A building includes a wall part formed by connecting panel members configured with a standard size having a height and a width. A surface of the wall part includes, when the width thereof is N times (N is an integer of 2 or more) the width, (N−α (α is an integer not less than 0 and less than N)) panel members arranged in a width direction, and a window portion corresponding to an area of α panel members. A surface of the wall part includes, when the width thereof has a remainder with respect to M times (M is an integer of 2 or more) the width, (M−β (β is an integer not less than 0 and less than M)) panel members arranged in the width direction, and a window portion corresponding to an area of β panel members+the remainder.
E04C 2/52 - Eléments de construction de relativement faible épaisseur pour la construction de parties de bâtiments, p.ex. matériaux en feuilles, dalles ou panneaux caractérisés par la forme ou la structure avec adaptations particulières pour usages auxiliaires, p.ex. servant au logement de conduits
E04B 2/00 - Murs, p.ex. cloisons, pour bâtiments; Structure des murs en ce qui concerne l'isolation; Assemblages spécifiques pour les murs
A building includes an upper floor having a floor part, a directly lower floor located immediately below the floor part, a pillar provided on the floor part, an outer wall attached to the pillar and having one surface facing an external space and another surface facing an interior space, and an air-conditioning panel adopted in at least a part of the outer wall and provides an air-conditioning effect to the interior space. The floor part has a gap between the floor part and the outer wall, in which the gap is within the thickness range of the pillar, and is configured to allow air circulation between the directly lower floor and the upper floor through the gap.
E04C 2/52 - Eléments de construction de relativement faible épaisseur pour la construction de parties de bâtiments, p.ex. matériaux en feuilles, dalles ou panneaux caractérisés par la forme ou la structure avec adaptations particulières pour usages auxiliaires, p.ex. servant au logement de conduits
3.
METHOD FOR MANUFACTURING VACUUM INSULATION PANEL, AND VACUUM INSULATION PANEL
In a vacuum insulation panel, a foam having open cells is accommodated as a core material in a hollow body having a hollow portion formed therein. The hollow body includes a first inner surface and a second inner surface that face each other with the hollow portion interposed therebetween. The core material includes a first surface facing the first inner surface and a second surface facing the second inner surface. A method for manufacturing the vacuum insulation panel includes an adhering step of adhering the first inner surface to the first surface, and adhering the second inner surface to the second surface.
B32B 37/12 - Procédés ou dispositifs pour la stratification, p.ex. par polymérisation ou par liaison à l'aide d'ultrasons caractérisés par l'usage d'adhésifs
B32B 3/04 - Caractérisés par des caractéristiques de forme en des endroits déterminés, p.ex. au voisinage des bords caractérisés par une couche pliée au bord, p.ex. par-dessus une autre couche
B32B 5/20 - Produits stratifiés caractérisés par l'hétérogénéité ou la structure physique d'une des couches caractérisés par le fait qu'une des couches contient un matériau sous forme de mousse ou essentiellement poreux la structure sous forme de mousse étant réalisée sur place
B32B 15/04 - Produits stratifiés composés essentiellement de métal comprenant un métal comme seul composant ou comme composant principal d'une couche adjacente à une autre couche d'une substance spécifique
B32B 37/06 - Procédés ou dispositifs pour la stratification, p.ex. par polymérisation ou par liaison à l'aide d'ultrasons caractérisés par le procédé de chauffage
An air-conditioning panel includes: a regenerative absorber having an absorbent liquid that absorbs a vapor refrigerant or an adsorbent agent that adsorbs the vapor refrigerant and discharging the vapor refrigerant absorbed by heating with sunlight; a condenser configured to liquefy the vapor refrigerant discharged from the regenerative absorber into a liquid refrigerant; and an evaporator configured to evaporate the liquid refrigerant from the condenser. The regenerative absorber and the condenser are formed on one surface side of the panel exposed to sunlight. The evaporator is formed on the other surface side of the panel. A first portion of the panel corresponding to the regenerative absorber is processed to have a solar absorptivity of 80% or more and a far-infrared emissivity of 80% or more. A second portion of the panel corresponding to the condenser is processed to have a solar reflectance of 80% or more.
A heat insulator includes a foamed glass body, and a hollow member that stores the foamed glass body in a hollow portion. The foamed glass body is composed of a silicate glass material containing R2O compounds and RO compounds. In a case that a value A is a weight ratio (%) of the R2O compounds in terms of oxides to the whole, and a value B is a weight ratio (%) of the RO compounds in terms of oxides to the whole, an absolute value of a value C obtained by an expression of value A−2.08×value B is 5.27 or less, or an absolute value of a value D obtained by an expression of value A−2.68×value B is 3.23 or less.
A heat-insulating window panel includes: a light-transmissive member having light transmissivity; and a panel member including an outdoor substrate that supports the light-transmissive member from an outdoor side via a first elastic body, an indoor substrate that supports the light-transmissive member from an indoor side via a second elastic body without being in contact with the outdoor substrate, and a heat-insulating material disposed between the outdoor substrate and the indoor substrate, and even when a force is applied to one of the outdoor substrate and the indoor substrate in a direction away from the other to move the one in a separating direction, the outdoor substrate and the indoor substrate have a hooking margin for hooking the one on the other.
A method for manufacturing a metal container includes a first step of forming a substantially planar four-sided bag using a metal plate; a second step of sandwiching, by first and second parallel plate jigs, one surface and the other surface of the four-sided bag formed in the first step; and a third step of pressurizing an inside of the four-sided bag while maintaining a contact state by the first and second parallel plate jigs with respect to the four-sided bag sandwiched between the first and second parallel plate jigs in the second step, and expanding a volume space in the four-sided bag while increasing a distance between the first and second parallel plate jigs.
There is provided an absorption chiller including: a control unit configured to control opening and closing of the first control valve and an operation of the first pump, and a second supply flow path configured to supply the liquid inside the evaporator into the absorber; a second control valve opening and closing the second supply flow path; and a second pump configured to generate power to supply the liquid inside the evaporator into the absorber. After an operation of the absorption chiller is stopped, the control unit is configured to open the first control valve and operate the first pump such that a liquid inside the evaporator is mixed with the absorption liquid. Further, before the first control valve is opened and the first pump is operated, the control unit is configured to open the second control valve and operate the second pump.
F25B 17/02 - Machines, installations ou systèmes à sorption, à marche discontinue, p.ex. à absorption ou à adsorption l'absorbant ou l'adsorbant étant un liquide, p.ex. de la saumure
A structure includes: a heat insulating layer; an evaporator provided on one surface side of the heat insulating layer; a condenser provided on the other surface side of the heat insulating layer; a vapor flow path for guiding refrigerant vapor generated as a result of evaporation at the evaporator to the condenser; and a liquid refrigerant flow path for guiding a liquid refrigerant generated as a result of condensation at the condenser to the evaporator, in which the evaporator has a wick layer for evaporating the refrigerant stored on a lower portion side with heat from one surface side of the evaporator while suctioning up the refrigerant by capillarity and holding the refrigerant, and the evaporator and the condenser are installed so as to overlap by ½ or more in the direction in which the wick layer suctions up the refrigerant.
F28D 15/04 - Appareils échangeurs de chaleur dans lesquels l'agent intermédiaire de transfert de chaleur en tubes fermés passe dans ou à travers les parois des canalisations dans lesquels l'agent se condense et s'évapore, p.ex. tubes caloporteurs avec des tubes ayant une structure capillaire
B23P 15/26 - Fabrication d'objets déterminés par des opérations non couvertes par une seule autre sous-classe ou un groupe de la présente sous-classe d'échangeurs de chaleur
10.
METHOD OF MANUFACTURING VACUUM HEAT INSULATOR AND VACUUM HEAT INSULATOR
A method of manufacturing a vacuum heat insulator includes preparing a hollow body that has heat resistance equal to or higher than a level to withstand a flame of 781° C. for 20 minutes and that has a hollow portion in the hollow body, introducing, into the hollow portion of the hollow body, an inorganic foaming agent that has the heat resistance and foaming the foaming agent to form a foam having open cells, or introducing an inorganic foam having the heat resistance and open cells, and then solidifying the foam, and evacuating the hollow portion after the foam is solidified or during the solidification of the foam.
Plate glasses of the same material are stacked each other to form a hollow portion between the plate glasses. The stacked plate glasses are heated to a temperature which is a softening point thereof or below and is a temperature or above at which the material can be diffusion-bonded at a predetermined pressure or higher. The heated and stacked plate glasses are pressed to a predetermined pressure or higher using a die. Together with or subsequent to the pressing, a gas pressure is applied into the hollow portion by feeding gas into the hollow portion. Next, the stacked plate glasses, in which the gas pressure is applied to the hollow portion, are cooled to the strain point while being held with the die.
An energy equipment determination device includes an initial group determination unit that determines a plurality of candidates of an equipment condition, an operation condition, and a control condition, and sets the plurality of candidates as an initial group, a Pareto solution group calculation unit that applies the initial group determined by the initial group determination unit to a genetic algorithm, and calculates a Pareto solution group when a primary energy consumption and a system cost including an initial cost and a running cost are objective functions, and a financial index calculation unit that calculates a net present value after a specific period from introduction and an internal profit rate after the specific period from the introduction when energy equipment that individually indicates the plurality of Pareto solutions calculated by the Pareto solution group calculation unit is introduced.
G06Q 50/06 - Fourniture d'électricité, de gaz ou d'eau
G05B 19/042 - Commande à programme autre que la commande numérique, c.à d. dans des automatismes à séquence ou dans des automates à logique utilisant des processeurs numériques
The method for manufacturing a plate glass is a method for manufacturing the plate glass having sides of at least 30 cm or more and a surface thereof on which a predetermined shape is formed. In the manufacturing method, the flat plate glass is heated to a temperature which is lower than a softening point and at which the heated flat plate glass is deformable by being pressed at a predetermined pressure or higher, the heated flat glass, which has been molded by pressing the flat plate glass with a die having a die structure for forming the predetermined shape, is cooled to the strain point while being held with the die. Further, in the manufacturing method, the pressing is performed with the die having a coefficient of thermal expansion whose difference from that of the plate glass is 2.0×10−6/K or less.
A determination device able to determine a cause of generation of gas with a simple configuration is provided. The determination device includes a pressure gauge that detects pressure in a gas storage chamber that stores non-condensable gas generated in an absorber of an absorption refrigerator, and a hydrogen sensor that detects an amount of hydrogen discharged from the gas storage chamber. Further, a determining unit determines a cause of generation of the non-condensable gas stored in the gas storage chamber based on a detection result of the hydrogen sensor and a detection result of the pressure gauge.
An equipment determination method of a cogeneration system includes the steps of: calculating a total hot water supply load for each day over a predetermined period longer than a specific period based on each unit hot water supply load for hour according to hot water supply use by consumers; setting as a representative period a specific period on which the total hot water supply load becomes at least a low load among the calculated total hot water supply load for each day; determining a capacity of the cogeneration equipment based on the total hot water supply load on the set representative period; and determining a capacity of the plurality of hot water storage tanks based on an amount of hot water supply load exceeding the capacity of the determined cogeneration equipment among each unit hot water supply load for two or more divided periods including the set representative period.
An absorption refrigerator using a circulation cycle of a regenerator, a condenser, an evaporator, and an absorber includes temperature sensors, a storage unit storing the approximation function for obtaining the second concentration based on second detection results obtained by each of the temperature sensors, a calculation unit to apply the second detection results to the approximation function to obtain the second concentration and a control unit to execute control in accordance with the second concentration. The approximation function is obtained using a response surface method by interpolation or approximation, based on data including first detection results obtained by temperature sensors and first concentrations each corresponding to when each of the first detection results has been obtained.
F25B 15/06 - Machines, installations ou systèmes à sorption, à marche continue, p.ex. à absorption sans gaz inerte le frigorigène étant de la vapeur d'eau évaporée d'une solution salée, p.ex. bromure de lithium
F25B 49/04 - Disposition ou montage des dispositifs de commande ou de sécurité pour machines, installations ou systèmes du type à sorption
B67D 1/08 - Appareils ou dispositifs pour débiter des boissons à la pression - Détails
A thermal load calculation device includes a CFD calculation unit to carry out a CFD calculation using first input parameters to obtain a first calculation result, an approximate function generation unit to generate an approximate function based on a plurality of combination data using a response surface methodology by an interpolation method or an approximation method, the appropriate function for calculating the first calculation result based on the plurality of first input parameters, each of the plurality of combination data being a combination of the first calculation result by the CFD calculation unit and the plurality of first input parameters used in the CFD calculation and a thermal load calculation unit configured to calculate the thermal load of the predetermined period in the specific space by using a second calculation result obtained by applying a plurality of second input parameters to the approximate function.
G06Q 50/06 - Fourniture d'électricité, de gaz ou d'eau
G06F 30/28 - Optimisation, vérification ou simulation de l’objet conçu utilisant la dynamique des fluides, p.ex. les équations de Navier-Stokes ou la dynamique des fluides numérique [DFN]
An absorption chiller includes a heating medium supply pipe configured to supply a heating medium from a heating medium pipe to a cooling water pipe; a cooling water discharge pipe configured to discharge a cooling water from the cooling water pipe to the heating medium pipe; a control valve provided on the heating medium supply pipe and the cooling water discharge pipe, respectively; and a controller configured to cause the control valve to be opened and to cause the heating medium in the heating medium pipe to be introduced into the cooling water pipe, when a temperature detected by a cooling water temperature detector is equal to or lower than a predetermined temperature, in a wet lay-up state including a state in which a cooling water inlet shut-off valve and a cooling water outlet shut-off valve are closed and the cooling water pipe is filled with the cooling water.
F25B 41/20 - Disposition des soupapes, p.ex. de soupapes marche-arrêt ou de soupapes de régulation de débit
F25B 15/06 - Machines, installations ou systèmes à sorption, à marche continue, p.ex. à absorption sans gaz inerte le frigorigène étant de la vapeur d'eau évaporée d'une solution salée, p.ex. bromure de lithium
A ceiling illumination window is provided with a transparent prism, and a reflecting member provided on a second edge of the transparent prism. Further, the transparent prism is installed in such a way as to enable light incident thereon at an angle, relative to a normal line to first and second transparent plates, that is at least equal to a prescribed angle to be reflected at a third edge using a critical angle. In addition, when light is incident at an angle at least equal to the prescribed angle relative to the normal line, the transparent prism emits the light toward an indoor ceiling side using at least two types of optical path having different numbers of reflections, using reflection at least one of the transparent prism surface and the reflecting member, and when light is incident at an angle less than the prescribed angle, the transparent prism allows the light to be transmitted through the third edge.
F21S 11/00 - Dispositifs ou systèmes d'éclairage non électriques utilisant la lumière du jour
E06B 9/24 - Ecrans ou autres dispositifs protecteurs contre la lumière, notamment contre la lumière solaire; Ecrans similaires pour protection de l'intimité ou pour des raisons esthétiques
F21V 5/02 - Réfracteurs pour sources lumineuses de forme prismatique
F21V 7/05 - Structure de l'optique à surface plane
This latent heat storage body is provided with: a latent heat storage material; and a temperature-sensitive material exhibiting different functions at a temperature equal to or higher than a specific temperature and at a temperature lower than the specific temperature, in which a phase change temperature is changed by using the function of the temperature-sensitive material according to ambient temperature. This latent heat storage body is characterized in that: the phase change temperature is set, by the function of the temperature-sensitive material when the ambient temperature is lower than the specific temperature, to one among a low temperature setting and a high temperature setting having a higher temperature than the low temperature setting; and the phase change temperature is set to the other setting among the low temperature setting and the high temperature setting by the function of the temperature-sensitive material when the ambient temperature is equal to or higher than the specific temperature.
C09K 5/06 - Substances qui subissent un changement d'état physique lors de leur utilisation le changement d'état se faisant par passage de l'état liquide à l'état solide, ou vice versa
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
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
A structural body includes a refrigerant between a first plate and a second plate. A circulation structural part between the first and second plates includes a reservoir portion provided on a first plate side. In the circulation structural part, the refrigerant from the reservoir portion which has evaporated due to heat of the first plate side reaches a second plate side, condenses on the second plate side and is returned to the reservoir portion again. A temperature sensitive mechanism is in a first state when a temperature of the first plate side is equal to or higher than a predetermined temperature to allow refrigerant circulation, and is in a second state different from the first state when the temperature is lower than the predetermined temperature to prohibit the refrigerant circulation.
F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
E06B 3/67 - Blocs comprenant plusieurs panneaux de verre ou analogues qui sont espacés et fixés les uns aux autres de façon permanente, p.ex. le long des bords caractérisés par des aménagements ou des dispositifs additionnels pour l'isolation thermique ou acoustique
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
A multi-stage prism window includes: a first prism configured to condense light whose angle is equal to or larger than a first predetermined angle on a reflective member and retroreflect the light; a second prism configured to condense light whose angle is equal to or larger than a second predetermined angle on an endothermic member or a reflective member and use the light for indoor heating; and a liquid control mechanism configured to fill at least one of a first space and a second space with a liquid, the first space being in contact with the first prism from an indoor side, the second space being in contact with the second prism from the indoor side.
E06B 9/24 - Ecrans ou autres dispositifs protecteurs contre la lumière, notamment contre la lumière solaire; Ecrans similaires pour protection de l'intimité ou pour des raisons esthétiques
A dehumidification structure includes: a moisture absorbent which has temperature sensitivity for exhibiting hydrophobicity and releasing water at a temperature equal to or higher than a predetermined temperature and for exhibiting hydrophilicity and absorbing water at a temperature lower than the predetermined temperature; a moisture absorbent chamber in which the moisture absorbent is disposed; and a water draining mechanism configured to drain water released from the moisture absorbent and accumulated in the moisture absorbent chamber. The moisture absorbent is provided to allow reception of solar heat or heat from a heating body that is heated by sunlight. The water draining mechanism is configured to drain the water using weight of the water when an amount of water released by the moisture absorbent and accumulated in the moisture absorbent chamber reaches at least a predetermined amount.
F24F 3/14 - Systèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaire; Appareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par déshumidification
F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
24.
Outer wall material and method for manufacturing same
An outer wall material includes a first transparent member integrally or separately including a transparent plate material and a prism portion; and a reflection member provided on a second side of the prism portion of the first transparent member. The prism portion causes the reflection member to collect light whose angle with respect to a normal line of the plate material is equal to or greater than a predetermined angle and to retro-reflect the collected light, and transmits light whose angle with respect to the normal line of the plate material is less than the predetermined angle.
C03B 23/24 - Fabrication des feuilles ou briques creuses en verre
E06B 9/24 - Ecrans ou autres dispositifs protecteurs contre la lumière, notamment contre la lumière solaire; Ecrans similaires pour protection de l'intimité ou pour des raisons esthétiques
Provided is a retroreflective window which can block a direct light ray and reflect it to a sun side while maintaining a viewability and enhance a usability of the direct light ray. The retroreflective window (1 to 3) includes first and second transparent plate materials, a transparent first prism which is disposed between the first and second transparent plate materials, and a switching member which is installed facing a second side of the first prism and can be switched between a reflective state in which a reflectance of visible light rays and infrared rays is 70% or more and a non-reflective state in which the reflectance of visible light rays and infrared rays is 30% or less. When the switching member is in the reflective state, in the first prism, a light ray incident at a predetermined angle or more is emitted from the first transparent plate material at approximately the same angle as when entering, after being reflected by the switching member and a third side, and among light rays which enter at an angle less than the predetermined angle, the light ray reaching the third side is transmitted and emitted from the second transparent plate material.
E06B 9/24 - Ecrans ou autres dispositifs protecteurs contre la lumière, notamment contre la lumière solaire; Ecrans similaires pour protection de l'intimité ou pour des raisons esthétiques
G02B 5/124 - Réflecteurs reflex du type en sommet de cube, en trièdre ou en réflecteur triple plusieurs éléments réfléchissants faisant partie d'une plaque ou d'une feuille formant un tout
E06B 3/40 - Aménagements des battants caractérisés par le genre de mouvement; Aménagements des battants modèles dans les ouvertures; Caractéristiques des battants ou châssis ayant trait uniquement au genre de mouvement du battant pour un seul genre de mouvement avec un axe de rotation vertical ou horizontal non placé sur le côté de l'ouverture, p.ex. battant à bascule
A multistage prism window includes first and second transparent plate materials, a first prism, a reflection member, a second prism, and a heat absorption member. The first prism collects, onto the reflection member, light whose angle with respect to a normal line of the first and second transparent plate materials is equal to or greater than a first predetermined angle and transmits light whose angle with respect thereto is smaller than the first predetermined angle. The second prism collects, onto the heat absorption member, light whose angle with respect to the normal line is smaller than the first predetermined angle and equal to or greater than a second predetermined angle and transmits light whose angle with respect thereto is smaller than the second predetermined angle.
E06B 3/67 - Blocs comprenant plusieurs panneaux de verre ou analogues qui sont espacés et fixés les uns aux autres de façon permanente, p.ex. le long des bords caractérisés par des aménagements ou des dispositifs additionnels pour l'isolation thermique ou acoustique
A pivot window includes a laminated body capable of rotating in a state where a first plate material is directed outdoors and in a state where a second plate material is directed outdoors. The laminated body uses at least one of solar heat, atmospheric heat, and atmospheric humidity, and provides a humidity control effect to the room in both of the state where the first plate material is directed outdoors and the state where the second plate material is directed outdoors. The laminated body is not limited to the one providing the humidity control effect, but may be the one providing a temperature control effect. The laminated body may use the concentration of a specific gas in the atmosphere such as atmospheric oxygen concentration, atmospheric carbon dioxide concentration, and atmospheric volatile organic compound (VOC) concentration, and may provide a component concentration adjusting effect to the room.
E06B 3/67 - Blocs comprenant plusieurs panneaux de verre ou analogues qui sont espacés et fixés les uns aux autres de façon permanente, p.ex. le long des bords caractérisés par des aménagements ou des dispositifs additionnels pour l'isolation thermique ou acoustique
F25B 15/00 - Machines, installations ou systèmes à sorption, à marche continue, p.ex. à absorption
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
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
A latent heat storage window includes a plurality of cells, an operation mechanism, and a magnetic material. The plurality of cells are formed by encapsulating a latent heat storage material including two or more components. The operation mechanism can be operated by a user. The magnetic material causes a specific component of the two or more components included in the latent heat storage material to be unevenly distributed when the operation mechanism is operated.
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
F24D 11/00 - Systèmes de chauffage central utilisant la chaleur accumulée dans des matériaux accumulateurs
E04C 2/36 - Eléments de construction de relativement faible épaisseur pour la construction de parties de bâtiments, p.ex. matériaux en feuilles, dalles ou panneaux caractérisés par la forme ou la structure composés de plusieurs éléments séparés analogues à des feuilles séparés par des bandes de matériaux disposées transversalement, p.ex. panneaux alvéolaires
F24F 5/00 - Systèmes ou appareils de conditionnement d'air non couverts par ou
F24H 7/02 - Appareils de chauffage à accumulation, c. à d. dans lesquels l'énergie est emmagasinée sous forme de chaleur dans des matériaux accumulateurs en vue d'une restitution ultérieure la chaleur dégagée étant transmise à un fluide transporteur
A solar energy utilization window includes two plate members, and a first prism, and an energy collection portion, in which the energy collection portion is installed with a predetermined gap interposed between the energy collection portion and a second side of a first prism, and in a triangular prism, a refractive index and each internal angle of the triangle are set so that there are three types of optical paths of sunlight that has passed through an outer glass and entered into a first prism from the first side.
A desiccant window includes: a transparent triangular prism that is disposed between first and second plates, is configured of a first side along the first glass and second and third sides which have an angle with respect to the first side in a sectional view, and forms (three) types of optical paths; and a desiccant heat receiving unit that has hygroscopicity and is disposed between the first and second plates, is installed on the second side of the triangular prism), and is received solar heat and releases absorbed moisture by heating using the received heat received.
B01D 53/28 - Emploi de substances spécifiées comme agents desséchants
E04B 1/70 - Séchage ou maintien de la siccité, p.ex. par ventilation d'air
E04B 1/76 - Isolation thermique ou acoustique, absorption ou réflexion de la chaleur ou du son; Autres méthodes de construction procurant des conditions thermiques ou acoustiques favorables, p.ex. par accumulation de chaleur à l'intérieur des murs spécifiquement relatives à la chaleur uniquement
F24F 3/14 - Systèmes de conditionnement d'air dans lesquels l'air conditionné primaire est fourni par une ou plusieurs stations centrales aux blocs de distribution situés dans les pièces ou enceintes, blocs dans lesquels il peut subir un traitement secondaire; Appareillage spécialement conçu pour de tels systèmes caractérisés par le traitement de l'air autrement que par chauffage et refroidissement par déshumidification
A pivot window includes a laminated body. The laminated body includes two sheets of a plate material; a peripheral end member provided at a peripheral end parts of the two sheets of the plate material; and a cell array plate material which is interposed between the two sheets of the plate material and which has a plurality of cells respectively having a gas phase and encapsulating a latent heat storage material having a melting point and a freezing point in a specific temperature range. The pivot window further includes a rotation mechanism for causing the laminated body to perform at least half rotation in a vertical direction.
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
F28F 23/02 - Dispositions pour obtenir ou maintenir ces matériaux à l'état liquide
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
32.
Solar light utilization apparatus and solar light utilization system
Provided is a solar collector that captures and utilizes solar energy and includes a plurality of vacuum tubes which are disposed by extending horizontally and are disposed parallel to each other with a predetermined distance; and a reflection plate having a substantially planar shape, which reflects solar light on an opposite side of the sun with respect to the plurality of vacuum tubes, in which the reflection plate includes a reflection surface having a serrated section at a corresponding position between vacuum tubes adjacent to each other, and in the reflection surface, one face of a serration forms a first reflection surface that reflects the solar light to the vacuum tube on a lower side among the vacuum tubes adjacent to each other.
F24S 10/40 - Collecteurs de chaleur solaire utilisant des fluides vecteurs dans des éléments absorbeurs entourés d'une enveloppe transparente, p.ex. collecteurs de chaleur solaire sous vide
F24S 23/77 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs avec des surfaces réfléchissantes planes
F24S 23/70 - Agencements pour concentrer les rayons solaires pour les collecteurs de chaleur solaire avec des réflecteurs
A solar energy utilization system includes a solar heat collector that is mounted to a glass surface of a building from the interior and that heats a heating medium by heat energy obtained by taking in solar energy, and an inner glass that is provided on the solar heat collector on the interior side of the building and that uses the heating medium from the solar heat collector on the interior side. A far-infrared cut-off process is applied to the inner glass so that both the absorptivity and emissivity and transmittance of far-infrared rays with a wavelength of at least 9 μm to 10 μm are 20% or less.
A heat exchanger includes: a first heat transfer tube unit including first heat transfer tubes arranged in parallel along a first direction within a horizontal plane; and a second heat transfer tube unit including second heat transfer tubes arranged in parallel with one another along a second direction that intersects the first direction within the horizontal plane. Each of the first heat transfer tubes and the second heat transfer tubes includes: straight portions arranged in parallel in a vertical direction; and one or more curved portions that make end portions of the straight portions communicate with each other. The straight portions of the first heat transfer tube unit and the straight portions of the first heat transfer tube unit are stacked on each other alternately.
F28D 7/08 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation les canalisations ayant une autre courbure, p.ex. en serpentins ou en zigzag
F28D 1/04 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires
F25B 15/00 - Machines, installations ou systèmes à sorption, à marche continue, p.ex. à absorption
F25B 15/06 - Machines, installations ou systèmes à sorption, à marche continue, p.ex. à absorption sans gaz inerte le frigorigène étant de la vapeur d'eau évaporée d'une solution salée, p.ex. bromure de lithium
F28D 1/047 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, dans lesquels l'autre source d avec des canalisations d'échange de chaleur immergées dans la masse du fluide avec canalisations tubulaires les canalisations étant courbées, p.ex. en serpentin ou en zigzag
F28D 7/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations tubulaires fixes pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
F28D 9/00 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes en forme de plaques ou de laminés pour les deux sources de potentiel calorifique, ces sources étant en contact chacune avec un côté de la paroi d'une canalisation
F28D 5/02 - Appareils échangeurs de chaleur comportant des ensembles de canalisations fixes pour une seule des sources de potentiel calorifique, les deux sources étant en contact chacune avec un côté de la paroi de la canalisation, utilisant l'effet réfrigérant dans lesquels la source de potentiel calorifique soumise à évaporation s'écoule sous forme de pellicule continue ou ruisselle librement sur les canalisations
A wire bundle includes insulated wires. The insulated wires each includes a conductor core covered with an insulator and is quad-twisted to form the wire bundle. The wire bundle has an annular shape including an inner perimeter and an outer perimeter in a cross section perpendicular to an axis line of the wire bundle. A shape of the outer perimeter is a square or a quasi-square. The quasi-square is a shape formed by curving at least one side of a square to a radial inside direction of the annular shape in the cross section. The insulated wires each has, in the cross section, a shape connecting a plurality of vertexes including two adjacent vertexes of the square or the quasi-square and two vertexes present on the inner perimeter.
A battery pack comprises a battery unit containing a plurality of batteries connected in series or in parallel; a lower frame housing a portion of a side of a bottom of the battery unit and mounted on an shelf plate top surface; a upper frame housing a portion on the side of a top surface of the battery unit as a surface opposed to the bottom and holding the battery unit by being connected to the lower frame; and a bracket mounted on the lower frame and fixed to the shelf plate top surface.
Disclosed is a shield wire for a wiring harness improving workability for wiring, and a method of the shield wire for a wiring harness. Forming of a shield part by winding a strip-like shield member outside of an electric wire allows work for inserting the electric wire into the shield part to be omitted, which improves workability for wiring. Forming of overlap portion where the shield part overlaps with each other in a radial direction allows the electric wire not to be exposed even if the shield electric wire for a wiring harness is bent, which prevents leak or penetration of electromagnetic wave.
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