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JP6948180B2 - Food processing equipment - Google Patents
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JP6948180B2 - Food processing equipment - Google Patents

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JP6948180B2
JP6948180B2 JP2017140096A JP2017140096A JP6948180B2 JP 6948180 B2 JP6948180 B2 JP 6948180B2 JP 2017140096 A JP2017140096 A JP 2017140096A JP 2017140096 A JP2017140096 A JP 2017140096A JP 6948180 B2 JP6948180 B2 JP 6948180B2
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inner box
opening
box
storage
door
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JP2019020069A (en
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和也 岸本
和也 岸本
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フクシマガリレイ株式会社
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Description

本発明は、収納庫内に収納された食品に対して冷却処理あるいは加熱処理を行う食品加工装置に関して、特に断熱箱体の内箱と外箱とを連結する連結材のシール構造の改良に関する。 The present invention relates to a food processing apparatus that cools or heat-treats food stored in a storage box, and particularly relates to an improvement of a sealing structure of a connecting material that connects an inner box and an outer box of a heat insulating box.

冷蔵庫の分野において、断熱箱体を構成する金属製の内箱と外箱とを、合成樹脂製の連結材で連結することは、例えば特許文献1等に開示されており公知である。特許文献1に記載の冷蔵庫では、前面開口を有する冷蔵庫本体を、内箱、外箱及び両箱間に充填される断熱材で構成している。冷蔵庫本体の前面開口周縁には、両箱の周端縁を連結する連結材(化粧枠)が設けられている。連結材には、内箱の周端縁を係合狭持する装着部が形成されている。同様の構成の連結材を備える断熱箱体は、特許文献2にも見受けられる。このように連結材により内箱と外箱とが連結されていると、内箱の冷熱が外箱に伝導することを抑えることができるので、外箱に結露が付着することを防ぐことができる。 In the field of refrigerators, connecting a metal inner box and an outer box constituting a heat insulating box with a connecting material made of synthetic resin is known, for example, disclosed in Patent Document 1 and the like. In the refrigerator described in Patent Document 1, the refrigerator main body having a front opening is composed of an inner box, an outer box, and a heat insulating material filled between both boxes. A connecting material (decorative frame) for connecting the peripheral edges of both boxes is provided on the periphery of the front opening of the refrigerator body. The connecting material is formed with a mounting portion that engages and narrows the peripheral edge of the inner box. A heat insulating box body provided with a connecting material having a similar structure is also found in Patent Document 2. When the inner box and the outer box are connected by the connecting material in this way, it is possible to suppress the conduction of the cold heat of the inner box to the outer box, so that it is possible to prevent dew condensation from adhering to the outer box. ..

実公昭46−16397号公報(第2図参照)Jikken Sho 46-16397 (see Fig. 2) 特開2003−207265号公報(図10参照)Japanese Unexamined Patent Publication No. 2003-207265 (see FIG. 10)

例えば収納庫内に収納された食品に対して冷却処理を行う「ブラストチラー」と称される食品加工装置では、調理直後の高温の食材に対して、マイナス温度の冷気を当てて、食材を0℃にまで急速冷却する。このため、食品の収納庫への収納時と、食品に対する急速冷却処理後では、収納庫の庫内温度が急激に変化することが避けられず、先の特許文献1、2のような断熱箱体の構成を採った場合には、特に断熱箱体の庫内側に位置する金属製の内箱と、合成樹脂製の連結材との熱膨張率差により、両者の密着性が損なわれて、両者が分離して、両者の隙間から断熱箱体の内部に水分が浸入するおそれがある。 For example, in a food processing device called a "blast chiller" that cools the food stored in the storage, the hot food immediately after cooking is exposed to cold air at a negative temperature to eliminate the food. Rapidly cool to ° C. For this reason, it is inevitable that the temperature inside the storage box changes suddenly when the food is stored in the storage room and after the food is rapidly cooled, and the heat insulating box as in Patent Documents 1 and 2 above is unavoidable. When the body structure is adopted, the adhesion between the metal inner box located inside the heat insulating box and the synthetic resin connecting material is impaired due to the difference in the coefficient of thermal expansion. There is a risk that the two will separate and moisture will infiltrate into the heat insulating box through the gap between the two.

本発明は、収納庫内に収納された食品に対して冷却処理あるいは加熱処理を行う食品加工装置において、断熱箱体の庫内側に位置する金属製の内箱と、合成樹脂製の連結材との熱膨張率差に起因して、両者間のシール性が損なわれて、水分が断熱箱体の内部に浸入することを確実に防ぐことを目的とする。 The present invention comprises a metal inner box located inside the heat insulating box and a synthetic resin connecting material in a food processing apparatus that cools or heats the food stored in the storage. It is an object of the present invention to surely prevent moisture from entering the inside of the heat insulating box due to the impaired sealing property between the two due to the difference in the thermal expansion rate of the two.

本発明は、前面開口を有する収納庫3と、収納庫3の前面開口を開閉する扉20と、収納庫3内に冷気あるいは暖気を供給する処理空気供給装置5とを備え、収納庫3内に収納された食品に対して冷却処理あるいは加熱処理を行う食品加工装置を対象とする。収納庫3は、金属製の内箱30と外箱40とで形成される空間に断熱材25を充填してなる前面開口を有する断熱箱体4であり、前面開口の開口縁に位置する内箱30の周縁端部33と外箱40の周縁端部43との間には、両箱30・40の周縁端部33・43を連結する合成樹脂製の連結材50が配置されている。連結材50には、庫内側に位置して内箱30の周縁端部33が装着される装着部52が形成されている。そして、装着部52と内箱30の周縁端部33との間には封止剤を硬化してなる封止部64が形成されており、装着部52の庫内側の端部に、封止剤の充填用の凹入部65が凹み形成されていることを特徴とする。 The present invention includes a storage 3 having a front opening, a door 20 for opening and closing the front opening of the storage 3, and a processing air supply device 5 for supplying cold air or warm air into the storage 3. The target is food processing equipment that cools or heats the food stored in the door. The storage box 3 is a heat insulating box body 4 having a front opening formed by filling a space formed by a metal inner box 30 and an outer box 40 with a heat insulating material 25, and is located at the opening edge of the front opening. Between the peripheral edge end 33 of the box 30 and the peripheral edge 43 of the outer box 40, a connecting member 50 made of synthetic resin that connects the peripheral edge 33.43 of both boxes 30 and 40 is arranged. The connecting member 50 is formed with a mounting portion 52 located inside the refrigerator and to which the peripheral end portion 33 of the inner box 30 is mounted. A sealing portion 64 formed by curing the sealing agent is formed between the mounting portion 52 and the peripheral end portion 33 of the inner box 30, and is sealed at the inner end portion of the mounting portion 52. The recessed portion 65 for filling the agent is formed as a recess.

装着部52は、内箱30の周縁端部33の前面を受け止める前受壁56と、内箱30の周縁端部33の後面を受け止める後受壁57と、これら前後の受壁56・57の間に形成されて内箱30の周縁端部33が差し込み装着される装着溝58とを含むものとする。そして凹入部65が、前受壁56の庫内側の先端部56aに、庫外側に向って凹入する状態で凹み形成されており、凹入部65の後部が、装着溝58の庫内側の開口部に連通している形態を採ることができる。 The mounting portion 52 includes a front receiving wall 56 that receives the front surface of the peripheral edge 33 of the inner box 30, a rear receiving wall 57 that receives the rear surface of the peripheral end 33 of the inner box 30, and receiving walls 56 and 57 before and after these. It is assumed to include a mounting groove 58 formed between them and into which the peripheral end portion 33 of the inner box 30 is inserted and mounted. The recessed portion 65 is formed as a recess in the tip portion 56a inside the chamber of the front receiving wall 56 in a state of being recessed toward the outside of the chamber, and the rear portion of the recessed portion 65 is an opening inside the chamber of the mounting groove 58. It is possible to take a form that communicates with the part.

凹入部65は、庫外側に向って内形寸法が小さくなる先窄まり状に形成されていることが望ましい。 It is desirable that the recessed portion 65 is formed in a tapered shape in which the internal dimension becomes smaller toward the outside of the refrigerator.

収納庫3の前面側の開口縁と、当該開口縁に対向する扉20の後面との間に、マグネットキャッチ構造21が設けられており、マグネットキャッチ構造21は、扉20の後面に設けられる磁石を備えるドアパッキン22と、開口縁に沿って配置される磁性金属板製の吸着板23とで構成されており、連結材50に吸着板23が配設されている形態を採ることができる。 A magnet catch structure 21 is provided between the opening edge on the front side of the storage 3 and the rear surface of the door 20 facing the opening edge, and the magnet catch structure 21 is a magnet provided on the rear surface of the door 20. It is composed of a door packing 22 provided with the door packing 22 and a suction plate 23 made of a magnetic metal plate arranged along the opening edge, and the suction plate 23 can be arranged on the connecting member 50.

本発明においては、装着部52の庫内側の端部に、封止剤の充填用の凹入部65を凹み形成して、この凹入部65内に封止剤を充填して、これが凹入部65内で硬化することで封止部64が形成されるようにした。これによれば、当該凹入部65が形成されていない形態に比べて、より多くの封止剤を使って封止部64を形成することができるので、連結材50と内箱30の周縁端部33との接合部分を確実にシールすることができる。以上より、本発明によれば、合成樹脂製の連結材50と金属製の内箱30の周縁端部33との熱膨張差により、両者50・30の接合部分が分離しようとした場合でも、封止部64により当該接合部分にシール破壊が生じることを防いで、断熱箱体4の内部に水分が浸入することを確実に防ぐことができる。従って、本発明によれば、内箱30と連結材50との接合部分におけるシール性が良好であり、信頼性に優れた食品加工装置を得ることができる。 In the present invention, a recessed portion 65 for filling the sealing agent is formed in a recess at the inner end of the mounting portion 52, and the recessed portion 65 is filled with the sealing agent, and this is the recessed portion 65. The sealing portion 64 was formed by curing inside. According to this, since the sealing portion 64 can be formed by using more sealing agent as compared with the form in which the recessed portion 65 is not formed, the peripheral end of the connecting member 50 and the inner box 30 can be formed. The joint portion with the portion 33 can be reliably sealed. From the above, according to the present invention, even when the joint portion of both 50 and 30 is about to be separated due to the difference in thermal expansion between the connecting member 50 made of synthetic resin and the peripheral edge portion 33 of the inner box 30 made of metal. The sealing portion 64 can prevent the joint portion from breaking the seal, and can surely prevent moisture from entering the inside of the heat insulating box body 4. Therefore, according to the present invention, it is possible to obtain a food processing apparatus having good sealing performance at the joint portion between the inner box 30 and the connecting member 50 and having excellent reliability.

装着部52は、内箱30の周縁端部33の前面を受け止める前受壁56と、内箱30の周縁端部33の後面を受け止める後受壁57と、これら前後の受壁56・57の間に形成されて内箱30の周縁端部33が差し込み装着される装着溝58とを含むものとすることができる。また、上記のような装着部52の構成を採る場合には、凹入部65は、前受壁56の庫内側の先端部56aに、庫外側に向って凹入する状態で凹み形成されており、凹入部65の後部が、装着溝58の庫内側の開口部に連通している形態を採ることが望ましい。これによれば、装着溝58内に内箱30の周縁端部33を差し込み装着するだけで、当該装着溝58の庫内側の開口部の近傍に位置する内箱30の周縁端部33を、凹入部65に臨むような姿勢状態とすることができる。以上より、凹入部65内に封止剤を封入することで、装着溝58の庫内側の開口部の近傍に位置する内箱30の周縁端部33と、連結材50との接合部分を確実にシールすることができる。 The mounting portion 52 includes a front receiving wall 56 that receives the front surface of the peripheral edge 33 of the inner box 30, a rear receiving wall 57 that receives the rear surface of the peripheral end 33 of the inner box 30, and receiving walls 56 and 57 before and after these. It may include a mounting groove 58 formed between them and into which the peripheral end portion 33 of the inner box 30 is inserted and mounted. Further, in the case of adopting the configuration of the mounting portion 52 as described above, the recessed portion 65 is formed as a recess in the tip portion 56a inside the chamber of the front receiving wall 56 in a state of being recessed toward the outside of the chamber. It is desirable that the rear portion of the recessed portion 65 communicates with the opening inside the chamber of the mounting groove 58. According to this, only by inserting and mounting the peripheral edge portion 33 of the inner box 30 into the mounting groove 58, the peripheral edge end portion 33 of the inner box 30 located in the vicinity of the opening inside the chamber of the mounting groove 58 can be mounted. The posture can be set so as to face the recessed portion 65. From the above, by enclosing the sealing agent in the recessed portion 65, the joint portion between the peripheral end portion 33 of the inner box 30 located near the opening inside the chamber of the mounting groove 58 and the connecting member 50 is ensured. Can be sealed to.

凹入部65が、庫外側に向って内形寸法が小さくなる先窄まり状に形成されていると、凹入部65の内形寸法をストレート状とする形態に比べて、連結材50の庫内側の端部(前受壁56)の厚み寸法を大きく採ることができる。従って、凹入部65を設けたことに伴う連結材50の庫内側の端部(先端部56a)の剛性低下を抑えて、当該端部が破損することを効果的に防ぐことができる。凹入部65の奥端部の隅々まで封止剤を充填することが容易となり、封止剤の充填密度がばらつくことを抑えて、封止部64による均一なシール性を確保することもできる。 When the recessed portion 65 is formed in a narrowed shape in which the internal dimension becomes smaller toward the outside of the refrigerator, the inside of the connecting member 50 is compared with the form in which the inner dimension of the recessed portion 65 is straight. It is possible to take a large thickness dimension of the end portion (front receiving wall 56) of the. Therefore, it is possible to suppress a decrease in the rigidity of the end portion (tip portion 56a) inside the chamber of the connecting member 50 due to the provision of the recessed portion 65, and effectively prevent the end portion from being damaged. It becomes easy to fill every corner of the inner end of the recessed portion 65 with the sealing agent, and it is possible to suppress the variation in the filling density of the sealing agent and ensure uniform sealing performance by the sealing portion 64. ..

収納庫3の前面側の開口縁と、当該開口縁に対向する扉20の後面との間に、マグネットキャッチ構造21が設けられており、マグネットキャッチ構造21は、扉20の後面に設けられる磁石を備えるドアパッキン22と、開口縁に沿って配置される磁性金属板製の吸着板23とで構成されており、連結材50に吸着板23が配設されている形態を採ることができる。これによれば、内箱30や外箱40の周縁端部33・43を磁性金属片として代用する形態に比べて、マグネットと磁性金属片23との間隔距離を短くすることができる。従って、マグネットの吸着力に由来する扉20の姿勢保持作用力が良好に発揮されるので、扉20が不用意に開姿勢となることを防いで、閉姿勢にある扉20を安定した状態で維持することができる。 A magnet catch structure 21 is provided between the opening edge on the front side of the storage 3 and the rear surface of the door 20 facing the opening edge, and the magnet catch structure 21 is a magnet provided on the rear surface of the door 20. It is composed of a door packing 22 provided with the door packing 22 and a suction plate 23 made of a magnetic metal plate arranged along the opening edge, and the suction plate 23 can be arranged on the connecting member 50. According to this, the distance between the magnet and the magnetic metal piece 23 can be shortened as compared with the form in which the peripheral end portions 33 and 43 of the inner box 30 and the outer box 40 are substituted as the magnetic metal pieces. Therefore, the posture holding action force of the door 20 derived from the attractive force of the magnet is satisfactorily exerted, so that the door 20 is prevented from being inadvertently opened, and the door 20 in the closed posture is kept in a stable state. Can be maintained.

本発明に係る食品加工装置の要部の横断平面図である。It is a cross-sectional plan view of the main part of the food processing apparatus which concerns on this invention. 食品加工装置の縦断側面図である。It is a vertical sectional side view of a food processing apparatus. 食品加工装置の正面図である。It is a front view of the food processing apparatus. 断熱箱体の分解斜視図である。It is an exploded perspective view of a heat insulating box body. 連結材を説明するための要部の正面図である。It is a front view of the main part for demonstrating the connecting material.

(実施例)
図1から図5に本発明に係る食品加工装置を、食品に対して粗熱取り、急速冷却、あるいは急速凍結などの冷却処理を行う急速冷却庫(ブラストチラー)に適用した実施例を示す。本実施例における前後、左右、上下とは、図1、図4および図5に示す交差矢印と、各矢印の近傍に表記した前後、左右、上下の表示に従う。図2、および図3において、急速冷却庫は、冷却庫本体1と、冷却庫本体1の下方に設けられた機械室2とで構成される。冷却庫本体1は、前面開口を有する収納庫3を備える縦長の断熱箱体4からなり、収納庫3の内部左方に蒸発器(処理空気供給装置)5と送風ファン6が配置されている。送風ファン6から送給された庫内の空気は、蒸発器5を通過する間の熱交換によって冷却され、蒸発器5の前後の隙間から右向きに送給されて収納庫3内を循環する。機械室2の内部には、圧縮機7、凝縮器8、凝縮器8用の送風ファン9などが収容されている。圧縮機7および凝縮器8と、蒸発器5とは冷媒通路を介して接続されている。
(Example)
1 to 5 show an example in which the food processing apparatus according to the present invention is applied to a quick cooler (blast chiller) that performs cooling treatment such as rough heat removal, rapid cooling, or quick freezing of food. The front-back, left-right, and up-down in this embodiment follow the crossing arrows shown in FIGS. 1, 4, and 5, and the front-back, left-right, and up-down indications shown in the vicinity of each arrow. In FIGS. 2 and 3, the rapid refrigerator is composed of a refrigerator main body 1 and a machine room 2 provided below the cooler main body 1. The cooling cabinet main body 1 is composed of a vertically long heat insulating box 4 having a storage compartment 3 having a front opening, and an evaporator (processing air supply device) 5 and a blower fan 6 are arranged on the left side inside the storage cabinet 3. .. The air in the refrigerator supplied from the blower fan 6 is cooled by heat exchange while passing through the evaporator 5, and is sent to the right from the gap before and after the evaporator 5 to circulate in the storage 3. Inside the machine room 2, a compressor 7, a condenser 8, a blower fan 9 for the condenser 8, and the like are housed. The compressor 7 and the condenser 8 and the evaporator 5 are connected to each other via a refrigerant passage.

図3において符号10は、蒸発器5と送風ファン6とを備える冷却器ユニットを示す。冷却器ユニット10は、左右に開口を有する四角枠状のケース本体11と、ケース本体11の右側開口を塞ぐように設けられるケース蓋12とで構成される。収納庫3の内部には、左右一対の載置棚部14が多段状に設けられており、食品を載せたホテルパン15を左右一対の載置棚部14に差込み装着することで、収納庫3内に上下多段状にホテルパン15を配置することができる。冷却処理時には、蒸発器5を運転状態にし、送風ファン6を駆動することにより、ホテルパン15上の食材を冷却することができる。 In FIG. 3, reference numeral 10 indicates a cooler unit including an evaporator 5 and a blower fan 6. The cooler unit 10 is composed of a square frame-shaped case body 11 having openings on the left and right, and a case lid 12 provided so as to close the right opening of the case body 11. A pair of left and right storage shelves 14 are provided in a multi-stage shape inside the storage 3, and the hotel pan 15 on which food is placed is inserted into the pair of left and right storage shelves 14 and mounted. Hotel pans 15 can be arranged in a multi-tiered upper and lower position in 3. At the time of the cooling process, the foodstuff on the hotel pan 15 can be cooled by operating the evaporator 5 and driving the blower fan 6.

冷却庫本体1の前面開口は、揺動開閉式の扉20により開閉される。扉20は左端側がヒンジに軸支されており、閉じた姿勢から前方左方に揺動開閉される。冷却庫本体1と扉20との間には、マグネットキャッチ構造21が設けられており(図1参照)、このマグネットキャッチ構造21により、扉20は閉じ姿勢に保持される。マグネットキャッチ構造21は、扉側のドアパッキン22と、冷却庫本体1側の磁性金属片(吸着板)23とで構成される。ドアパッキン22には、磁性金属片23に磁気吸着するマグネットが内設されている。 The front opening of the cooler body 1 is opened and closed by a swing-opening / closing door 20. The left end side of the door 20 is pivotally supported by a hinge, and the door 20 swings open and closes forward and to the left from a closed posture. A magnet catch structure 21 is provided between the cooler body 1 and the door 20 (see FIG. 1), and the door 20 is held in the closed posture by the magnet catch structure 21. The magnet catch structure 21 is composed of a door packing 22 on the door side and a magnetic metal piece (adsorption plate) 23 on the refrigerator body 1 side. The door packing 22 is internally provided with a magnet that magnetically attracts the magnetic metal piece 23.

図4および図5に示すように、断熱箱体4は、金属製の内箱30と、金属製の外箱40と、両箱30・40を連結する合成樹脂製の連結材50と、両箱30.40の対向隙間に充填された断熱材25(図1参照)とで構成される。内箱30は、後壁31a、右側壁31b、左側壁31c、上壁31d、および下壁31eとを備え、前面開口32を有する四角容器状に形成されている。前面開口32に臨む、右側壁31b、左側壁31c、上壁31d、および下壁31eのそれぞれの開口縁には、各壁31b〜31eの端縁を外方(庫外側)に屈曲することで、係合片となる周縁端部33が外向きに張り出し形成されている。 As shown in FIGS. 4 and 5, the heat insulating box 4 includes a metal inner box 30, a metal outer box 40, and a synthetic resin connecting member 50 that connects both boxes 30 and 40. It is composed of a heat insulating material 25 (see FIG. 1) filled in the facing gap of the box 30.40. The inner box 30 includes a rear wall 31a, a right side wall 31b, a left side wall 31c, an upper wall 31d, and a lower wall 31e, and is formed in the shape of a square container having a front opening 32. The right side wall 31b, the left side wall 31c, the upper wall 31d, and the lower wall 31e facing the front opening 32 are formed by bending the end edges of the walls 31b to 31e outward (outside the refrigerator). The peripheral edge portion 33, which serves as an engaging piece, is formed so as to project outward.

図4に示すように、外箱40は、後壁41a、右側壁41b、左側壁41c、上壁41d、および下壁41eとを備え、前面開口42を有する四角容器状に形成されている。外箱40の内形寸法は、内箱30の外形寸法よりも断熱材25の充填空間の分だけ大きく設定されている。前面開口42に臨む右側壁41b、左側壁41c、上壁41d、および下壁41eのそれぞれの開口縁には、各壁41b〜41eの端縁を内方(庫内側)に屈曲することで、係合片となる周縁端部43が内向きに張り出し形成されている。 As shown in FIG. 4, the outer box 40 includes a rear wall 41a, a right side wall 41b, a left side wall 41c, an upper wall 41d, and a lower wall 41e, and is formed in the shape of a square container having a front opening 42. The inner dimension of the outer box 40 is set larger than the outer dimension of the inner box 30 by the filling space of the heat insulating material 25. The right side wall 41b, the left side wall 41c, the upper wall 41d, and the lower wall 41e facing the front opening 42 are formed by bending the end edges of the walls 41b to 41e inward (inside the refrigerator). The peripheral edge portion 43 serving as the engaging piece is formed so as to project inward.

図4に示すように、断熱箱体4の前面開口の開口縁に配置されて、内箱30と外箱40とを連結する連結材50は、当該前面開口の四周辺に対応して、上連結材50a、下連結材50b、右連結材50c、および左連結材50dに4分割されている。各連結材50a〜50dは、押し出し成形により成形された押し出し材を切断してなる長材であり、両箱30・40の周縁端部33・43の間の隙間を埋める基部51と、基部51の庫内側に設けられて、内箱30の周縁端部33が装着される内装着部(装着部)52と、基部51の庫外側に設けられて、外箱40の周縁端部43が装着される外装着部53と、基部51の前面に設けられて磁性金属片23が装着される収容部54とを備える。連結材50は、両箱30・40の周縁端部33・43を連結するとともに、両箱30・40間の熱伝導を遮断している。図1、図4において、符号55は、基部51と内外の装着部52・53との境界部における、該基部51の後面側に突設された補強用のリブを示す。 As shown in FIG. 4, the connecting member 50, which is arranged at the opening edge of the front opening of the heat insulating box body 4 and connects the inner box 30 and the outer box 40, corresponds to the four periphery of the front opening and is on the upper side. It is divided into four parts, a connecting material 50a, a lower connecting material 50b, a right connecting material 50c, and a left connecting material 50d. Each of the connecting materials 50a to 50d is a long material formed by cutting an extruded material formed by extrusion molding, and has a base portion 51 and a base portion 51 that fill a gap between the peripheral end portions 33 and 43 of both boxes 30 and 40. The inner mounting portion (mounting portion) 52 provided on the inside of the refrigerator and to which the peripheral edge 33 of the inner box 30 is mounted, and the peripheral end 43 of the outer box 40 provided on the outside of the base 51 are mounted. The outer mounting portion 53 is provided, and the accommodating portion 54 provided on the front surface of the base 51 and on which the magnetic metal piece 23 is mounted is provided. The connecting member 50 connects the peripheral end portions 33 and 43 of both boxes 30 and 40, and blocks heat conduction between both boxes 30 and 40. In FIGS. 1 and 4, reference numeral 55 indicates a reinforcing rib projecting from the rear surface side of the base 51 at the boundary between the base 51 and the inner and outer mounting portions 52 and 53.

内装着部52は、内箱30の周縁端部33の前面を受け止める前受壁56と、内箱30の周縁端部33の後面を受け止める後受壁57と、これら前後の受壁56・57の間に形成されて内箱30の周縁端部33が差し込み装着される装着溝58とを有する二股状に形成されている。同様に、外装着部53は、外箱40の周縁端部43の前面を受け止める前受壁60と、外箱40の周縁端部43の後面を受け止める後受壁61と、これら前後の受壁60・61の間に形成されて外箱40の周縁端部43が差し込み装着される装着溝62とを有する二股状に形成されている。 The inner mounting portion 52 includes a front receiving wall 56 that receives the front surface of the peripheral end portion 33 of the inner box 30, a rear receiving wall 57 that receives the rear surface of the peripheral end portion 33 of the inner box 30, and receiving walls 56 and 57 before and after these. It is formed in a bifurcated shape having a mounting groove 58 formed between the two and into which a peripheral end portion 33 of the inner box 30 is inserted and mounted. Similarly, the outer mounting portion 53 includes a front receiving wall 60 that receives the front surface of the peripheral end portion 43 of the outer box 40, a rear receiving wall 61 that receives the rear surface of the peripheral end portion 43 of the outer box 40, and receiving walls before and after these. It is formed in a bifurcated shape having a mounting groove 62 formed between 60 and 61 and to which a peripheral end portion 43 of the outer box 40 is inserted and mounted.

図1に示すように、連結材50の前受壁56と内箱30の周縁端部33との接合部分には、封止剤を硬化してなる封止部64が形成されている。本実施例では、連結材50の前受壁56の庫内側の先端部56aに凹入部65を凹み形成しており、この凹入部65内に封止剤を充填することで封止部64が形成されている。前受壁56は、前後方向における厚み寸法が均一な基部56bと、基部56bから庫内側に伸びて、該基部56bにより片持状に支持されて、凹入部65を有する先端部56aとで構成される。 As shown in FIG. 1, a sealing portion 64 formed by curing a sealing agent is formed at a joint portion between the front receiving wall 56 of the connecting member 50 and the peripheral end portion 33 of the inner box 30. In this embodiment, the recessed portion 65 is formed as a recess in the tip portion 56a inside the chamber of the front receiving wall 56 of the connecting member 50, and the sealing portion 64 is formed by filling the recessed portion 65 with a sealing agent. It is formed. The front receiving wall 56 is composed of a base portion 56b having a uniform thickness dimension in the front-rear direction, and a tip portion 56a extending from the base portion 56b inward and being cantilevered by the base portion 56b and having a recessed portion 65. Will be done.

より詳しく見てみると、図1に示すように、前受壁56の周縁端部33側(後面側)の壁は、庫外方向から庫内方向に向ってストレート状に伸びて、周縁端部33に接触する第1壁70aと、第1壁70aに連設されて前方側に向って伸びる第2壁70bと、第2壁70bの遊端側に連設されて庫外方向から庫内方向に向ってストレート状に伸びて、前受壁56の庫内側の先端部56aに至る第3壁70cとで構成されており、これら第2壁70bと第3壁70cとにより凹入部65が区画されている。第2壁70bは、第1壁70aに連続する基端側が庫外側に位置し、第3壁70cに連続する遊端側が庫内側に位置する傾斜面とされている。これにより、凹入部65は、庫外側に向って内形寸法が小さくなる先窄まり状に形成されている。また、第2壁70bと第3壁70cとの境界に形成されるコーナー部は鈍角に形成されている。 Looking at it in more detail, as shown in FIG. 1, the wall on the peripheral end 33 side (rear surface side) of the front receiving wall 56 extends straight from the outer side to the inner side of the refrigerator, and the peripheral end The first wall 70a that comes into contact with the portion 33, the second wall 70b that is connected to the first wall 70a and extends toward the front side, and the second wall 70b that is connected to the free end side of the second wall 70b and is connected from the outside of the refrigerator. It is composed of a third wall 70c that extends straight inward and reaches the tip 56a inside the chamber of the front receiving wall 56, and the recessed portion 65 is formed by the second wall 70b and the third wall 70c. Is partitioned. The second wall 70b is an inclined surface in which the base end side continuous with the first wall 70a is located on the outside of the refrigerator and the free end side continuous with the third wall 70c is located on the inside of the refrigerator. As a result, the recessed portion 65 is formed in a tapered shape in which the internal dimension becomes smaller toward the outside of the refrigerator. Further, the corner portion formed at the boundary between the second wall 70b and the third wall 70c is formed at an obtuse angle.

このように、連結材50の前受壁56の庫内側の先端部56aに凹入部65が形成されており、この凹入部65内に封止剤を充填することで封止部64が形成されていると、当該凹入部65が形成されていない形態に比べて、より多くの封止剤を使って、封止部64を形成して、連結材50と内箱30の周縁端部33との接合部分をシールすることができる。これによれば、合成樹脂製の連結材50と金属製の内箱30の周縁端部33との熱膨張差により、両者50・30の接合部分が分離しようとした場合でも、封止部64により当該接合部分にシール破壊が生じることを防ぎ、断熱箱体4の内部に水分が浸入することをより確実に抑えることができる。また、庫内の洗浄時、あるいは清掃時に封止剤が剥離しにくく、長期にわたって良好なシール性を確保することができる。以上より、本実施例によれば、内箱30と連結材50との接合部分におけるシール性が良好であり、信頼性に優れた急速冷却庫を得ることができる。 As described above, the recessed portion 65 is formed in the tip portion 56a inside the chamber of the front receiving wall 56 of the connecting member 50, and the sealing portion 64 is formed by filling the recessed portion 65 with a sealing agent. Then, as compared with the form in which the recessed portion 65 is not formed, the sealing portion 64 is formed by using more sealing agent, and the connecting member 50 and the peripheral end portion 33 of the inner box 30 are formed. Can seal the joints of. According to this, even if the joint portion of both 50 and 30 is about to be separated due to the difference in thermal expansion between the connecting material 50 made of synthetic resin and the peripheral end portion 33 of the inner box 30 made of metal, the sealing portion 64 As a result, it is possible to prevent the seal from being broken at the joint portion and to more reliably suppress the infiltration of moisture into the heat insulating box body 4. In addition, the sealant does not easily peel off during cleaning or cleaning the inside of the refrigerator, and good sealing properties can be ensured for a long period of time. From the above, according to the present embodiment, it is possible to obtain a rapid cooling cabinet having good sealing performance at the joint portion between the inner box 30 and the connecting member 50 and having excellent reliability.

そのうえで、第2壁70bが基端側が庫外側に位置し、遊端側が庫内側に位置する傾斜面とされていると、当該第2壁70bを後方側から前方側に向って真っ直ぐに伸びるストレート面とする形態に比べて、片持ち状に支持される先端部56aの厚み寸法を大きく採ることができる。従って、凹入部65を設けたことに伴う先端部56aの剛性低下を抑えて、先端部56aが破損することを効果的に防ぐことができる。また、第2壁70bの基端側が庫外側に位置し、遊端側が庫内側に位置する傾斜面とされていると、第2壁70bと第3壁70cとのコーナー部を鈍角とすることができるので、当該コーナー部にひけなどの成形不良が発生することを防ぐことができる。従って、この点でも先端部56aの剛性低下を抑えて、先端部56aが破損することを防ぐことができる。 On top of that, if the second wall 70b is an inclined surface whose base end side is located on the outside of the refrigerator and the free end side is located on the inside of the refrigerator, a straight extending the second wall 70b from the rear side to the front side straight. Compared to the surface shape, the thickness of the tip portion 56a supported in a cantilever shape can be made larger. Therefore, it is possible to suppress the decrease in rigidity of the tip portion 56a due to the provision of the recessed portion 65 and effectively prevent the tip portion 56a from being damaged. Further, if the base end side of the second wall 70b is located on the outside of the refrigerator and the free end side is an inclined surface located on the inside of the refrigerator, the corner portion between the second wall 70b and the third wall 70c is obtuse. Therefore, it is possible to prevent molding defects such as sink marks from occurring at the corners. Therefore, at this point as well, it is possible to suppress a decrease in the rigidity of the tip portion 56a and prevent the tip portion 56a from being damaged.

さらに、第2壁70bと第3壁70cとのコーナー部が鈍角であると、当該コーナー部が直角である形態に比べて、当該コーナー部に対して封止剤を均一に充填することが容易となる。従って、当該コーナー部に対する封止剤の充填密度がばらつくことを抑えて、封止部64による均質なシール性を確保することができる。凹入部65を庫外側に向って内形寸法が小さくなる先窄まり状に形成したので、凹入部65の奥端部の隅々まで封止剤を充填することが容易であり、この点でも封止部64による良好なシール性を確保することができる。凹入部65を庫外側に向って内形寸法が小さくなる先窄まり状に形成したので、封止剤の周縁端部33との接触面積を大きくすることができる。従って、この点でも封止部64による良好なシール性を確保することができる。 Further, when the corner portion of the second wall 70b and the third wall 70c has an obtuse angle, it is easier to uniformly fill the corner portion with the sealing agent as compared with the form in which the corner portion is at a right angle. It becomes. Therefore, it is possible to prevent the packing density of the sealing agent from fluctuating with respect to the corner portion and to secure a uniform sealing property by the sealing portion 64. Since the recessed portion 65 is formed in a tapered shape in which the internal dimension becomes smaller toward the outside of the refrigerator, it is easy to fill every corner of the inner end portion of the recessed portion 65 with the sealing agent. Good sealing performance can be ensured by the sealing portion 64. Since the recessed portion 65 is formed in a tapered shape in which the internal dimension becomes smaller toward the outside of the refrigerator, the contact area of the sealing agent with the peripheral edge portion 33 can be increased. Therefore, in this respect as well, good sealing performance can be ensured by the sealing portion 64.

特に、連結材50の内装着部52を、前受壁56と、後受壁57と、これら前後の受壁56・57の間に形成されて内箱30の周縁端部33が差し込み装着される装着溝58とを有する二股状に形成されていると、該装着溝58による周縁端部33の差し込みにより、前受壁56が周縁端部33から離れて、両者56・33の接合部分のシール性が不良となりやすい。かかる問題は、特に、成形や加工上の寸法誤差によって、連結材50の装着溝58の間隔寸法や、内箱30の周縁端部33の厚み寸法が僅かに異なる場合に顕著となりやすい。これに対して、本実施例では、凹入部65を形成し、より多くの封止剤を使って、封止部64を形成して、連結材50と内箱30の周縁端部33との接合部分をシールしたので、上記のように、寸法上のばらつきが生じる場合でも、確実に両者56・33の間をシールすることができる。 In particular, the inner mounting portion 52 of the connecting member 50 is formed between the front receiving wall 56, the rear receiving wall 57, and the front and rear receiving walls 56 and 57, and the peripheral end portion 33 of the inner box 30 is inserted and mounted. When it is formed in a bifurcated shape having a mounting groove 58, the front receiving wall 56 is separated from the peripheral edge portion 33 by inserting the peripheral edge end portion 33 by the mounting groove 58, and the joint portion of both 56 and 33 is formed. Sealing property tends to be poor. Such a problem tends to be particularly remarkable when the spacing dimension of the mounting groove 58 of the connecting member 50 and the thickness dimension of the peripheral end portion 33 of the inner box 30 are slightly different due to a dimensional error in molding or processing. On the other hand, in this embodiment, the recessed portion 65 is formed, the sealing portion 64 is formed by using more sealing agent, and the connecting member 50 and the peripheral end portion 33 of the inner box 30 are formed. Since the joint portion is sealed, it is possible to reliably seal between both 56 and 33 even if there is a dimensional variation as described above.

また、本実施例によれば、凹入部65内にコーキングガンのノズルを進入させたうえで、該ノズルから封止剤を塗布するだけで封止部64を形成することが可能となるので、前受壁56の表面等に対するマスキング処理が不要となる。従って、断熱箱体4の製造工程を簡素化して、断熱箱体4の製造コストの削減に貢献できる。凹入部65により封止剤の塗布量を確認しながら、封止部64の形成作業を進めることができるので、均一な封止部64を確実に形成できる利点もある。 Further, according to the present embodiment, it is possible to form the sealing portion 64 simply by inserting the nozzle of the caulking gun into the recessed portion 65 and then applying the sealing agent from the nozzle. Masking treatment for the surface of the front receiving wall 56 and the like becomes unnecessary. Therefore, it is possible to simplify the manufacturing process of the heat insulating box 4 and contribute to the reduction of the manufacturing cost of the heat insulating box 4. Since the work of forming the sealing portion 64 can be carried out while checking the amount of the sealing agent applied by the recessed portion 65, there is an advantage that a uniform sealing portion 64 can be reliably formed.

図1に示すように、収容部54は、内装着部52の前受壁56と、外装着部53の前受壁60のそれぞれの対向位置に陥没形成された一対の凹溝で構成されており、これら凹溝に磁性金属片23の庫内外の縁部が受け止められた状態で、磁性金属片23は収容部54に装着される。収容部54に装着されたとき、磁性金属片23は冷却庫本体1の開口周縁の前面側に露出しており、当該磁性金属片23に対向する扉20の四周縁にマグネット入りのドアパッキン22が配設されている(図3参照)。このように、磁性金属片23が連結材50に形成されていると、内箱30や外箱40の周縁端部33・43を磁性金属片として代用する形態に比べて、マグネットと磁性金属片23との間隔距離を短くすることができるので、マグネットの吸着力に由来する扉20の姿勢保持作用力が良好に発揮される。そのうえで、磁性金属片23が前面側に露出していると、例えば連結材50の後面側に磁性金属片23が配設されている形態に比べて、扉20を閉姿勢とした際のマグネットと磁性金属片23との間隔距離をより短くすることができるので、マグネットの磁気吸着力に由来する扉20の姿勢保持作用力がより良好に発揮される。以上より、本実施例に係る急速冷却庫によれば、扉20が不用意に開姿勢となることを防いで、閉姿勢にある扉20を安定した状態で維持することが可能となる。 As shown in FIG. 1, the accommodating portion 54 is composed of a pair of recessed grooves formed in recessed positions of the front receiving wall 56 of the inner mounting portion 52 and the front receiving wall 60 of the outer mounting portion 53, respectively. The magnetic metal piece 23 is mounted on the accommodating portion 54 in a state where the inner and outer edges of the magnetic metal piece 23 are received by these concave grooves. When mounted on the accommodating portion 54, the magnetic metal piece 23 is exposed on the front side of the opening peripheral edge of the cooler body 1, and the door packing 22 having magnets on the four peripheral edges of the door 20 facing the magnetic metal piece 23. Are arranged (see FIG. 3). When the magnetic metal piece 23 is formed on the connecting member 50 in this way, the magnet and the magnetic metal piece are compared with the form in which the peripheral end portions 33 and 43 of the inner box 30 and the outer box 40 are substituted as the magnetic metal piece. Since the distance from the 23 can be shortened, the attitude holding action force of the door 20 derived from the attractive force of the magnet is satisfactorily exhibited. On top of that, when the magnetic metal piece 23 is exposed on the front surface side, the magnet when the door 20 is in the closed position is compared with the form in which the magnetic metal piece 23 is arranged on the rear surface side of the connecting member 50, for example. Since the distance between the magnetic metal piece 23 and the magnetic metal piece 23 can be shortened, the attitude holding action force of the door 20 derived from the magnetic attraction force of the magnet is more satisfactorily exhibited. From the above, according to the rapid cooling cabinet according to the present embodiment, it is possible to prevent the door 20 from being inadvertently opened, and to maintain the door 20 in the closed posture in a stable state.

上記実施例では、本発明の食品加工装置を急速凍結などの冷却処理を行う急速冷却庫に適用した例を示したが、本発明はこれに限られず、食品に対して加熱処理を行う加熱庫等にも適用することができる。上記実施例では、連結材50の内装着部52は、装着溝58を有する二股状に形成されていたが、本発明はこれに限られず、前受壁56のみで内装着部52が形成されていてもよい。外装着部53の庫外側の端部にも、封止剤充填用の凹入部65を凹み形成することができる。 In the above embodiment, an example in which the food processing apparatus of the present invention is applied to a rapid cooling chamber that performs cooling treatment such as rapid freezing is shown, but the present invention is not limited to this, and the heating chamber that heat-treats food. Etc. can also be applied. In the above embodiment, the inner mounting portion 52 of the connecting member 50 is formed in a bifurcated shape having a mounting groove 58, but the present invention is not limited to this, and the inner mounting portion 52 is formed only by the front receiving wall 56. You may be. A recessed portion 65 for filling the sealant can also be formed as a recess at the outer end of the external mounting portion 53.

3 収納庫
4 断熱箱体
5 処理空気供給装置(蒸発器)
20 扉
21 マグネットキャッチ構造
22 ドアパッキン
23 吸着片(磁性金属片)
30 内箱
33 内箱の周縁端部
40 外箱
43 外箱の周縁端部
50 連結材
52 装着部
56 前受壁
57 後受壁
58 装着溝
64 封止部
65 凹入部
3 Storage 4 Insulated box 5 Treated air supply device (evaporator)
20 Door 21 Magnet catch structure 22 Door packing 23 Adsorption piece (magnetic metal piece)
30 Inner box 33 Inner box peripheral edge 40 Outer box 43 Outer box peripheral edge 50 Connecting material 52 Mounting part 56 Front receiving wall 57 Rear receiving wall 58 Mounting groove 64 Sealing part 65 Recessed part

Claims (3)

前面開口を有する収納庫(3)と、収納庫(3)の前面開口を開閉する扉(20)と、収納庫(3)内に冷気あるいは暖気を供給する処理空気供給装置(5)とを備え、収納庫(3)内に収納された食品に対して冷却処理あるいは加熱処理を行う食品加工装置であって、
収納庫(3)は、金属製の内箱(30)と外箱(40)とで形成される空間に断熱材(25)を充填してなる前面開口を有する断熱箱体(4)であり、前面開口の開口縁に位置する内箱(30)の周縁端部(33)と外箱(40)の周縁端部(43)との間には、両箱(30・40)の周縁端部(33・43)を連結する合成樹脂製の連結材(50)が配置されており、
連結材(50)には、庫内側に位置して内箱(30)の周縁端部(33)が装着される装着部(52)が形成されており、
装着部(52)と内箱(30)の周縁端部(33)との間には封止剤を硬化してなる封止部(64)が形成されており、
装着部(52)の庫内側の端部に、封止剤充填用の凹入部(65)が凹み形成されており、
装着部(52)が、内箱(30)の周縁端部(33)の前面を受け止める前受壁(56)と、内箱(30)の周縁端部(33)の後面を受け止める後受壁(57)と、これら前後の受壁(56・57)の間に形成されて内箱(30)の周縁端部(33)が差し込み装着される装着溝(58)とを含み、
凹入部(65)が、前受壁(56)の庫内側の先端部(56a)に、庫外側に向って凹入する状態で凹み形成されており、
凹入部(65)の後部が、装着溝(58)の庫内側の開口部に連通していることを特徴とする食品加工装置。
A storage (3) having a front opening, a door (20) for opening and closing the front opening of the storage (3), and a processing air supply device (5) for supplying cold air or warm air into the storage (3). A food processing device that cools or heats the food stored in the storage (3).
The storage (3) is a heat insulating box body (4) having a front opening formed by filling a space formed by a metal inner box (30) and an outer box (40) with a heat insulating material (25). Between the peripheral edge (33) of the inner box (30) and the peripheral edge (43) of the outer box (40) located at the opening edge of the front opening, the peripheral edges of both boxes (30.40) A connecting material (50) made of synthetic resin for connecting the parts (33, 43) is arranged, and the connecting material (50) is arranged.
The connecting member (50) is formed with a mounting portion (52) located inside the refrigerator and to which the peripheral end portion (33) of the inner box (30) is mounted.
A sealing portion (64) formed by curing the sealing agent is formed between the mounting portion (52) and the peripheral end portion (33) of the inner box (30).
A recessed portion (65) for filling the sealant is formed as a recess at the inner end of the mounting portion (52) .
The mounting portion (52) receives the front receiving wall (56) that receives the front surface of the peripheral edge portion (33) of the inner box (30) and the rear receiving wall (56) that receives the rear surface of the peripheral end portion (33) of the inner box (30). (57) and a mounting groove (58) formed between the front and rear receiving walls (56.57) and into which the peripheral end portion (33) of the inner box (30) is inserted and mounted.
The recessed portion (65) is formed as a recess in the tip portion (56a) inside the chamber of the front receiving wall (56) in a state of being recessed toward the outside of the chamber.
A food processing apparatus characterized in that the rear portion of the recessed portion (65) communicates with the opening inside the refrigerator of the mounting groove (58).
凹入部(65)が、庫外側に向って内形寸法が小さくなる先窄まり状に形成されている、請求項1記載の食品加工装置。 The food processing apparatus according to claim 1 , wherein the recessed portion (65) is formed in a tapered shape in which the internal dimension becomes smaller toward the outside of the refrigerator. 収納庫(3)の前面側の開口縁と、当該開口縁に対向する扉(20)の後面との間に、マグネットキャッチ構造(21)が設けられており、
マグネットキャッチ構造(21)は、扉(20)の後面に設けられる磁石を備えるドアパッキン(22)と、開口縁に沿って配置される磁性金属板製の吸着板(23)とで構成されており、
連結材(50)に吸着板(23)が配設されている、請求項1又は2記載の食品加工装置
A magnet catch structure (21) is provided between the opening edge on the front side of the storage (3) and the rear surface of the door (20) facing the opening edge.
The magnet catch structure (21) is composed of a door packing (22) provided with a magnet provided on the rear surface of the door (20) and a magnetic metal plate suction plate (23) arranged along the opening edge. Ori,
The food processing apparatus according to claim 1 or 2 , wherein the adsorption plate (23) is arranged on the connecting material (50).
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