WO2016121347A1 - Bâtiment - Google Patents

Bâtiment Download PDF

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Publication number
WO2016121347A1
WO2016121347A1 PCT/JP2016/000291 JP2016000291W WO2016121347A1 WO 2016121347 A1 WO2016121347 A1 WO 2016121347A1 JP 2016000291 W JP2016000291 W JP 2016000291W WO 2016121347 A1 WO2016121347 A1 WO 2016121347A1
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WO
WIPO (PCT)
Prior art keywords
building
power
space
water
roof
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PCT/JP2016/000291
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English (en)
Japanese (ja)
Inventor
山本 政博
品川 幹夫
室 直樹
Original Assignee
パナソニックIpマネジメント株式会社
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Publication of WO2016121347A1 publication Critical patent/WO2016121347A1/fr

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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04HBUILDINGS OR LIKE STRUCTURES FOR PARTICULAR PURPOSES; SWIMMING OR SPLASH BATHS OR POOLS; MASTS; FENCING; TENTS OR CANOPIES, IN GENERAL
    • E04H1/00Buildings or groups of buildings for dwelling or office purposes; General layout, e.g. modular co-ordination or staggered storeys
    • E04H1/12Small buildings or other erections for limited occupation, erected in the open air or arranged in buildings, e.g. kiosks, waiting shelters for bus stops or for filling stations, roofs for railway platforms, watchmen's huts or dressing cubicles
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F24HEATING; RANGES; VENTILATING
    • F24FAIR-CONDITIONING; AIR-HUMIDIFICATION; VENTILATION; USE OF AIR CURRENTS FOR SCREENING
    • F24F1/00Room units for air-conditioning, e.g. separate or self-contained units or units receiving primary air from a central station

Definitions

  • the present invention relates to a building that makes it possible to reduce the perceived temperature.
  • Patent Document 1 a technique for reducing the temperature by using a mist in a building has been proposed (see, for example, Patent Document 1).
  • the pipe for mist injection is provided in the louver member surrounding a veranda, and the structure which reduces the temperature in a veranda by mist injection is disclosed.
  • patent document 1 describes the operation
  • Patent Document 2 describes a technique of spraying a drug solution mixed water in which a drug solution for repelling insects, animals and the like is mixed with water. In Patent Document 2, it is possible to spray chemical solution mixed water by using the pressure of tap water and without using another power source. Patent Document 2 also describes a configuration provided with a motor that rotates a flow rate adjustment valve.
  • An object of the present invention is to provide a building capable of reducing the actual temperature by mist even when the pressure of tap water is not available.
  • a building comprising: an outer shell; an apparatus configured to lower a perceived temperature inside a space defined by the outer skin compared to the outer side of the space; A power supply facility for supplying electric power, wherein the device includes a mist generating device attached to the outer shell and spraying mist, and an air flow forming device forming an air flow inside the space .
  • the pressure for generating the mist can be obtained not by the pressure of the tap water but by the electrical energy. Further, since not only mist but also air flow is formed using electric energy from the power supply equipment independent from the power system, it is possible to relatively lower the actual temperature without receiving power from the power system.
  • FIG. 1 is a perspective view showing the appearance of the embodiment.
  • FIG. 2 is a perspective view showing the appearance of another shape of the embodiment.
  • FIG. 3 is a block diagram showing a configuration example of the embodiment.
  • FIG. 4 is a schematic configuration view of a mist generating device used in the embodiment.
  • FIG. 5 is a schematic block diagram of the water sprinkler used for embodiment.
  • FIG. 6 is a view showing an arrangement example of blinds used in the embodiment.
  • FIG. 7 is a view showing another arrangement example of the blinds used in the embodiment.
  • FIG. 8 is a diagram showing an example of connection of an electrical system in the embodiment.
  • FIG. 9 is a diagram showing another connection example of the electrical system in the embodiment.
  • FIG. 10 is a view showing an arrangement example of solar cell panels in the embodiment.
  • FIG. 11 is a view showing another arrangement example of the solar cell panel in the embodiment.
  • each drawing is a schematic view, and is not necessarily illustrated exactly. Moreover, in each figure, the same code
  • the buildings described in the present embodiment are nonresidential, and are assumed to be installed at places where people come and go, such as roads, stations, parks, and squares. This type of building is used, for example, as a rest area, a waiting room, a gazebo, a stop, and the like.
  • the shape of the building there are no particular restrictions on the shape of the building, and it is possible to adopt a shape that does not distinguish between the roof and the wall, such as a pyramid.
  • a shape that does not distinguish between the roof and the wall such as a pyramid.
  • the shape of the ground exclusively used by the building, and in addition to a square shape, a circular shape and the like, various deformed shapes can be adopted.
  • the building it is desirable to use a column as a structure, but the wall may be a structure without using a column.
  • the floor is assumed to be shared on the ground at the place where the building is installed, the building may have a member that forms the floor as a shell.
  • the shape of the ground exclusively used by the building 10 is rectangular (including square), and the building 10 has the roof 111 and the three walls 112, 113, 114 as the shell 11.
  • the area of the wall 113 is the largest among the walls 112, 113, and 114.
  • one surface of the rectangular outer shell 11 not provided with the walls 112, 113, and 114 is opened, and this one surface is the entrance 12.
  • the surface facing the wall 113 with the largest area forms the entrance 12.
  • one surface of the shell 11 having a rectangular parallelepiped shape is opened, and this surface forms the entrance 12, so the inside of the space 13 defined by the shell 11 of the building 10 and the space 13 Air flows through the inlet / outlet 12 with the outside of the
  • the boundary between the inside and the outside of the space 13 is geometrically determined mainly by the shape of the outer skin 11, but in practice the design conditions regarding the function of the building 10 are also taken into consideration.
  • the design conditions relating to the function of the building 10 include, for example, the condition as to whether or not an air curtain to be described later is provided, and the condition such as the location and the amount of mist sprayed by a mist generating device described later.
  • a rectangular parallelepiped space area surrounded by the outer skin 11 will be described as the inside of the space 13 defined by the outer skin 11.
  • the space 13 of the building 10 is used in the sense of the inside of the space 13.
  • the space 13 of the building 10 is a space area surrounded by the roof 111 and the walls 112, 113 and 114, and in the space around the building 10 including the building 10, the space excluding the space 13 of the building 10 The area is outside the space 13.
  • one side which becomes the entrance 12 of the building 10 is called the front.
  • the building 10 has a structure in which a roof material 151 covering the upper part of the building 10 and wall materials 152, 153, 154 covering side surfaces of the building 10 are attached to a frame 141 and a frame 142 which are structures.
  • the frame 141 forms a column
  • the frame 142 forms a beam connecting between the columns.
  • frames 141 are erected at the four corners of the building 10, and the upper ends of the two frames 141 are joined by the frame 142. That is, four frames 142 are assembled in a rectangular shape.
  • the building 10 illustrated in FIG. 1 includes four frames 141 and four frames 142, the number of the frames 141 and the frames 142 is appropriately determined in consideration of the strength and the appearance of the building 10. That is, the frame 141 can constitute a stud in addition to the pillars around the building 10, and the frame 142 additionally constitutes the periphery of the roof 111 to constitute the structure of the middle part of the roof 111 It is possible.
  • the frame 141 and the frame 142 are assumed to be integrated by connecting separate members, but may be a continuous integral body.
  • materials of the frame 141 and the frame 142 materials which can ensure the strength as a structure and which can realize various designs as the building 10 are selected.
  • the frame 141 or the frame 142 is formed of a composite material in which the surface of a metal core material such as iron or aluminum is covered with bamboo, in addition to the strength by the core material, it has both a Japanese feel and durability. It is possible to form pillars or beams.
  • the frame 141 or the frame 142 is formed of a composite material in which the surface of a metal core is covered with a wood material or a synthetic resin, in addition to the strength, the texture of a natural material with wood material or the modern by synthetic resin.
  • the surface of the frame 141 or the frame 142 may be covered with a material called artificial wood.
  • An artificial tree is a material formed by mixing wood powder and a synthetic resin, and a texture closer to wood is obtained than a molded article made only of a synthetic resin.
  • the frame 141 is formed of a composite material of metal and bamboo
  • the frame 142 is formed of a composite material of metal and a synthetic resin.
  • the appearance of the decorative portion of the frame 142 made of a synthetic resin is in the form of a log and is hollow.
  • a concavo-convex pattern simulating wood texture is formed on the surface of the decorative part formed in a log shape, and on the end face of the decorative part, a pattern simulating an annual ring is formed.
  • the roof 111 is configured by a frame 142 and a plate-like roofing material 151 covering the top of the building 10.
  • the roofing material 151 is attached to the frame 142, and the lower surface of the roofing material 151 constitutes the ceiling of the building 10.
  • the upper surface of the roof 111 is formed substantially parallel to the surface on which the building 10 is installed.
  • the upper surface of the roof 111 is sloped, rainwater can flow along the upper surface of the roof 111, and rainwater can be suppressed from falling from the roof 111 to the entrance 12.
  • a weir for collecting rain water is attached to the frame 142 which constitutes the roof 111, and a vertical weir connected with the weir is attached to the frame 141.
  • the rainwater collected by the weir is drained to the ground, road side ditch or drain pipe for rainwater, but a part of rainwater is used in one or both of the mist generator 21 and the water sprinkler 22 described later Thus, a configuration may be provided to recover a portion of the rainwater.
  • the roof material 151 is formed of a material that transmits visible light and does not easily break. Materials of this type are selected from, for example, acrylic plates, tempered glass and the like.
  • the roofing material 151 is formed of a transparent or milky white material and preferably has smooth surfaces on both sides, but has fine irregularities on the surface like ground glass or patterns on the surface like template glass. May be included. The fine unevenness or pattern is usually provided on one side of the roof material 151 but may be provided on both sides.
  • the roofing material 151 forming the roof 111 may form a half mirror.
  • the roofing material 151 forming the roof 111 has a function of suppressing the penetration of infrared rays from the outside of the building 10 into the space 13 of the building 10. Therefore, as for the roof material 151, it is desirable to be comprised so that infrared rays may be reflected.
  • membrane which reflects infrared rays, or the roof material 151 to which the film which reflects infrared rays is affixed is used.
  • the roof material 151 may be configured of a plurality of plate members. In such a roof material 151, a space is formed between the plate materials.
  • the roof material 151 of this type may have a blind incorporated in the space formed between the plate materials.
  • the blinds can be operated manually or electrically to adjust the orientation of the slats (i.e., the blades or louvers) that make up the blinds. Therefore, it is possible to adjust the light quantity which injects into the space 13 of the building 10 through the roof material 151 by operation of a blind.
  • the slats that make up the blinds are preferably configured to reflect infrared radiation by the film or film.
  • the roof material 151 may be equipped with the light control glass which can control the transmittance
  • a photochromic substance whose transmittance is changed by light irradiation, or an electrochromic substance whose electric transmittance can be electrically changed are used.
  • the transmittance of the roofing material 151 can be changed according to the intensity of solar radiation to the building 10. That is, when the solar radiation intensity is high, the transmittance is lowered to suppress the temperature rise of the space 13 of the building 10, and when the solar radiation intensity is low, the transmittance is increased to increase the light collection rate to the space 13 of the building 10. Becomes possible.
  • By controlling the transmittance in this manner as in the case of providing the blind, it is possible to suppress an increase in temperature or to suppress a decrease in light collection amount.
  • the roofing material 151 can be formed of a material that does not transmit visible light.
  • the roofing material 151 may form a mirror whose upper surface side of the roof 111 is a mirror surface side.
  • the roofing material 151 may be covered with a photocatalyst as described later.
  • the walls 112, 113, and 114 are configured by the frame 141 and plate-like wall members 152, 153, and 154 covering the side surfaces of the building 10.
  • the wall members 152, 153, 154 are attached to the frame 141.
  • the wall members 152, 153, 154 are, in principle, formed of a transparent material so that the space 13 of the building 10 is visible from the outside of the building 10. Further, the wall members 152, 153, 154 are formed of a material that does not easily break like the roof member 151. Therefore, the wall materials 152, 153, 154 are formed of, for example, a material selected from an acrylic plate, tempered glass, and the like. The outer surfaces of the wall members 152, 153, 154 are preferably covered with a photocatalyst as described later.
  • the wall materials 152, 153, 154 have a function of reflecting infrared rays in order to suppress the penetration of infrared rays from the outside of the building 10 into the space 13 of the building 10.
  • the wall members 152, 153, 154 be covered with a film that reflects infrared light, or be attached with a film that reflects infrared light.
  • Each of the wall members 152, 153, 154 may be formed of a plurality of layers of plate members, similarly to the roofing member 151. That is, in each of the wall members 152, 153, 154, a space may be formed between the plate members. Similar to the roofing material 151, the wall materials 152, 153, 154 may be provided with blinds, and the wall materials 152, 153, 154 may be configured using light control glass.
  • the space 13 of the building 10 is allowed to be invisible from the outside of the building 10 in a state where the transmittance is minimized.
  • the transmittance of the space 13 of the building 10 can be seen from the outside of the building 10 It is desirable to define the adjustment range of In this way, the space 13 of the building 10 can be seen from the outside of the building 10 through the wall materials 152, 153, 154, so that the human eye can reach the space 13 of the building 10. The crime prevention concerning 13 becomes high.
  • the wall members 152, 153, 154 constituting the three walls 112, 113, 114 be transparent, and a part of the wall members 152, 153, 154 is transparent to light. It may be configured not to. That is, at least a part of the wall members 152, 153, 154 that constitute the walls 112, 113, 114 of the outer skin 11 may be transparent to visible light.
  • a cabinet 16 having a storage space inside is used as the wall material 152 constituting the wall 112. That is, the cabinet 16 is treated as a wall material.
  • two cabinets 16 are used to form the entire surface of the wall 112, but the cabinet 16 may form a part of the wall 112. The stored items stored in the cabinet 16 will be described later.
  • the cabinet 16 may be disposed not only on one wall 112 but also on a plurality of walls selected from the three walls 112, 113, 114. In one example, it is possible to construct a building 10 in which the cabinets 16 are arranged on the two walls 112, 113 respectively. In this example, the cabinets 16 may be arranged such that one cabinet 16 covers the entire surface of the wall 112 and the other cabinet 16 covers the lateral center of the wall 113. Of course, the cabinet 16 may be disposed so as to cover the entire surface of the wall 113, or the cabinet 16 may be disposed at one end in the lateral direction of the wall 113. However, as described above, in order to secure crime prevention, it is desirable that a part of the three walls 112, 113, 114 be transparent.
  • the building 10 shown in FIG. 1 is not equipped with the member which comprises a floor, but is combining the ground as a floor.
  • the member which comprises a floor As the outer skin 11 of the building 10, it is desirable that the member which comprises a floor has water retention or water permeability. For example, if a floor having a water retentivity is formed regardless of whether or not the ground on which the building 10 is installed is paved, the formation of a puddle during rainy weather is suppressed.
  • rainwater can permeate the ground.
  • the frames 141 and 142, the roof members 151, and the wall members 152, 153 and 154 be standardized in size.
  • the size is standardized means that the size of the standard is defined.
  • the roofing material 151 which is a standard size it becomes possible by arranging the roofing material 151 of the number according to the area of the roof 111 to configure the roof 111 of various sizes.
  • the wall 112 as in the case of the roof 111, if the wall material 152 has a standard size, the walls 112 of various sizes can be configured by arranging the number of the wall materials 152 according to the area of the wall 112. It is possible.
  • Various sizes can be selected for the walls 113 and 114 in the same manner.
  • the length of frame 142 which encloses roof 111 is changed. If a frame 142 longer than the size of the reference is required, then a frame 142 of integral multiple length for the size of the reference is required. However, instead of using one continuous frame 142, a frame 142 longer than the reference size may be formed by jointing the frames 142 of the reference size. In this case, since it is possible to cope with the difference in the area of the roof 111 only with the frame 142 of the standard size, it is possible to reduce the variety of the frame 142 and reduce the inventory cost. In addition, when arranging the some roofing material 151 and comprising the roof 111, it is desirable to provide the crosspiece for couple
  • the frame 142 at the top of the wall 112 is an integral multiple of the standard size.
  • it is possible to provide a joint for connecting the wall members 152 with each other it is desirable to additionally dispose a frame 141 between the wall members 152 in order to enhance the strength of the building 10.
  • the wall 112 is described as an example, the same applies to the walls 113 and 114.
  • an extension frame to be added to the frame 141 is prepared in preparation for adjusting the height of the building 10.
  • the extension frame is coupled to the frame of the reference size using joints, as well as joints that couple the frames 142 together.
  • the extension frame is formed to have a shorter dimension than the frame 141 of the standard size. For example, if the frame 141 is 2 m 70 cm, the extension frame is designed to be 60 cm or the like.
  • the frame 141 may be formed so as to be adjustable in length, and the frame 141 and the extension frame are connected in a nested manner, so that the length of the frame 141 and the extension frame are combined. It may be configured to be adjustable.
  • the frame 141 built at the rear or front of the building 10 may be configured to be integrally continuous with the frame 142 in the front-rear direction and the upper end as shown in FIG. In FIG. 2, configurations other than the structure of the building 10 are omitted.
  • the front frame 141 may be omitted in the front-rear direction of the building 10.
  • the wall 113 is configured by two wall materials 153, and the wall materials 153 are connected by one of the three frames 141.
  • a frame 142 surrounding the roof material 151 is disposed between the two adjacent frames 141. That is, the buildings 10 shown in FIG. 2 are connected by the frame 142 between the frames 141.
  • the frames 141 and the frames 142 may be added according to the number of roofing materials 151, and it is possible to maintain the same level of strength regardless of the area of the roof 111. Therefore, regardless of the size of the building 10, it is possible to configure the building 10 using common parts, and as a result, the increase in inventory cost can be suppressed.
  • the building 10 of this embodiment is assumed to be used mainly in summer. Therefore, the building 10 is configured to allow the actual temperature of the space 13 of the building 10 to be lower than the outside of the space 13.
  • the actual temperature is a kind of thermal index, and is calculated in consideration of relative humidity, wind speed, radiation temperature, amount of work, amount of clothes, etc. in addition to air temperature.
  • the term "real temperature" is used in the same meaning as the sensible temperature and the correction effective temperature.
  • Various thermal indexes for evaluating the actual temperature are known. For example, OUT_SET * is known as a thermal index applicable outdoors.
  • the building 10 is, as shown in FIG. 3, an apparatus 20 configured to lower the actual temperature in the space 13 of the building 10 (inside of the space 13 defined by the shell 11) as compared to the outside of the space 13 of the building 10. , And a power supply facility 30, which is independent of the power system and supplies power to the device 20.
  • the actual temperature changes depending on the temperature, relative humidity, wind speed, radiation temperature, and the like. Therefore, the device 20 is configured to realize a function selected from the function of lowering the temperature, the function of forming the air flow, the function of blocking the solar radiation, and the function of suppressing the heat inflow into the space 13 of the building 10. .
  • the building 10 of the present embodiment includes a mist generating device 21 as an apparatus 20 for realizing the function of lowering the temperature.
  • the building 10 is a water sprinkling device that flows water on at least one of the four surfaces of the roof 111 and the walls 112, 113, and 114. 22 may be provided.
  • the mist generating device 21 mainly includes a water storage tank 211 for storing water, a nozzle 212 for spraying water, a hose 213 for supplying water of the water storage tank 211 to the nozzle 212, water And a pressurizing device 214 such as a pump for pressurizing the Specifically, the pressurizing device 214 pumps the water of the water storage tank 211 not by the pressure of the tap water but by the electric energy from the power supply facility 30, and sends the pumped water to the nozzle 212 through the hose 213. The nozzle 212 is sprayed.
  • the water pumped out of the water storage tank 211 by the pressurizing device 214 is disinfected by passing through a processing device using a technique selected from activated carbon filtration, ultrafiltration, chemical addition, ultraviolet irradiation and the like.
  • the hoses 213 are housed in the frames 141, 142, and the nozzles 212 are attached to appropriate places of the frames 141, 142.
  • the nozzle 212 is attached to, for example, the frame 142, and the mist is sprayed from the top of the building 10.
  • the particle size of the mist is set to such an extent that a feeling of wetting does not occur even when it comes in contact with the body or clothes, and is called dry mist.
  • the particle size of this type of mist is in the range of about 5 ⁇ m to 20 ⁇ m, and the smaller the particle size, the harder it is to wet. Generally, the particle size is set to 16 ⁇ m or less, and the particle size may be set to about 5 ⁇ m to 6 ⁇ m.
  • water may contain an aroma component and the like.
  • the heat of vaporization is taken around the building 10, so the temperature around the building 10 is lowered. That is, by covering the building 10 with a low temperature air layer, it is difficult to transmit the heat from the outside to the space 13 of the building 10. Further, since the mist is generated outside the walls 112, 113, and 114, the mist does not enter the space 13 of the building 10, and the increase in the humidity of the space 13 due to the mist is suppressed.
  • the nozzle 212 is arrange
  • the humidity of the space 13 may increase.
  • the particle size of the mist is small and the inlet / outlet 12 is opened, the increase in relative humidity is suppressed.
  • the nozzle 212 can also be disposed above the entrance 12 in the building 10.
  • the vaporization heat is taken away near the entrance 12 in the building 10, so that the space 13 of the building 10 can take in air having a temperature lower than that of the outside.
  • an air curtain 23 is disposed above the entrance 12. The air curtain 23 suppresses the flow of air between the space 13 of the building 10 and the outside of the space 13 by forming a downward air flow. When the air curtain 23 is provided, intrusion of dust, insects and the like into the space 13 of the building 10 is suppressed.
  • the water sprinkling device 22 is a device for sprinkling a liquid containing water as a main component along at least a part of the outer surface of the shell 11, and as shown in FIG. 221, a water spray nozzle 222 for discharging water, a hose 223 for sending water of the water storage tank 221 to the water spray nozzle 222, and a pressurizing device 224 such as a pump for pressurizing water. Since the water discharged from the water spray device 22 flows along the outer skin 11 of the building 10, the impurities may be removed to such an extent that clogging of the water spray nozzle 222 does not occur, and the water stored in the water storage tank 221 may be rainwater .
  • the water sprinkler 22 may be added with a treatment device for disinfecting water.
  • the water spray nozzle 222 is configured to spread water widely along the outer surface of the skin 11.
  • a nozzle for a sprinkler is generally used to widely disperse water.
  • the water spray nozzle 222 be a spray nozzle so that the water does not splash around the building 10 while spraying water widely.
  • Sprinkler nozzles 222 are disposed on the frame 142 at the top of each of the walls 112, 113, 114 so as to be able to spray water on the outer surface of the three-sided wall 112, 113, 114. Further, the water spray nozzle 222 is disposed on the frame 142 disposed on at least one of the four sides of the roof 111 so as to spray water on the roof 111. In addition, the water spray nozzle 222 which sprays water on the roof 111 is omissible. Similar to the mist generating device 21, the hose 223 is housed in the frames 141 and 142.
  • the water sprayed from the water sprinkler 22 to the roof 111 is recovered by a weir. Also, part of the water sprayed from the water spray device 22 to the walls 112, 113, 114 evaporates while flowing along the skin 11, and the non-evaporated water reaches the lower ends of the walls 112, 113, 114. become.
  • This water is received by a weir located at the lower end of the walls 112, 113, 114 and is drained to the ground, a ditch of a road, or a drain for rainwater.
  • a boat-like planter for planting a plant, or a water tank may be disposed at the lower part outside the walls 112, 113, and 114.
  • a water absorbing resin is used, and water is supplied to the plant from the resin. Since a part of the water sprayed from the water spray device 22 is collected by the planter or the water tank, the surroundings of the building 10 are not wetted, and moreover, it is possible to create a natural feeling around the building 10. It will be possible to provide a place of relaxation in the city area.
  • the water storage tank 211 and the water storage tank 221 described above may be shared by the mist generator 21 and the water sprinkler 22.
  • the pressurizing device 214 and the pressurizing device 224 may be shared by the mist generating device 21 and the water sprinkler 22.
  • water flow to the nozzle 212 of the mist generating device 21 and the water sprinkling device A valve is provided to select water flow to the 22 water spray nozzles 222.
  • a solenoid valve that only opens and closes the flow path or a motor-operated valve that adjusts the flow rate is used.
  • a plurality of solenoid valves may be arranged in the flow path to the nozzle 212 and the water spray nozzle 222, respectively. In this configuration, the flow rate can be adjusted in multiple stages only by opening and closing the solenoid valve.
  • the layer of the photocatalyst which expresses super hydrophilicity by light irradiation is formed in the outer surface of the member which forms the outer skin 11 of the building 10. That is, it is desirable that a layer of photocatalyst be formed on the outer surface of the roof material 151 and the wall materials 152, 153, 154. Furthermore, as for the frames 141 and 142, it is desirable that a layer of photocatalyst be formed on a part that will be the outer surface of the building 10.
  • the photocatalyst layer is formed by sticking a film holding the photocatalyst on the outer surface of the member forming the outer shell 11.
  • the layer of the photocatalyst may be formed on the outer surface of the member forming the outer shell 11 by spraying the photocatalyst.
  • the layer of photocatalyst of this kind is formed on the outer surface of the shell 11, not only the dirt does not easily adhere to the outer surface of the shell 11, but also water discharged from the water spray device 22 and flowing along the outer surface of the shell 11. Is easy to spread on the surface of the outer skin 11, and the area covered with the water film in the outer skin 11 spreads. That is, the area which the water discharged from the water sprinkler 22 evaporates spreads, and the evaporation amount of water per unit area increases. In other words, the amount of heat of the unit area taken away by the heat of vaporization is increased, and the decrease of the temperature of the outer skin 11 is promoted.
  • the member forming the outer shell 11 has a structure having an air layer between a plurality of plate materials, and the air of the air layer is configured to be circulated in the space 13 of the building 10, water evaporation
  • the cold air of the air layer cooled by can be taken out to any place in the space 13.
  • the air in the space 13 be stirred so that the cold air formed around the outer shell 11 is spread to the space 13.
  • the building 10 of the present embodiment includes an air flow forming device 24 that forms an air flow in the space 13 as an apparatus 20 that lowers the actual temperature of a person present in the space 13.
  • the air flow forming device 24 is selected from an air circulator (circulator), a blower, a fan and the like.
  • a ventilation fan may be provided as the air flow forming device 24 for discharging the air in the space 13 of the building 10 to the outside of the building 10.
  • An air circulator and a blower are mainly used to stir air in the space 13 of the building 10, and a fan is mainly used to wind a person present in the space 13.
  • the air flow forming device 24 is driven by the electrical energy from the power supply facility 30.
  • the actual temperature varies with the relative humidity and the radiation temperature as well as the air temperature and the wind speed.
  • a desiccant air conditioner is provided as the device 20
  • both the air temperature and the relative humidity can be reduced, and the air flow forming device 24 can also be used.
  • positioned along the outer skin 11 of the building 10 is used as an apparatus 20 which suppresses the inflow of radiant heat. That is, the device 20 includes the roof 25 and the blinds 25 disposed so as to overlap the walls 152, 153, 154.
  • the blind 25 includes a plurality of slats 251 as shown in FIG. 6 and is configured such that the power of the motor can change the direction of the slats 251.
  • the slats 251 of the blinds 25 be transparent to visible light so that the space 13 of the building 10 is visible from the outside of the building 10, but to reduce the amount of infrared radiation to suppress radiant heat.
  • the surface of the slat 251 facing the building 10 is provided with the function of reducing the amount of transmission of infrared light by performing at least one of reflection and absorption of infrared light.
  • an infrared light reflective absorption film is attached to the slat 251, or an infrared light reflective absorption coating is applied to the slat 251.
  • the built-in blind may be used in place of the blind 25. That is, as shown in FIG. 7, when one of the roof material 151 and the wall materials 152, 153, 154 is formed of a plurality of plate members 155, a blind is formed between the pair of plate members 155. 25 may be arranged.
  • the wall material 152 is illustrated to FIG. 6, FIG. 7, the wall material 153 and the wall material 154 can also employ
  • the blind 25 is used to suppress the inflow of radiant heat from the outside of the building 10 in the configuration example described above, it is also possible to use a curtain instead of the blind 25. Also when using a curtain, the curtain is configured to transmit visible light and reduce the amount of infrared transmission. In addition, it is desirable that the blinds 25 or the curtain be opened during a period in which it is not necessary to suppress the inflow of radiant heat to the building 10 as in the nighttime.
  • the devices 20 such as the mist generating device 21, the water sprinkling device 22, the air flow forming device 24, and the blind 25 need to control the operation according to various conditions. For example, if it is rainy, even if it is summer, it is desirable to stop the mist generating device 21 and the water sprinkler 22 and open the blind 25 unless special operation is performed. On the other hand, it is desirable that the mist generating device 21, the water sprinkling device 22, and the air flow forming device 24 be operated and the blind 25 be closed when the weather is fine. Moreover, it is necessary to adjust the operation of the mist generating device 21, the water sprinkling device 22 and the air flow forming device 24 in accordance with the conditions such as the solar radiation intensity, the air temperature and the relative humidity.
  • the blinds 25 need to be closed in a time zone in which radiant heat from solar radiation flows into the space 13 of the building 10, but it is desirable that the blind 25 be open in a time zone in which radiant heat does not flow into the space 13. Therefore, depending on the position of the sun with respect to the building 10, it is desirable to determine the open / close state of the blinds 25 at positions corresponding to the roof 111 and the walls 112, 113 and 114 on the three sides.
  • the building 10 comprises a controller 40 to control the operation of the device 20.
  • the control device 40 gives instruction information for controlling the operation to the device 20 such as the mist generating device 21, the water sprinkling device 22, the air curtain 23, the air flow forming device 24, the blind 25 etc. Receive monitoring information according to the status.
  • a plurality of sensors 42 for monitoring the space 13 of the building 10 and the environment outside the building 10 are connected to the control device 40. Environments monitored by the sensor 42 include temperature, solar radiation intensity, relative humidity, weather and the like.
  • a monitoring camera be disposed as the sensor 42 in order to monitor whether or not there are people inside the building 10, the number of people when there are people, and the like.
  • a monitoring camera 421 that simulates the shape of the wind bell 241 is disposed.
  • the monitoring camera 421 is used to control the environment of the space 13 according to the condition of a person in the space 13 of the building 10, and for monitoring and recording an image captured by the monitoring camera 421, for security. Is also used.
  • the device 20 and the control device 40 are connected by a connection line, and instruction information and monitoring information are transmitted between the device 20 and the control device 40 by an electrical signal passing through the connection line. Further, the connection line is also used as an electric path for supplying power to the device 20 and the control device 40.
  • the device 20 and the control device 40 are provided with the first connection portion, and the connection line is provided with the second connection portion.
  • the first connection portion and the second connection portion can be coupled and separated, and the first connection portion and the second connection portion are electrically connected in a state of being mechanically coupled. Be done.
  • the first connection portion and the second connection portion are configured using a connector provided with a plurality of contacts (contacts). That is, the connection line is a bundle of a plurality of electric wires, and has a function of transmitting an electrical signal between the device 20 and the control device 40 and a function of supplying power to the device 20 and the control device 40.
  • the configuration is assumed as the first connection portion and the second connection portion, but the configuration is configured to transmit signals and power in a non-contact manner, It is also good.
  • a signal is transmitted without contact between the first connection portion and the second connection portion, any one of an electric field, a magnetic field, a radio wave, and light is used as a transmission medium.
  • a technique selected from magnetic field resonance, electric field resonance, electromagnetic induction, and the like is employed.
  • signals and power are transferred contactlessly with the provided second connection portion 412.
  • the first connection portion 411 and the second connection portion 412 are mechanically coupled by the magnetic force of the permanent magnet incorporated in at least one of them.
  • the first connection 411 and the second connection 412 can be mechanically coupled by a mechanical structure having a movable portion.
  • the configuration shown in FIG. 8 adopts a configuration in which the first connection portion 411 and the second connection portion 412 are mechanically coupled by magnetic force without providing a movable portion. Or it is not affected by dust and maintenance is easy.
  • one of the first connection 411 and the second connection 412 includes a power supply that supplies power without contact, and the other is A power receiving device for receiving power from a power feeding device.
  • the control device 40 gives instruction information not only to the device 20 but also to the power supply facility 30, and receives monitoring information from not only the device 20 but also the power supply facility 30.
  • the first connection unit 411 and the second connection unit 412 are provided between the control device 40 and the device 20 and between the control device 40 and the power supply facility 30 in a path for exchanging instruction information and monitoring information.
  • a transmission device is provided which transmits signals in both directions. As described above, the transmission apparatus performs signal transmission in a contactless manner using any of an electric field, a magnetic field, a radio wave, and light as a transmission medium.
  • the first connection portion 411 and the second connection portion 412 can be used. Can be configured such that the electrodes are not exposed. That is, waterproofness and dust resistance of the first connection portion 411 and the second connection portion 412 are ensured.
  • connection line 41 can be flexibly formed like a cabtyre cable so that it can be routed.
  • the connection lines 41 in the cabinet 16 can be formed in a rigid rod shape as shown in FIG.
  • the connection line 41 shown in FIG. 9 has a structure in which the core of the rod-like electrical conductor is covered with an insulating coating of a synthetic resin.
  • a plurality of transmission devices 413 are arranged at equal intervals in the longitudinal direction on the connection line 41. Furthermore, one or more power receiving devices 414 and one or more power feeding devices 415 are provided on the connection line 41.
  • one connection line 41 includes approximately 1 to 3 power receiving devices 414 and approximately 2 to 5 power feeding devices 415. Further, one of the power receiving device 414 and the power feeding device 415 is disposed adjacent to the transmission device 413.
  • the cabinet 16 houses a part of the power supply equipment 30 and the control device 40. Further, depending on the type of device 20, a part of the device 20 is housed in the cabinet 16.
  • the device 20, which is a storage item stored in the cabinet 16, the power supply equipment 30, and the control device 40 are stored in the case and stored in the cabinet 16, respectively.
  • the devices 20 stored in the cabinet 16 are the water storage tank 211 and the pressurizing device 214 of the mist generating device 21, and the water storage tank 221 and the pressurizing device 224 of the water sprinkler 22. As described above, since the equipment 20 to be stored in the cabinet 16 flows water, it is preferable that the equipment 20 be provided separately from the cabinet 16 in which the power supply facility 30 and the control device 40 are stored.
  • the power supply equipment 30 and the control device 40 are housed in a waterproof case, and as described above, since both the supply of power and the transmission of signals are performed in a non-contact manner inside the building 10 There is no ingress of water. That is, if a partition wall is formed in the inside of the cabinet 16 and a measure is taken to provide a drain for drainage in the cabinet 16, the equipment 20, the power supply facility 30, and the control device in a single cabinet 16 40 can be stored.
  • the size of the reference is determined by the arrangement interval of the transmission device 413 on the connection line 41. That is, among the reference sizes of the stored items, the dimension in the longitudinal direction of the connection line 41 is defined by the interval at which the transmission device 413 is disposed. Therefore, if the items stored in the cabinet 16 are modularized so as to have a size that is an integral multiple of the distance between the transmission devices 413 in the longitudinal direction of the connection line 41, the type, arrangement, and number of items stored in the cabinet 16 The degree of freedom is increased. The dimensions in the other direction with respect to the contents of the cabinet 16 are limited by the internal space of the cabinet 16. Thus, in the cabinet 16 which constitutes a part of the outer shell 11, the case which is the size of an integral multiple of the standard size is accommodated.
  • connection line 41 and the storage item are configured to fit the positioning recess and the protrusion.
  • the recess and the protrusion may be provided in either of the connection line 41 and the storage item.
  • the connection wire 41 and the stored item may be aligned using the magnetic force of the magnet.
  • the cabinet 16 is provided with a mount for mounting the items so that the items are fixed relative to the cabinet 16.
  • the power supply equipment 30 of this embodiment is comprised so that the electric power used by the building 10 can be ensured, without connecting to an electric power grid
  • the solar panel is used to increase the energy density received from sunlight to increase the amount of power generation.
  • 31 is attached at an angle to the roof 111 as shown in FIG.
  • the general solar cell panel 31 receives sunlight only on one side.
  • a solar cell panel 31 configured to be capable of receiving light on both sides is known.
  • this type of solar cell panel 31 is disposed so that sunlight is incident from both sides, it is possible to suppress fluctuations in the amount of power generation with respect to changes in the direction and height of the sun.
  • the solar cell panel 31 is mounted on a mount mounted on the roof 111 such that the solar cell panel 31 is inclined with respect to the upper surface of the roof 111. Therefore, a gap is formed between the upper surface of the roof 111 and the lower surface of the solar cell panel 31. Therefore, by using the solar cell panel 31 configured to receive light from both sides and receive light from both sides to generate electric power, the lower surface of the solar cell panel 31 is irradiated with light through this gap to increase the amount of power generation per unit area. Can be expected. In this case, it is desirable that the top surface of the roof 111 be formed to reflect light in a wavelength range (usually, a visible light range) that contributes to the power generation of the solar cell panel 31.
  • a wavelength range usually, a visible light range
  • the power generation amount of the solar cell panel 31 by applying a white-based paint on the top surface of the roof 111 or using the roof material 151 as a mirror.
  • the roof material 151 is made into a half mirror as mentioned above, not only the electric power generation amount of the solar cell panel 31 is made to increase, but the lighting to the space 13 of the building 10 from the roof 111 is also possible.
  • the electric power generated by the solar cell panel 31 during the day is consumed by the operation of the device 20.
  • the amount of power generation of the solar cell panel 31 on a fine day is designed to exceed the amount of power consumed by the operation of the device 20.
  • the surplus power generated by the solar cell panel 31 and not consumed by the device 20 is stored in the storage battery 33.
  • the storage battery 33 is assumed to be a lithium ion battery, but it is also possible to use another storage battery such as a lead storage battery.
  • the building 10 of the present embodiment is not connected to the power system, and the device 20 operates with the power generated by the solar cell panel 31. Therefore, it is desirable to adopt a configuration in which the DC power generated by the solar cell panel 31 is supplied to the device 20 without being converted to AC power. That is, by making the power system inside the building 10 only a DC system, conversion loss at the time of power conversion is reduced.
  • the power conditioner 32 functions to stabilize the DC voltage and does not convert DC power to AC power. That is, the power supply equipment 30 is configured to output DC power.
  • the device 20 operates with the DC power output from the power supply facility 30.
  • the solar cell panel 34 may be disposed on the wall material 152 of the wall 112.
  • the solar cell panel 34 be arranged with a gap to the outer side surface of the wall material 152.
  • the upper end of the solar cell panel 34 is located below the upper end of the wall member 152, and the lower end of the solar cell panel 34 is located above the lower end of the wall member 152.
  • a weir 156 covering the solar cell panel 34 is formed on the upper end of the wall material 152.
  • an air layer is formed between the solar cell panel 34 and the wall member 152, and the upper end and the lower end of the air layer are connected to the outside air. As shown, outside air flows through the air layer. Since the air in the air layer is heated by the heat flowing in through the solar cell panel 34, a chimney effect is generated, and an air flow is generated so that the air flowing in from the lower end of the air layer is discharged from the upper end. As a result, the temperature rise of the solar cell panel 34 is suppressed by the air flow of the air layer, and the amount of heat flowing into the space 13 through the wall material 152 is reduced.
  • the lighting device 26 (see FIG. 3) is disposed in the building 10 in consideration of use at night.
  • the lighting device 26 includes a low power consumption light source such as a light emitting diode.
  • the building 10 may be provided with a display device for providing various information, and as necessary, an access point for wireless communication connected to a telecommunication line such as the Internet. May be
  • the building 10 includes a communication interface unit 52 (hereinafter referred to as “communication I / F unit 52”) connectable to a telecommunication line 51 such as the Internet or a mobile communication network.
  • the communication I / F unit 52 can communicate with the management device 50 through the telecommunication line 51, and the management device 50 monitors and controls the device 20, the lighting device 26, and the like provided in the building 10. That is, the management apparatus 50 enables remote monitoring of the equipment 20, the power supply equipment 30, the control apparatus 40, etc. of the building 10, and allows the remote control of the equipment 20 and the power supply equipment 30 from the management apparatus 50 through the control equipment 40.
  • a communication interface unit 52 hereinafter referred to as “communication I / F unit 52”
  • the communication I / F unit 52 can communicate with the management device 50 through the telecommunication line 51, and the management device 50 monitors and controls the device 20, the lighting device 26, and the like provided in the building 10. That is, the management apparatus 50 enables remote monitoring of the equipment 20, the power supply equipment 30, the control apparatus 40, etc.
  • control device 40 controls the operation of the corresponding device 20 and the power supply facility 30 according to the device control command acquired from the management device 50 via the communication I / F unit 52. Further, the control device 40 notifies the management device 50 of the operation state of the corresponding device 20, the power supply facility 30, the control device 40, etc., in accordance with the monitoring command acquired from the management device 50 via the communication I / F unit 52 Do.
  • FIG. 3 shows that the management device 50 can communicate with one communication I / F unit 52
  • the management device 50 can communicate with a plurality of communication I / F units 52. That is, using the identification information (address for communication) of each building 10, the management device 50 can individually communicate with each communication I / F unit 52.
  • the monitoring and control of one building 10 may be configured to be performed from a plurality of management devices 50.
  • the entrance / exit 12 is open and the circulation of the air in the inside and outside of the building 10 is suppressed using the air curtain 23 in the structural example mentioned above, it is also possible to adopt the construction provided with the door in the entrance / exit 12 . It is desirable that the solar cell panel 31 be disposed so as to slope downward toward the south in order to increase the amount of solar radiation to be irradiated.
  • the building 10 of the present embodiment includes a solar cell panel 31 and a storage battery 33, and supplies power independently of the power system. However, if the connection with the power system is easy, when surplus occurs in the power generated by the solar panel 31, reverse power flow is performed to the power system to compensate for the shortage of the power stored in the storage battery 33. It may be possible to receive power from the When connecting to the power system, installation of a power meter is required. In addition to power, connection with water supply, connection with gas pipes, etc. may be enabled. In preparation for connecting to these public facilities, a cabinet 16 provided with a connection port with a power system, a connection port with a water supply pipe, a connection port with a gas pipe, and the like may be provided.
  • the power supply facility 30 includes the solar cell panel 31, the power conditioner 32, and the storage battery 33, but may be configured to obtain power using another technology. That is, the power supply facility 30 may be configured to use an engine generator using liquid fuel, a gas engine generator, a fuel cell system, a small wind power generation system, or the like. When the power supply facility 30 requires fuel, the fuel may be received from the outside of the building 10 or a container for storing the fuel may be provided in the building 10.
  • the building 10 includes the outer skin 11 and the device 20 configured to lower the actual temperature inside the space 13 defined by the outer skin 11 compared with the outer side of the space 13 and the power system independently.
  • a power supply facility 30 for supplying power to the cage device 20 is provided.
  • the device 20 includes a mist generating device 21 attached to the outer shell 11 and spraying mist, and an air flow forming device 24 forming an air flow inside the space 13.
  • the pressure for generating the mist is not the pressure of the tap water but the electric energy You can get it.
  • the mist can be generated.
  • the case of the device 20 and the power supply facility 30 has a standard size determined, and the cabinet 16 that constitutes a part of the outer shell 11 stores a case that is an integral multiple of the standard size. It is desirable that it is done.
  • the device 20 and the power supply facility 30 stored in the cabinet 16 are modularized to the standard size, the degree of freedom regarding the type, arrangement, and number of stored items in the cabinet 16 is increased.
  • the power supply equipment 30 is preferably configured to output DC power. In this case, it is desirable that the device 20 operate with the DC power output from the power supply equipment 30.
  • the building 10 preferably further includes a communication interface unit 52 that communicates with the management device 50 through the telecommunication line 51.
  • the device 20 can operate in accordance with the device control command acquired from the management device 50 via the communication interface unit 52.
  • communication between the communication interface unit 52 and the management device 50 enables remote monitoring of the building 10 in an environment where the power from the electric power system can not be used by the management device 50. It becomes possible to perform remote control from the management device 50 for 20 and the power supply facility 30.
  • At least a part of the wall members 152, 153, 154 constituting the walls 112, 113, 114 of the outer cover 11 is transparent to visible light, and the device 20 is disposed so as to overlap the wall members 152, 153, 154 It is desirable to include a blind 25 that is In this case, it is desirable that the slats 251 constituting the blind 25 reduce the amount of transmission of infrared light and be transparent to visible light.
  • the blind 25 by adjusting the blind 25 in accordance with the position of the sun, it is possible to limit the amount of infrared radiation incident on the space 13 and to suppress the temperature rise of the space 13.
  • the slat 251 that constitutes the blind 25 is transparent to visible light, the space 13 can be seen from the outside, and the eyes of another person can reach it, thereby increasing the security.
  • the power supply facility 30 includes a solar cell panel 31 mounted so as to be inclined with respect to the upper surface of the roof 111 of the outer skin 11, and the solar cell panel 31 is configured to receive light from both sides to generate electric power.
  • the top surface of 111 is preferably configured to reflect visible light.
  • the solar cell panel 31 is inclined with respect to the upper surface of the roof 111, and furthermore, visible light is reflected on the upper surface of the roof 111, so that both surfaces of the solar cell panel 31 can be irradiated with light. . Since the solar cell panel 31 receives light from both sides to generate power, an increase in the amount of power generation per unit area can be expected by this configuration.
  • the device 20 preferably includes a sprinkler 22 for sprinkling a water-based liquid along at least a portion of the outer surface of the skin 11.
  • the outer skin 11 is cooled by the heat of vaporization, and the actual temperature can be further lowered.

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  • Engineering & Computer Science (AREA)
  • Architecture (AREA)
  • Civil Engineering (AREA)
  • Structural Engineering (AREA)
  • Chemical & Material Sciences (AREA)
  • Combustion & Propulsion (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Residential Or Office Buildings (AREA)
  • Devices For Blowing Cold Air, Devices For Blowing Warm Air, And Means For Preventing Water Condensation In Air Conditioning Units (AREA)

Abstract

L'invention concerne un bâtiment (10) qui est pourvu : d'une couverture (11); d'un appareil (20) qui est configuré pour faire baisser la température réelle de l'intérieur d'un espace (13) qui est défini par la couverture (11) à une température qui est inférieure à la température à l'extérieur de l'espace (13); d'un équipement de source d'alimentation (30) qui est indépendant d'un système d'alimentation électrique et qui fournit de l'énergie électrique à l'appareil (20). L'appareil (20) comprend : un dispositif de génération de brume (21) qui est fixé à la couverture (11) et qui pulvérise une brume; un dispositif de formation de flux d'air (24) qui forme un flux d'air à l'intérieur de l'espace (13).
PCT/JP2016/000291 2015-01-29 2016-01-21 Bâtiment WO2016121347A1 (fr)

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JP2015015773A JP2016141932A (ja) 2015-01-29 2015-01-29 建物
JP2015-015773 2015-01-29

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US9910336B2 (en) 2010-12-08 2018-03-06 View, Inc. Spacers and connectors for insulated glass units
CN107965158A (zh) * 2017-12-10 2018-04-27 柳州市力万科技有限公司 可调温活动板房
US9958750B2 (en) 2010-11-08 2018-05-01 View, Inc. Electrochromic window fabrication methods
US10975612B2 (en) 2014-12-15 2021-04-13 View, Inc. Seals for electrochromic windows
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JP6942329B2 (ja) * 2017-02-28 2021-09-29 株式会社アイビルド ミスト発生装置
CN106968463B (zh) * 2017-04-17 2019-04-05 漯河食品职业学院 一种具有空气净化功能的观光凉亭
CN107990490B (zh) * 2017-10-23 2020-04-24 青岛海尔股份有限公司 一种空调共享式智能车站的运行方法
CN107957119B (zh) * 2017-10-23 2020-04-24 青岛海尔股份有限公司 空调共享式智能车站的运行方法
JP7148238B2 (ja) * 2017-12-04 2022-10-05 株式会社日建設計 簡易休憩施設
JP7065296B2 (ja) * 2018-01-16 2022-05-12 パナソニックIpマネジメント株式会社 冷却装置
KR101992157B1 (ko) * 2019-02-07 2019-06-25 신헌정 쿨링 휴계 시설물
JP6841459B1 (ja) * 2020-06-12 2021-03-10 株式会社Catalyst 情報処理システム、方法及びプログラム
JP7472076B2 (ja) 2021-04-30 2024-04-22 日本ギア工業株式会社 電動弁駆動装置の給電方法および電動弁駆動装置

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US11067869B2 (en) 2009-12-22 2021-07-20 View, Inc. Self-contained EC IGU
US11927866B2 (en) 2009-12-22 2024-03-12 View, Inc. Self-contained EC IGU
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US11960189B2 (en) 2010-12-08 2024-04-16 View, Inc. Spacers for insulated glass units
US10975612B2 (en) 2014-12-15 2021-04-13 View, Inc. Seals for electrochromic windows
US11555346B2 (en) 2014-12-15 2023-01-17 View, Inc. Seals for electrochromic windows
CN107965158A (zh) * 2017-12-10 2018-04-27 柳州市力万科技有限公司 可调温活动板房

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