JP2017179982A - Curtain wall - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a curtain wall of a double skin structure capable of enhancing a heat exhausting property of an intermediate air layer.SOLUTION: A curtain wall 10 arranged in an outer periphery of a building 100 includes: an outdoor side glass panel 16 arranged in an outdoor side of the building 100; an indoor side glass panel 18 arranged in an indoor side of the building 100 with a predetermined interval with respect to the outdoor side glass panel 16; and an intermediate air layer 20 formed between the outdoor side glass panel 16 and the indoor side glass panel 18. An upper portion 16a of the outdoor side glass panel 16 can be opened and closed.SELECTED DRAWING: Figure 4

Description

  The present invention relates to a curtain wall, and more particularly to a curtain wall having a double skin structure.

  Conventionally, a double skin structure provided with an indoor side glass panel called an inner skin and an outdoor side glass panel called an outer skin, and having an intermediate air layer between the indoor side glass panel and the outdoor side glass panel The curtain wall is known (see, for example, Patent Document 1).

  In the curtain wall having a double skin structure, the intermediate air layer functions as a heat insulating layer in winter, so that the heating efficiency on the indoor side can be improved. On the other hand, by ventilating the air in the intermediate air layer in summer, the temperature rise of the intermediate air layer due to radiation from glass panels heated by direct sunlight and blinds placed in the intermediate air layer, etc., can be mitigated Since it is possible to suppress the flow of these heats into the room, the cooling efficiency on the indoor side can be improved.

  In a curtain wall having a double skin structure, in order to ventilate the air in the intermediate air layer, ventilating ports communicating with the outside are usually provided above and below the intermediate air layer. Since buoyancy is generated in the air heated in the intermediate air layer, the air in the upper and lower ventilation ports can be circulated to exhaust the heat in the intermediate air layer to the outside.

JP 2011-111833 A

  In the curtain wall having the double skin structure as described above, it becomes a problem to improve the exhaust heat property of the intermediate air layer.

  This invention is made | formed in view of such a subject, The objective is to provide the curtain wall of the double skin structure which can improve the exhaust heat property of an intermediate | middle air layer.

  In order to solve the above-described problem, a curtain wall according to an aspect of the present invention is a curtain wall disposed on the outer periphery of a building, and includes an outdoor glass panel disposed on the outdoor side of the building, and an outdoor glass panel And an indoor side partition member disposed on the indoor side of the building, and an intermediate air layer formed between the outdoor side glass panel and the indoor side partition member. At least a part of the outdoor glass panel is configured to be openable and closable.

  ADVANTAGE OF THE INVENTION According to this invention, the curtain wall of the double skin structure which can improve the exhaust heat property of an intermediate | middle air layer can be provided.

It is a schematic sectional drawing of the building where the curtain wall which concerns on embodiment of this invention was attached. It is a figure for demonstrating the structure of the upper part of an outdoor side glass panel. It is a figure which shows the modification of the upper part of an outdoor side glass panel. It is a figure for demonstrating the use condition of the curtain wall in summer.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. The same or equivalent components, members, and processes shown in the drawings are denoted by the same reference numerals, and repeated descriptions are omitted as appropriate. The embodiments do not limit the invention but are exemplifications, and all features and combinations thereof described in the embodiments are not necessarily essential to the invention.

  FIG. 1 is a schematic cross-sectional view of a building to which a curtain wall according to an embodiment of the present invention is attached.

  The building 100 includes a floor slab 102, a floor material 104 disposed above the floor slab 102, a ceiling material 106 disposed below the floor slab 102, and a curtain wall 10 disposed on the outer periphery of the building 100. Have In this building 100, the space between the floor material 104 and the ceiling material 106 is a living space (indoor) 108 of the building 100, and the boundary between the lower floor ceiling 7 and the upper floor material 104 is the boundary between the upper and lower floors. 110.

  The curtain wall 10 according to the present embodiment is a curtain wall having a double skin structure. The curtain wall 10 has a vision part 12 and a spandrel part 14. The vision unit 12 is disposed so as to face the living space 108. The spandrel part 14 is disposed so as to face the boundary part 110. The vision part 12 and the spandrel part 14 are alternately arranged in the vertical direction.

  The vision unit 12 of the curtain wall 10 includes an outdoor glass panel 16 disposed on the outdoor side of the building 100 and an indoor glass panel 18 as an indoor partition member disposed on the indoor side of the building 100. The indoor side glass panel 18 and the outdoor side glass panel 16 are arranged in parallel with each other at a predetermined interval. An intermediate air layer 20 is formed between the outdoor glass panel 16 and the indoor glass panel 18. A blind 22 may be disposed in the intermediate air layer 20. When the blind 22 is disposed, the blind 22 serves as an indoor partition member, and the intermediate air layer 20 serves as a space between the outdoor glass panel 16 and the blind 22.

  In the present embodiment, the outdoor side glass panel 16 of the vision unit 12 is a two-stage window, and an upper part 12a disposed near the ceiling of the vision unit 12 and a lower part disposed below the upper part 12a. Part 12b. The upper portion 16a of the outdoor glass panel 16 is attached to a frame body composed of horizontal frames 24 and 25 and two vertical frames (not shown). The lower portion 16b of the outdoor glass panel 16 is attached to a frame body composed of horizontal frames 25 and 26 and two vertical frames (not shown). These frames are attached to the vertical 30 fixed to the housing of the building 100. A vent hole 28 is provided in the horizontal frame 26 located below the intermediate air layer 20. The ventilation port 28 communicates the intermediate air layer 20 and the outside.

  The spandrel part 14 of the curtain wall 10 includes an outdoor glass panel 32 disposed on the outdoor side of the building 100 and a fireproof board 34 disposed on the indoor side of the building 100. The fireproof boards 34 are arranged in parallel to each other with a predetermined distance from the outdoor glass panel 32. An intermediate air layer 36 is formed between the outdoor glass panel 16 and the indoor glass panel 18. The outdoor side glass panel 32 is a building material-integrated solar battery panel including a photovoltaic power generation module. A partition member 38 is provided between the intermediate air layer 36 of the spandrel unit 14 and the intermediate air layer 20 of the vision unit 12 to separate them.

  In this embodiment, the outdoor side glass panel 16 of the vision part 12 and the outdoor side glass panel 32 of the spandrel part 14 are building material integrated solar cell panels provided with a photovoltaic power generation module. The photovoltaic power generation module converts sunlight SL into electric power. The electric power generated by the photovoltaic power generation module is stored in, for example, the battery 31 disposed between the floor slab 102 and the floor material 104. The battery 31 may be a lithium ion battery, for example. The electric power stored in the battery 31 is used to turn on the task lighting device 33, for example.

  FIG. 2 is a view for explaining the configuration of the upper portion 16 a of the outdoor glass panel 16.

  As described above, the outdoor glass panel 16 of the present embodiment is a building material-integrated solar battery panel including a photovoltaic power generation module. The solar power generation module is a module in which a plurality of solar cells 40 are arranged vertically and horizontally, and converts sunlight SL into electric power. In the present embodiment, the outdoor glass panel 16 is configured as a double-glazed glass in which a space 43 is provided between a pair of glass plates 41 and 42 and dry air is sealed in the space 43. It is not limited to, Single layer glass and laminated glass may be sufficient.

  In the curtain wall 10 according to the present embodiment, the upper portion 16a of the outdoor glass panel 16 is configured to be openable and closable. As shown in FIG. 2, the upper portion 16a of the outdoor glass panel 16 is configured to be provided with a rotating shaft 45 at an upper portion 44a of a frame surrounding the glass panel and to open the lower portion 44b of the frame by protruding outside. In other words, the upper portion 16a of the outdoor glass panel 16 opens so that the light receiving surface of the photovoltaic power generation module faces upward.

  The upper portion 16a of the outdoor glass panel 16 may be configured to be opened and closed by a drive mechanism (not shown) including a motor. Alternatively, the upper portion 16a of the outdoor glass panel 16 can be opened and closed by an urging means for applying an urging force in the opening direction of the panel and a locking means for holding the panel closed against the urging force. It may be configured. The angle at which the upper portion 16a of the outdoor glass panel 16 opens is not particularly limited, but may be, for example, about 5 degrees to 45 degrees.

  The configuration of the upper portion 16a of the outdoor glass panel 16 is not particularly limited as long as it can be opened and closed. FIG. 3 is a view showing a modification of the upper portion 16 a of the outdoor glass panel 16. In the upper portion 16a of the outdoor glass panel 16 shown in FIG. 3, a rotation shaft 45 is provided at the central portion of the portion, and the upper portion 16a is opened by rotating the upper portion 16a around the rotation shaft 45. Yes.

  FIG. 4 is a diagram for explaining a use state of the curtain wall 10 in the summer. As shown in FIG. 4, the upper portion 16 a of the outdoor glass panel 16 is opened in a hot period such as summer. The outside air that has flowed into the intermediate air layer 20 from the lower ventilation port 28 absorbs the heat radiated from the outdoor glass panel 16 and the blind 22 heated by the sunlight SL. Since buoyancy is generated in the warmed air, the outside air rises in the intermediate air layer 20. The outside air rising in the intermediate air layer 20 flows out from the open portion of the upper portion 16 a of the outdoor glass panel 16. In this way, the heat of the outdoor glass panel 16 and the blind 22 can be exhausted to the outside and it is possible to suppress the flow of these heat to the living space 108. Cooling efficiency can be improved.

  As described above, the curtain wall 10 according to the present embodiment is configured to open the upper portion 16a of the outdoor glass panel 16 and allow the outside air to flow out. Thereby, since a large amount of outside air can be discharged | emitted from the intermediate | middle air layer 20 to the outdoor, the exhaust heat property of the intermediate | middle air layer 20 can be improved.

  Moreover, the photovoltaic power generation module generally has the maximum power generation efficiency when the light receiving surface is perpendicular to sunlight. By opening the upper portion 16a of the outdoor glass panel 16 in the summer when the solar altitude is high, the light-receiving surface of the photovoltaic power generation module provided in the portion approaches perpendicular to sunlight, so that the power generation efficiency can be improved. it can.

  Furthermore, since the upper part 16a of the outdoor side glass panel 16 opens, the said part functions as a bag, Therefore The sunlight SL of summer can be shielded.

  On the other hand, in a cold time such as winter, the upper portion 16a of the outdoor glass panel 16 is closed as shown in FIG. Thereby, since the intermediate | middle air layer 20 functions as a heat insulation layer, the heating efficiency of the living space 108 can be improved.

  Moreover, in winter when the sunlight level is low, high power generation efficiency can be obtained even when the upper portion 16a of the outdoor glass panel 16 is closed.

  Further, in the winter, the warm air of the intermediate air layer 20 may be sent into the living space 108. For example, as shown in FIG. 1, a gap may be provided between the lower end of the indoor side glass panel 18 and the floor material 104, and the fan 46 may be disposed in the gap. The air heated by the intermediate air layer 20 by the fan 46 is sent into the living space 108, whereby the heating efficiency of the living space 108 can be increased. Moreover, the upper part of the indoor side glass panel 18 may be configured to open and close, or a gap may be provided between the upper end of the indoor side glass panel 18 and the ceiling material 106. Also in this case, since the warm air of the intermediate air layer 20 flows into the living space 108, the heating efficiency of the living space 108 can be improved.

  Opening and closing of the upper portion 16a of the outdoor glass panel 16 may be performed manually or automatically. For example, it is possible to maintain high power generation efficiency by automatically controlling the opening angle of the upper portion 16a in accordance with a change in sunlight intensity.

  The present invention has been described based on the embodiments. It will be understood by those skilled in the art that this embodiment is an exemplification, and that various modifications and changes can be made within the scope of the claims of the present invention, and such modifications and changes are also within the scope of the claims of the present invention. It is a place. Accordingly, the description and drawings herein are to be regarded as illustrative rather than restrictive.

  The following invention is recognized from the above description.

  A curtain wall according to an aspect of the present invention is a curtain wall disposed on an outer peripheral portion of a building, and has an outdoor glass panel disposed on the outdoor side of the building, and a predetermined distance from the outdoor glass panel. And an indoor partition member disposed on the indoor side of the building, and an intermediate air layer formed between the outdoor glass panel and the indoor partition member. At least a part of the outdoor glass panel is configured to be openable and closable. The indoor partition member may be, for example, a glass panel or a blind.

  According to this aspect, since a large amount of air can be discharged from the middle air layer to the outside from the openable and closable portion of the outer glass panel, the exhaust heat performance of the middle air layer can be enhanced.

  The curtain wall may include a vision part facing the living space of the building and a spandrel part facing the boundary part between the upper and lower floors of the building. The openable / closable part of the outdoor glass panel may be provided in an upper part of the vision part.

  The openable / closable part of the outdoor glass panel may include a photovoltaic power generation module.

  The openable / closable part of the outdoor glass panel may be opened so that the light receiving surface of the photovoltaic power generation module faces upward.

  10 curtain wall, 12 vision part, 14 spandrel part, 16 outdoor glass panel, 18 indoor side glass panel, 20 middle air layer, 22 blind, 28 vent, 30 stand, 31 battery, 33 task lighting device, 100 building , 102 floor slab, 104 flooring, 106 ceiling material, 108 living space, 110 boundary part.

Claims (4)

A curtain wall placed on the outer periphery of the building,
An outdoor glass panel disposed on the outdoor side of the building;
A room-side partition member disposed on the indoor side of the building, with a predetermined distance from the outdoor glass panel;
An intermediate air layer formed between the outdoor glass panel and the indoor partition member;
With
A curtain wall characterized in that at least a part of the outdoor glass panel is configured to be openable and closable. The curtain wall includes a vision part facing the living space of the building, and a spandrel part facing a boundary part of the upper and lower floors of the building,
The curtain wall according to claim 1, wherein the openable and closable portion of the outdoor glass panel is provided in an upper portion of the vision unit.   The curtain wall according to claim 1, wherein the openable / closable portion of the outdoor glass panel includes a photovoltaic power generation module.   The curtain wall according to claim 3, wherein the openable / closable part of the outdoor glass panel is opened so that a light receiving surface of the photovoltaic power generation module faces upward.

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