JP3147288B2 - How to attach a glass plate - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to the present invention, wherein
A glass plate with a thickness of more than 10 mm or a tempered glass plate made of laminated glass, which is itself a heavy object, can be used as a building in buildings, gathering venues, stadiums, schools, or many people in a crowd. The present invention relates to a method for attaching a useful glass sheet to be installed in various places where an action must be assumed, by using a self-supporting method as various handrails, fences, partitions, and the like.

[0002] Above all, as a partition between a stand and a ground of various stadiums, etc., a glass plate having excellent strength capable of withstanding not only an assumed wind pressure but also a considerably large crowd load. It provides a method.

[0003]

2. Description of the Related Art Generally, glass plates, such as laminated glass, netted glass, tempered glass, and composite plates obtained by combining them, are used for stair railings, glass fences, indoor partitions, and the like. ), Glass self-supporting method (self-supporting method) or filling method (FF method: fixed filler type) is known.

For example, Japanese Utility Model Publication No. 53-24112 discloses a structure for fixing a plate to a frame as a structure for fixing a frame for protecting or holding a glass plate used mainly for a door. The plate side (upper or lower) of the plate body is inserted with a gap into the groove opening formed on the plate body mounting side of the groove form, and in this state, the bottom side (upper or lower part of the plate side) and A wedge-shaped spacing member, whose driving direction matches the direction of loading the plate side (upper or lower), is interposed between the groove forming side walls on both sides thereof to fix and hold the plate to the groove form. It is disclosed that a filler is filled between the groove form and the plate side (upper or lower) including the gap holding piece.

As the self-supporting construction method, for example,
Japanese Patent Publication No. 54-129716 describes a construction structure in which one side of a glass sheet is supported, and the construction structure of a glass sheet in which one side of an upright glass sheet is fixed by being clamped from both sides by hard fixing members. Discloses that the outermost end of the fixing member is terminated inside both side edges of the glass sheet, and the vicinity of the edge of the glass sheet is substantially in a free support state.

Further, for example, Japanese Patent Application Laid-Open No. 54-124520 discloses a method of mounting a plate material by supporting the lower side, which is a method of fixing the lower side of the plate material in a mounting groove to make the plate material self-supporting. Before fitting the plate material into the mounting groove, a band-shaped closing member made of a resilient material is pasted on both sides of the lower side of the plate material in advance in a contour shape forming a container having an opening upward when viewed from the plate material surface direction. At this time, the total thickness including the blocking member and the plate material is slightly larger than the groove width of the mounting groove, and then temporarily fixed after fitting the lower side of the plate material into the mounting groove,
It is disclosed that a flowable curable filler having rubber elasticity remaining after curing is poured into a gap surrounded by the rear plate material, the blocking member, and the inner wall of the mounting groove, and is cured.

For example, Japanese Utility Model Publication No. 58-44196, which has already been proposed by the present applicant, describes a mounting structure of a glass plate, and a plurality of glass plates are erected adjacently in a support frame. In the mounting structure for a glass sheet, the outer lower corner of the glass sheet located at the end straddles the edge of the glass sheet and its side is formed gradually thicker toward the edge of the glass sheet, and the end is formed at the outer lower corner. A piece with a ridge that protects the part is attached, and a ridge that keeps the gap between the glass sheets constant at the center between adjacent glass sheets, straddles the edges of both glass sheets, and the side The part attached to the edge of the glass sheet is a piece that is gradually thicker, the edge of the other glass sheet is straddling the edge, and the side part is the piece that is gradually thicker toward the edge of the glass sheet. Attach and support at the groove bottom of the support frame, between the side surfaces of the plurality of pieces and the inner surface of the support frame Various types are known, such as those in which a wedge is inserted into a support frame, and a filler is inserted into a groove of a support frame groove above the wedge to fix a plurality of glass plate edges to the support frame. ing.

[0008]

In the conventional structure for fixing a plate to a frame described in, for example, Japanese Utility Model Publication No. Sho 53-24112, the driving direction is simply made to coincide with the pressing direction of the upper and lower sides of the plate. The wedge-shaped gap holding piece was interposed and the plate body was fixed and held in the grooved form, for example, only for positioning and fixing mainly the glass plate about the glass door, for example, with a continuous large area and heavy weight The self-standing construction method for fixing a certain plate body is not necessarily a fixing structure having sufficient strength and dispersing and equalizing the load.

Also, for example, a construction structure supported by one side of a glass sheet described in JP-A-54-129716 and JP-A-54-129716.
In the method for supporting a plate material supported by the lower side described in JP-A-124520, a container-like closing member, which is entirely or partially disposed irrespective of the edge portion and irrespective of the edge portion, the member, the glass surface, and the inner wall of the mounting groove Combined with a fluid curable filler that remains rubber elastic after curing to be injected into the void surrounded by
Even if the fixing of the edge portion of the glass plate and the vicinity of the center or the fixing of the entire length is equalized, the load is applied almost evenly to the entire length, the stress on the edge and the surface are equalized, and the strength is secured, but for example, various sports Heavy weight and large area glass plate with a thick plate structure that can withstand the crowd pressure as well as the wind pressure assumed for partitioning the stand and ground of the place etc. It is hard to say that it is a self-supporting mounting construction structure or method for equalizing stress distribution.

Further, for example, in the method of mounting a glass plate described in Japanese Utility Model Publication No. 58-44196, which has already been proposed by the present applicant, certainly, for example, the stand and ground of various stadiums, etc. A self-supporting mounting construction or method that can handle heavy weight and large area glass plates with a thick plate structure that can withstand the wind pressure expected for partitioning etc. and of course the crowd load. Although it can be said that it is close to almost good, it may not always be enough depending on how to take the safety factor, and furthermore, these heavy weight and large area glass plate body may be subjected to the assumed wind pressure or crowd It was necessary to ensure that it could withstand loads.

[0011]

SUMMARY OF THE INVENTION In view of the above problems, the present invention provides a wedge-shaped member having a specified modulus of longitudinal elasticity or / and a ratio of length to width, and a wedge-shaped member having the same. The holding members are appropriately combined and used to complement the filler material, and the strength of fixing is applied in a well-balanced manner. By being able to withstand even a high generated load stress, for example, a glass plate having a plate thickness of about 10 to 15 mm or more and / or a laminated glass of a tempered glass plate can be used with a heavy weight and a large area. A glass plate can be placed on various structures, such as buildings, halls, stadiums, schools, or in various places where a large number of people must assume a crowd behavior. It can be constructed by the self-supporting construction method for partitioning the stand and ground of various stadiums, such as ria and fences and partitions, etc., and maintains the aesthetic appearance of the original self-supporting construction method, while maintaining the expected wind pressure and of course the crowd An object of the present invention is to provide a useful glass plate-like mounting method capable of withstanding a load and having extremely excellent load strength and safety.

That is, according to the present invention, the lower side of the glass plate is erected on the setting block in the groove-shaped support frame as an attachment member, and the outer surface of the glass plate and the inner wall of the groove-shaped support frame are formed. In a mounting method in which a glass plate is self-standing by holding and fixing a space by a holding member, a filler, a backup material, and a sealing material, a vertical elastic modulus of the wedge-shaped member is formed by a balance between a supporting wedge-shaped member and a pushing wedge-shaped member. After placing and holding the holding member having a ratio of length of 2 to 10 to 200 to 7000 kg / mm ² or / and a length of 2 to 10 in a groove-shaped support frame, a filling material, a backup material and a sealing material are applied and finished. A method of mounting a glass plate, characterized in that:

[0013] Further, the supporting method of the above-mentioned glass plate is characterized in that the supporting wedge-shaped member and the push-in wedge-shaped member, which are the holding members, are balanced in a vertical direction and / or in a horizontal direction.

Still further, the above-mentioned glass plate mounting method is characterized in that the holding members made of the wedge-shaped members have the same or different longitudinal elastic modulus or a combination thereof.

Still further, in the wedge-shaped member, at least one end face of the wedge-shaped member is rounded to form a glass plate. Furthermore, the method of mounting a glass plate described above, wherein the curvature of the R processing is 0.5 mm or more and 50 mm.

Further, when the holding member is arranged and set in the groove-shaped support frame, the filler is arranged in the fixed portion and the auxiliary portion mainly by the holding member, and the gap portion in the left and right lateral direction is zero or less. A method for mounting a glass plate as described above, wherein the mounting method is in a state.

Further, when the holding members are arranged and set in the groove-shaped support frame, the holding members and the filler are arranged and set alternately in the left and right lateral direction or with regularity. The mounting method of the glass plate described above.

Further, when the holding members are arranged and set in the groove-shaped support frame, the holding members are arranged and set at intervals of not more than four times the width of the holding members. The mounting method of the glass plate described above.

Still further, the above-mentioned glass plate mounting methods are provided, wherein the holding member is present on the setting block when the holding member is arranged and set in the groove-shaped support frame. Is what you do.

[0020]

BEST MODE FOR CARRYING OUT THE INVENTION Here, the glass plate is, for example, an inorganic glass plate which is a commercially available soda lime glass used for various glass plates, as well as a colorless or colored glass, especially a float glass. Is optimal,
Or, it may be a so-called glass plate made of an organic material such as polycarbonate or acrylic, and may be a flat plate or a bent plate glass, and may further have a screened glass, a strengthened glass, a laminated glass, a double-glazed glass, and surface-treated functionality. Various processed glass such as glass may be used. The shape and thickness of the glass plate are not particularly limited, but those having a substantially quadrangular shape having long sides and short sides can be most preferably employed. Especially 10 ~
A glass plate with a thickness of about 15 mm or more and / or
And a glass plate having a large area and a heavy weight such as a laminated glass of a tempered glass plate.

The support wedge-shaped member and the push-in wedge-shaped member are balanced and the wedge-shaped member has a longitudinal elastic modulus of 200 to 7000 kg /.
The holding member having a mm ² or / and a ratio of length to width of 2 or more and 10 or less is arranged and set in the groove-shaped support frame because the support wedge-shaped member and the pushing wedge-shaped member have an inclined surface. In order to reduce the applied stress by the sliding phenomenon on the inclined surface, the holding member itself consisting of the supporting wedge member and the pushing wedge member has a longitudinal elastic modulus of 200 to 7000 kg / mm.
² and / or the ratio of the length to the width of the holding member itself is specified to be 2 or more and 10 or less so that the applied stress can be relaxed, and moreover, these relaxing means can be appropriately combined. It is.

[0022] The was a 200 ~7000kg / mm ² the longitudinal elastic coefficient, the longitudinal elastic modulus of less than 200 kg / mm ² is almost free of any effect of fixed, longitudinal elastic modulus exceeds 7000 kg / mm ² when a large load This is because stress concentration may sometimes be applied when the stress is applied, and the risk of breakage may increase. Preferably, the modulus of longitudinal elasticity is about 500 to 4000 kg / mm ² . Further, examples of the holding member formed of a wedge-shaped member having a longitudinal elastic modulus of 200 to 7000 kg / mm ² include, for example, wood, especially cedar wood, and elastic rubbers or resins equivalent to wood.

And / or the ratio of the length to the width of the holding member itself is 2 or more and 10 or less because the ratio of the length to the width is 2 or less.
If the ratio is less than the number of wedge-shaped members, the fixing effect is small, and in some cases the fixing effect may be significantly reduced.If the ratio of length to width exceeds 10, stress concentration may occur when a large load is applied. This is because the risk of breakage may increase. Preferably, the ratio of the length to the width is about 4 or more and about 7 or less.

Further, examples of the filler include a silicone resin-based filler and a polyurethane resin-based filler (eg, a two-component hard urethane resin). After hardening, it forms a hard rubber-like elastic body, for example, and is as quick-drying as possible.
The shrinkage at the time of curing is zero or extremely small, the weather resistance is excellent, and the hardness after curing is, for example, Shore hardness A is 80.
Degrees or more, preferably about 90 degrees. Examples of the sealing material include a silicone sealing material. Examples of the backup material and the setting block include neoprene rubber (eg, hardness of 80 ° or more).

Still further, the supporting wedge-shaped member and the pushing wedge-shaped member, which are the holding members, are formed by a balance on a vertical inclined surface and / or a balance on a horizontal inclined surface. If only the balance at the slope of the direction is
In the case of only the balance on the horizontal inclined surface, the balance on the vertical inclined surface and the balance on the horizontal inclined surface may be appropriately combined, and the like. The shape, size, thickness of the sheet, the configuration of the form of processing, etc., the material of the filler and its use and arrangement, the degree and direction of the applied stress, the configuration of the groove-shaped support frame, etc. To adopt. In addition, the surface of the glass plate and the wedge-shaped member have good surface contact, and more specifically, it is preferable that the vertical surface and the surface of the glass plate-shaped member be abutted with the right-angled portion of the support wedge-shaped member as the lower side. In this case, it is preferable that the abutting surface be free rather than sticking.

Still further, the holding member made of the wedge-shaped member may have the same or different longitudinal elastic modulus or a combination thereof, for example, a support wedge-shaped member and a pushing wedge-shaped member, or The holding member and the holding member having the same or different longitudinal elastic modulus, the supporting wedge-shaped member and the pushing wedge-shaped member, and the holding member composed of the supporting wedge-shaped member and the pushing wedge-shaped member having the same or different longitudinal elastic modulus. By appropriately combining the above, it is possible to finer adjustment and also to diversification, and by extension, the shape, size, plate thickness, configuration and the like of the glass plate, the filler The material is appropriately selected and adopted depending on the material, its use and arrangement, the degree and direction of the applied stress, the configuration of the groove-shaped support frame, and the like.

Still further, the end face of at least one side of the wedge-shaped member which comes into contact with the glass plate-shaped member is subjected to the R processing because the end face is not subjected to the R processing at all and a stress concentration occurs on the end face by chance. Even if there was
This is because if the end face is rounded, it can be a means of alleviating the problem. Further, the curvature of the R processing is 0.5 mm or more and 50 mm or more.
The reason for being less than 0.5 mm is that if it is less than 0.5 mm, the predetermined effect may not be obtained when a very large load is applied, and if it exceeds 50 mm, the adhesion of the wedge-shaped member deteriorates. This is because the effect on a large load is reduced, and the amount of processing is increased to increase the cost. It is preferably about 1 mm or more and about 30 mm or less.

Further, when the holding member is arranged and set in the groove-shaped support frame, the filler is arranged in the fixing portion and the auxiliary portion mainly by the holding member, and the gap portion is reduced to zero or less in the left-right lateral direction. In order to disperse the generated stress due to the concentrated load, except for embedding the filler at the location of the fixing portion, the holding member is placed in the left and right lateral direction as much as possible in the groove-shaped support frame. It is best that the width of the holding member is minimized as much as possible, and the space portion is as small as possible. In other words, depending on the required strength and safety, such as the place where it is used, it is possible to select whether to leave the gap as appropriate or fill it with filler, taking into account the workability etc. It is more preferred that the only gap to be zero. Further, it is most preferable that the gap is made to be zero mainly by the holding member alone, and then it is preferable that the gap is made to be zero by the filling material. When the gap is left, the gap is made as small as possible. Also, the smaller the width of the holding member is, the more the dispersion of the load stress can be dealt with, but in some cases, the workability is extremely deteriorated, and the width of the holding member is, for example, about 10 to 50 mm, preferably about 15 It is about 30mm.

It is needless to say that it is best for the height of the holding member to be as high as possible between the upper surface of the base and the backup material.
It is desirable to make the height of the holding member used the same value, but without being limited to this, depending on the combination of the holding member, etc.
It goes without saying that the height may be adjusted as appropriate, such as by making the height different.

Further, when the holding members are arranged and set in the groove-shaped support frame, the holding members and the filler are arranged and set alternately in the left and right lateral direction or with regularity. For example, the modulus of longitudinal elasticity is 200-7000
Flexibility and robustness by appropriately arranging and setting the holding member consisting of a wedge-shaped member of kg / mm ² and the filler that becomes a hard elastic body relatively hardened alternately in the left and right direction or with regularity. By appropriately mixing and maintaining a balance, it is possible to disperse and equalize the concentrated load stress, thereby making it possible to make a firm fixation that is consistent with the generated stress, eliminating extreme stress concentration and Become.

Further, a glass plate having a large area and a heavy weight, such as a tempered laminated glass made of a glass plate having a thickness of about 10 to 15 mm or more, is assumed by a large number of people to act as a crowd. In various places where it is necessary to perform, especially as a partition between the stand and the ground of various stadiums, or as various handrails, fences and partitions, etc., more efficient construction by the self-supporting method can be performed, and the assumed wind pressure Of course, it is possible to provide a useful method of mounting a glass plate having excellent strength and safety that can withstand a crowd load.

Further, the holding members are arranged and set at an interval of four times or less the width of the holding member, for example, at an interval exceeding four times the width of the holding member. When the setting is performed, a more balanced and efficient construction can be expected when the workability of arranging and setting the holding member is taken into consideration while obtaining the effect of absorbing the load stress using the holding member. Because
In some cases, the holding member may be arranged and set at a width equal to or less than 3 to 2 times the width of the holding member.

Further, when the holding member is arranged and set in the groove-shaped support frame, the holding member is made to be present on the setting block part because the fixing block is used. This is because the presence of the holding member in the portion is more effective in alleviating the applied stress at the edge portion of the glass plate-like body. It is good from the viewpoint of fixation that both sides in the lateral direction are filled with a filler, and the filling form is not necessarily constant, and it is important to fill in an effective form as appropriate. Also, it is better to appropriately reduce the filler portion on both sides or one side of the portion composed of the setting block portion and the holding member, and to set the holding member composed of a wedge-shaped member that is subsequently disposed, in the setting block of the glass plate-like body. This is because the stress applied to the contact edge portion with the portion is hardly concentrated and easily dispersed.

As described above, according to the glass plate mounting method of the present invention, when the glass plate is mounted by the self-supporting method, the modulus of longitudinal elasticity is in the range of 200 to 7000 kg / mm ² or /
And a holding member having a balance between a supporting wedge-shaped member and a pushing wedge-shaped member having a ratio of the length to the width of the holding member itself of 2 or more and 10 or less is arranged and set in a groove-shaped support frame, The material and the sealing material are applied and finished. In particular, a holding member which is a combination of wedge-shaped members is appropriately selected and used in the same or / and different combinations of longitudinal elastic moduli, and one side or more of the wedge-shaped member in contact with glass is used. The end face was rounded, and the curvature of the rounding was about 0.5 mm
More than about 50 mm or less, depending on the case, the strength of the fixing by weakly fixing by only specifying the holding member or an appropriate combination of the holding member and the filler and specifying and setting the void portion to be zero or as close to zero as possible In a balanced manner, the generated load stress with respect to the load is distributed and equalized over the entire length, so that extreme stress concentration can be eliminated, and even if a large load is applied, it can withstand Become.

For example, a glass plate having a large weight and a large area, such as a glass plate having a plate thickness of about 10 to 15 mm or more and / or a laminated glass sheet of a strengthened glass plate, is used.
Buildings, gatherings, stadiums, schools or various places where a large number of people must assume crowd behavior in groups, such as various handrails, fences and partitions, especially various stadiums It can be constructed by a self-supporting construction method that is more effective as a stand and ground partition for various types of loads, such as human loads and wind loads.
About 100-150kgf / m, or about 100-250kgf / m,
Furthermore, it is possible to cope with not only the expected wind pressure but also crowd load, and it is a useful glass that has outstanding load strength and safety while maintaining the aesthetic appearance of the original self-supporting construction method. An object of the present invention is to provide a mounting method of a plate-like body.

[0036]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be specifically described below with reference to the drawings. However, the present invention is not limited to such an embodiment.

Embodiment 1 FIG. 1 is a front sectional view showing a partially enlarged front view of an embodiment of a method of mounting a glass plate according to the present invention, and has a size of about 1500 mm.
The lower side of the glass plate 1 as a laminated glass of a tempered glass plate having a thickness of about 1000 mm and a thickness of about 12 mm is erected on a setting block 6 in a support frame having a height of about 125 mm as a mounting member. Approximately 10 mm of the space formed by the outer surface of the glass plate and the inner wall of the groove-shaped support frame is formed by a holding member 3 having a size of about 20 mm, a height of about 100 mm and a thickness of about 10 mm 3 , a filler 7, and a backup material 8.
In addition, the glass plate is self-supported on the base 14 by being held and fixed by the sealing material 9, the edge protector 15 is provided as a protective cover on the upper edge, and the vertical joint of the glass plate is connected by the sealing material 9. This shows a state in which the glass plate 1 is attached.

FIG. 2 is a perspective view showing a holding member used in the method of mounting a glass plate of the present invention shown in FIG. 1 in a state where a supporting wedge-shaped member and a pushing wedge-shaped member are combined in a vertical balance. The support wedge-shaped member 4 and the push-in wedge-shaped member 5 are balanced and have a longitudinal elastic modulus of about 500 to 70.
A holding member 3 made of wood (such as a cedar tree) of about 500 kg / mm ² of 00 kg / mm ² is shown.

The holding member 3 is placed in a groove-like support frame, as shown in FIG.
Then, a portion where the holding member 3 is set is provided on the setting block 6 and both sides are filled with the filler 7.
And then the two holding members 3 ,
3. Next, the filler 7 is arranged and set with regularity as appropriate, so that no air gap is generated in the left and right lateral directions.
It is finished by applying a backup material 8 and a sealing material 9.

FIG. 3 is a partially enlarged side sectional view of the portion consisting of the setting block and the holding member in FIG. 1 taken along the line II, and shows a base 14 in the groove-shaped support frames 2 and 2 as mounting members. The setting block 6 is set with some gaps 11 on the left and right, and the glass plate 1 made of laminated glass is set.
The lower side end surface 13 is brought into contact with the setting block 6 so that the space defined by the outer surface 12 of the glass plate and the inner wall 10 of the groove-shaped support frame is supported by the wedge-shaped member 4 and the wedge-shaped member 5. It was set free and vertically centered with good balance between left and right without being stuck so as to be embedded with the holding member 3 combined, and then held and fixed by the backup material 8 and then the sealing material 9.

FIG. 4 shows a portion II of FIG.
FIG. 4 is a side cross-sectional view partially enlarged as viewed from II, and shows the lower side end surface of the glass plate-like body 1 in the groove-like support frames 2 and 2 as mounting members by the setting blocks shown in FIGS. 1 and 3. The glass plate-like body 1 stands upright while the glass plate-like body 13 is suspended from the base 14, and the space defined by the outer surface 12 of the glass plate and the inner wall 10 of the groove-shaped support frame is formed by the lower edge of the glass plate-like body 1 The space was filled with the filler 7 to such an extent that the space 11 was not reached before reaching the space 13, and then, as in FIG. 3, the backup material 8 and then the sealing material 9 were used to hold and fix the space.

FIG. 5 is a view showing a portion of the holding member in FIG.
FIG. 3 is a side cross-sectional view partially enlarged as viewed in the direction of III-III, and shows the lower side of the glass plate-like body 1 in the groove-like support frames 2 and 2 as mounting members by the setting blocks shown in FIGS. 1 and 3. The glass plate 1 is erected with the end surface 13 floating above the base 14, and the space defined by the outer surface 12 of the glass plate and the inner wall 10 of the groove-shaped support frame is moved to the lower side of the glass plate 1. End face 13
The lower portion is a gap 11, and the supporting wedge member 4 and the pushing wedge member 5
3 is centered and set in a free and vertical manner with good left-right balance without being attached so as to be embedded in the holding member 3 combined in a vertical balance, and thereafter, as in FIG. 9 was used to hold and fix.

A glass plate 1 which is a laminated glass of a tempered glass plate having the same size as the above and having a thickness of about 15 and 19 mm, which is implemented as described with reference to FIGS. Used, the longitudinal elastic modulus of the holding member is about
1000, 3000, 5000 and 7000 kg / mm ² , and the set interval of the holding member is 40, 100, 200, 400 mm.
An analysis was performed when a line load of about 100 to 300 kgf / m was applied to a location about 100 mm from the top edge of the glass plate.

As a result, it is possible to disperse a sufficiently concentrated load in all the operations performed, to make the applied stress uniform and to average out, and to cause no breakage of the glass plate at all, and to provide strength and safety more than before. The properties were excellent.

Embodiment 2 FIG. 6 is a front sectional view showing another embodiment of the method of mounting a glass plate according to the present invention, in which main parts are mainly enlarged. When the holding member 3 is arranged and set in the groove-shaped support frame, the holding member 3 and the filler 7 are arranged and set alternately in the left and right lateral directions, and are carried out in the same manner as in the first embodiment. .

Further, the wedge-shaped holding members having the same or different longitudinal elastic coefficients, or a combination thereof were also used. The result was the same as in Example 1, although the filling material was slightly better and the flexibry in the holding member was not sufficient.

Embodiment 3 FIG. 7 is a front sectional view showing another embodiment of the method of mounting a glass plate according to the present invention, mainly showing a main portion in a partially enlarged manner. When the holding member 3 is placed and set in the groove-shaped support frame, a portion where the holding member 3 is set is provided on the setting block 6 so that both sides are solidified with the filler 7, and then the three parallel members are arranged. Holding member
3 and the gaps 11 as small as possible are arranged and set alternately in the left and right lateral direction with regularity, and the filler is arranged in the fixing portion mainly with the holding member, and the gap portion in the left and right lateral direction is extremely small. Except having set it as above, it implemented similarly to the above-mentioned Example.

As a result, it was found that the holding member had a sufficient flexiblity, was able to disperse the concentrated load due to the voids, uniformized and averaged the applied stress generated, and had a somewhat excellent dispersing effect. It could be said that it was the same aim.

Embodiment 4 FIG. 8 is a front sectional view showing another embodiment of the method of mounting a glass plate according to the present invention, in which main parts are mainly partially enlarged. When the holding member is placed and set in the groove-like support frame, as shown in FIG. 1, the corner portion of the glass plate 1 is fixed with the filler 7 and the holding member 3 is placed on the setting block 6. The set part is provided and both sides are solidified with the filler 7,
Thereafter, the same operation as in the above-described embodiment was performed except that the filler was disposed only on the entire surface in the left and right lateral direction without using the remaining filler, and the gap was set to zero in the left and right lateral direction.

As a result, the flexure in the holding member is remarkable, the dispersion of the concentrated load by the holding member can be remarkably excellent, the uniformity and averaging of the generated stress can be sufficiently achieved, and the dispersion effect can be improved. It was remarkably superior and could be said to be superior to Example 1.

Embodiment 5 FIG. 9 is a perspective view showing another holding member used in the method of mounting a glass plate according to the present invention in a state where a supporting wedge-shaped member and a pushing wedge-shaped member are combined in a left-right balance. Example 1 was performed in place of the holding member in Example 1.

As a result, a target substantially similar to that of the first embodiment was obtained. Embodiment 6 FIG. 10 is a perspective view showing another holding member used in the method of mounting a glass plate of the present invention in a state where two supporting wedge-shaped members and two pushing wedge-shaped members are combined in a left-right balance. Thus, the embodiment 1 was performed in place of the holding member.

As a result, a target substantially similar to that of Example 1 was obtained. Example 7 In the same manner as in Example 1, a glass plate-like body which is the same size as that of Example 1 and is a laminated glass of a tempered glass plate having a thickness of about 15 mm was used. About 140mm
Standing on the setting block in the support frame, the space about 10 mm consisting of the outer surface of the glass plate and the inner wall of the groove-like support frame is about 25 mm in size, about 110 mm in height, about 10 mm in thickness. The operation was performed in the same manner as in Example 1 using a holding member whose two sides in contact with the glass plate were rounded at a curvature of 5 mm.

In addition, the same size as that described above and about 19 mm
Using a glass plate which is a laminated glass of a tempered glass plate having a thickness of 2, the ratio of the length to the width of the holding member is set to 2, 5, and 10, and the three sides which come into contact with the glass plate are 0.5 mm, 20 mm, 20mm
And a linear load of about 200 to 400 kgf / m was applied to a place about 100 mm from the top edge of the glass plate.

As a result, in all of the tests, the glass plate was not damaged at all, and the strength and safety were superior to those of the related art.

[0056]

As described above, according to the present invention,
A glass plate mounting method in which a glass plate is mounted by a self-supporting method using a holding member composed of a supporting wedge-shaped member and a pushing wedge-shaped member having a specific value of a longitudinal elastic modulus or / and a ratio of length to width. As a result, the strength of fixing can be applied in a well-balanced manner, and the generated load stress with respect to the load can be dispersed and equalized over the entire length to eliminate extreme stress concentration and withstand even when a large load is applied. So that you can
For example, a glass plate having a heavy weight and a large area such as a glass plate having a plate thickness of about 10 to 15 mm or more and / or a laminated glass of a tempered glass plate, a building such as a building, a meeting place, For stadiums, schools or various places where a large number of people must assume crowd behavior in groups, as a partition for various handrails, fences, partitions, etc., especially stands and grounds for various stadiums It can be constructed by the more effective self-supporting construction method and can cope with various loads, for example, assumed load such as human load and wind load, as well as crowd load. It is intended to provide a useful method of mounting a glass plate having extremely excellent load strength and safety while maintaining the above conditions.

[Brief description of the drawings]

FIG. 1 is a partially enlarged front sectional view showing one embodiment of a glass plate mounting method of the present invention.

FIG. 2 is a perspective view showing a holding member used in the method of attaching a glass plate of the present invention shown in FIG. 1 in a state where a supporting wedge-shaped member and a pushing wedge-shaped member are combined in a vertical balance.

FIG. 3 is a side cross-sectional view of a portion including a setting block and a holding member in FIG.

FIG. 4 is a partially enlarged side sectional view of a portion made of a filler in FIG. 1 taken along line II-II.

5 is a sectional view taken along a line III-III in FIG.
It is the side sectional view which expanded and looked at partially.

FIG. 6 is a front sectional view showing another embodiment of the glass sheet mounting method according to the present invention, in which main parts are mainly enlarged.

FIG. 7 is a front sectional view showing another embodiment of the method of mounting a glass plate according to the present invention, in which main parts are mainly partially enlarged.

FIG. 8 is a front sectional view showing another embodiment of the method of mounting a glass plate according to the present invention, in which main parts are mainly partially enlarged.

FIG. 9 is a perspective view showing another holding member used in the method of attaching a glass plate of the present invention in a state where a supporting wedge-shaped member and a pushing wedge-shaped member are combined in a left-right balance.

FIG. 10 is a perspective view showing another holding member used in the method of mounting a glass plate of the present invention in a state where two supporting wedge-shaped members and two pushing wedge-shaped members are combined in a left-right balance.

[Explanation of symbols]

REFERENCE SIGNS LIST 1 glass plate 2 support frame 3 holding member 4 support wedge member 5 push-in wedge member 6 setting block 7 filling material 8 backup material 9 sealing material 10 inner wall 11 void 12 outer surface 13 edge 14 base 15 edge protector

──────────────────────────────────────────────────続 き Continued on the front page (58) Field surveyed (Int.Cl. ⁷ , DB name) E04H 17/16 104 E04F 11/18 E06B 3/54-3/64

Claims (9)

(57) [Claims] 1. A lower side portion of a glass plate body is erected on a setting block in a groove-shaped support frame as an attachment member, and a space formed by an outer surface of the glass plate and an inner wall of the groove-shaped support frame is held by a holding member. In a mounting method in which the glass plate is self-standing by being held and fixed by a filler, a backup material and a sealing material, the glass plate is formed by a balance between a supporting wedge-shaped member and a pushing wedge-shaped member, and the longitudinal elastic modulus of the wedge-shaped member is 200 to 70.
After placement set to 00Kg / mm ² and / or the retaining member grooves shaped supporting frame that the ratio of length to width is 2 to 10, and to finish applying the filler, the backup material and sealing material A method of mounting a glass plate, characterized in that: 2. The method for mounting a glass sheet according to claim 1, wherein the supporting wedge-shaped member and the pushing wedge-shaped member, which are the holding members, are vertically balanced and / or left-right balanced. 3. The holding member made of the wedge-shaped member has the same or different longitudinal elastic modulus, or a combination thereof.
3. The method for mounting a glass plate according to any one of claims 1 to 2. 4. The method according to claim 1, wherein at least one end face of the wedge-shaped member is rounded. 5. The method for mounting a glass sheet according to claim 4, wherein a curvature of the R processing is 0.5 mm or more and 50 mm. 6. When the holding member is arranged and set in a groove-like support frame, the filler is arranged in a fixed portion and an auxiliary portion mainly by the holding member, and a gap portion in the horizontal direction is reduced to zero or less. The method for mounting a glass plate according to claim 1, wherein the glass plate is in a state. 7. The method according to claim 7, wherein when the holding member is arranged and set in the groove-shaped support frame, the holding member and the filler are arranged and set alternately in the left and right lateral direction or with regularity. Item 7. The method for mounting a glass plate according to any one of Items 1 to 6. 8. The method according to claim 1, wherein when the holding member is arranged and set in the groove-shaped support frame, the holding member is arranged and set at an interval of four times or less the width of the holding member. Item 8. The method for mounting a glass plate according to any one of Items 1 to 7. 9. The glass plate mounting according to claim 1, wherein when the holding member is arranged and set in the groove-shaped support frame, the holding member is present on the setting block portion. Method.