The present invention is capable of performing a process other than cooling such as cutting, cleaning, and storage of an object to be cooled, in addition to the cooling of the object to be cooled. A cooling device 1 has: a cooling unit 3 for cooling a fish Q, which is the object to be cooled, by immersing the fish Q in a first ice slurry S1; a cleaning unit 4 for cleaning the fish Q cooled by the cooling unit 3; a storage unit 5 for storing the fish Q cleaned by the cleaning unit 4 by immersing the fish Q in a second ice slurry S2; a first ice slurry manufacturing unit 6 for manufacturing the first ice slurry S1 and supplying the first ice slurry S1 to the cooling unit 3; and a second ice slurry manufacturing unit 7 for manufacturing the second ice slurry S2 and supplying the second ice slurry S2 to the storage unit 5. The temperature of the first ice slurry S2 is -20° or less, and the temperature of the second ice slurry S2 is -2 to 0°C.
F25D 3/02 - Dispositifs utilisant d'autres agents froids; Dispositifs utilisant des récipients conservant le froid utilisant de la glace, p.ex. glacières
The present invention makes it possible to effectively use the cold energy of a liquefied gas. A cold energy utilization apparatus 200 includes: a first heat exchange unit 300 that cools carbon dioxide N1 by heat exchange with an LNG; and a second heat exchange unit 400 that cools a brine N2 by heat exchange with the carbon dioxide N1. The cold energy utilization apparatus 200 is connected, upon use, to a plant 160 that includes a tank 110 for storing the LNG and a vaporizer 120 for vaporizing the LNG fed from the tank 110. The LNG is introduced from the tank 110 into the first heat exchange unit 300. The LNG introduced into the first heat exchange unit 300 is returned in a liquid state into the plant 160 on an upstream side of the vaporizer 120.
F25B 27/00 - Machines, installations ou systèmes utilisant des sources d'énergie particulières
F25D 3/10 - Dispositifs utilisant d'autres agents froids; Dispositifs utilisant des récipients conservant le froid utilisant des gaz liquéfiés, p.ex. de l'air liquide
F28D 20/02 - Appareils ou ensembles fonctionnels d'accumulation de chaleur en général; Appareils échangeurs de chaleur de régénération non couverts par les groupes ou utilisant la chaleur latente
3.
COLD ENERGY UTILIZATION METHOD AND COLD ENERGY UTILIZATION APPARATUS
The present invention makes it possible to effectively use cold energy of a liquefied gas. A cold energy utilization apparatus 200 comprises: a first heat exchange unit 300 that cools carbon dioxide N1 by heat exchange with an LNG; and a second heat exchange unit 400 that cools a brine N2 by heat exchange with the carbon dioxide N1. The cold energy utilization apparatus 200 is connected to a plant 160 upon use, in which the plant 160 includes a tank 110 that stores the LNG and a vaporizer 120 that vaporizes the LNG fed from the tank 110. The LNG is introduced from the tank 110 into the first heat exchange unit 300. The LNG introduced into the first heat exchange unit 300 is returned in a liquid state into the plant 160 on an upstream side of the vaporizer 120.
The present invention involves using a liquid refrigerant slurry to freeze a cold storage material that can be used repeatedly and using the frozen cold storage material to cool a target object and thereby makes it possible to reduce environmental load. A device 100 for freezing a cold storage material has: a primary cooling device 200 that cools an ethanol aqueous solution that circulates through a circuit 200B to produce an ice slurry I; and a secondary cooling device 300 that uses the ice slurry I to freeze a cold storage material 800 that can be used for cooling repeatedly. The primary cooling device 200 has a storage tank 250 that stores the ice slurry I, and the ice slurry I is supplied from the storage tank 250 to the secondary cooling device 300.
F25D 9/00 - Dispositifs non associés à des machines frigorifiques et non couverts par les groupes ; Combinaisons de dispositifs compris dans plusieurs des groupes
F28D 20/00 - Appareils ou ensembles fonctionnels d'accumulation de chaleur en général; Appareils échangeurs de chaleur de régénération non couverts par les groupes ou
The present invention enables efficient cooling of an object. A cooling device 1 comprises a cooling vessel 3 to which a tank 7 retaining raw milk is inserted, cooling water 4 retained in the cooling vessel 3, a fixing part 8 that holds the tank 7 from above and maintains the tank 7 to be immersed in the cooling water 4, a cooling unit 5 that cools the cooling water 4 and a guide part 6 that is provided in the cooling vessel 3 and positions the tank 7. The cooling water 4 is a calcium chloride aqueous solution.
The present invention makes it possible to improve or resolve a tight power supply and demand situation. This cooling compartment control method is a method for controlling a freezer/refrigerator 1 comprising a main body 2 for accommodating accommodated objects, and a cooling unit 3 for cooling the inside of the main body 2, wherein: a cold storage agent 6 is disposed inside the main body 2; and if a power saving request signal is received from the outside when drive is being performed in a normal mode in which the cooling unit 3 is driven by means of a power feed to cool the inside of the main body 2, the drive of the cooling unit 3 is stopped, and the normal mode is switched to an emergency mode in which the inside of the main body 2 is cooled by means of the cold storage agent 6, which has been cooled by means of the driving in the normal mode.
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 16/00 - Dispositifs utilisant une combinaison d'un procédé de refroidissement associé à des machines frigorifiques avec un procédé de refroidissement non associé à des machines frigorifiques
The present invention makes effective use of the cold energy of a liquefied gas and suppresses effects on the environment. A liquefied gas vaporizer 200 has a heat exchange part 210 that performs a heat exchange between liquefied natural gas (LNG) and brine B, a storage tank 280 that stores the brine B, and a circulation part 280 that circulates the brine B between the storage tank 280 and the heat exchange part 210. The heat exchange between the LNG and the brine B at the heat exchange part 210 evaporates the LNG to generate natural gas (NG) and cools the brine B to generate an ice slurry.
F17C 13/00 - RÉCIPIENTS POUR CONTENIR OU EMMAGASINER DES GAZ COMPRIMÉS, LIQUÉFIÉS OU SOLIDIFIÉS; GAZOMÈTRES À CAPACITÉ FIXE; REMPLISSAGE OU VIDAGE DE RÉCIPIENTS DE GAZ COMPRIMÉS, LIQUÉFIÉS OU SOLIDIFIÉS - Détails des récipients ou bien du remplissage ou du vidage des récipients
The present invention makes it possible to use a cooled ice pack by exchanging a used ice pack for the cooled ice pack at a store where food was purchased. An ice pack provision system 100 is a system for providing a frozen ice pack 900A in exchange for the return of a used ice pack 900B at a point Y where food can be purchased, and includes: a supply cycle C1 in which ice packs 900 are circulated between a point X and the point Y and which includes a supply transport step for transporting frozen ice packs 900A from the point X to the point Y and a collection transport step for transporting used ice packs 900B from the point Y to the point X; and a consumption cycle C2 in which ice packs 900 are circulated between the point Y and a point Z and which includes an ice pack use step for transporting food kept at a low temperature using a frozen ice pack 900A from the point Y to the point Z and an ice pack return step for transporting a used ice pack 900B from the point Z to the point Y.
The present invention makes it possible to separate an ice slurry generation site from a usage site of the same, and to reduce the environmental load by using cold energy from a liquefied gas to generate the ice slurry at the generation site, and to inhibit the upsizing and complication of an apparatus that uses the ice slurry. This method for producing and using an ice slurry comprises: a generating step for cooling a brine B by means of heat exchange between the brine B and a liquefied natural gas LNG, which serves as the liquefied gas, and generating an ice slurry I; a transporting step for transporting the ice slurry I to a usage site of the ice slurry I; and a usage step for using the ice slurry I at the usage site.
F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
F25D 3/02 - Dispositifs utilisant d'autres agents froids; Dispositifs utilisant des récipients conservant le froid utilisant de la glace, p.ex. glacières
The present invention smoothly executes a series of steps from cooling to extraction. A cooling device 2 has a cooling tank 3 that stores an ice slurry S and that cools object-to-be-cooled F, which is deposited in the ice slurry S. In addition, the cooling tank 3 has a discharge port 32 that discharges the object-to-be-cooled F that is in the ice slurry S to the outside of the cooling tank 3. The surface of the ice slurry S liquid is positioned beneath the discharge port 32 until cooling of the object-to-be-cooled F is completed, and once cooling of the object-to-be-cooled F is completed, the surface of the ice slurry S liquid is raised to the discharge port 32, and the object-to-be-cooled F is discharged from the discharge port 32 to the outside of the cooling tank 3.
The present invention makes it possible to form an electric field in a storage space while suppressing reductions in loading capacity. A container 1 has: a container body 2 that has a storage space 20 in which an object is to be stored; and an electrode 5 that forms an electric field inside the storage space 20. The electrode 5 is embedded in the container body 2. The electrode 5 is also flat. The container body 2 has a floor part 24, a ceiling part 25 that is arranged opposite the floor part 24, and side wall parts 26 that connect the floor part 24 and the ceiling part 25, and the electrode 5 is embedded in the ceiling part 24. The ceiling part 25 includes an electrically insulating heat insulation material 23 and an outer wall 22 that is provided further to the outside than the heat insulation material 23, and the electrode 5 is embedded in the heat insulation material 23.
The present invention makes it possible to efficiently apply an electric field to a stored object (particularly fresh food) to keep the object fresh for a longer period of time. A container 1 has: a container body 2 having a storage chamber 20 for storing an object X; an electrode 5 that forms an electric field in the storage chamber 20; and a support part 6 fixed to the container body 2 and supporting the electrode 5 in the storage chamber 20. Additionally, the support part 6 has: fixed sections 61, 62 fixed to the container body 2; and a protruding section 63 that protrudes from the fixed sections 61, 62 toward the inside of the storage chamber 20 and that has the electrode 5 disposed thereon. The separation distance D1 between the protruding section 63 and the container body 2 is larger than the separation distance D2 between the fixed sections 61, 62 and the container body 2.
B65D 88/74 - Grands réceptacles comportant des moyens pour le chauffage, le refroidissement, l'aération ou un autre conditionnement du contenu
A23L 3/26 - Conservation des aliments ou produits alimentaires, en général, p.ex. pasteurisation ou stérilisation, spécialement adaptée aux aliments ou produits alimentaires par irradiation sans chauffage
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 23/00 - Caractéristiques générales de structure
The present invention makes it possible to preserve freshness of an object for a long time. A container 1 comprises a container body 2 having a storage chamber 20 that stores an object, and an electrode 5 that is provided inside the storage chamber 20 and forms an electric field in the storage chamber 20. The electrode 5 comprises support parts 51, 52 supported by an inner wall of the storage chamber 20, and a protruding section 53 that protrudes toward the inside of the storage chamber 20 from the support parts 51, 52. The clearance D1 between the protruding section 53 and the inner wall is larger than the clearance D2 between the support parts 51, 52 and the inner wall.
A23L 3/32 - Conservation des aliments ou produits alimentaires, en général, p.ex. pasteurisation ou stérilisation, spécialement adaptée aux aliments ou produits alimentaires par traitement avec des courants électriques sans effet de chauffage
B65D 88/74 - Grands réceptacles comportant des moyens pour le chauffage, le refroidissement, l'aération ou un autre conditionnement du contenu
The present invention makes it possible to suppress condensation on a target item. A container 1 has: a container body 2 that has a housing chamber 20 capable of housing a target item; a refrigeration device 3 that refrigerates the interior of the housing chamber 20; an interior temperature sensor 41 that detects the temperature inside the housing chamber 20; an exterior temperature sensor 43 that detects the temperature outside the container body 2; and a control device 9 that controls the driving of the refrigeration device 3. The control device 9 has a normal temperature control mode in which the driving of the refrigeration device 3 is controlled on the basis of the detection result from the interior temperature sensor 41, and a tempering temperature control mode in which the driving of the refrigeration device 3 is controlled on the basis of the detection results from the interior temperature sensor 41 and the exterior temperature sensor 42 such that the difference ΔT between the temperature T1 inside the housing chamber 20 and the outside air temperature T2, which is the temperature outside the container body 2, is a temperature difference at which condensation will not occur on the target item when the target item is conveyed from inside the housing chamber 20 to outside the container body 2.
In the present invention, the freshness of an object can be retained for a long time by changing the state of an electrostatic field over time. A storage cabinet (1) comprises an electrostatic field forming device (15) for forming an electrostatic field inside a storage chamber (10) that can store food. The electrostatic field formation device (15) changes the state of the electrostatic field over time. The electrostatic field formation device (15) may change the electrostatic field periodically or irregularly. The storage cabinet (1) has a shelf (13) as an electrode disposed within the storage chamber (10), and the electrostatic field formation device (15) applies an alternating voltage to the shelf (13).
A23L 3/32 - Conservation des aliments ou produits alimentaires, en général, p.ex. pasteurisation ou stérilisation, spécialement adaptée aux aliments ou produits alimentaires par traitement avec des courants électriques sans effet de chauffage
F25D 23/00 - Caractéristiques générales de structure
16.
STORAGE CABINET AND ELECTROSTATIC FIELD-FORMING DEVICE
The present invention makes it possible for an electrostatic field to act efficiently on objects inside a cabinet. A storage cabinet 1 comprises an electrostatic field-forming device 2 for forming an electrostatic field inside a storage chamber 10 that is capable of storing objects. The electrostatic field-forming device 2 comprises: first electrodes 20A and 20B disposed in the storage chamber 10; second electrodes 20C and 20D disposed in the storage chamber 10, separated from the first electrodes 20A and 20B; and a voltage-applying unit 29 for applying reverse phase alternating current voltage to the first electrodes 20A and 20B and the second electrodes 20C and 20D. The amplitude of the alternating current voltage is preferably 0.1-20 kV.
The present invention makes it possible to produce uniform flake-like ice. An ice-making device 1 has: an ice-making plate 2 having an ice-making surface 21 comprising a flat surface; a cooling part 3 for cooling the ice-making plate 2; a brine supply part 4 for supplying brine B to the ice-making surface 21; a shaving part 5 for shaving ice 9 formed by cooling the brine B supplied to the ice-making surface 21; and a driving part 6 for relatively moving the shaving part 5 and the ice-making plate 2 in a direction parallel to the ice-making surface 21. In addition, the ice-making surface 21 is horizontal. Furthermore, the ice-making surface 21 faces vertically downward.
F25C 1/12 - Production de glace par congélation de l'eau des surfaces refroidies, p.ex. pour former des plaques
F25C 1/142 - Production de glace par congélation de l'eau des surfaces refroidies, p.ex. pour former des plaques pour produire des couches minces qui seront dégagées par raclage ou clivage, p.ex. sous forme de flocons des parois extérieures des corps refroidis
F25C 1/25 - Dispositifs de remplissage pour mouleaux
F25C 5/04 - Appareils pour concasser, enlever ou recueillir la glace sans utiliser de scies
Provided is a technological means which is designed for a refrigerator that cools and stores perishable items and which can maintain uniformity of the temperature inside a chamber to the furthest extent while suppressing diminution of an accommodating space for goods. A container 1 comprises an exterior case 2 that has an accommodating space 2g therein, an interior case 3 that defines a loading space 3f for items to be accommodated inside the exterior case 2, and a cold air supply device 5 that supplies cold air into the exterior case 2, wherein the container further comprises a plurality of air channel forming members 4 that support the interior case 3 on the exterior case 2 while being interposed between the exterior case 2 and the interior case 3 and that form, between the exterior case 2 and the interior case 3, air channels for the cold air supplied by the cold air supply device 5.
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
F25D 23/00 - Caractéristiques générales de structure
A refrigerated storage unit 1 includes: a refrigeration chamber S2, a refrigeration part 3 for cooling air inside the refrigeration chamber S2, a fan 4 for sending cold air cooled by the refrigeration part 3 into the refrigeration chamber S2, a temperature sensor 5 for detecting a temperature inside the refrigeration chamber S2, an infrared sensor 8 for detecting a temperature of a content provided inside the refrigeration chamber S2, and a control part 7 for controlling driving of the fan based on a result detected by at least one of the temperature sensor 5 and the infrared sensor 8.
F25D 29/00 - Disposition ou montage de l'appareillage de commande ou de sécurité
B60P 3/20 - Véhicules adaptés pour transporter, porter ou comporter des charges ou des objets spéciaux pour le transport de marchandises réfrigérées
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée
B60H 1/00 - Dispositifs de chauffage, de refroidissement ou de ventilation
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
This storage warehouse 1 has: a storage chamber S2 in which objects to be stored are stored; a temperature adjusting unit 3 which adjusts the temperature of air in the storage chamber S2; blower units 4 which send the air , the temperature of the air adjusted by the temperature adjusting unit 3; temperature sensors 5 which detect the temperature in the storage chamber S2; food temperature sensors 8 which detect the temperatures of the objects arranged within the storage chamber S2; and a control unit 7 which controls the drive of the blower units 4 on the basis of the detection results of the temperature sensors 5 and/or the food temperature sensors 8. The blower unit 4 has a first blower unit 41 and a second blower unit 42. The flow of the air sent from the first blower unit 41 can be changed by the air sent from the second blower unit 42.
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 13/00 - Dispositifs fixes associés à des machines frigorifiques, p.ex. chambres froides
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
This storage warehouse 1 has: a storage chamber S2 in which objects to be stored are stored; a temperature adjusting unit 3 which adjusts the temperature of air in the storage chamber S2; a blower unit 4 which blows the air which is temperature-adjusted by the temperature adjusting unit 3; temperature sensors 51 which detect the temperature in the storage chamber S2; food temperature sensors 52 which detect the temperatures of the objects arranged within the storage chamber S2; and a control unit 7 which controls the drive of the blower units 4 on the basis of the detection results of the temperature sensors 51 and/or the food temperature sensors 52.
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 13/00 - Dispositifs fixes associés à des machines frigorifiques, p.ex. chambres froides
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
F25D 23/00 - Caractéristiques générales de structure
This refrigerated storage unit 1 has: a refrigeration chamber S2; a refrigeration unit 3 for refrigerating the air inside the refrigeration chamber S2; a fan 4 for feeding cold air refrigerated by the refrigeration unit 3 into the refrigeration chamber S2; a temperature sensor 5 for detecting the temperature inside the refrigeration chamber S2; an infrared sensor 8 for detecting the temperature of contents placed inside the refrigeration chamber S2; and a control unit 7 for controlling driving of the fan 4, on the basis of results detected by at least one of the temperature sensor 5 and the infrared sensor 8.
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
B60P 3/20 - Véhicules adaptés pour transporter, porter ou comporter des charges ou des objets spéciaux pour le transport de marchandises réfrigérées
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
The present invention not only forms an electric field environment that can be controlled to differentiate between preservation of food freshness and promotion of ripening but also promotes fermentation by fermentative microbes, propagates plankton and inhibits bacterial reproduction. An electrode plate 2 is set inside a refrigerator 1 or an adjustable temperature box 6. Food 3 or a yogurt container 9 is place thereon. The electrode plate 2, 10 is connected to a power source 4, 11. Selection between food freshness preservation and promotion of ripening, and promotion of fermentation of fermented foods such as yogurt are performed by rectification, and voltage and frequency control of the power source. Additionally, propagation of phytoplankton and inhibition of bacterial reproduction are performed by controlling the frequency, voltage and ON/OFF timing of the power source.
A23L 1/30 - contenant des additifs (A23L 1/308 a priorité);;
A23B 4/015 - Conservation par irradiation ou traitement électrique sans effet de chauffage
A23L 3/32 - Conservation des aliments ou produits alimentaires, en général, p.ex. pasteurisation ou stérilisation, spécialement adaptée aux aliments ou produits alimentaires par traitement avec des courants électriques sans effet de chauffage
A23B 7/015 - Conservation par irradiation ou traitement électrique sans effet de chauffage
A23L 5/30 - Traitement physique, p.ex. par des moyens électriques ou magnétiques, par énergie ondulatoire ou par irradiation
Provided is an ice-making device (1) comprising: a first reservoir section (2) that has an opening in the bottom section thereof and that holds salt water (W) and ice (I); a separating section (3) that separates the salt water (W) and the ice (I) within the first reservoir section (2); a second reservoir section (4) that holds the ice water (W) that has been separated by the separating section (3); a feed section (5) that feeds the salt water (W) that is held in the second reservoir section (4) to a cooling unit (10); and a pouring section (6) that pours salt water (W) that has been cooled by the cooling unit (10) and partially converted into ice (I) into the first reservoir section (2). The first reservoir section (2) is capable of horizontal movement with respect to the separating section (3).
A cooler (1) has: a cooling compartment (21) for accommodating a container (B) filled with a liquid beverage (L); a cooling means (4) for cooling air within the cooling compartment (21); a fan (5) for circulating air, the fan being provided on a lower part within the cooling compartment (21); and a cylindrical guide part (6) for protecting the fan (5) and guiding at least some of the air blown out by the fan (5), the cylindrical guide part being provided on an upper side of the fan (5). Having the air inside the cooling compartment (21) be circulated by the fan (5) once the container (B) has been accommodated in the cooling compartment (21) allows the container (B) to be stored at a temperature equal to or lower than the freezing point of the liquid beverage (L) and in a super-cooled state at which the liquid beverage (L) is kept unfrozen.
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
F25D 17/06 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
A refrigeration storage unit (1) has: an outer casing (2); an inner casing (3) that is provided on the inside of the outer casing (2), and houses containers (B) filled with a liquid beverage (L); a flow path (4) formed between the outer casing (2) and the inner casing (3); a refrigeration means (5) that refrigerates the chilled air in the flow path (4); an outlet (6) that is formed at the bottom of the inner casing (3), and through which the chilled air in the flow path (4) that has been refrigerated by the refrigeration means (5) is blown into the inner casing (3); a suction port (7) that is formed at the top of the inner casing (3), and through which the chilled air in the inner casing (3) is drawn toward the interior of the flow path (4); and a circulation means (8) that circulates the chilled air in the flow path (4) and the inner casing (3).
F25D 17/08 - Dispositions pour la circulation des fluides de refroidissement; Dispositions pour la circulation de gaz, p.ex. d'air, dans les enceintes refroidies pour la circulation de gaz, p.ex. convection naturelle par circulation d'air forcée en utilisant des conduits
F25D 11/00 - Dispositifs autonomes déplaçables associés à des machines frigorifiques, p.ex. réfrigérateurs ménagers
brevets
