JP4454813B2 - Curtain wall of building, construction method thereof, and method of manufacturing curtain wall unit - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a curtain wall of a building such as a building, a construction method thereof, and a method of manufacturing a curtain wall unit. In particular, the design principle of the curtain wall is improved.
[0002]
[Prior art]
As is well known, a curtain wall is a non-strength wall that covers the outside of a building by arranging and fixing a number of panel-like curtain wall units adjacent to each other vertically and horizontally on the outside of the building housing. As a curtain wall unit, there are a curtain wall unit whose main surface is made of a glass plate and a curtain wall unit which is entirely composed of an opaque panel.
[0003]
In any case, the curtain wall unit generally has a rectangular shape, and its outer peripheral frame is a pair of vertical frames on both sides, an upper frame that connects the upper ends of the vertical frames on both sides, and the lower ends of the vertical frames on both sides. And a lower frame connecting the two. Using such an outer peripheral frame as a strength member, a glass sash, a crow plate, an outer wall panel, and the like are attached thereto.
[0004]
On the outside in the left-right direction of each vertical frame of the curtain wall unit, a first vertical groove for mounting a draining gasket for closing a gap between the vertical frame of the curtain wall unit adjacent in the left-right direction, and the adjacent curtain wall unit Between the first vertical groove and the second vertical groove between the second vertical groove on which the wind barrier gasket for closing the gap between the vertical frame and the vertical frame of the adjacent curtain wall unit is mounted. And a third vertical groove that forms an isolation space. The draining gasket and the wind barrier gasket attached to these vertical grooves prevent rainwater from entering into the gaps between adjacent curtain wall units and blowing in wind.
[0005]
The upper and lower frames of the curtain wall unit also have horizontal grooves for mounting draining gaskets and wind barrier gaskets in the gaps between the lower and upper frames of the curtain wall unit adjacent in the vertical direction. The drainage gasket and wind barrier gasket installed in these lateral grooves prevent rainwater from entering the gap between adjacent curtain wall units and blowing in wind. .
[0006]
[Problems to be solved by the invention]
In the conventional curtain wall unit, the vertical frame and the horizontal frame such as the upper frame and the lower frame are designed for each building. That is, the cross-sectional shape and dimensions of the vertical and horizontal frames are designed so as to achieve a predetermined purpose in accordance with the design specifications of the newly built building.
[0007]
However, the mechanical and functional design of the vertical and horizontal frames of the curtain wall unit for each new building requires not only the design work of each time, but also creates a model after the experiment and conducts experiments. In addition, it is very uneconomical because of the labor and cost of having to design and manufacture extrusion molds for manufacturing vertical and horizontal frames each time.
[0008]
It is an object of the present invention to improve the conventional curtain wall and its construction method, which require such labor and cost.
[0009]
[Means for Solving the Problems]
In order to solve the above problems, the present invention has a pair of vertical frames on both sides, an upper frame that connects the upper ends of the vertical frames on both sides, and a plurality of lower frames that connect the lower ends of the vertical frames on both sides. Each of a pair of vertical frames facing left and right of any two curtain wall units adjacent to the left and right. A first vertical groove facing the first gasket for closing the gap between the pair of vertical frames and a second gap for closing the gap between the pair of vertical frames. An opposing second vertical groove on which a gasket is mounted, and an opposing third groove forming an isolation space between the pair of vertical frames and between the first vertical groove and the second vertical groove. And a longitudinal groove,
Includes the first, second and third longitudinal grooves of the vertical frame of all curtain wall units constituting the curtain wall Vertical frame that determines drainage and wind barrier properties and strength In the core portion, the dimensions including the width and depth of the first, second and third vertical grooves are the same fixed design dimensions for all curtain wall units, and the core portion of each vertical frame has a direction in and out of the building. With respect to outside The vertical frame is extended to the outside and the inner frame is fixed to the building frame. The configuration and dimensions of the inner extension of the vertical frame Depending on the building Any Design dimensions It is characterized by that.
[0010]
In the present invention, between at least the lower frame of a pair of lower frames and upper frames facing up and down of any two adjacent curtain wall units, between the pair of lower and upper frames. A first lateral groove for mounting a first gasket for closing the gap between the pair of lower frames and a second vertical groove for mounting a second gasket for closing the gap between the lower frame and the upper frame; And a third lateral groove that forms an isolation space between the first lateral groove and the second lateral groove between the lower frame and the upper frame, and the lower frame of all curtain wall units constituting the curtain wall And at least the first, second and third lateral grooves of the lower frame of the upper frame The lower and upper frames that determine drainage and wind barrier properties and strength In the core portion, all the dimensions including the width and depth of the first, second and third lateral grooves are the same fixed design dimensions for all curtain wall units, and the core portion includes at least the lateral grooves of each lower frame. Of the outside of the building Fix the glass and panels to the lower frame and the outer extension of the upper frame and the vertical frame to the building frame. The configuration and dimensions of the lower and upper frame extensions Depending on the building Any Design dimensions And
[0011]
In addition, according to the present invention, a plurality of curtain walls having a pair of vertical frames on both sides, an upper frame that connects the upper ends of the vertical frames on both sides, and a lower frame that connects the lower ends of the vertical frames on both sides. This is a building curtain wall construction method in which units are arranged and fixed on the outside of the building's housing in the vertical and horizontal directions, and a pair of vertical walls facing the left and right of any two adjacent curtain wall units. As a frame, on the outer side in the left-right direction, a gap between the pair of vertical frames and a pair of opposing first vertical grooves on which a first gasket for closing the gap between the pair of vertical frames is mounted. An isolating space is formed between the opposing second vertical groove for mounting the second gasket for closing the first gasket and the pair of vertical frames, and between the first vertical groove and the second vertical groove. A vertical frame having an opposing third vertical groove is used. It includes first, second and third longitudinal grooves of the vertical frame of all curtain wall units Vertical frame that determines drainage and wind barrier properties and strength In the core portion, the dimensions including the width and depth of the first, second and third longitudinal grooves are set to the fixed design dimensions predetermined for all the curtain wall units, and the vertical frames are arranged in the direction of the inside and outside of the building. Outside The vertical frame is extended to the outside and the inner frame is fixed to the building frame. The configuration and dimensions of the inner extension of the vertical frame Depending on the building Any Design dimensions And
[0012]
In the present invention, of the pair of lower and upper frames facing up and down of any two adjacent curtain wall units, the pair of lower and upper frames is at least below the lower frame. A first lateral groove for mounting a first gasket for closing a gap between the second vertical groove for mounting a second gasket for closing a gap between the pair of lower and upper frames; A third lateral groove that forms an isolation space between the first lateral groove and the second lateral groove between the lower frame and the upper frame, and in this case, all the curtain walls are formed. There are at least first, second and third lateral grooves of the lower frame of the lower frame and upper frame of the curtain wall unit. The lower and upper frames that determine drainage and wind barrier properties and strength In the core portion, all dimensions including the width and depth of the first, second, and third lateral grooves are set as fixed design dimensions predetermined for all curtain wall units, and at least the inside and outside directions of each lower frame In a row Fix the glass and panels to the lower frame and the outer extension of the upper frame and the vertical frame to the building frame. Configuration of inner extension of lower frame and inner frame And dimensions The Depending on the building Any Design dimensions And
[0013]
Moreover, in this invention, the manufacturing method of the curtain wall unit which has a pair of vertical frame of both sides, the upper frame which connects the upper ends of the vertical frames of both sides, and the lower frame which connects the lower ends of the vertical frames of both sides Wherein at least one of the vertical frame, the upper frame, and the lower frame has a first groove for mounting a first gasket for closing a gap between adjacent frames of the curtain wall unit; A third groove is formed between the second groove for mounting the second gasket for closing the gap, and the frame of the adjacent curtain wall unit between the first groove and the second groove. In forming the groove, the first, second and third grooves are included. Determine drainage and wind barrier properties and strength In the core portion of the frame, the dimensions including the width and depth of the first, second and third grooves are set to have a predetermined fixed design dimension, and are connected to the outside of the frame in the building inside / outside direction. Fix the glass and panels to the building frame by extending the outer frame extension and the inner frame. Frame Inside The configuration and dimensions of the extension Depending on the building any Design dimensions And
[0014]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
[0015]
FIG. 1 shows a building curtain wall CW in elevation. As is well known, the curtain wall CW is composed of a plurality of curtain wall units CU arranged vertically and horizontally adjacent to each other. Each curtain wall unit CU corresponds to a cross hatched portion. The single curtain wall unit CU is as shown in FIG. 2, and a pair of vertical frames 2 and 2 on both sides, an upper frame 3a connecting the upper ends of the vertical frames 2 and 2 on both sides, and vertical frames on both sides. It has an outer peripheral frame composed of a lower frame 3b connecting the lower ends of the frames 2 and 2. In the illustrated embodiment, the curtain wall unit CU includes an upper single glass portion 4a and a lower double glass portion 4b. However, the configuration of the curtain wall unit is not limited to this. The inside of the outer peripheral frame can be constituted by a suitable panel, or only a part thereof can be constituted by a glass plate portion.
[0016]
In FIG. 3, which is a longitudinal sectional view, the range of each curtain wall unit is indicated by CU, the single glass portion 4a corresponds to the height of the concrete floor 5 and the ceiling 6, and the double glass portion 4b is resident. Each curtain wall unit CU is attached to the building frame so as to correspond to the height of the opening of the space.
[0017]
FIG. 4 is a cross-sectional plan view showing a cross section taken along line 4A-4A in FIG. 3 on the right half and a cross section taken along line 4B-4B in the left half. In FIG. 4, the range of each curtain wall unit is the range of the code CD. On both sides of the curtain wall unit CD, the vertical frames 2 and 2 are provided in the vertical (up and down) direction. And the mounting bracket 10 is attached inside the vertical frame 2 with respect to the inside / outside direction of the building, and each vertical frame 2 is attached to the edge of the concrete floor 5 of the building frame via the mounting bracket 10. Yes. In addition, since the vertical frame 2 shown on the left side of FIG. 4 is shown in a cross section lower than the concrete floor 5, the mounting bracket 10 is not shown. The right side of FIG. 4 is a height corresponding to the single glass portion 4a, and the single glass portion 4a is mounted between the left and right vertical frames 2 and 2. A fireproof board 11 is mounted between the left and right vertical frames 2 and 2 inside the single glass portion 4a. The lower double glass portion 4b is also mounted between the left and right vertical frames 2 and 2.
[0018]
FIG. 5 is an enlarged view of the vertical frame 2 shown on the right side of FIG. As shown in FIG. 5, the vertical frames 2 of the two curtain wall units CD adjacent to the left and right are arranged facing each other in the left-right direction. The main body of each vertical frame 2 is made of, for example, an aluminum mold 13, and the mold 13 has a first vertical groove 14 a, a second vertical groove 14 b, and a third A vertical groove 14 c is formed along the longitudinal direction of the vertical frame 2. The first vertical groove 14a is located on the outermost side with respect to the inside / outside direction of the building, the second vertical groove 14b is located on the innermost side with respect to the inside / outside direction of the building, and the third vertical groove 14c is formed with the first vertical groove 14a. It is located between the second vertical grooves 14b. These three longitudinal grooves are formed by projecting longitudinal partition walls 15, 16, 17, 18 in parallel from the bottom plate portion of the mold 13.
[0019]
The first vertical groove 14a is used for mounting a draining gasket 21 as a first gasket for closing the gap 20 between the pair of vertical frames 2 and 2 facing each other. The second vertical groove 14b is used for mounting a wind barrier gasket 22 as a second gasket for closing the gap 20 between the pair of vertical frames 2 and 2 facing each other. . The draining gasket 21 prevents rainwater from entering the gap 20 and the wind barrier gasket 22 prevents air from entering the gap 20. The third vertical groove 14c forms an isolation space 25 between the pair of vertical frames 2 and 2 facing each other. The isolation space 25 provides a space in which rainwater enters the interior through the draining gasket 21 and flows down without reaching the wind barrier gasket 22. The portion of the vertical frame including the first to third vertical grooves 14a to 14c is an important portion in the present invention, and this portion is called a core portion 2A. The core portion 2 </ b> A is also a vertical frame portion in the range of the vertical partition walls 15, 16, 17, and 18.
[0020]
The draining gasket 21 has a longitudinal base 26 that is fitted in the inlet of the first longitudinal groove 14 a of the longitudinal frame 2, and a sealing piece 27 that is longitudinally long across the gap 20 from the base 26. It extends. The base 26 of the draining gasket 21 is fitted in each of the first vertical grooves 14a of the pair of vertical frames 2 facing each other, and the sealing pieces 27, 27 of the pair of draining gaskets 21, 21 facing each other are illustrated. It overlaps like this and fulfills the sealing action against rainwater from the outside. Further, the window barrier gasket 22 has a longitudinal base 30 inserted and fixed in one longitudinal groove of the opposing second longitudinal grooves 14 b and 14 b, and is projected in a longitudinal direction protruding from the base 30. The cylindrical elastic hollow portion 31 is configured to contact the inlet portion of the other vertical groove 14b. As described above, the elastic hollow portion 31 abuts against the inlet portion of the longitudinal groove 14b, thereby obtaining a sealing action against wind. The draining gasket 21 and the wind barrier gasket 22 are not limited to the illustrated structure.
[0021]
The core portion 2A is integrally formed with a vertical frame extension portion 2B extending outward in the building inside / outside direction and a vertical frame extension portion 2C extending inward in the building inside / outside direction. Although these extended portions 2B and 2C are part of the vertical frame 2, in the present invention, the core portion 2A is a main portion as will be described later, but is a secondary portion. In this embodiment, the extension portion 2B is composed of a longitudinal flat plate portion extending outward from the tip portion of the partition wall 15 of the core portion 2A. On the other hand, the extended portion 2C is constituted by a longitudinal plate portion having an L-shaped cross section extending inward from the base portion of the partition wall 18. On the inner side of the outer extension portion 2B, the single glass portion 4a is fixed via a glass liner 32 and gaskets 33 and 34. On the other hand, the inner extension 2C serves to fix the vertical frame 2 to the floor 5 of the building frame via the mounting bracket 10. In addition, the edge part of the said fireproof board 11 is fixed to the said mold material 13 with the steel metal fittings 35 and 36, for example.
[0022]
The mounting bracket 10 is fixed by through bolts 42 to a fixing base (not shown) fixed along the edge of the floor 5. The mounting bracket 10 has a hole (not shown) that is long in the vertical direction through which the bolt 42 is inserted. The vertical position of the mounting bracket 10 is rotated by rotating the vertical position adjusting bolt 46 that is screwed in the vertical direction from the mounting bracket 10 into a protrusion 45 that protrudes upward from the fixing base and is brought into contact with the upper surface of the fixing base. Thus, the vertical frame 2, that is, the vertical position of the curtain wall unit CD can be finely adjusted. When the bolt 42 is tightened after the adjustment of the vertical position, the vertical position of the vertical frame 2, that is, the curtain wall unit CD is fixed.
[0023]
The details of the vertical frame 2 on one side of the curtain wall unit CD have been described above. However, the configuration of the vertical frame 2 on the other side is the same, and the description thereof is omitted. Note that the outer extension 2B of the vertical frame 2 on the left side of the curtain wall unit CD shown in FIG. 4 plays a role of attaching the end of the double glass portion 4b provided at a site below the curtain wall unit CD.
[0024]
As already described, in the present invention, the core portion 2A of the vertical frame 2 is the main portion, whereas the extended portions 2B and 2C are treated as secondary portions. As described above, the core portion 2A is a portion of the vertical frame including the first to third vertical grooves 14a to 14c, that is, a portion occupied by the partition walls 15, 16, 17, and 18. According to the present invention, the width of the first, second and third longitudinal grooves 14a, 14b, 14c of the core portion 2A (that is, the vertical direction as viewed in FIG. The dimension including the height (that is, the depth in the left-right direction as viewed in FIG. 5) is the same fixed design dimension for all curtain wall units. This fixed design dimension applies not only to the core portion 2A of the curtain wall unit vertical frame used in the same building, but also to the core portions of all curtain wall unit vertical frames used in different buildings that will receive orders in the future. In other words, design conditions are fixed in all aspects such as strength and performance for the core part of the curtain wall unit vertical frame. Here, when the dimensions such as the width and depth of the first, second and third vertical grooves 14a, 14b and 14c are fixed design values, it means the dimensions of the vertical grooves themselves, and the bottom of the vertical grooves The thickness of the bottom plate portion of the mold material 13 is excluded. Thus, when the dimensions such as the width and depth of the vertical grooves 14a, 14b, and 14c are fixed dimensions, the size and shape of the space formed between the vertical frames 2 and 2 facing left and right are the same as the adjacent curtain wall. As long as the unit is fixed at a regular interval, the unit is always constant. Therefore, parts can be shared (established), processing methods can be unified and standardized, and quality can be stabilized and costs can be reduced.
[0025]
The core portion 2 </ b> A including the first vertical groove 14 a that fits the draining gasket 21, the second vertical groove 14 b that fits the wind barrier gasket 22, and the third vertical groove 14 c that forms the isolation space 25 is vertically It is the most important part that determines the most important rain and wind barrier properties and mechanical properties of Frame 2. Therefore, once the core portion 2A is designed so as to be compatible with all general cases, there is no need to perform redesign, model experiment, and the like. It is only necessary to design secondary vertical frame extending portions 2B and 2C other than the basic portion for each order. Therefore, since it is sufficient to design only the vertical frame extensions 2B and 2C after receiving the order, the work including the design and manufacture of the mold is much simpler and less expensive than before.
[0026]
FIG. 6 shows a modification of the vertical frame 2 shown in FIG. Parts equivalent to those shown in FIG. Even in this modified example, the core part 2A having the fixed design dimensions described above has no change, but the vertical frame extension part 2B connected to the outside of the core part 2A is changed. The outer vertical frame extension portion 2B is longer than the outer vertical frame extension portion 2B shown in FIG. 5 in the inner and outer directions, and an L-shaped first portion 2B1 extending outward from the base of the partition wall 15 and the first portion. It consists of a flat plate-like second portion 2B2 projecting outward from the outer end of 2B1. In addition, the outer side vertical frame extension part 2B shown on the left side of FIG. 6 is equipped with the double glass part 4b. For the inner vertical frame extension 2C, the modified example in FIG. 6 is not different from the embodiment shown in FIG.
[0027]
In the modified example of FIG. 6, a large vertical space 50 is formed in front of the draining gasket 21 by providing the L-shaped first portion 2B1 adjacent to the partition wall 15 forming the first vertical groove 14a. . And it is avoided that the draining gasket 21 is exposed and arranged immediately behind the gap 20 exposed to the outside as in the embodiment of FIG. That is, in this modified example, the draining gasket 21 is not positioned directly at the back end of the gap 20 but is positioned at the back end of the large vertical space 50 that is continuous with the back end of the gap 20. For this reason, most of the rainwater that has entered from the gap 20 enters the vertical space 50 and then flows down there, so that a great burden is not imposed on the draining gasket 21 with respect to the draining function. This modified example is exactly the same in the basic function of the core portion 2A as in the embodiment of FIG. 5, but can be obtained in the embodiment of FIG. 5 by changing the configuration of only the outer vertical frame extension portion 2B. The above-mentioned incidental effects are not obtained.
[0028]
FIG. 7 shows another modification of the vertical frame 2 shown in FIG. Parts equivalent to those shown in FIG. Even in this modified example, the core part 2A having the fixed design dimensions described above has no change, but the vertical frame extension part 2B connected to the outside of the core part 2A is changed. The outer vertical frame extension 2B is formed longer in the inner and outer directions than the outer vertical frame extension 2B shown in FIG. 5, and extends from the tip of the partition wall 15 so as to protrude outward from the outer surfaces of the glass portions 4a and 4b. The plate-shaped first portion 2B3 and the plate-shaped second portion 2B4 folded back from the outer end of the first portion 2B3. In addition, the outer vertical frame extension part 2B shown on the left side of FIG. 7 is equipped with a double glass part 4b. Further, with respect to the inner vertical frame extension 2C, the modified example of FIG. 7 is not different from the embodiment shown in FIG.
[0029]
The intermediate portion of the first portion 2B3 and the folded tip end portion of the second portion 2B4 are integrally connected by a plate-like connecting member 53. The glass portions 4a and 4b are pressed by the extension portion of the connecting member 53 via the gasket 33. In this modified example, vertical protrusions are formed on both sides of the gap 20 by the outward projecting portion of the first portion 2B3 and the folding back of the second portion 2B4. By providing this ridge, the sharp appearance of the building is obtained and the design is improved. The modification of FIG. 7 is also exactly the same in the basic function of the core portion 2A as in the embodiment of FIG. 5, but by changing the configuration of only the outer vertical frame extension portion 2B, in the embodiment of FIG. The above-mentioned incidental effects which cannot be obtained are obtained.
[0030]
FIG. 8 shows still another modification. This modification is substantially the same as the embodiment of FIG. 5, and the only difference is that a window barrier gasket 55 having a different shape is used instead of the window barrier gasket 22 of FIG. 5. The wind barrier gasket 55 has a base portion 56, and the base portion 56 is fitted in the second vertical groove 14 b of one of the opposing vertical frames 2. The elastic hollow portion 57 protruding from the base portion 56 has the following shape. That is, the elastic hollow portion 57 has a top portion 58 that projects obliquely toward the isolation space 25, and has a connecting portion 59 that extends from the base portion 56 toward the top portion 58. The connecting portion 59 has a function of preventing the elastic hollow portion 57 from being crushed by elastic deformation and the top portion 58 from easily approaching the base portion 56. Now, assuming that the internal pressure of the isolation space 25 is increased by the action of the wind and the elastic hollow portion 57 is pressed to the inner side (the second longitudinal groove 14 b side), the top portion 58 becomes difficult to displace in the direction approaching the base portion 56. Therefore, the top portion 58 is easily bent and does not enter the inside of the second vertical groove 14b, but is displaced obliquely downward to the left as viewed in FIG. 8, and is strongly pressed against the leading edge of the partition wall 18. Therefore, the more the elastic hollow portion 57 is affected by the pressure increase in the isolation space 25, the stronger the sealing action by the elastic hollow portion 57 is.
[0031]
In the vertical frame 2 described above, a pair of vertical frames 2 and 2 are always opposed to the left and right where the curtain wall unit is adjacent. The opposing vertical frames 2 and 2 have symmetrical horizontal cross sections. Therefore, the vertical frame can be attached from any position.
[0032]
FIG. 9 is an enlarged view of a part of FIG. 3 which is a longitudinal sectional view. In FIG. 8, CU indicates the range in the vertical direction of each curtain wall unit. As described above, the curtain wall unit CU includes the single glass portion 4a and the double glass portion 4b on the upper side and the lower side, respectively. A seamless material 60 is provided between the single glass portion 4a and the double glass portion 4b. Each curtain wall unit CU includes the lower frame 3b and the upper frame 3a described above. As the upper frame 3a, in FIG. 9, the upper frame 3a of the curtain wall unit CU adjacent to the lower side is shown. The lower frame 3b of the upper curtain wall unit CU and the upper frame 3a of the lower curtain wall unit CU face each other in the vertical direction as shown in FIG. A gap 61 is left between the lower frame 3b and the upper frame 3a in the same manner as between the adjacent vertical frames 2 and 2.
[0033]
FIG. 10 is an enlarged view of the main part of FIG. In FIG. 10, the lower frame 3b is configured according to the design principle of the vertical frame 2 already described. The main body of the lower frame 3b is made of, for example, an aluminum mold, and the first lateral groove 71a, the second lateral groove 71b, and the third lateral groove 71c that are open to the lower side are the longitudinal length of the lower frame 3b. It is formed along the direction. The first lateral groove 71a is located on the outermost side in the inner and outer direction of the building, the second lateral groove 71b is located on the innermost side in the inner and outer direction of the building, and the third lateral groove 71c is composed of the first lateral groove 71a and the second lateral groove. 71b. These three lateral grooves are formed by extending the lateral partition walls 72, 73, 74, 75 in parallel from the bottom plate portion of the mold material.
[0034]
The first lateral groove 71a is used to mount a draining gasket 77 that closes the gap 61 between the lower frame 3b and the upper frame 3a facing each other to the outside. The second lateral groove 71b is used to mount a wind barrier gasket 80 that closes the gap 61 between the lower frame 3b and the upper frame 3a facing each other up and down. The draining gasket 77 prevents rainwater from entering the inside through the gap 61, and the wind barrier gasket 80 prevents air from entering the inside through the gap 61. The third lateral groove 71c forms an isolation space 81 between the lower frame 3b and the upper frame 3a facing each other in the vertical direction. The isolation space 81 provides a space in which rainwater enters the interior through the drain gasket 77 and flows down without reaching the wind barrier gasket 80. A portion of the lower frame 3b including the first to third lateral grooves 71a to 71c is an important portion similar to the core portion 2A of the vertical frame 2, and is similarly referred to as a core portion 70A. The core portion 70A is also a lower frame portion in the range of the lateral partition walls 72, 73, 74, and 75.
[0035]
The draining gasket 77 has a laterally long base 78 fitted in the inlet of the first lateral groove 71a of the lower frame 3b, and a laterally long sealing piece 79 extends across the gap 61 from the base 78. ing. The sealing piece 79 overlaps the outer surface of the lateral rib 84 integrally protruded from the middle in the inner and outer direction of the upper frame 3a of the lower curtain wall unit CU as shown in the figure, and the rainwater from the outside. The sealing action is achieved. Further, the wind barrier gasket 80 is fixed by inserting a laterally long base 86 into the second lateral groove 71b, and a lateral cylindrical elastic hollow portion 88 projecting from the base 86 is disposed below it. A similar wind barrier gasket 90 fitted into a certain upper frame 3a is brought into contact with the wind barrier gasket 90 to obtain a sealing action against wind. The configuration and operating principle of the wind barrier gaskets 80 and 90 are the same as those of the wind barrier gasket 55 described above with reference to FIG.
[0036]
The core portion 70A is integrally formed with a lower frame extension portion 70B extending outward with respect to the inside / outside direction of the building and a lower frame extension portion 70C extending inward with respect to the inside / outside direction of the building. Although these extended portions 70B and 70C are a part of the lower frame 3b, in the present invention, the core portion 70A is a main portion, whereas it is a secondary portion in terms of design. In this embodiment, the extension portion 70B is made of a grooved material that extends outward from the tip of the partition wall 72 of the core portion 70A. The groove-type extension portion 70B supports the single glass portion 4b through a receiving material 94 and a glass liner 95 inside the groove 93. Reference numerals 96 and 97 denote glass pressing gaskets. On the other hand, the inner extension portion 70 </ b> C is constituted by a lateral plate portion whose longitudinal section extending inward from the base portion of the partition wall 75 has an L shape.
[0037]
The core portion 70A of the lower frame 3b described above has the same meaning as the core portion 2A of the vertical frame, and the lower frame extension portion 70B on the outer side and the lower frame extension portion 70C on the inner side have already been provided. Since it has the same meaning as the vertical frame extension portions 2B and 2C described above, it will not be described again.
[0038]
The upper frame 3a can also have a configuration having three lateral grooves based on the same principle as the above-described lower frame 3b. However, in the embodiment shown in FIGS. The configuration is slightly different from 3b. As shown in FIG. 10, in the upper frame 3a, instead of forming the three horizontal grooves 71a, 71b, 71c like the lower frame 3b, one upward horizontal groove 98 corresponding to the horizontal grooves 71a, 71c and the horizontal groove 71b are supported. Only one upward transverse groove 99 is formed. The reason why it is only necessary to provide only one lateral groove 98 corresponding to the two lateral grooves 71a and 71c of the lower frame 3b is that the upper frame 3a corresponds to the draining gasket 77 fitted in the lower frame 3b lateral groove 71a. Instead of using it, an integral rib 84 is set up instead. That is, since it is not necessary to fit the draining gasket into the upper frame 3a, the draining gasket fitting lateral groove and the isolation space forming lateral groove are combined into one. The base portion 100 of the wind barrier gasket 90 is fitted in the lateral groove 99 of the upper frame 3a. The lateral groove 98 of the upper frame 3a functions as a trough for flowing rainwater or the like that has passed through the draining gasket 77 and entered the inside.
[0039]
The region of the upper frame 3a including the horizontal groove 98 and the horizontal groove 99 is a core portion 102A corresponding to the core portion 70A, and the dimensions including the width and depth of the horizontal grooves 98 and 99 are fixed as in the case of the vertical frame 2. Dimension. Further, the upper frame extension portion extending outward and inward from the core portion 102A is a secondary portion, and is designed in accordance with required conditions for each new order. In the illustrated embodiment, the inner extension of the upper frame 3a is omitted, and the outer extension 102B has a hollow box structure as shown.
[0040]
【The invention's effect】
As described above, in the first and third aspects of the present invention, the adjacent vertical frames are disposed on the outer sides of the pair of adjacent vertical frames facing the left and right sides of the two adjacent curtain wall units. Adjacent first vertical groove for mounting the first gasket for closing the gap between the frames, and opposing second vertical groove for mounting the second gasket for closing the gap between the adjacent vertical frames, All curtain wall units constituting a curtain wall in a configuration in which an opposing third vertical groove that forms an isolation space is provided between the vertical frames and between the first vertical groove and the second vertical groove In the basic core portion including the first, second and third flutes of the vertical frame, all curtain wall units have dimensions including the width and depth of the first, second and third flutes. Are the same fixed design dimensions. It is not necessary to design the vertical frame of curtain wall unit for each new construction, and it is not necessary to create a model after the design and conduct experiments. This eliminates the labor and cost of having to design and manufacture the mold each time. And, as for the vertical frame extension that continues to the outside and inside in the building inside and outside direction of the core part, it will be designed according to each request, but since these extension parts are secondary parts, Design work does not require a great deal of effort, and a large reduction in labor and cost can be achieved as a whole.
[0041]
Further, in the inventions of claims 2 and 4, by introducing the principle of the fixed design to the core part as in the case of the vertical frame, the lower frame and the upper frame, which are the horizontal frame of the curtain wall unit, in particular, For the same reason, the design work does not require a great effort, and a large reduction in labor and cost can be achieved as a whole.
[0042]
Also, in the invention of claim 5, by introducing the principle of the fixed design into the core part of the frame such as the vertical frame and horizontal frame of the curtain wall unit, the design work does not require a great effort, and as a whole If you look at it, you can achieve significant savings in labor and costs.
[Brief description of the drawings]
FIG. 1 is an elevation view showing a curtain wall.
FIG. 2 is an elevation view of a curtain wall unit constituting the curtain wall.
FIG. 3 is a longitudinal sectional view showing the relationship between a curtain wall and a building.
4 is a cross-sectional view showing a cross section taken along line 4A-4A in FIG. 3 on the right half and a cross section taken along line 4B-4B in the left half.
FIG. 5 is an enlarged view of the right half part of FIG. 4;
6 is a cross-sectional view showing a modified example of the configuration of FIG.
7 is a cross-sectional view showing another modification of the configuration of FIG.
FIG. 8 is a cross-sectional view showing still another modification of the configuration of FIG.
9 is an enlarged vertical sectional view of a part of FIG.
10 is a partially enlarged view of FIG. 9;
[Explanation of symbols]
CW curtain wall
CU curtain wall unit
2 Vertical frame
2A Vertical frame core part
2B Vertical frame extension
2C Vertical frame extension
3a Upper frame
3b Bottom frame
4a, 4b Glass plate part
5 floors
13 Mold material
14a First longitudinal groove
14b Second longitudinal groove
14c Third longitudinal groove
20 Clearance
21 Draining gasket
22 Wind barrier gasket
25 Isolation space
27 Sealing piece
61 Clearance
70A Lower core part
70B Lower frame extension
70C Lower frame extension
71a First lateral groove
71b Second lateral groove
71c Third lateral groove
77 Draining gasket
80, 90 Wind barrier gasket
81 Isolation space
102A Upper frame core part
102B Upper frame extension

Claims (5)

A number of curtain wall units having a pair of vertical frames on both sides, an upper frame that connects the upper ends of the vertical frames on both sides, and a lower frame that connects the lower ends of the vertical frames on both sides are vertically and horizontally adjacent A curtain wall of a building that is arranged in the shape of a pair of vertical walls on the outside in the left-right direction of a pair of vertical frames facing the left and right of any two adjacent curtain wall units. An opposing first vertical groove for mounting a first gasket that closes a gap between the frames, and an opposing second vertical groove for mounting a second gasket that closes the gap between the pair of vertical frames. A groove and an opposing third vertical groove that forms an isolation space between the pair of vertical frames and between the first vertical groove and the second vertical groove;
In the core portion of the vertical frame including the first, second and third vertical grooves of the vertical frame of all curtain wall units constituting the curtain wall and determining the drainage and wind barrier characteristics and strength , the first, second and a third longitudinal groove width, a dimension containing the depth, the same fixed design dimensions for all of the curtain wall unit, the core portion of each vertical frame, glass Ri Tsurana outside with respect to the building-out direction, the panel vertical frame outer extension portion and curtain walls, characterized in that an arbitrary design dimensions in accordance with the configuration and dimensions of the vertical frame inner extension portion to affix the vertical frame contiguous with the inside building skeleton in the building to secure the like. The curtain wall according to claim 1,
The gap between the pair of lower and upper frames is closed at least below the lower frame of the pair of lower and upper frames facing upward and downward of any two adjacent curtain wall units. A first lateral groove for mounting the first gasket; a second vertical groove for mounting a second gasket for closing a gap between the pair of lower frame and upper frame; and the pair of lower frame and upper A third lateral groove that forms an isolation space between the frame and between the first lateral groove and the second lateral groove;
Lower frame and upper frame for determining drainage and wind barrier characteristics and strength, including first, second and third lateral grooves of at least the lower frame of all the curtain wall units constituting the curtain wall In the core portion, all the dimensions including the width and depth of the first, second and third lateral grooves are the same fixed design dimensions for all curtain wall units, and the core includes at least the lateral grooves of each lower frame. parts, construction and extension of the lower frame and the upper frame to affix the outer extension portion and the vertical frame continuous to the inside of the lower frame and the upper frame to the building skeleton of fixing glass continuous to the outside of the building and outside direction, a panel or the like It is characterized in that the dimensions are arbitrarily designed according to the building . A large number of curtain wall units having a pair of vertical frames on both sides, an upper frame that connects the upper ends of the vertical frames on both sides, and a lower frame that connects the lower ends of the vertical frames on both sides are connected to the outside of the building housing. The curtain wall construction method of the building that is arranged and fixed adjacently on the top and bottom, left and right,
As a pair of vertical frames facing left and right of any two adjacent curtain wall units on the left and right sides, a first gasket that closes the gap between the pair of vertical frames is mounted on the outside in the left and right direction. Between the first vertical groove and the pair of vertical frames, the second vertical groove facing the second gasket for closing the gap between the pair of vertical frames, and the pair of vertical frames. Using a vertical frame having an opposing third vertical groove that forms an isolation space between the first vertical groove and the second vertical groove,
At that time, in the core portion of the vertical frame including the first, second and third vertical grooves of the vertical frame of all curtain wall units constituting the curtain wall and determining the draining and wind barrier characteristics and strength , the second and third longitudinal groove width, a dimension containing the depth, leave predetermined fixed design dimensions for all of the curtain wall units and glass Ri Tsurana outside of the building and out direction of each vertical frame, curtain wall, characterized in that an arbitrary design dimensions in accordance with the configuration and dimensions of the vertical frame outer extension portion and the vertical frame inner extension portion to affix the vertical frame contiguous with the inside building skeleton in the building to secure the panel etc. Construction method. In the curtain wall construction method according to claim 3,
A gap between the pair of lower and upper frames is provided at least below the lower frame of a pair of lower and upper frames facing vertically above and below any two adjacent curtain wall units. A first lateral groove for mounting a first gasket for closing; a second vertical groove for mounting a second gasket for closing a gap between the pair of lower and upper frames; and the pair of lower frames; Forming a third lateral groove that forms an isolation space between the upper frame and between the first lateral groove and the second lateral groove;
In that case, there are at least the first, second and third lateral grooves of the lower frame of all the curtain wall units constituting the curtain wall, and there are a lower frame for determining drainage and wind barrier characteristics and strength, and In the core portion of the upper frame , all dimensions including the width and depth of the first, second and third lateral grooves are set as fixed design dimensions predetermined for all curtain wall units,
At least each of the lower frame, the glass continues into a building and out direction, of the inner extension portion of the lower frame and the inner frame to affix the outer extension portion and the vertical frame continuous to the inside of the lower frame and the upper frame to the building skeleton for fixing the panels, etc. A curtain wall construction method characterized in that the configuration and dimensions are arbitrarily designed according to the building . A method of manufacturing a curtain wall unit having a pair of vertical frames on both sides, an upper frame that connects upper ends of vertical frames on both sides, and a lower frame that connects lower ends of vertical frames on both sides,
At least one of the vertical frame, the upper frame, and the lower frame, a first groove for mounting a first gasket that closes a gap between adjacent frames of the curtain wall unit, and a first groove that closes the gap. A second groove for mounting the second gasket, and a third groove which is between the first groove and the second groove and forms an isolation space between the frame of the adjacent curtain wall unit. In doing so,
In the core portion of the frame including the first, second and third grooves, which determines drainage and wind barrier characteristics and strength , the dimensions including the width and depth of the first, second and third grooves are set in advance. determined was set to have a fixed design dimensions, and building mediolateral frame glass contiguous outwardly, the outside-frame-side extending portion and the vertical frame contiguous inwardly to fix the panel or the like of the inner extension portion of the frame to affix the building skeleton A method for manufacturing a curtain wall unit, characterized in that the configuration and dimensions are arbitrarily designed according to the building .

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