JP4003176B2 - Two side support plate glass structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a reinforced two side support plate glass structure.
[0002]
[Prior art]
In recent years, an increasing number of buildings have built an outer wall by supporting plate glass without using a sash. As the outer wall construction method, a glass screen construction method using rib glass (for example, Patent Document 1), a DPG (Dot-Point-Glazing) construction method (for example, Patent Document 2), and the like are known.
[0003]
On the other hand, in general office buildings and the like, the two-sided glass plate support of the horizontal windows is often used. In the case of using a normal sash member, the sash member of the vertical joint obstructs the view. Therefore, by using a two-sided support structure of the plate glass, the vertical sash member is eliminated and the view is secured. .
[0004]
However, in the conventional two-side support plate glass structure, since the displacement and stress of the non-support side increase at the time of wind receiving pressure, it is necessary to increase the rigidity of the plate glass. For this reason, there is a drawback that the plate thickness of the plate glass increases. . Even if the plate thickness is increased, the size of the non-supporting side cannot be increased too much with ordinary float glass. If tempered glass or double-strength glass with an increased allowable stress of glass is used, the size of the unsupported side can be increased, but there is a drawback that the cost increases.
[0005]
The glass screen construction method is superior in terms of securing the view because the vertical frame member in the normal sash construction method is composed of glass rib glass, but the upper and lower ends of the rib glass are fixedly supported on the sash frame. Therefore, the sash frame shape is complicated with T-shaped and cross-shaped, and there are drawbacks such as dead space near both ends of the rib glass, and special features such as showrooms and racetracks where view and transparency are particularly required Often used only in cases.
[0006]
When considering use in a general office building, the increase in the dead space in the glass screen construction method is fatal, and it can be said that it is very rarely adopted.
[0007]
The DPG construction method is an excellent construction method in terms of ensuring transparency, but has the disadvantage of increasing costs, such as the need for tempered glass, because holes are made in the glass to provide point support.
[0008]
The reason why a large opening cannot be provided by the two-side support is that the rigidity of the non-support side is insufficient. As a solution, a structure in which a reinforcing material is bonded to a non-supporting side to increase the rigidity of the non-supporting side is disclosed (Patent Document 3). However, this structure has a drawback that the transparency of the joint between the glass sheets is impaired because the reinforcing material is a metal sash member.
[0009]
On the other hand, the structure which reinforces the rigidity of sheet glass by laminating the same sheet glass on an edge part is disclosed (patent document 4). According to this structure, since the member that increases the rigidity is made of glass, there is little possibility of damaging the view, but since lamination must be performed in the factory beforehand, there are also problems in construction and transportation, and the cost There was also a drawback of being up.
[0010]
[Patent Document 1]
Japanese Patent Laid-Open No. 9-67883
[Patent Document 2]
JP-A-10-231571 [0012]
[Patent Document 3]
JP-A-6-185266
[Patent Document 4]
JP-A-63-63844 [0014]
[Problems to be solved by the invention]
The present invention has been made in view of such circumstances, solves the above-described problems of the prior art, has a two-side support structure, has a simple structure, and has a non-support side. An object is to provide a two-sided support plate glass structure that can be made as long as possible.
[0015]
[Means for Solving the Problems]
This invention is for solving the above-mentioned problem, and while arrange | positioning so that several plate glass may become flush | planar, the upper and lower two sides of these plate glass are each supported by the sash frame. In the two-side supported glass sheet structure, rib glass is disposed in the joint between the adjacent glass sheets at the left and right side edge portions that are non-supporting sides of the glass sheet, and the glass sheet and the rib glass are made of silicone-based sealing. The rib glass is provided with a two-side support plate glass structure characterized in that the rib glass is supported in a floating state by being spaced apart from the sash frame. It is.
[0016]
The present invention adopts rib glass so as not to disturb the view and transparency, reduces the upper and lower dead spaces that are problematic in the glass screen construction method, and the upper and lower sash frame structure is also a normal two-sided support. Similarly, for simplification, a structure having a rib glass (hereinafter also referred to as a floating rib) installed in an intermediate portion is employed.
[0017]
In addition, a silicone sealant having excellent durability is used for bonding the plate glass and the rib glass. In addition, since the edge of the plate glass and the surface portion of the rib glass are bonded with a silicone sealant, the silicone sealant is caused by the difference between the displacement in the plate glass thickness direction and the displacement of the rib glass at the wind receiving pressure. Shear deformation will occur.
[0018]
Silicone sealing materials represented by the conventional SSG construction method (structural-silicone-sealant), and the construction method that bears wind pressure, etc. depended on tensile stress, so various performances under shear stress Confirmation / research was insufficient.
[0019]
Therefore, various durability tests of silicone sealants were conducted, and a sealant suitable for use with shear stress was selected. In these series of experiments, it was confirmed that the one-component type was superior to the two-component type in terms of durability, in particular, the durability against repeated deformation.
[0020]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings.
[0021]
FIG. 1 is a perspective view showing a part of a two-side support plate glass structure having a floating rib according to an embodiment of the present invention.
[0022]
The two-side support plate glass structure is formed by supporting the upper side portion 12 of the plate glass 10 and 10 formed in a rectangular shape on the upper sash frame 14 and supporting the lower side portion 16 on the lower sash frame 18. 10, 10 are arranged flush. Further, the substantially rectangular rib glass 22 is formed in the joint portion 20 between the plate glasses 10 and 10 so as to penetrate between the adjacent plate glasses 10 and 10 in the height direction of the non-supporting sides (left and right sides) of the plate glass 10. It is arranged as a floating rib in the center. As shown in FIG. 2, the rib glass 22 is bonded and fixed to the plate glasses 10 and 10 on both sides by silicone sealants 24 and 24. Since the sealing material 24 is constructed between the edge of the plate glass 10 and the rib glass 22, the sealing material 24 resists a shear stress indicated by an arrow A in FIG.
[0023]
Since the rib glass 22 which is a floating rib is installed in the middle of the joint portion 20 between the adjacent plate glasses 10 and 10, a member 26 for receiving the weight of the rib glass 22 is arranged below the joint portion 20 as shown in FIG. It is constructed. The member 26 is disposed in the joint portion 20 and is fixed to the lower sash frame 18. The member 26 is preferably fixed by a weather seal in the lower frame, and a rod-shaped member made of aluminum alloy, hard rubber, polycarbonate, or the like is suitable as the material. In addition, by using a transparent member such as acrylic, since it has a sense of unity with the rib glass 22 in appearance, it is aesthetically preferable.
[0024]
In addition, also in the joint part formed above the upper end part of the rib glass 22, the joint width of the seal can be made appropriate by interposing a member similar to the member 26 installed below the rib glass 22. From the viewpoint of seal construction, it is preferable.
[0025]
FIG. 4 is an example showing another embodiment of a two-side support plate glass structure. In this structure, the rib glass 30 is made of tempered glass, and an auxiliary piece member (fixed part) 32 for fixing the rib glass 30 to the plate glass 10 is attached by drilling the rib glass 30. The auxiliary piece member 32 is made of a metal member and is preferably made of rust-proof steel or stainless steel. The rib glass 30 and the plate glass 10 are fastened by the auxiliary piece member 32 in the vicinity of the upper and lower ends of the rib glass 30, and only the vicinity of the center portion of the rib glass 30 uses the shear stress of the silicone sealant as the wind pressure strength. This is an example of a structural method. Configurations of the upper and lower sash members (not shown), the rib glass self-weight receiving member 26, and the like are the same as those in the example of FIG.
[0026]
According to the fastening structure using the auxiliary piece member 32 shown in FIG. 5, four auxiliary piece members 32 are used in the fastening portion 34 so that the rib glass 30 is fastened from both surfaces of the plate glass 10. The auxiliary piece member 32 is formed in an L shape. In addition, the auxiliary piece member 32 is attached to the glass plate 10 via a silicon cushion rubber 36 formed in an L shape, and the through hole 33 and the buffer rubber 36 of the left auxiliary piece member 32 in FIG. The nut 38 inserted through the through hole 37 and the through hole 31 of the rib glass 30 was inserted through the through hole 33 of the right auxiliary piece member 32 and the through hole 37 of the shock absorbing rubber 36 in FIG. By fastening the bolt 40, the auxiliary piece member 32 is pressed against the rib glass 30. As a result, the rib glass 30 is fastened to the plate glass 10.
[0027]
【Example】
Here, assuming the application of the present invention to an actual property, the results of examination using FEM (finite element method) analysis will be described to clarify the effect of the present invention.
[0028]
In the case of the basic configuration shown in FIG. 1, the design wind load is 9.8 × 10 ⁻⁴ N / mm ² , and the glass size is 1500 mm wide. At this time, when the plate glass 10 is considered with a normal float glass thickness of 15 mm, the limit length of the non-support side in the case of the two-side support structure is 2260 mm.
[0029]
A two-side support structure having a rib glass 22 that is a floating rib is applied to this condition. Here, the dimensions of the rib glass 22 are set to a width of 300 mm and a thickness of 15 mm, and the rib glass 22 is arranged at intervals of 100 mm from the plate glass 10 in the upper and lower portions. The joint width of the silicone sealant 24 is 7 mm, the depth dimension is 15 mm, similar to the glass thickness, and an acrylic member 26 is installed below the rib glass 22. A similar member 26 is also arranged. Although depending on the setting of the allowable shear deformation rate of the silicone sealant 24 at the maximum wind pressure, here, when the allowable shear deformation rate is considered as 50%, the length of the non-supporting side of the plate glass 10 is increased to 2910 mm. Can do. This is a value corresponding to 129% when the normal two-side support is 100%.
[0030]
In recent office buildings, buildings with a floor height of about 3800 mm are the mainstream, so a fairly large opening excluding 900 mm that needs to be covered with non-combustible materials necessary for fireproofing on the upper and lower floors such as floor slabs and ceiling spaces. It can be said that it can be provided, and can be said to be sufficiently practical.
[0031]
In the present invention, since the rib glass 22 is used, the view is not obstructed as in a normal sash member, and the rib glass 22 is floated at the joint portion 20 of the plate glass 10 in the middle portion of the non-supporting side in the vertical sectional direction. Therefore, the upper and lower frames 14 and 18 that support the two sides are exactly the same as ordinary sash members and do not require any special processing.
[0032]
In the case of a normal glass screen construction method, the upper and lower frames have a T-shaped or cross-shaped complicated shape in order to support the upper and lower end portions of the rib glass 20, but in the present invention, the rib glass 22 is formed on the sashes 14 and 18. Since it is in a floating position and is a simple frame similar to the two-side support, there is no dead space above and below.
[0033]
In the normal glass screen construction method, the rib glass functions as a beam supported at both ends, and therefore, an appropriate width of the rib glass 22 is required according to the wind pressure condition, but the present invention does not necessarily need a function as a beam. The width of the rib glass 22 can be reduced accordingly. At the same time, the degree of freedom in designing the shape of the rib glass is also improved due to the appearance considerations.
[0034]
Considering the seismic performance, in the case of a normal glass screen construction method, the deformation of the rib glass 22 and the plate glass 10 is different when subjected to interlayer deformation. Therefore, the rib glass 22 is deformed in an S shape due to a difference from the movement of the plate glass 10, and a phenomenon of breakage occurs. As a countermeasure against this, the silicone sealant 24 between the rib glass 22 and the plate glass 10 is used. In the center, a sealant with high modulus (50% modulus tensile stress is 0.4 N / mm ² or more) is used, and in the vicinity of the upper and lower ends where deformation is large, low modulus (50% modulus tensile) is excellent. stress 0.2 N / mm ² or less) or a tensile stress of medium modulus (50% modulus of 0.2 N / mm ² or more, changing the condition of using a sealant 0.4 N / mm ² or less), to Ribugarasu A method for suppressing the generation of stress is also devised (Patent Document 1, etc.).
[0035]
When this method is applied and wind pressure resistance is further considered, the high modulus silicone sealant is used at the central portion A of the rib glass 22 as shown in FIG. The excellent low modulus or medium modulus silicone sealant is used. Thereby, when wind pressure acts on the plate glass 10 of FIG. 6A, the plate glass 10 is deformed as shown in FIG. 6B. That is, in the central portion A of the rib glass 22 using the high modulus silicone sealing material, the shear deformation amount of the sealing material is small, and in the vicinity of the upper and lower ends B of the rib glass 22 using the low or medium modulus silicone sealing material, the sealing is performed. The amount of shear deformation of the material increases. Since the portion where the amount of shear deformation between the plate glass 10 and the rib glass 22 is large is near the upper and lower ends of the rib glass 22, it is not possible to use a low or medium modulus silicone sealant with a large allowable deformation ratio in this portion. Is reasonable.
[0036]
The two-side support plate glass structure having the floating ribs of the present invention employs a structure system that supports the wind pressure load by utilizing the shear stress of the silicone sealant 24. For this reason, it is possible to reduce the dead space on the indoor side by arranging the rib glass 22 through the joint portion 20 between the plate glasses 10 and 10.
[0037]
Since the plate glass 10 is self-supporting as an upper and lower two-side support structure, it is self-supporting if there is no large wind pressure. Therefore, construction with the one-component silicone sealant 24 can be performed at the construction site by temporarily fixing the floating ribs penetratingly arranged in the middle portion of the non-supporting side in the vertical sectional direction.
[0038]
The one-component type silicone sealant 24 is excellent in rubber physical properties after curing, and in particular, the durability when subjected to repeated deformation is far superior to the two-component type. Is preferred. Of course, a two-component silicone sealant can also be used in the present invention.
[0039]
The one-component type silicone sealant 24 requires a longer time to cure than the two-component type, but the shear deformation of the sealant that occurs in the curing process due to the influence of wind pressure, etc., under normal construction conditions. If it exists, it is within ± 10% at most, and there is no influence on the rubber physical properties of the one-component silicone sealant 24 after curing.
[0040]
In the present invention, if the sealing material is damaged, water leaks to the indoor side, and the defect can be easily found. Furthermore, since the plate glass 10 is supported on the upper and lower sides, there is no immediate problem during normal wind pressure. In addition, the rib glass 22 is disposed between the plate glasses 10 and 10, but the rib glass 22 can be dropped to the outside even if the silicone sealant 24 is broken by keeping the center of gravity at the indoor side. Absent.
[0041]
From the viewpoint of environmentally conscious design in recent years, it is expected that the spread of double glazing will rapidly progress in the building field. According to the present invention, it is possible to increase the length of the non-support side, and when using a double-layer glass as the plate glass 10, the construction area of the silicone sealing material 24 between the plate glass 10 and the rib glass 22. However, since it increases in the thickness direction of the plate glass 10, the strength is improved, which is advantageous in increasing the length of the non-support side.
[0042]
Then, the examination result at the time of fixing the rib glass 30 and the plate glass 10 by the auxiliary piece member 32 in the vicinity of the upper and lower ends of the rib glass 30 shown in FIG. 4 is introduced.
[0043]
The design wind pressure is 16.5 × 10 ⁻⁴ N / mm ² , and the plate glass 10 has a width of 1000 mm and a height of 3800 mm. Compared to the previous case, both the wind pressure and the height of the plate glass 10 were large, so even if float glass with a plate thickness of 19 mm was used, the limit of the structural method with the shear stress of the silicone sealant 24 was exceeded.
[0044]
Therefore, the rib glass 30 is made of tempered glass, and the rib glass 30 is perforated as shown in FIG. 5 so that the auxiliary piece member 32 can be attached, and the rib glass 30 is tightly coupled to the plate glass 10 by the stainless steel auxiliary piece member 32. It was to be. Since the silicone sealant 24 does not undergo shear deformation in the vicinity of being tightened by the auxiliary piece member 32, only the space between the upper and lower auxiliary piece members 32, 32 receives wind pressure load due to the shear deformation of the silicone sealant 24. It becomes a supporting structure. As a result of the study, the rib glass 30 which is a floating rib is made of tempered glass and is 10 mm thick, 200 mm wide and 3600 mm high, and is fixed by auxiliary piece members 32 and 32 in the vicinity of the upper and lower ends. It was possible to keep the shear deformation rate of 30% or less. In addition, an acrylic member 26 is installed below the rib glass 30, and the similar member 26 is also installed above the rib glass 30 in consideration of appearance.
[0045]
When supporting by the auxiliary piece member 32, there is a fear of breakage due to stress concentration of the plate glass 10 and the rib glass 30, but as a result of FEM analysis, it has been confirmed that both are below the allowable stress value of the glass.
[0046]
In this case, if the float glass is simply supported on two sides, the limit length of the unsupported side is 2200 mm. Therefore, by applying the present invention, if the two-sided support is 100%, up to 172% is not supported. It became possible to increase the dimensions of the sides.
[0047]
【The invention's effect】
As described above, according to the two-side support plate glass structure according to the present invention, the dimensions of the non-support side can be increased without losing the view while having the characteristics of the two-side support structure with a simple structure. Can do.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a first embodiment of a two-side support plate glass structure according to the present invention. FIG. 2 is a cross-sectional view of a rib glass fixing structure taken along line 2-2 in FIG. FIG. 4 is a perspective view showing a second embodiment of the two-side support plate glass structure of the present invention. FIG. 5 is a rib glass fixing structure taken along line 5-5 in FIG. FIG. 6 is a schematic diagram of the two-sided support plate glass structure of the present invention explaining the wind pressure resistance performance.
DESCRIPTION OF SYMBOLS 10 ... Plate glass, 14 ... Upper sash frame, 18 ... Lower sash frame, 20 ... Joint part, 22, 30 ... Rib glass, 24 ... Silicone-type sealing material, 26 ... Rib glass self weight receiving member, 32 ... Auxiliary piece member, 34 ... Tightening part, 36 ... buffer rubber, 38 ... nut, 40 ... bolt

Claims (4)

In the two-side supported plate glass structure in which the plurality of plate glasses are arranged so as to be flush with each other, and the upper and lower two sides of these plate glasses are each supported by a sash frame,
Rib glass is arranged in the direction orthogonal to the plate glass at the joint between the adjacent plate glasses at the left and right side edge portions that are the non-supporting sides of the plate glass, and the plate glass and the rib glass are bonded with a silicone sealant,
The rib glass has a structure in which the upper and lower ends thereof are supported in a floating state by being spaced apart from the sash frame. The two-side support plate glass structure according to claim 1, wherein parts for fixing the rib glass and the plate glass are attached to the upper and lower portions of the rib glass. The two-side support plate glass structure according to claim 1 or 2, wherein the silicone-based sealant for bonding the plate glass and the rib glass is a one-component sealant. The silicone-based sealing material for bonding the plate glass and the rib glass is properly used in the upper and lower end portions and the central portion of the rib glass, and in the central portion, a high modulus sealing material is used, and in the upper and lower end portions, The two-side support plate glass structure according to any one of claims 1, 2, and 3, wherein a low modulus or medium modulus sealant is used.

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