儲藏室’因此被使用者看到的儲藏室(冷藏室57)内面可 由突出部的外觀性良好的一體成形品Ie構成,基本不會被 使用者看到的其他儲藏室内面可由安裝有獨立零件的突出 部(突出輪廓有時會比一體成形品的突出部顯眼)的片材 構件Sb構成。即’難以被使用者目測到的儲藏室可使用 廉價的片材構件。 而且’在該第2實施方式中,採用下述結構:在包含 一體成形品Ie的上侧板部15Aa、與包含片材構件Sb的下 側板部15Ab的邊界部分’存在:對不同儲藏室之間進行 分隔的分隔壁部、即第i分隔壁55。據此,能夠利用該第 1分隔壁55來掩蓋上側板部15Aa與下侧板部15Ab的邊 界部分。 而且,包含片材構件Sb的下側板部l5Ab構成:具備 ιΓ*·' 3; 24 201250189 /opif ==室面(。:菜室58,東室59、製冰室 的—到達二==== n 私匕3片材構件%的下側板部15Ab構成的 ’ ’此夠?>;材構件有效地於必要部位。 在:方式中’由包含—體成形品Ie的上侧板部 來構成具備_門3、4的儲藏室、即冷藏室57的内 面’因此冷藏t 57内面的外觀性良好。 即’冷藏室57内面是在旋轉Η 3、4打開時使用者的 目光會到達之處’目光也多會到達作為突出部的擱板支撲 。(5他、40b、40c。此時,由於冷藏室57的内面上的擱板 支撐部40a、40b、♦是藉助模具成形的一體成形品Ie, 因此這些擱板支撐部4〇a、4〇b、40c成為從上側板部 15Aa 平滑地突出的形態,外觀性良好,衛生方面的印象也良好。 <第3實施方式> 圖26及圖27表示第3實施方式,該實施方式中的不 同之處在於:在第2實施方式中的導執安裝件33的本體部 33a的周緣部,形成有可彈性變形的鰭部33e,所述鰭部 33e朝向内箱15内面側(圖中為下側板部15Ab側)傾斜。 另外,雖未圖示,但在導軌安裝件34的本體部的周緣部也 形成同樣的鰭部33e。 該鰭部33e在導軌安裝件33的安裝狀態下密接於内箱 15内面。藉助鰭部33e’能夠掩蓋内箱15内面與導執安裝 25 201250189 428/«pif 件33之間的間隙。 即’在將平頭螺絲32螺入道缸^ 33c時,使下侧板部15Ab的螺絲插孔部 =變通孔部31部分㈣會】生= =有時會在左内板部说鱗轨安裝件Μ之間產生 根據該第3實施方式, 該間隙。 能夠藉助上述鰭部33e來掩蓋 <第4實施方式> 圖28〜圖30表示第4實施方式,該實施方式中下述 方面不同於第1實施方式。#,在第丨實施方式中,對左 外板部14A、下外板部14D與右外板部MB進行了分判, 但本實施方式中包含:使左外板部MA、下外板部lw與 右外板部14B連續的外板部14Z。另外,符號16D是配設 在下外板部14D的内面與下内板部15D之間的單位面板。 如該第4實施方式中所示,外箱14也可未分割所有各 板部。 而且,在前述的第3實施方式(圖26及圖27)中,在 導軌安裝件33上設置鰭部33e,利用鰭部33e來掩蓋内箱 15内面與導軌安裝件33之間的間隙,但也可通過使導轨 安裝件33自身為透明來使間隙變得不顯眼。 另外,只要使内箱包含分割成多個的内板部,使該内 板部中的至少一個包含一體地形成有突出部的一體成形品 即可。 in· 3 26 201250189 428/8pif 而且,單位隔熱壁只要至少為兩個即可。例如也可為: 左侧隔熱壁9為單個,而其他的隔熱壁10〜13構成為一體 (外板部連續為一體、内板部連續為一體、單位面板連續為 一體)的隔熱壁。 作為單位隔熱壁,也可採用下述結構,即,在内板部 與外板部之間配置單位面板,將内板部與單位面板的一面 予以接著’並將單位面板的另一面與外板部予以接著,而 且,還可採用下述結構,即,將内板部與單位面板的一面 予以接著,並使發泡氨基曱酸乙酯等的隔熱材料介隔在單 位面板的另一面與外板部之間。 也可設為下述形態’即:外箱及真空隔熱面板不分割, 而僅將内箱分割成多個内板部並予以連結。 如上所述’本實施方式的冰箱包括:隔熱箱體,所述 隔熱箱體包含:外箱、内箱及真空隔熱面板,所述真空隔 熱面板配置在所述外箱及内箱之間,其中,内箱具備突出 至冰箱内的突出部,所述内箱包含分割成多個的内板部, 所述内板部中的至少一個包含一體地形成有所述突出部的 一體成形品。 據此,能夠實現製作工時的減少。 對本發明的若干個實施方式進行了說明,但這些實施 方式僅為例示,並不意圖限定發明的範圍。這些新穎的實 施方式能夠以其他的各種形態來實施,在不脫離發明的主 旨的範圍内可進行各種省略、替換、變更。這些實施方式 或其變形包含在發明的範圍或主旨内,並且包含在權利要 27 201250189 42»/8pif ==r其均等的範圍内 見的圖下方觀察第1實施方式的冰箱賴熱箱體所 圖2疋從上方觀察隔熱箱體的所見立體圖。 圖3疋從上方觀察冰箱所見的立體圖。 圖4是隔熱箱體的橫剖平面圖。 圖5疋左側隔熱壁的分解立體圖。 圖從下方觀察上内板部所見的立體圖。 圖7是從上方觀察下内板部所見的立體圖。 圖8是曰圖4的K部分的放大圖。 圖9是左側隔熱壁與後側隔熱壁的角隅部分的橫 面圖。 、。4于 圖H)是左側隔熱壁與上侧隔熱壁的角隅部分的縱 面圖。 圖11是固定件與後内板部的分解立體圖。 圖12是表示固定件相對於後内板部的安裝狀態的立體 圖13是表示固定件相對於後内板部的安裝狀態的縱 側面圖。Id, in addition, the vacuum heat insulating panel 16 also includes a plurality of divided unit panels, and includes a left unit panel 16A, a right unit panel 16B, an upper unit panel 16C, a lower unit panel (not shown), and a rear unit panel. 16E. The divided unit panels are disposed between the divided outer plate portions and the inner plate portion, and a plurality of left heat insulating walls 9 as a unit heat insulating wall, a right heat insulating wall 1 〇, and an upper side are disposed The heat insulating wall η, the lower heat insulating wall 12, and the rear heat insulating wall 13' heat insulating box 2 are formed by connecting these heat insulating walls 9 to 13. According to this, by assembling the heat insulating walls 9 to 13 including the unit panels each of which is a vacuum heat insulating panel, the heat insulating box 2 can be configured, and assembly is simple. In the prior art, the heat-insulating box is configured by assembling the outer box and the inner box which are not divided, respectively. Therefore, the size of the assembly is large, and the assembly work is also large. However, in this embodiment, the assembly work is also easy. Further, in the first embodiment, the divided inner plate portion of the inner box 15 includes inner plate portions 15A and 15B including the integrally molded products 1a and 1b, and the integrally molded articles 1a and 1b are integrally formed with protrusions. And an inner plate portion 15E including a flat sheet member Sa, wherein the flat sheet member Sa is provided with a protruding portion of an independent component. According to this, when the protruding portion of the individual component is provided, the inexpensive sheet member can be used as needed. The inner plate portions 15A and 15D of the inner casing 15 include inner plate portions 15C and 15D, and the inner plate portions 15C and 15D include integrally molded products Ic and Id. The integrally molded products Ic and Id are integrally formed. The L-shaped portion 17 and the water-receiving portion 201250189 / δριι 18 and the f-folded portion can thus form a bent portion having a complicated shape at a time by the molded article of the borrowing device. The top surface of the inner box 15 is formed by the molded body (the upper inner plate portion 15C) including the L-shaped portion 17 as the bent portion, and the machine room lib' is provided on the back side of the L-shaped portion 17 so that The L-shaped portion 17 forms a mechanical chamber. The upper inner plate portion including the body molded product k having the L-shaped portion 17 has a connecting portion uc at the side edge portion thereof, and is used for the left inner plate portion 15A and the right side of the inner f-shaped side wall. Since the inner plate portion 15B is coupled, it is not necessary to use the connecting member as an independent component, and the number of parts or the number of assembly man-hours can be reduced. The upper inner plate portion including the integrally molded product Ic having the L shape and the left inner plate portion 15A as the inner casing side wall, and the upper inner plate portion 15c and the right plate are provided. Between the P 15B, the foamed urethane 24' as a heat insulating material is filled in the vicinity of the inner side wall of the connecting portion 15C1 +, and a rib 15C2 for arranging the heat insulating material leakage preventing member is formed. Therefore, between the rib 15C2 and the left inner panel portion 15A, between the rib 15C2 and the right inner panel 4 15B (the rib 15C2 on the right inner panel portion 15B side is not shown), the flexible tape 23 can be inserted as a spacer. Since the hot material has a square stopper member, it is possible to prevent leakage when the foamed amino phthalate 24 is filled. In the first embodiment, the inner plate portion of the integrally molded product is the lower inner portion. The cymbal 15D constitutes the bottom surface of the inner casing 15, and the drain receiving portion 18 is formed as a bent portion in the rear 4 of the lower inner plate portion i5D. Therefore, the water receiving portion 18 having a complicated shape can be formed at one time. The integrally molded products 1a and 1b are provided with a shelf support 20 as a protruding portion, 201250189 I Vk/Al portions 40a, 40b, 40c, rail mounting portions 4ia and 41b, and partition wall supporting portions 42a and 42b. In the case of the integrally molded product, an olefin resin (polypropylene material or the like) having a slightly lower strength (less than ABS resin) is used in consideration of low material cost, but the strength can be compensated by reinforcing plates 44 and 46. insufficient. <Second Embodiment> Figs. 21 to 25 show a second embodiment. In the second embodiment, the left heat insulating wall 9' and the right heat insulating wall 1'' are different from the first embodiment. The differences will be described below. Since the left heat insulating wall 9 and the right heat insulating wall 10 have a bilaterally symmetrical shape, the left heat insulating wall 9 will be described. As shown in FIG. 21 to FIG. 23, in the left heat insulating wall 9, the left inner panel portion 15A is divided into the upper side plate portion 15Aa and the lower side plate portion which are the inner plate portions, respectively, with respect to the one unit panel 16A. These two parts of i5Ab. The upper side plate portion 15Aa and the lower side plate portion 15Ab are vertically adjacent to each other. The upper side plate portion 5Aa is formed as an integrally formed product 1e by, for example, injection molding or vacuum forming. In addition, the upper side plate portion 15Aa integrally has the projecting portions 40a, 40b, and 40c as in the first embodiment, and integrally includes the sheet member connecting portion 25. The sheet member connecting portion 25 is located in the refrigerating chamber 57, but the sheet member connecting plate 25" located in the vegetable chamber 58: the small freezing chamber 59, the ice making chamber 60, and the freezing chamber 61 is independent of the upper side portion. The ISAa and the lower side plate portion 15A are provided as separate parts. Further, the lower side plate portion 15Ab includes a flat sheet member Sb, and 21 201250189 has the same shape as the first solid type, which is independent of the sheet member. Sb " 疋 疋 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下 下^ η plate portion i5Ab spans vegetable chamber 58, small cold; east chamber 5/, ice making chamber 6G, cold chamber 61 and is arranged to constitute the inner portion of each chamber. Part - the boundary portion with the lower side portion ^ In the first rain guide, the guide rails in the I33, 34 are located in the vegetable compartment 58 == The fitting 34 is located on the inner side of the cold, east chamber 61. 1 The same structure and 34 are used. Therefore, the rail mounting member 33 will be described with reference to Fig. 24. The rail mounting member 33 is integrally formed with a rail mounting portion 33b on the main body portion of the board (four). In the structure, a screw hole portion as an engagement portion of the fastening member is formed on the back surface of the rail attachment 33. The peripheral edge portion of the opening of the screw hole portion 33c forms a disk-shaped counterbore hole 33d. And 'in the lower side plate portion 15Ab The vegetable compartment % and the inner surface of the cold bundle chamber are formed with a screw insertion hole portion 3 as a fastening member insertion hole portion, and the left heat insulating wall 9 is assembled as a fastening member. The flat head screw 32 is screwed into the hole portion 3 from the back side of the lower side plate portion 15Ab and screwed into the screw hole portion of the rail mounting members 33, 34, thereby fixing the rail mounting members 33, 34 to the inner surface of the left inner panel portion 15A. The rail mounting members 33, 34 are protruded from the inner surface of the inner box 15 in the vegetable compartment 58. 22 3 201250189 ΗΖδ/Opif The disc-shaped screw head 32a of the grub screw 32 is made during the gradual screwing of the grub screw 32 The peripheral portion of the screw insertion hole portion 31 of the lower side plate portion 15Ab of the left inner plate portion 15W which is slightly deformable by the sheet member is deformed in a disk shape (projecting toward the inside of the refrigerator) until it reaches the counterbore hole 33d. As a result, the left insulating wall 9 shown in Fig. 25 In the assembled state, the peripheral edge portion 31a of the screw insertion hole portion 31 is isolated from the left unit panel 16A, and the grub screw 32 does not protrude from the rear surface of the lower side plate portion 15Ab of the left inner panel portion 15A' toward the left unit panel 16A. In addition, the guide mounting member 33 is for mounting a guide, the guide rail can retractably support the vegetable container integrated with the drawer door 5, and the rail mounting member 34 is used for mounting the guide, The guide can support the frozen product storage container that is integrated with the drawer door 8. The partition wall support member 35 is for supporting the first partition wall 55, and the partition wall support member 36 is for supporting the second partition wall 56. The partition wall support 35, % is mounted by the same mounting structure as the fixture 26 of the first embodiment. In the second embodiment, the upper side plate portion 15Aa and the lower side plate portion are provided adjacent to each other with respect to the one unit panel 16A, and the upper side plate 15fa is the inner plate portion including the integrally molded product Ie. The side plate portion 15Ab is an inner plate portion including a flat sheet member %, and the integrally molded product is integrally formed with a shelf supporting portion as a protruding portion, and a plurality of unit panels 16B According to this, even if it is the left side heat insulation wall 9 which is a unit heat insulation wall, the 23nd, 201250189 HZO/opif makes the inner panel part include the inner-plate part containing the integral molded goods Ie ( The upper side plate portion 15Aa) and the inner plate portion (lower side plate portion 15Ab) including the sheet member Sb are capable of using a partial integral molded product and a sheet member 'separately for one unit heat insulating wall, thereby changing the design (variati〇ns) )increase. Further, in the second embodiment, the upper side plate portion 15Aa constitutes the inner surface of the refrigerating chamber 57, and the lower side plate portion 15Ab constitutes the vegetable compartment, the small freezing to 59, the ice making chamber 60, and the inner surface of the freezing compartment 61. The side plate portion bAa is an inner plate portion including an integrally molded product le, and the lower side plate portion 15Ab is an inner plate portion including a flat sheet member Sb, and the integrally molded product 1e is integrally formed with a projection as a protruding portion Plate support portions 4〇a, 4〇b, 4〇c. In other words, the upper side plate portion 15Aa and the lower side plate portion 15Ab constitute a different storage chamber. Therefore, the inner surface of the storage chamber (refrigeration chamber 57) that is seen by the user can be formed of the integrally molded product Ie having a good appearance of the protruding portion, and is basically not formed. The other storage chamber surface viewed by the user may be constituted by a sheet member Sb in which a protruding portion to which an independent component is attached (the protruding contour may be conspicuous than the protruding portion of the integrally molded product). That is, an inexpensive sheet member can be used in a storage compartment that is difficult to be visually observed by a user. Further, in the second embodiment, the configuration is such that the upper side plate portion 15Aa including the integrally molded product Ie and the boundary portion 15B of the lower side plate portion 15Ab including the sheet member Sb exist: for different storage rooms. The partition wall portion that is partitioned, that is, the i-th partition wall 55. According to this, the boundary portion between the upper side plate portion 15Aa and the lower side plate portion 15Ab can be covered by the first partition wall 55. Further, the lower side plate portion 15A including the sheet member Sb is configured to have ιΓ*·' 3; 24 201250189 /opif == 室面 (.: 菜室58, east chamber 59, ice making room - arrives at two === = n "3 is enough for the lower side plate portion 15Ab of the 3 sheet member %"; the material member is effective for the necessary portion. In the mode: 'from the upper side plate portion of the body-formed product Ie The storage compartment having the _doors 3 and 4, that is, the inner surface of the refrigerating compartment 57 is formed. Therefore, the appearance of the inner surface of the refrigerating compartment t 57 is good. That is, the inner surface of the refrigerating compartment 57 is when the rotation Η 3, 4 is opened, and the user's gaze is reached. At the moment, the gaze will reach the shelf support as the protrusion. (5 he, 40b, 40c. At this time, since the shelf support portions 40a, 40b, ♦ on the inner surface of the refrigerating chamber 57 are integrally formed by the mold In the molded article Ie, the shelf supporting portions 4a, 4b, and 40c are formed so as to smoothly protrude from the upper side plate portion 15Aa, and the appearance is good, and the sanitary impression is also good. <Third Embodiment> 26 and 27 show a third embodiment, and the difference in this embodiment is that in the second embodiment The peripheral portion of the main body portion 33a of the guide mounting member 33 is formed with an elastically deformable fin portion 33e which is inclined toward the inner surface side of the inner case 15 (the lower side plate portion 15Ab side in the drawing). Although not shown, the same fin portion 33e is formed also in the peripheral portion of the main body portion of the rail attachment 34. The fin portion 33e is in close contact with the inner surface of the inner box 15 in the mounted state of the rail mount 33. The fin portion 33e' can be used. The gap between the inner surface of the inner box 15 and the guide mounting 25 201250189 428/«pif piece 33 is masked. That is, when the grub screw 32 is screwed into the ball cylinder ^ 33c, the screw insertion portion of the lower side plate portion 15Ab is changed to a through hole. Part 31 (4) Meeting] Raw = = The gap may be generated between the left inner plate portion and the scale rail mounting member according to the third embodiment. The gap can be covered by the fin portion 33e. > Fig. 28 to Fig. 30 show a fourth embodiment in which the following aspects are different from the first embodiment. #, In the third embodiment, the left outer panel portion 14A, the lower outer panel portion 14D, and the right The outer panel portion MB is divided, but in the present embodiment, the left outer panel portion MA and the lower portion are included. The outer plate portion 14Z in which the plate portion 1w and the right outer plate portion 14B are continuous. The reference numeral 16D is a unit panel disposed between the inner surface of the lower outer plate portion 14D and the lower inner plate portion 15D. As in the fourth embodiment, In the third embodiment (Figs. 26 and 27), the fins 33e are provided on the rail attachment 33, and the fins 33e are used to cover the inside. The gap between the inner surface of the case 15 and the rail mounting member 33 can be made inconspicuous by making the rail mounting member 33 itself transparent. Further, the inner box may include an inner plate portion divided into a plurality of pieces, and at least one of the inner plate portions may include an integrally molded product in which the protruding portions are integrally formed. In· 3 26 201250189 428/8pif Moreover, the unit insulation wall should be at least two. For example, the left heat insulating wall 9 may be a single body, and the other heat insulating walls 10 to 13 may be integrally formed (the outer plate portion is continuously integrated, the inner plate portion is continuously integrated, and the unit panel is continuously integrated). wall. As the unit heat insulating wall, a unit panel may be disposed between the inner panel portion and the outer panel portion, and the inner panel portion and the unit panel may be followed by one side and the other side of the unit panel may be externally The plate portion is followed by a structure in which one side of the inner plate portion and the unit panel are attached, and a heat insulating material such as foamed amino phthalate is interposed on the other side of the unit panel. Between the outer panel and the outer panel. It is also possible to adopt a configuration in which the outer box and the vacuum heat insulating panel are not divided, and only the inner box is divided into a plurality of inner panel portions and connected. As described above, the refrigerator of the present embodiment includes: a heat insulating box including: an outer box, an inner box, and a vacuum heat insulating panel, wherein the vacuum heat insulating panel is disposed in the outer box and the inner box Between the inner case and the protruding portion protruding into the refrigerator, the inner box includes an inner plate portion divided into a plurality, and at least one of the inner plate portions includes an integral body integrally formed with the protruding portion Molded product. According to this, it is possible to reduce the number of manufacturing man-hours. The embodiments of the invention have been described by way of example only, and are not intended to limit the scope of the invention. The present invention can be implemented in various other forms, and various omissions, substitutions and changes can be made without departing from the scope of the invention. The embodiments and the modifications thereof are included in the scope or the gist of the invention, and the refrigerator according to the first embodiment is observed below the figure seen in the scope of the claims 27 201250189 42»/8pif ==r. Fig. 2 is a perspective view of the heat insulating box viewed from above. Figure 3 is a perspective view of the refrigerator as seen from above. Figure 4 is a cross-sectional plan view of the heat insulating box. Figure 5 is an exploded perspective view of the left insulating wall. The figure shows a perspective view of the upper inner panel as seen from below. Fig. 7 is a perspective view of the lower inner plate portion as seen from above. Fig. 8 is an enlarged view of a portion K of Fig. 4; Fig. 9 is a transverse view of a corner portion of the left heat insulating wall and the rear heat insulating wall. ,. 4 is a longitudinal view of the corner portion of the left heat insulating wall and the upper heat insulating wall in Fig. H). Figure 11 is an exploded perspective view of the fixing member and the rear inner panel portion. Fig. 12 is a perspective view showing a state in which the fixing member is attached to the rear inner panel portion. Fig. 13 is a longitudinal side view showing a state in which the fixing member is attached to the rear inner panel portion.
圖14是在固定件上安裝有片材構件用連結 縱剖側面圖。 J 圖15是橫樑構件與左侧隔熱壁的連結部分的橫剖平面Fig. 14 is a longitudinal sectional side view showing the connection of a sheet member to a fixing member. J Figure 15 is a cross-sectional plane of the joint between the beam member and the left insulating wall
S 28 201250189 42878pif 圄二表示擱板支撐件的安裝狀態的縱剖側面圖。 壯…Π是表示與圖16為不同剖面上的揭板支樓件的采 裝狀悲的縱剖侧面圖。 女 圖。圖18《擱板支樓件、左内板部與螺絲的分解縱剖侧面 圖19是分隔壁支撐部部分的縱剖側面圖。 圖20是分隔壁支撐部部分的立體圖。 見的圖立從下方觀㈣2實施方式的冰㈣隔熱箱體所 圖22疋從上方觀察隔熱箱體所見的立體圖。 圖23是左侧隔熱壁的分解立體圖。 =4是導執安裝件部分在分解㈣下的㈣侧面圖。 圖5是導軌安裝件部分的縱剖側面圖。 面圖圖26表示第3實施方式,是導軌安褒件部分的縱剖側 ^ ^疋導軌安裝件部分在分解狀態下的縱剖側面圖。 縱剖正面fr第4實施方式’是表示隔熱箱體的—部分的 =29是將隔熱箱體的-部分展開的縱剖正面圖。 圖。圖3G是隔熱箱體的—部分在分解狀態下的縱剖正面 【主要元件符號說明】 1 :冰箱 2 :隔熱箱體 29 201250189 42878pif 3、4 :旋轉門 3a、3b、4a、4b :较鍵部 5〜8 :抽出式門 9 :左侧隔熱壁(單位隔熱壁) 9’ :左側隔熱壁 10 :右側隔熱壁(單位隔熱壁) 10':右側隔熱壁 11 :上側隔熱壁(單位隔熱壁) 11a :凹狀部 lib :機械室 11c :機械室罩 12 :下側隔熱壁(單位隔熱壁) 13 :後側隔熱壁(單位隔熱壁) 14 :外箱 14A :左外板部 14A1 :前表面部 14A2 :折返部分 14Aa :彎折部 14B :右外板部 14C :上外板部 14D :下外板部 14E :後外板部 14Z :外板部 15 :内箱 201250189 428/8pif 15A':左内板部 15A :左内板部 15Aa :嵌合部 15Ab :下側板部 15B :右内板部 15C :上内板部 15C1 :連結部 15C2 :凸肋 15D :下内板部 15E :後内板部 15u :孔部 16 :真空隔熱面板 16A :左單位面板 16B :右單位面板 16C :上單位面板 16D :下單位面板 16E :後單位面板 17 : L狀部(彎折部) 17a : L狀部 18 :排水承接部(彎折部) 19 :基材 20 :包體 21 :前端用連結構件 22、23、29 :軟帶 31 201250189 ^fzo/opif 24 :發泡氨基曱酸乙酯 25 :片材構件用連結部 25’ :片材構件用連結部 25":片材構件用連結板 25a、44a :凸起部嵌合部 26:固定件(獨立零件的突出部) 26a :凸緣狀部 26c :螺絲孔部 26d、45、47 ' 62、63 :螺絲 28 :發泡苯乙烯 31、44b :螺絲插通孔部 31a :周緣部 32 :平頭螺絲(緊固構件) 32a :螺絲頭部 33、34 :導軌安裝件(獨立零件的突出部) 33a :本體部 33b :導軌安裝部 33c、42u、43a :螺絲孔部 33d :沉頭孔 33e :鰭部 35、36 :分隔壁支撐件(獨立零件的突出部) 37 :背面罩安裝件(獨立零件的突出部) 40a〜40c :搁板支撐部(突出部) 41a、41b :導執安裝部(突出部)S 28 201250189 42878pif 圄2 is a longitudinal sectional side view showing the mounting state of the shelf support. The sturdy Π is a longitudinal sectional side view showing the unloading of the slabs on the different sections from Fig. 16 . Female figure. Fig. 18 is an exploded longitudinal sectional side view of the shelf support member, the left inner panel portion, and the screw. Fig. 19 is a longitudinal sectional side view of the partition wall support portion. Figure 20 is a perspective view of a partition wall support portion. See the figure from below. (4) The ice (four) heat insulation box of the second embodiment. Figure 22疋 The perspective view of the heat insulation box is seen from above. Fig. 23 is an exploded perspective view of the left heat insulating wall. =4 is the side view of the (four) under the decomposition (4) of the guide mounting part. Fig. 5 is a longitudinal sectional side view of a rail mounting portion. Fig. 26 is a longitudinal sectional side view showing the third embodiment of the rail mounting portion in the longitudinal direction of the rail mounting portion. The fourth embodiment of the vertical cross-sectional front view fr' is a vertical cross-sectional front view showing a portion of the heat insulating box. Figure. Fig. 3G is a longitudinal section front view of a portion of the heat insulating box in an exploded state [Description of main components] 1 : Refrigerator 2: heat insulating box 29 201250189 42878pif 3, 4: revolving doors 3a, 3b, 4a, 4b: Relative key parts 5 to 8: Withdrawable door 9: Left heat insulating wall (unit heat insulating wall) 9': Left heat insulating wall 10: Right heat insulating wall (unit heat insulating wall) 10': Right heat insulating wall 11 : Upper heat insulation wall (unit heat insulation wall) 11a : Concave part lib : Machine room 11c : Machine room cover 12 : Lower side insulation wall (unit insulation wall) 13 : Rear side insulation wall (unit insulation wall) 14 : outer case 14A : left outer plate portion 14A1 : front surface portion 14A2 : folded portion 14Aa : bent portion 14B : right outer plate portion 14C : upper outer plate portion 14D : lower outer plate portion 14E : rear outer plate portion 14Z : outer panel portion 15 : inner box 201250189 428 / 8pif 15A': left inner panel portion 15A : left inner panel portion 15Aa : fitting portion 15Ab : lower side panel portion 15B : right inner panel portion 15C : upper inner panel portion 15C1 : link Portion 15C2: rib 15D: lower inner plate portion 15E: rear inner plate portion 15u: hole portion 16: vacuum heat insulating panel 16A: left unit panel 16B: right unit panel 16C: upper unit panel 16D: lower unit panel 16 E: rear unit panel 17: L-shaped portion (bent portion) 17a: L-shaped portion 18: drainage receiving portion (bending portion) 19: base material 20: package body 21: front end connecting members 22, 23, 29: Soft band 31 201250189 ^fzo/opif 24 : Foamed amino phthalate 25 : Sheet member connecting portion 25 ′ : sheet member connecting portion 25 ": sheet member connecting plates 25 a , 44 a : boss portion Fitting portion 26: fixing member (protruding portion of independent component) 26a: flange-like portion 26c: screw hole portion 26d, 45, 47' 62, 63: screw 28: foamed styrene 31, 44b: screw insertion hole Portion 31a: peripheral portion 32: flat head screw (fastening member) 32a: screw head 33, 34: rail mounting member (projecting portion of independent component) 33a: main body portion 33b: rail mounting portion 33c, 42u, 43a: screw hole Part 33d: counterbore 33e: fins 35, 36: partition wall support (projection of independent parts) 37: back cover mount (projection of independent parts) 40a to 40c: shelf support (protrusion) 41a, 41b: guide mounting portion (protrusion)
S 32 201250189 428/8pif 42a、42b:分隔壁支撐部(突出部) 43 :螺絲凸起部 44、46 :加強板(加強構件) 51、52、53 :橫樑構件 52a :分隔板 52b :加強板 52c :背分隔罩 52d .隔熱材料 54 :縱梁構件 55 :第1分隔壁 56 :第2分隔壁 57 :冷藏室(儲藏室) 58 :蔬菜室(儲藏室) 59 :小冷凍室(儲藏室) 60 :製冰室(儲藏室) 61 :冷凍室(儲藏室) la、lb、Ic、Id : —體成形品 Sa、Sb、Sc :片材構件 33S 32 201250189 428/8pif 42a, 42b: partition wall support portion (projecting portion) 43: screw boss portion 44, 46: reinforcing plate (reinforcing member) 51, 52, 53: cross member 52a: partition plate 52b: reinforced Plate 52c: back partition cover 52d. heat insulating material 54: stringer member 55: first partition wall 56: second partition wall 57: refrigerator compartment (storage room) 58: vegetable compartment (storage room) 59: small freezer compartment ( Storage room) 60: Ice making room (storage room) 61: Freezer compartment (storage room) la, lb, Ic, Id: - Body molded articles Sa, Sb, Sc: Sheet member 33