JP5280339B2 - Curtain wall unit and curtain wall - Google Patents

Description

  The present invention relates to a curtain wall unit arranged in parallel to the outer periphery of a building, and a curtain wall including the curtain wall unit, and more particularly to a double skin curtain wall unit and a curtain wall.

  The curtain wall only has to be mounted on the building frame with a pre-assembled curtain wall unit with metal fittings. In addition to being excellent in workability, it can meet the recent demands for glass-based appearance. It is increasingly used in buildings.

  The curtain wall unit has a single skin curtain wall that separates the interior and the exterior by a single glass panel, and a double that partitions the interior and exterior by a plurality of (usually two) glass panels arranged in parallel with a predetermined gap between the interior and exterior. There is a skin curtain wall. In this double skin curtain wall, a hollow layer is formed between the glass panel arranged on the outdoor side and the glass panel arranged on the indoor side. With such a hollow layer, it functions as a heat insulating layer in cold seasons such as winter, and the indoor heating efficiency can be improved. On the other hand, in hot seasons such as summer, by ventilating the air in the hollow layer, it is possible to mitigate the temperature rise of glass panels heated by direct sunlight and blinds placed in the hollow layer. Since it becomes possible to suppress that the heat | fever flows into a room | chamber interior, the air_conditioning | cooling efficiency of a room inner side can be improved.

  The structure of the curtain wall unit that can improve the cooling and heating efficiency as described above from the viewpoint of realizing energy saving in order to reduce greenhouse gas emissions in response to the need to suppress global warming in recent years. Is more important than ever.

  By the way, in the double skin curtain wall unit, since the glass panels are juxtaposed in the indoor and outdoor directions, it is absolutely necessary to divide the space on the indoor side. Therefore, it is desirable to make the installation space as thin as possible. However, when the thickness is reduced in this way, the hollow layer becomes narrower, and the above-described ventilation efficiency tends to be deteriorated due to a decrease in the amount of ventilation and an increase in ventilation resistance.

  Patent Document 1 is disclosed as means for ventilating the hollow layer. In the curtain wall described in Patent Document 1, a lower horizontal frame forming the frame body and a ventilation port communicating with the hollow layer are provided in the upper horizontal frame, and air can be circulated between the upper and lower ventilation ports.

  Moreover, in the curtain wall unit (double-window unit) described in Patent Document 2, a plurality of holes communicating with the hollow layer are provided along the vertical frame of the frame body, and thereby the inside of the hollow layer can be ventilated. Has been.

Japanese Patent No. 4325806 JP 2006-2395 A

  However, in the curtain wall described in Patent Document 1, the ventilation port arranged in the upper horizontal frame of a certain curtain wall unit and the ventilation port arranged in the lower horizontal frame of the curtain wall adjacent thereto are provided. Adjacent to each other vertically. Therefore, a so-called short circuit in which the air flowing out from the lower curtain wall unit flows into the upper curtain wall unit again easily occurs, and the ventilation efficiency is reduced. In addition, since the upper and lower horizontal frames having ventilation openings overlap, the horizontal frame portion becomes thick when formed as a curtain wall, which is not preferable in appearance.

  On the other hand, in the curtain wall described in Patent Document 2, since all of the plurality of ventilation openings are formed in the vertical frame, it is possible to prevent the horizontal frame from becoming thick, and a plurality of holes are provided. Therefore, it is possible to reduce short circuits. However, there was still a short circuit problem because the air flow was on the same line in the vertical direction.

  In view of the above problems, an object of the present invention is to provide a curtain wall unit that can prevent a short circuit and has an excellent appearance, and a curtain wall including the unit.

  The present invention will be described below. In order to facilitate understanding of the present invention, reference numerals in the accompanying drawings are appended in parentheses, but the present invention is not limited to the illustrated embodiment.

  Invention of Claim 1 is a curtain wall unit (10A, 10B) arrange | positioned at the outer peripheral part of a building, Comprising: A horizontal frame (40, 50, 60) and a vertical frame (20A, 30A, 20B, 30B) A first glass panel (70) disposed in a frame defined by the frame, a first glass panel (70), and a first glass panel having a predetermined interval, A second glass panel (75) disposed in a frame that is disposed with the surface facing one side of the glass panel and is partitioned by the frame, and the frame, the first glass panel, and A hollow layer (P) surrounded by a second glass panel is formed, and one vertical frame (20Aa, 30Ba) leading to the hollow layer is provided in one vertical frame of the vertical frame of the frame. And the other vertical frame of the vertical frame leads to the hollow layer and the first The second flow port higher than passing opening position (30Aa, 20Ba) are provided one, a curtain wall unit.

  The invention according to claim 2 is the curtain wall unit (10A, 10B) according to claim 1, wherein the vertical frame (20A, 30A, 20B, 30B) has water penetrating into the hollow layer (P). Water intrusion prevention means (90, 190, 290, 390) for preventing water is provided.

  The invention according to claim 3 is a curtain wall in which the curtain wall unit (10A, 10B) according to claim 1 or 2 is formed in parallel vertically and horizontally along the outer periphery of the building, and is arranged on the left and right. The vertical wall (20Aa, 30Ba) provided with the first circulation port (20Aa, 30Ba) is combined with the vertical wall (30Aa, 20Ba) provided between the curtain wall units. 30A, 20B) is a curtain wall characterized by being combined.

According to the curtain wall unit and the curtain wall of the present invention, a short circuit can be prevented with respect to ventilation in the hollow layer, and a temperature rise in the hollow layer can be suppressed to a low level. Thereby, it becomes possible to contribute to energy saving.
Moreover, regarding the external appearance, it can suppress that a horizontal frame becomes thick, and can provide the curtain wall unit and curtain wall excellent in the external appearance.

It is the outdoor view front view of the curtain wall which concerns on one embodiment. It is the figure which paid its attention to two curtain wall units adjacent horizontally. FIG. 3 is a cross-sectional view taken along the line III-III in FIG. FIG. 4 is a cross-sectional view taken along the line IV-IV in FIG. FIG. 5 is a cross-sectional view taken along line V-V in FIG. FIG. 4 is a cross-sectional view taken along the line VI-VI in FIG. It is arrow sectional drawing shown by VII-VII in FIG. FIG. 2 is a cross-sectional view taken along arrow VIII-VIII in FIG. It is the figure which paid its attention to the water intrusion prevention means. It is the figure which paid its attention to the water penetration | invasion prevention means 190. FIG. It is the figure which paid its attention to the water penetration | invasion prevention means 290. FIG. It is the figure which paid its attention to the water intrusion prevention means 390.

  The above-described operation and gain of the present invention will be clarified from embodiments for carrying out the invention described below. Hereinafter, the present invention will be described based on embodiments shown in the drawings.

  FIG. 1 shows a part of the exterior of a building in which a curtain wall according to one embodiment is configured. As can be seen from FIG. 1, a curtain wall which is an aspect of a building outer wall is formed by attaching a plurality of curtain wall units 10A, 10A,..., 10B, 10B,. The In this embodiment, as can be seen from FIG. 1, the curtain wall units 10A and the curtain wall units 10B are alternately arranged in the horizontal direction, and the curtain wall units 10A, 10A,. , ... are in parallel.

FIG. 2 shows a front view of an external appearance paying attention to two curtain wall units 10A and 10B adjacent in the horizontal direction.
3 is a sectional view taken along the line III-III in FIG. 2, FIG. 4 is a sectional view taken along the line IV-IV in FIG. 2, and FIG. 5 is a sectional view taken along the line VV in FIG. 6, FIG. 6 is a cross-sectional view taken along the line VI-VI in FIG. 2, FIG. 7 is a cross-sectional view taken along the line VII-VII in FIG. 2, and FIG. The cross-sectional views shown are shown respectively. 3 and 5, the left side of the drawing is the outdoor side, and the right side of the drawing is the indoor side. 4 and 6, the right side of the drawing is the outdoor side, and the left side of the drawing is the indoor side. In FIGS. 7 and 8, the lower side of the paper is the outdoor side, and the upper side of the paper is the indoor side.
The curtain wall units 10A and 10B will be described with reference to FIGS.

  The curtain wall unit 10A and the curtain wall unit 10B differ only in the positions of the slits 20Aa, 30Aa, 20Ba, and 30Ba as flow openings in the vertical frames 20A, 30A, 20B, and 30B, and other shapes (for example, cross-sectional shapes, etc.) ) Is common. Therefore, first, the form of the curtain wall units 10A and 10B at portions other than the slits 20Aa, 30Aa, 20Ba, and 30Ba will be described by using the curtain wall unit 10A as a representative. And the aspect of slit 20Aa, 30Aa, 20Ba, and 30Ba is demonstrated after that.

  As can be seen from FIG. 2, the curtain wall unit 10 </ b> A includes a frame 15, an outdoor side glass panel 70 disposed in a frame defined by the frame 15, and an indoor side glass panel 75 (see FIGS. 3 and 4). ) And a spandrel glass panel 80 and a board 85 (see FIGS. 3 and 4).

The frame 15 is configured by combining a vertical frame 20A, a vertical frame 30A, and a horizontal frame, an upper horizontal frame 40, a lower horizontal frame 50, and an intermediate horizontal frame 60 into a rectangular frame shape. Here, in the curtain wall unit 10B, the vertical frame 20B corresponds to the vertical frame 20A, and the vertical frame 30B corresponds to the vertical frame 30A.
As can be clearly understood from FIG. 2, a frame shape is formed by the vertical frames 20 </ b> A, 30 </ b> A, the upper horizontal frame 40, and the lower horizontal frame 50, and the intermediate horizontal frame 60 is interposed between the upper horizontal frame 40 and the lower horizontal frame 50. It arrange | positions so that 20A and 30A may be passed and divided. As a result, the first partition 11 defined by the vertical frames 20A and 30A, the intermediate horizontal frame 60, and the lower horizontal frame 50, and the second partitioned by the vertical frames 20A and 30A, the upper horizontal frame 40, and the intermediate horizontal frame 60. A partition 12 is formed. The 1st division part 11 is arrange | positioned in the site | part corresponding to the building outer peripheral part of the living space of a building, and the 2nd division part 12 is arrange | positioned in the site | part corresponding to the ceiling and floor of each floor, and may be called a spandrel part. .

  The upper horizontal frame 40 has a cross section shown in FIGS. 3 and 4 (however, the upper horizontal frame 40 is located above the curtain wall 10A disposed below the curtain wall 10A shown by the solid line in FIG. This is a horizontal frame 40. The cross section is the same, and will be described here for ease of explanation.), And has a piece 41 extending in the indoor / outdoor direction (prospective direction). Further, a glass panel mounting portion 42 that receives the upper end portion of the spandrel portion glass panel 80 is provided on the outdoor side of the piece 41, and a board mounting portion 43 that receives the upper end portion of the board 85 is provided on the indoor side. Further, on the upper surface side of the piece 41, there is an engaged portion 44 with which the convex portion 54 of the lower horizontal frame 50 of the curtain wall unit 10A adjacent to the upper side engages.

As shown in FIGS. 3 and 4, the lower horizontal frame 50 has a piece 51 extending in the indoor / outdoor direction (prospective direction). A glass panel mounting portion 52 that receives the lower end portion of the outdoor side glass panel 70 is provided on the outdoor side of the piece 51, and a glass panel mounting portion 53 that receives the lower end portion of the indoor side glass panel 75 is provided on the indoor side. .
Further, on the lower surface side of the piece 51, there is a convex portion 54 that engages with the engaged portion 44 of the upper horizontal frame 40 of the curtain wall unit 10A adjacent below.

As shown in FIGS. 3 and 4, the intermediate horizontal frame 60 has a piece 61 extending in the indoor / outdoor direction (prospective direction). A glass panel mounting portion 62 for receiving the upper end portion of the outdoor side glass panel 70 is provided on the outdoor side of the piece 61, and a glass panel mounting portion 63 for receiving the upper end portion of the indoor side glass panel 75 is provided on the indoor side. . A blind 13 is attached to the lower surface of the piece 61 so as to hang down.
Further, a glass panel mounting portion 64 that receives the lower end portion of the spandrel portion glass panel 80 is provided on the outdoor side of the piece 61, and a board mounting portion 65 that receives the lower end portion of the board 85 is provided on the indoor side.

As shown in FIG. 7, the vertical frame 20 </ b> A has a piece 21 that extends in the indoor / outdoor direction (expected direction). A glass panel mounting portion 22 that receives a side end portion of the outdoor side glass panel 70 is provided on the outdoor side of the piece 21, and a glass panel mounting portion 23 that receives a side end portion of the indoor side glass panel 75 is provided on the indoor side. Is done.
Of the surfaces of the piece 21, when combined with the curtain wall unit 10B adjacent in the horizontal direction, the piece 24 extending in the direction of finding from the surface facing the adjacent curtain wall unit 10B, and the piece 24 has a piece 25 disposed on the indoor side.

As shown in FIG. 8, the vertical frame 30 </ b> A has a piece 31 that extends in the indoor / outdoor direction (expected direction). A glass panel mounting portion 32 that receives a side end portion of the outdoor side glass panel 70 is provided on the outdoor side of the piece 31, and a glass panel mounting portion 33 that receives a side end portion of the indoor side glass panel 75 is provided on the indoor side. Is done.
Of the surfaces of the pieces 31, when combined with the adjacent curtain wall unit 10B, from the surface facing the adjacent curtain wall unit 10B, there are a piece 34 extending in the direction of finding, and a chamber from the piece 34. It has the piece 35 arrange | positioned inside. Packing is provided at the tip of each of the pieces 34 and 35.

  The outdoor side glass panel 70 is a 1st glass panel arrange | positioned among the 1st division parts 11 of the said frame 15 on the outdoor side so that FIGS. Accordingly, the four sides are attached to the glass panel attachment portions 22, 32, 52, and 62 of the vertical frame 20A, the vertical frame 30A, the lower horizontal frame 50, and the intermediate horizontal frame 60 together with the packing material while ensuring watertight and airtightness. ing.

  As can be seen from FIGS. 3 to 8, the indoor-side glass panel 75 is a second glass panel disposed on the indoor side in the first partition portion 11 of the frame body 15, and is a multilayer glass panel. . Therefore, the outdoor side glass panel 70 and the indoor side glass panel 75 are arranged in parallel with a predetermined interval inside and outside the room. On the four sides of the indoor side glass panel 75, watertight and airtightness is secured together with a packing material on the glass panel mounting portions 23, 33, 53, 63 of the vertical frame 20A, the vertical frame 30A, the lower horizontal frame 50, and the intermediate horizontal frame 60, respectively. Attached.

  As can be seen from FIGS. 2 to 8, the spandrel glass panel 80 is a glass panel disposed on the outdoor side of the second partition part 12 of the frame 15. Therefore, the four sides are attached to the glass panel attachment portions 22, 32, 42, and 64 of the vertical frame 20A, the vertical frame 30A, the upper horizontal frame 40, and the intermediate horizontal frame 60 together with the packing material so as to be watertight and airtight. ing.

  As can be seen from FIGS. 3 to 8, the board 85 is a plate-like member that is disposed on the indoor side in the second partition portion 12 of the frame 15 and conceals the inside from the outdoor view. Therefore, the spandrel portion glass panel 80 and the board 85 are arranged in parallel with a predetermined interval inside and outside the room. The four sides of the board 85 are attached to the vertical frame 20A, the vertical frame 30A, the upper horizontal frame 40, and the intermediate horizontal frame 60 together with a packing material in a watertight and airtight manner.

  In the curtain wall unit 10A combined as described above, as can be seen from FIG. 3 to FIG. 8, in the first partition 11, the four sides are the vertical frame 20A, the vertical frame 30A, the intermediate horizontal frame 60, and the lower horizontal frame. A hollow layer P is formed which is surrounded by 50 and whose indoor and outdoor surfaces are closed by the outdoor side glass panel 70 and the indoor side glass panel 75.

Next, the slits 20Aa, 30Aa, 20Ba, and 30Ba as distribution ports will be described.
As can be seen from FIGS. 2 and 4, the slit 20 </ b> Aa is a portion that faces the hollow layer P of the curtain wall unit 10 </ b> A in the vertical frame 20 </ b> A, and is a first circulation port that is disposed below the hollow layer P. . The slit 20Aa penetrates the piece 21 and communicates the inside and the outside of the hollow layer P of the curtain wall unit 10A.
As can be seen from FIGS. 2 and 3, the slit 30 </ b> Aa is a portion of the vertical frame 30 </ b> A that faces the hollow layer P of the curtain wall unit 10 </ b> A and is a second circulation port that is disposed above the hollow layer P. . The slit 20Aa passes through the piece 31, and communicates the inside and the outside of the hollow layer P of the curtain wall unit 10A.
Here, the slit 30Aa is disposed at a position higher than the slit 20Aa. The height difference between the slit 20Aa and the slit 30Aa is not particularly limited. However, as will be described later, since air flows out from the slit 30Aa due to buoyancy due to a decrease in air density, it is preferable that the height difference be as large as possible.

Further, the opening areas of the slits 20Aa and 30Aa are determined from the viewpoint of smooth air inflow / outflow. As one example of determining the opening area, the size of the opening area can be obtained from the idea of the equivalent opening area. The equivalent opening area means an area effective for ventilation, is represented by αA (cm ² ), and is obtained from the following equation (1).
αA = 2.78 (γ / 2g) ^1/2 · Q ₀ · (Δp) ^{(1 / n−0.5)} (1)
Here, γ is the density of air (kg / m ³ ), Q ₀ is the air leakage amount Q (m ³ / h) when the internal / external differential pressure Δp = 1 mmAq (9.8 Pa), and g is the acceleration of gravity (m / s ² ), n is a coefficient representing the gap characteristic (1 when laminar flow, takes a value of 2 when turbulent), and α is a flow coefficient.

On the other hand, the slit 20Ba provided in the curtain wall unit 10B is a portion of the vertical frame 20B facing the hollow layer P of the curtain wall unit 10B, as can be seen from FIGS. It is the 2nd distribution port arranged at the upper part. The slit 20Ba penetrates the piece 21, and communicates the inside and the outside of the hollow layer P of the curtain wall unit 10B.
As can be seen from FIGS. 2 and 5, the slit 30Ba is a portion of the vertical frame 30B that faces the hollow layer P of the curtain wall unit 10B and is a first distribution port that is disposed below the hollow layer P. . The slit 20Ba penetrates the piece 31 and communicates the inside and the outside of the hollow layer P of the curtain wall unit 10B.
Here, the slit 20Ba is disposed at a position higher than the slit 30Ba. The height difference between the slit 20Ba and the slit 30Ba is not particularly limited. However, as will be described later, air is caused to flow out of the slit 20Ba by buoyancy due to a decrease in air density, and therefore it is preferable that there is a height difference as large as possible.
Since the sizes of the openings of the slits 20Ba and 30Ba are the same as those of the slits 20Aa and 20Ba, the description thereof is omitted.

  In this embodiment, when the intermediate horizontal frame 60 reaches a position where it is exposed to the outdoor side, the first partition 11 and the second partition 12 have different glass panels (outdoor glass panel 70 and spandrel glass panel 80). And arranged. However, the present invention is not limited to this. For example, if watertight airtightness is taken in the first partition and the second partition, the intermediate horizontal frame is not exposed to the outdoor side, and the first partition and the second partition May have a common outdoor glass panel.

When the above-described curtain wall units 10A and 10B are combined with other curtain wall units 10A and 10B, the following operation is performed.
A curtain wall unit 10A and a curtain wall unit 10A combined adjacently below this are well shown in FIGS. That is, the convex portion 54 provided on the lower horizontal frame 50 of the curtain wall unit 10A arranged on the upper side becomes the engaged portion 44 provided on the upper horizontal frame 40 of the curtain wall unit 10A arranged on the lower side. Engage. Similarly, as clearly shown in FIGS. 5 and 6, the convex portion 54 provided on the lower horizontal frame 50 of the curtain wall unit 10 </ b> B disposed on the upper side of the curtain wall unit 10 </ b> B disposed on the lower side. Engage with the engaged portion 44 provided in the upper horizontal frame 40.

On the other hand, combinations of curtain wall units 10A and 10B adjacent in the horizontal direction are as follows, as shown in FIG. That is, the piece 34 of the vertical frame 30B of the curtain wall unit 10B adjacent to the piece 24 of the vertical frame 20A of the curtain wall 10A is closely attached via the packing. Similarly, the piece 35 of the vertical frame 30B of the curtain wall unit 10B adjacent to the piece 25 of the vertical frame 20A is brought into intimate contact with each other through packing. Moreover, the glass panel attachment part 23 and the glass panel attachment part 33 of the vertical frame 30B of the curtain wall unit 10B adjacent to this are closely_contact | adhered via packing.
At this time, the hollow layers P and P, the slits 20Aa and 30Ba, and the flow path that passes outside are formed between the vertical frame 20A and the vertical frame 30B.

Similarly, as shown in FIG. 8, the piece 34 of the vertical frame 30A of the curtain wall unit 10A adjacent to the piece 24 of the vertical frame 20B of the curtain wall 10B is brought into close contact via the packing. Further, the piece 35 of the vertical frame 30A of the curtain wall unit 10A adjacent to the piece 25 of the vertical frame 20B is brought into close contact with the piece via the packing. The glass panel attaching part 23 and the glass panel attaching part 33 of the vertical frame 30B of the curtain wall unit 10B adjacent to the glass panel attaching part 23 are brought into close contact with each other through packing.
At this time, the hollow layers P and P, the slits 20Ba and 30Aa, and the flow path that passes outside are formed between the vertical frame 20B and the vertical frame 30A.

  The above-described combination of the curtain walls 10A and 10B, and the slits 20Aa, 30Aa, 20Ba, and 30Ba that are provided, as shown in FIG. 20Aa and 30Ba are provided in vertical frames 20A and 30B which are combined to face each other. On the other hand, the slits 30Aa and 20Ba, which are the second circulation ports arranged at a high position of the hollow layer P, are provided in the vertical frames 30A and 20B which are combined to face each other.

According to the curtain wall formed in the building by the curtain wall units 10A, 10B,... As described above, the air inflow passage and the outflow passage are arranged in the vertical frame, so that the horizontal frame is prevented from becoming thick. can do. Therefore, it is possible to configure a curtain wall having an excellent appearance.
For example, when a single skin curtain wall and a double skin curtain wall are properly used depending on the direction of the outer wall facing in one building, the horizontal frame is unified in a preferable manner so that the lateral frame is not too thick. can do.
Further, by suppressing the thickening of the frame, the contamination is less and less noticeable. In particular, since there is no need for an exposed large water return member (so-called louver) for air supply and exhaust, it is possible to prevent defects in appearance due to the dirt. In addition to this, the structure of the members and vents has been simplified, and it has become possible to provide a curtain wall at a low cost.

According to the curtain wall including the curtain wall units 10A, 10B,..., The air in the hollow layer P is ventilated as follows. A description will be given with reference to FIGS.
First, the outdoor glass panel 70, the indoor glass panel 75, the blind 13 and the like are heated by solar radiation or the like, and the air in the hollow layer P is heated, so that the air in the hollow layer P is warmed and the density thereof is increased. Get smaller.
The air whose density is reduced in this way rises, and the air in the hollow layer P flows out so as to sequentially push out air from the slits 20Ba and 30Aa which are the second circulation ports of the vertical frames 20B and 30A. At this time, the air flows from the hollow layer P to the outside as indicated by Q, Q,... In FIGS.

  On the other hand, with the outflow of air from the hollow layer P, air flows so as to be sucked into the hollow layer P from the slits 20Aa and 30Ba which are the first circulation ports of the vertical frames 20A and 30B. This air flows into the hollow layers P and P from the outside as indicated by R, R,... In FIGS. The inflowing air is outside air, and has a temperature lower than at least the air heated by the hollow layers P and P, thereby cooling the outdoor side glass panel 70, the indoor side glass panel 75, the blind 13, and the like.

  The heating and air movement by the solar radiation as described above are repeatedly and continuously performed, so that the inside of the hollow layers P, P,... Is stabilized at a lower temperature than the case where there is no air movement, and the indoor cooling is performed. It is possible to suppress a decrease in efficiency.

Here, in the curtain wall by the curtain wall units 10A, 10B,..., The flow path for air to flow in and the flow path for air to flow out do not exist on the same line in the vertical direction (vertical direction). The air that has flowed out of the hollow layer P does not flow into the hollow layer P again. Thereby, a short circuit can be prevented and the air in the hollow layer P can be stabilized at a lower temperature.
In addition, with respect to the flow paths existing on the same line, a sufficient distance is secured because the second partition part (spandrel part) is arranged between the first partition parts in the curtain wall adjacent to the top and bottom, and a short circuit is provided. Can be prevented.

  In the curtain wall units 10A, 10B,... Of the present embodiment, the water intrusion prevention means 90 is provided to prevent rainwater from entering the hollow layers P, P,... From the slits 20Aa, 30Aa, 20Ba, 30Ba. Provided. This will be described with reference to FIG. FIG. 9 is an enlarged view focusing on the vertical frames 20A and 30B in FIG.

  The water intrusion prevention unit 90 includes a first member 91 and a second member 92. As can be seen from FIG. 9, the first member 91 is a member having a substantially L-shaped cross section. An attachment piece 91b is provided at the end of the first member 91 on the side of the piece 91a, which is one L-shaped piece, so as to be orthogonal to the piece 91a. Further, a plurality of protrusions 91d, 91d,... Are erected on the surface of the other L-shaped piece 91c side. Further, the end portion 91e of the piece 91c is bent in the same direction as the piece 91a side.

  On the other hand, the second member 92 includes three pieces 92a, 92b, and 92c formed in a polygonal line shape in its cross section.

As can be seen from FIG. 9, the first member 91 and the second member 92 include the piece 21, the piece 31, the pieces 24 and 34, and the glass panel attachment portions 22 and 32 when the curtain wall units 10 </ b> A and 10 </ b> B are combined. It is arranged in the space surrounded by. More details are as follows.
The first member 91 is attached to the vertical frame 30B, in which case the piece 91a extends in the prospective direction, and the piece 91c extends in the direction of the vertical frame 20A of the adjacent curtain wall unit 10A. And the protrusions 91d, 91d,... Of the piece 91c are directed to the side where the glass panel mounting portions 22, 32 are disposed. As can be seen from FIG. 9, the piece 91 c is formed so as to cross the prospective direction indoor side of the gap between the glass panel mounting portions 22 and 32.

  The second member 92 is attached to the vertical frame 20 </ b> A, and at this time, the piece 92 a is fixed to the indoor side surface of the glass panel attachment portion 22. Further, the piece 92b extends so as to incline indoors in the direction of the vertical frame 30B of the adjacent curtain wall unit 10B. The piece 92c further extends in the direction of the vertical frame 30B from the tip of the piece 92b. The second member 92 is formed by the pieces 92b and 92c so as to cross the interior side in the prospective direction of the gap between the glass panel mounting portions 22 and 32.

  According to the water intrusion preventing means 90 described above, even if rainwater enters between the glass panel mounting portions 22 and 32 from the direction indicated by T in FIG. 9, further intrusion of rainwater is suppressed by the second member 92. The Further, the first member 91 also suppresses further intrusion of rainwater and prevents intrusion of rainwater from the slits 20Aa and 30Ba into the hollow layers P and P.

  Here, since the protrusion 91d, 91d,... Is provided on the piece 91c of the second member 91 and the end 91e is also provided, the movement of rainwater is obstructed here, effectively preventing its entry. Yes.

Here, the water intrusion prevention means disposed between the vertical frame 20A and the vertical frame 30B has been described, but the water intrusion prevention means is also disposed between the vertical frame 30A and the vertical frame 20B, and similarly To prevent the intrusion.
The water intrusion prevention means 90 only needs to be installed near the position where the slits 20Aa and 30Ba are provided. Therefore, it is not necessary to extend over the entire length of the vertical frames 20A and 30B, and the length of the slit in the direction along the longitudinal direction of the vertical frames 20A and 30B is preferably about as long as 100 mm. Thereby, compared with the case where it extends over the full length of a longitudinal direction, cost can be suppressed and ventilation resistance can also be suppressed low.

  10-12 is a figure for demonstrating each of the water intrusion prevention means 190,290,390 of another form. 10 to 12 correspond to FIG.

The water intrusion prevention means 190 shown in FIG. 10 includes a first member 191 and a second member 192. Since the first member 191 and the second member 192 have symmetrical shapes, only the first member 191 will be described here.
As can be seen from FIG. 10, the first member 191 is a member having a substantially L-shaped cross section that is a piece 191 a that is short in the finding direction and a piece 191 b that is long in the prospective direction. The piece 191 a also serves as a piece for pressing the outdoor side surface of the side end portion of the outdoor side glass panel 70.
On the other hand, the piece 191b extends indoors from the end of the piece 191a to the space surrounded by the piece 21, the piece 31, the pieces 24 and 34, and the glass panel mounting portions 22 and 32. Here, the indoor side end of the piece 191b is bent in the direction of finding toward the side opposite to the piece 21 side. Further, a plurality of protrusions 191c, 191c,... Arranged in parallel in the prospective direction are provided from the surface of the piece 191b opposite to the side facing the piece 21.

  According to the water intrusion prevention means 190 described above, even if rainwater enters between the glass panel mounting portions 22 and 32 from the direction indicated by U in FIG. 10, it is narrow between the first member 191 and the second member 192. Since the space is formed long, the flow resistance is high, so that further intrusion of rainwater is suppressed. In addition, the protrusions 191c, 191c,..., 192c, 192c,. On the other hand, as is clear from FIG. 10, since the air flow passage is secured, the movement of air through the hollow layers P, P is not hindered.

  The water intrusion prevention unit 190 may be installed in the vicinity of the position where the slits 20Aa and 30Ba are provided. Therefore, it is not necessary to extend over the entire length of the vertical frames 20A and 30B, and it is preferable that the slits 20Aa and 30Ba have a length that is about the same as the length of the vertical frames 20A and 30B along the longitudinal direction. Thereby, compared with the case where it extends over the full length of a longitudinal direction, cost can be suppressed and ventilation resistance can also be suppressed low.

The water intrusion prevention means 290 shown in FIG. 11 includes a first member 291 and a second member 292. Since the first member 291 and the second member 292 have symmetrical shapes, only the first member 291 will be described here.
As can be seen from FIG. 11, the first member 291 is a piece that is provided at the corner on the indoor side of the glass panel mounting portion 22 and extends to the indoor side. Here, the indoor side end of the first member 291 is bent in the direction of finding toward the side opposite to the piece 21 side.

  According to the water intrusion prevention means 290 described above, even if rainwater enters between the glass panel mounting portions 22 and 32 from the direction indicated by V in FIG. 11, it is narrow between the first member 291 and the second member 292. Since the space is formed long, the flow resistance is high, so that further intrusion of rainwater is suppressed. On the other hand, as is clear from FIG. 11, since the air flow passage is secured, the movement of the air through the hollow layers P, P is not hindered.

  The water intrusion prevention means 290 may be installed in the vicinity of the position where the slits 20Aa and 30Ba are provided. Therefore, it is not necessary to extend over the entire length of the vertical frames 20A and 30B, and the length of the slit in the direction along the longitudinal direction of the vertical frames 20A and 30B is preferably about as long as 100 mm. Thereby, compared with the case where it extends over the full length of a longitudinal direction, cost can be suppressed and ventilation resistance can also be suppressed low.

  The water intrusion prevention means 390 shown in FIG. 12 includes a piece 391 and a piece 392. As can be seen from FIG. 12, the piece 391 is a piece that is provided at the outdoor corner of the glass panel attachment portion 32 and extends to the outdoor side. The piece 392 is a piece extending in the direction of finding from the outdoor front end portion of the piece 391. Here, the piece 392 is provided so as to cross the prospective direction outdoor side between the glass panel attachment portions 22 and 32. Therefore, according to the water intrusion prevention means 390, rainwater from the direction indicated by W in FIG. 12 hits the piece 392 and cannot enter between the glass panel mounting portions 22 and 32. On the other hand, as is clear from FIG. 12, since the air flow passage is secured, the movement of air through the hollow layers P, P is not hindered.

The water intrusion prevention means 390 may be installed near the position where the slits 20Aa and 30Ba are provided. Therefore, it is not necessary to extend over the entire length of the vertical frames 20A and 30B, and the length of the slit in the direction along the longitudinal direction of the vertical frames 20A and 30B is preferably about as long as 100 mm. Thereby, compared with the case where it extends over the full length of a longitudinal direction, cost can be suppressed and ventilation resistance can also be suppressed low.
However, since the water intrusion prevention means 390 appears exposed outside, the water intrusion prevention means 390 may extend along the longitudinal direction of the vertical frames 20A and 30B from the viewpoint of appearance. This also functions as the water intrusion prevention means 390.

  Although the present invention has been described in connection with embodiments that are presently practical and preferred, the invention is not limited to the embodiments disclosed herein, but is claimed. The curtain wall unit and the curtain wall on which the curtain wall unit is arranged can be changed as appropriate without departing from the scope or spirit of the invention that can be read from the entire scope of the specification and the specification. Should be understood as being included in the scope.

10A, 10B Curtain wall unit 15 Frame 20A, 30A, 20B, 30B Vertical frame 20Aa Slit (first distribution port)
20Ba slit (second distribution port)
30Aa slit (second distribution port)
30Ba slit (first distribution port)
40 Upper horizontal frame (horizontal frame)
50 Lower horizontal frame (horizontal frame)
60 Middle horizontal frame (horizontal frame)
70 Outdoor glass panel (first glass panel)
75 Indoor glass panel (second glass panel)
90, 190, 290, 390 Water intrusion prevention means

Claims (3)

A curtain wall unit arranged on the outer periphery of a building,
A frame formed by a horizontal frame and a vertical frame;
A first glass panel disposed in a frame defined by the frame;
A second glass having a predetermined distance from the first glass panel and disposed in a frame defined by the frame, the surface being opposed to one surface of the first glass panel. A panel, and
A hollow layer surrounded by the frame, the first glass panel, and the second glass panel is formed,
One of the vertical frames of the frame body is provided with one first circulation port that communicates with the hollow layer, and the other vertical frame of the vertical frame communicates with the hollow layer. A curtain wall unit in which one second circulation port is provided at a position higher than the first circulation port.   The curtain wall unit according to claim 1, wherein the vertical frame is provided with a water intrusion preventing means for preventing water from entering the hollow layer. A curtain wall formed by juxtaposing the curtain wall unit according to claim 1 or 2 vertically and horizontally along a building periphery,
Between the curtain wall units arranged on the left and right, the vertical frame provided with the first circulation port is combined and the vertical frame provided with the second distribution port is combined. The curtain wall.

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