JP2004270292A - Crime prevention sash and crime prevention construction method - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a crime prevention sash without dropout from a sash frame against impact or pushing force while using a translucent plate-like body having at least one layer of resin layers. <P>SOLUTION: The crime prevention sash 7 is composed by fitting the edge part of the translucent plate-like body 8 having at least one layer of the resin layers into a groove of a sandwiching part 101 of a metal dropout prevention attachment, and fitting a leg part 102 of the dropout prevention attachment to a groove of a sash frame 9. A taking-in margin L1 in which the groove of the sandwiching part 101 covers the edge part of the translucent plate-like body 8 is larger than a taking-in margin L6 in which the groove of the sash frame 9 covers the leg part 102. An inside width L2 of the groove of the sandwiching part 101 is larger than an inside width L7 of the groove of the sash frame 9. <P>COPYRIGHT: (C)2004,JPO&NCIPI

Description

[0001]
TECHNICAL FIELD OF THE INVENTION
TECHNICAL FIELD The present invention relates to a drop-off prevention attachment for a security sash and a light-transmitting plate with an attachment, which is attached to an edge of the light-transmitting plate. In addition, the present invention relates to a security sash in which the fall-off prevention attachment is fitted in a groove of a sash frame. Further, the present invention relates to a crime prevention construction method for remodeling an existing sash into a crime prevention sash using the above-mentioned fall prevention attachment.
[0002]
[Prior art]
In recent years, crimes that break windows and illegally invade houses and buildings have increased. On the other hand, various security sashes have been proposed in which windows are hardly broken to prevent intrusion. For example, Japanese Patent Application Laid-Open No. 2000-203895 (Patent Document 1) discloses that in a window glass unit in which the periphery of a sheet glass is surrounded by a sash via an elastic sealing material, the sheet glass has a surface compressive stress of 1200 kgf / cm. ² There is described a window glass unit in which security is enhanced by using tempered glass that exceeds the standard. The publication describes that the use of so-called “super-tempered glass” as a material for the window glass can prevent the window glass from being easily broken.
[0003]
On the other hand, Japanese Patent Application Laid-Open No. 8-270331 (Patent Document 2) discloses a channel-like reinforcing material capable of surrounding the peripheral portion of a double-glazed glass, an inner soft portion which comes into contact with the glass relative to the double-glazed glass, and a double-layered glass. A flexible material having an outer soft portion that abuts on the glass and the sash to seal between the double-glazed glass and the sash, and is provided on the reinforcing material so as to cover an open end of the reinforcing material. A double glazing with a fall-off prevention attachment formed by attaching the fall-off prevention attachment provided to a peripheral portion is described. It is said that such a double-glazing unit with a fall-prevention attachment can be attached to a sash as it is, thereby facilitating the attachment operation.
[0004]
[Patent Document 1]
JP-A-2000-203895
(Claims, effects of the invention, FIG. 1)
[Patent Document 2]
JP-A-8-270331
(Claims, effects of the invention, FIG. 2)
[0005]
[Problems to be solved by the invention]
However, even if ultra-tempered glass is used as in the window glass unit described in Japanese Patent Application Laid-Open No. 2000-203895, there is still a possibility that the glass will be broken by hitting with a sharp-pointed hammer or the like. Also, super-tempered glass is considerably more expensive than ordinary glass, and there is a limit to its widespread use. On the other hand, it has been found that a light-transmitting plate having at least one resin layer has better impact resistance than glass and can withstand a large impact. For example, depending on the thickness of the polycarbonate layer, penetration of a light-transmitting plate-like body having a polycarbonate layer can be prevented even when a bullet is hit.
[0006]
However, when comparing a single-layer resin plate and a single-layer glass plate, the former is more flexible than the latter, so simply incorporating the former into a normal sash will not produce any shock or pressure. It may bend and fall off from the sash frame. In the case where the light-transmitting plate has a multilayer structure including a glass layer and a resin layer, even if the glass layer is broken by receiving an impact or a pressing force, the light-transmitting plate is formed. The body can maintain its form. However, if further external force is applied in such a state, there is a possibility that the sash frame may fall off and enter a sashable state. Further, when the entire thickness of the light-transmitting plate-shaped body is large, there is a problem that the light-transmitting plate-shaped body cannot be accommodated in a normal sash frame. These problems can be solved by remodeling the existing sash frame or by replacing the existing sash frame with a new one, but the work requires a lot of labor and cost, Resources may be wasted.
[0007]
In response to the rapid increase in awareness of crime prevention in recent years, there has been a strong demand for windows with excellent security performance, including in general homes. Costs are starting to bring significant benefits to both businesses and consumers. It is also important to reduce waste. For this reason, there is a demand for a sash that can be easily incorporated by using a sash frame that has already been assembled in a building and that is also extremely excellent in crime prevention performance.
[0008]
By the way, as described in JP-A-8-270331, a method of using a glass plate with an attachment and incorporating it into a sash frame is already known. The publication describes that the double-glazing can be easily incorporated into an existing sash frame. However, since this is a fall-prevention attachment intended only for a material having no flexibility such as glass, it is not possible to prevent a light-transmissive plate-like body having at least one resin layer from falling off when this is used. Absent. Further, it cannot be used when the overall thickness of the double glazing is larger than the inner width of the groove of the sash frame. For this reason, there is a great limitation in increasing the thickness of the glass plate to improve its impact resistance.
[0009]
The present invention has been made in order to solve the above problems, and uses a translucent plate having at least one resin layer, and does not fall off from a sash frame even when subjected to impact or pressing force. The purpose is to provide. It is also an object of the present invention to provide a fall-off prevention attachment in which a light-transmitting plate having at least one resin layer can be easily fitted into an existing sash frame. It is a further object of the present invention to provide a translucent plate with an attachment that can be easily incorporated into an existing sash frame. It is still another object of the present invention to provide a security construction method for converting an existing sash into the security sash.
[0010]
[Means for Solving the Problems]
An object of the present invention is to provide a security sash in which the edge of a light-transmitting plate having at least one resin layer is covered with a metal fall-off prevention attachment, and the fall-off prevention attachment is fitted in a groove of a sash frame. The drop-off prevention attachment has a holding portion having a groove into which the edge of the light-transmitting plate is fitted and a leg fitted into the groove of the sash frame, and the groove of the holding portion has a light-transmitting plate shape. The swallowing margin covering the edge of the body is larger than the swallowing margin of the sash frame covering the legs, and the inner width of the groove of the holding portion is larger than the inner width of the groove of the sash frame. Solved by providing a sash. Accordingly, it is possible to provide a sash excellent in crime prevention property in which the translucent plate-shaped body is hardly damaged or dropped from the sash frame even when subjected to an impact or a pressing force.
[0011]
Here, the swallowing margin refers to a depth at which the fitting member is hidden by the groove when the fitting member such as a translucent plate is fitted into the groove. When the swallowing margin is 25 mm, the fitting member can be fitted to a depth of 25 mm. For example, in FIG. 7, the swallowing margin of the groove of the holding portion 101 covering the edge of the translucent plate body 8 is L1, and the swallowing margin of the groove of the sash frame 9 covering the leg 102 is L2. Generally, the larger the swallowing margin, the harder the fitting member falls off.
[0012]
At this time, it is preferable that the translucent plate-like body is a laminate in which a glass layer and a resin layer are bonded. Further, it is also preferable that the light-transmitting plate-like body is a laminate formed by bonding a plurality of hard resin layers. Thereby, it becomes possible to improve the impact resistance of the translucent plate-shaped body. Preferred embodiments include those in which a plurality of glass layers are bonded to each other via an adhesive resin layer, those in which a glass layer and a hard resin layer are bonded to each other via an adhesive resin layer, An example in which a hard resin layer is bonded to each other via an adhesive resin layer is exemplified. The hard resin layer used here is preferably a polycarbonate layer or an acrylic layer in consideration of impact resistance and the like, and more preferably a polycarbonate layer. Further, the adhesive resin layer is preferably made of one kind of resin selected from the group consisting of polyvinyl butyral, polyurethane, and ethylene-vinyl acetate copolymer in consideration of adhesiveness to glass, flexibility, and the like. . Further, it is also preferable that the light-transmitting plate-like body is a hard resin single layer excellent in impact resistance. As a preferred embodiment, a single layer of polycarbonate and a single layer of acrylic are exemplified, and a single layer of polycarbonate is most preferable.
[0013]
It is also preferable to dispose a spacer made of a hard plate between the inner surface of the groove of the sash frame and the outer surface of the leg. This makes it possible to more reliably prevent the light-transmissive plate-like body from falling off. It is also preferable that the sash frame and the fall prevention attachment are screwed. This makes it difficult for the fall prevention attachment to fall off the sash frame. In this case, it is preferable that the screw can be tightened only from the indoor side of the sash frame and that the screw cannot be tightened from the outdoor side. This makes it possible to provide a security sash without clues that can be dismantled from the outdoor side. Here, the screw can be tightened only from the indoor side of the sash frame, and the screw cannot be tightened from the outdoor side, which means that the screw tightening structure (screw groove, hexagonal hole, nut, etc.) It means that it is arranged only on the indoor side of the sash, and no screw fastening structure is arranged on the outdoor side.
[0014]
Further, the object is to provide a metal drop-off attachment that fits into a groove of a sash frame and covers an edge of a light-transmitting plate having at least one resin layer, It has a holding portion having a groove into which the edge is fitted, and a leg fitted into the groove of the sash frame, the depth of the groove of the holding portion is 18 mm or more, and the inner width of the groove of the holding portion is It is also solved by providing a fall-off attachment characterized by being larger than the outer width of the leg. This makes it possible to provide a fall-off prevention attachment suitable for being incorporated into a security sash. Since the depth of the groove of the holding portion is 18 mm or more, when the edge of the light-transmitting plate-like body is fitted into the groove of the holding portion, the groove of the holding portion makes the edge of the light-transmitting plate-like body. A maximum swallowing margin of 18 mm can be secured. The depth of the groove of the holding portion is preferably 25 mm or more. A member having a thickness such as a spacer or a cushioning material between the edge of the light-transmitting plate and the bottom surface of the groove of the holding portion when the edge of the light-transmitting plate is fitted into the groove of the holding portion. However, in this case, a value obtained by subtracting the thickness of the spacer, the cushioning material, and the like from the depth of the groove of the holding portion is a swallowing amount.
[0015]
At this time, it is also preferable that the holding portion and the leg portion are formed of separate members, and they are fixed to each other. This facilitates the forming process of the fall-off prevention attachment and makes it possible to replace only one of the holding portion and the leg portion. It is also preferable that the indoor side portion and the outdoor side portion of the holding portion are formed of separate members, and they are screwed. Thereby, even if the translucent plate-like body is bent, the fall prevention attachment can be securely attached to the edge thereof.
[0016]
Further, the object is a light-transmitting plate having an attachment in which an edge of the light-transmitting plate having at least one resin layer is covered with a metal fall-off attachment. Has a holding portion having a groove into which the edge of the light-transmitting plate is fitted, and a leg fitted into the groove of the sash frame, and the groove of the holding portion is provided with an edge of the light-transmitting plate. The problem is also solved by providing a translucent plate-shaped member with an attachment, wherein the swallowing margin for covering is 18 mm or more, and the inner width of the groove of the holding portion is larger than the outer width of the leg portion. This makes it possible to improve the workability when converting an existing sash to a security sash.
[0017]
Still another object is to cover the edge of a light-transmitting plate having at least one resin layer with a metal fall-off attachment, and fit the fall-off attachment into a groove of a sash frame. A crime prevention construction method for converting a sash into a crime prevention sash, wherein the fall-off prevention attachment includes a holding portion having a groove into which an edge portion of the light-transmitting plate-like body is fitted, and a leg portion fitted into a groove of the sash frame. The groove of the holding portion covers the edge of the translucent plate-shaped body, the groove of the sash frame is larger than the groove of the sash frame covers the leg portion, and the inner width of the groove of the holding portion has the sash frame. It is also solved by providing a security construction method characterized by being larger than the inner width of the groove. As a result, the existing sash can be easily modified to the security sash.
[0018]
BEST MODE FOR CARRYING OUT THE INVENTION
Hereinafter, the present invention will be described more specifically with reference to the drawings. FIG. 1 is a perspective view showing a fall-off prevention attachment in which a holding portion and a leg portion are integrally formed. FIG. 2 is an AA cross-sectional view of the attachment for preventing falling off of FIG. FIG. 3 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion and a leg portion are fixed using a tapping screw. FIG. 4 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion and a leg are fixed using a bolt and a nut. FIG. 5 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion formed of a separate member is fixed to an indoor side portion and an outdoor side portion using a male screw and a female screw having a tapered head. FIG. 6 is a perspective view showing a security sash in which the legs of the fall prevention attachment are fixed to the sash frame using bolts and nuts with round heads. FIG. 7 is a sectional view taken along line BB of the security sash of FIG. FIG. 8 is a cross-sectional view showing a security sash in which the legs of the fall-off prevention attachment are fixed to a sash frame using tapping screws and a hard plate. FIG. 9 is a front view showing a light-transmitting plate-like body with an attachment, in which a fall prevention attachment having a substantially rectangular side surface shape is attached to four sides of the light-transmitting plate-like body. 6 to 8, the translucent plate having at least one resin layer is illustrated as a single plate for convenience.
[0019]
The security sash of the present invention is a security sash in which an edge of a light-transmitting plate having at least one resin layer is covered with a metal fall-off attachment, and the fall-off attachment is fitted in a groove of a sash frame. It is. As shown in FIG. 2, for example, the fall prevention attachment used has an inner width L2 of the groove of the holding portion larger than an outer width L4 of the leg portion. In addition, the depth L3 of the groove of the holding portion is usually larger than the height L5 of the leg, and the swallowing space L1 in which the groove of the holding portion covers the edge of the light-transmitting plate-like member is formed by a sash frame. Is larger than the swallowing margin L6 that covers the leg. By fitting the legs 102 of the fall-off prevention attachment into the grooves of the existing sash frame, a light-transmitting plate having a greater thickness than a light-transmitting plate body that can be directly fitted into the grooves of the sash frame. The plate-like body can be incorporated into the sash frame with a larger swallowing margin than the sash frame.
[0020]
First, the translucent plate used in the security sash of the present invention will be described. The translucent plate used in the present invention has at least one resin layer. That is, it is only necessary to have at least one resin layer, and its material and layer configuration are not particularly limited. For example, it may be composed of a single-layer or multiple-layer translucent resin plate, or may be a laminate of a layer made of a translucent inorganic material such as glass and a translucent resin layer. It does not matter. Further, it is only necessary that the whole plate-shaped body has a light-transmitting property, and visibility is not necessarily required. For example, one using a template glass or the like may be used. Since it is used by being fitted into a sash frame, it is preferable that the outer shape is a square.
[0021]
The total thickness of the translucent plate is preferably 7 to 150 mm. When the entire plate thickness is less than 7 mm, it is often unnecessary to use the fall prevention attachment of the present invention, and more preferably, it is 8 mm or more. On the other hand, when the total thickness exceeds 150 mm, it is often difficult to fix the sash frame to the sash frame even using the fall prevention attachment of the present invention, more preferably 100 mm or less, more preferably. Is 50 mm or less. In addition, it is preferably 20 mm or less in consideration of attachment to a general household pulling sash.
[0022]
It is preferable that the translucent plate is a laminate in which a glass layer and a resin layer are bonded. Accordingly, even if the glass layer is broken by impact or the like, the translucent plate-like body can be prevented from entering from the outside. Here, it is important that the respective layers are adhered without interposing a space, and those having a multi-layer structure via an air layer are not preferable from the viewpoint of strength.
[0023]
The glass plate used is not particularly limited, and a float plate glass that has not been subjected to a heat treatment, a glass plate that has been subjected to a heat treatment to increase the surface compressive stress, or the like can be used. As the heat-treated glass sheet, a sheet glass whose surface compressive stress is increased to 20 MPa or more is preferably used. As the heat-treated glass, a double-strength glass having a surface compressive stress of 20 to 60 MPa and a semi-tempered glass having a surface compressive stress of 60 to 70 MPa can be suitably used. Tempered glass is not preferred because the surface compressive stress is too large. Although tempered glass is difficult to break, once broken, the entire glass plate is crushed into particles, so that the light-transmitting plate-like body has significantly reduced strength against subsequent impact. If the glass layer breaks, the small pieces may scatter violently, possibly damaging indoor people and furniture. Further, netted glass can be used for the purpose of improving fire protection and crime prevention. Further, it is possible to use a glass plate having a heat ray blocking layer such as a tin oxide film formed on the surface of the glass plate, or a glass plate having an ultraviolet blocking layer formed thereon. It is also possible to use a colored plate glass or a half mirror within a range that does not significantly impair the light transmittance.
[0024]
In a preferred embodiment of the present invention, the translucent plate is a laminate in which a plurality of glass layers are bonded to each other via an adhesive resin layer. Specifically, a layer configuration such as a glass layer / adhesive resin layer / glass layer, or a glass layer / adhesive resin layer / glass layer / adhesive resin layer / glass layer is exemplified as a preferable one. With a structure of so-called laminated glass sandwiched between adhesive resins, breakage due to external impact can be prevented. In addition, when the glass plate is disposed on the inner and outer surfaces, it is excellent in abrasion resistance.
[0025]
The resin used as the adhesive resin layer at this time is not particularly limited as long as it adheres to the glass layer and has flexibility and strength, and a group consisting of polyvinyl butyral, polyurethane, and ethylene-vinyl acetate copolymer. It is preferable to be composed of one kind of resin selected from In particular, polyvinyl butyral is preferably used from the viewpoint of good adhesion to glass and formation of a tough film. In order to ensure security, the thickness of the adhesive resin layer is preferably set to be thicker than general laminated glass, preferably 0.5 to 5 mm, and more preferably 1 to 4 mm. More preferred.
[0026]
The thickness of one glass plate used at this time is preferably 2 mm or more, and usually 19 mm or less. By increasing the thickness of the glass plate, wind resistance can be improved, and more preferably 3 mm or more. As the type of the glass plate, a float plate glass can be used, and it is also preferable to use a semi-tempered glass or a double-strength glass in order to improve security.
[0027]
In another preferred embodiment, the light-transmitting plate-like body is a laminate in which a glass layer and a polycarbonate layer are bonded via an adhesive resin layer. Specifically, a layer structure of a glass layer / adhesive resin layer / polycarbonate layer, a glass layer / adhesive resin layer / polycarbonate layer / adhesive resin layer / glass layer, and the like are exemplified as preferable ones. By having a polycarbonate layer, a high degree of security can be achieved. If a polycarbonate layer having a thickness equal to or greater than a predetermined value is used, a bulletproof glass that can prevent penetration of bullets can be obtained. The thickness of the polycarbonate layer is preferably at least 2 mm, more preferably at least 3 mm. In order to prevent penetration of a bullet having a large penetration force, it may be preferable to set the length to 5 mm or more, and in some cases, to 10 mm or more. On the other hand, the thickness of the polycarbonate layer is usually 50 mm or less.
[0028]
The resin used as the adhesive resin layer at this time is not particularly limited as long as it adheres to both the glass layer and the polycarbonate layer and has flexibility and strength. Polyurethane is preferably used from the viewpoint of forming a good and flexible film. The preferred thickness of the adhesive resin layer is the same as in the case of the above-described laminate in which a plurality of glass layers are mutually bonded via the adhesive resin layer.
[0029]
The thickness of one glass plate used at this time is preferably 2 mm or more, and usually 19 mm or less. By increasing the thickness of the glass plate, wind resistance can be improved, and more preferably 3 mm or more. When a glass plate is used as the innermost layer on the indoor side, when the glass plate is broken, small pieces may be scattered into the room. preferable. As the type of the glass plate, a float plate glass that has not been subjected to a heat treatment can be used, but it is also preferable to use a semi-tempered glass or a double tempered glass that has been subjected to a heat treatment to increase the surface compressive stress. Thus, the glass plate can sufficiently withstand a large tension even if the polycarbonate layer expands. This is particularly effective when the thickness of the glass plate cannot be increased.
[0030]
Further, it is also preferable that the light-transmitting plate-shaped body of the present invention is composed of a single layer of polycarbonate. Also in this case, it is possible to obtain extremely excellent impact resistance. In particular, it is possible to obtain excellent security performance even when the layer thickness of the entire translucent plate is relatively small. In this case, the thickness of the polycarbonate plate is preferably 7 mm or more, and more preferably 9 mm or more. The thickness of the polycarbonate plate is usually 30 mm or less. When a polycarbonate plate is used, it is preferable to use a polycarbonate plate having a hard coat layer formed on its surface in order to improve scratch resistance.
[0031]
Next, a drop-off prevention attachment of the present invention, which is attached to the edge of the light-transmitting plate-like body to enhance the effect of preventing the light-transmitting plate-like from falling off, will be described. As shown in FIGS. 1 to 5, the fall prevention attachment 1 is formed by bending or extruding a plate-like member, thereby forming a holding portion having a groove 103 into which an edge of the light-transmitting plate-like body is fitted. 101 and a leg 102 to be fitted into the groove of the sash frame. The holding portion 101 and the leg portion 102 may be formed integrally, may be formed by welding separately formed portions, or may be fixed using a fixture such as a bolt. .
[0032]
It is preferable to use a metal having high rigidity as a material of the fall prevention attachment 1. Thus, even if the light-transmitting plate is temporarily deformed by receiving an impact or a pressing force, the light-absorbing attachment 1 is not deformed, so that the light-transmitting plate is less likely to fall off. The thickness of the fall prevention attachment 1 is preferably 0.5 to 3 mm. If the thickness is less than 0.5 mm, the strength may be insufficient and the effect of preventing falling off may be insufficient, more preferably 0.7 mm or more. On the other hand, if the thickness exceeds 3 mm, it may be difficult to attach the sash frame to the sash frame, and the thickness is more preferably 2 mm or less. The material of the fall prevention attachment 1 may be a metal having appropriate rigidity and strength, and may be stainless steel, steel plate, aluminum, reinforced aluminum, or the like. When the holding portion 101 and the leg portion 102 are separately formed, it is best to use stainless steel in consideration of strength, rust prevention, and the like. Among the easy metals, reinforced aluminum having particularly high strength is most suitable. At this time, it is also preferable to add a color or add a pattern to improve the design.
[0033]
The drop-off prevention attachment 1 shown in FIG. 1 is formed by extruding the holding portion 101 and the leg portion 102 integrally, and FIG. 2 is a sectional view taken along line AA. The fall prevention attachment 1 in which the holding portion 101 and the leg portion 102 are integrally formed has excellent strength. It is preferable that the holding portion 101 is provided with a drain hole 104 and has a structure in which water such as rainwater does not accumulate inside the groove 103 of the holding portion. The drainage hole may penetrate the holding portion in the horizontal direction, or may penetrate the bottom of the groove of the holding portion in the vertical direction. When fixing fittings such as bolts are used to fix the fall-off prevention attachment 1 to the sash frame, it is preferable to provide a through-hole (not shown) for passing the fixing fitting in advance.
[0034]
The drop-off prevention attachment 1 shown in FIG. 3 is obtained by fixing a separately formed holding portion 101 and leg 102 to a tapping screw 2 and the drop-off prevention attachment 1 shown in FIG. 4 is formed separately. The holding portion 101 and the leg portion 102 are fixed by bolts 3 and nuts 4. This is a preferred embodiment when using a material such as stainless steel, which is difficult to integrally mold. These drop-off prevention attachments 1 are excellent in economy because each part can be exchanged depending on the inner width of the groove of the target sash frame, the thickness of the target light-transmitting plate-shaped body, and the like. . Further, as shown in FIG. 3, when the leg 102 is cylindrical, it is difficult to fix the holding portion 101 and the leg 102 using the bolt 3 and the nut 4. It is preferable to use a tapping screw 2 for fixing. Other configurations such as drain holes are the same as those of the attachment for preventing falling off in FIGS. 1 and 2.
[0035]
In the attachment for preventing falling off shown in FIG. 5, the indoor side portion 105 and the outdoor side portion 106 of the holding portion are formed of separate members, and each member is fixed by a male screw 5 and a female screw 6. The drop prevention attachment 1 can be easily attached to the edge of the translucent plate, and can be suitably used for any of the translucent plate having the above configuration. However, it is particularly preferably used for a light-transmitting plate-like body whose layer configuration is not symmetrical between the indoor side and the outdoor side. For example, in the case where the translucent plate has a layer structure of glass layer / adhesive resin layer / polycarbonate layer, if the surrounding temperature decreases, the linear expansion coefficient of polycarbonate is larger than the linear expansion coefficient of glass. The polycarbonate layer shrinks more than the glass layer. Since the polycarbonate layer and the glass layer are bonded to each other by the adhesive resin layer, the glass layer is pulled by the contraction of the polycarbonate layer, and the light-transmitting plate-shaped body has a warped shape as a whole. At this time, if the holding portion is integrally formed, the inner width of the groove into which the edge of the light-transmitting plate is fitted remains unchanged. The distance between the portion and the inner surface of the groove may not be constant, and the edge of the light-transmissive plate-like body may not be strongly pinched, and the fitting itself may be difficult. However, when the indoor side portion 105 and the outdoor side portion 106 of the holding portion are separate members, the holding portion such as a bolt is tightened by lightly holding the edge of the translucent plate at each portion. It becomes possible to tighten the part strongly. For this reason, even if the translucent plate is warped, the fall prevention attachment 1 can be securely attached to the edge of the translucent plate. Other configurations such as drain holes are the same as those of the attachment for preventing falling off in FIGS. 1 and 2.
[0036]
Next, a security sash of the present invention will be described. The security sash 7 shown in FIG. 6 has the light-transmissive plate-shaped body 8 with the fall-off prevention attachment 1 attached to its edge, and its leg 102 fitted into the groove of the sash frame 9. It is -B sectional drawing.
[0037]
In this security sash 7, the swallowing space L6 in which the groove of the sash frame covers the leg is 8 mm. In the case of a sash frame on the assumption that glass is used as the window material, the swallowing margin is often set to less than 10 mm. This is because the glass does not easily bend and does not fall off even with such dimensions. Then, by reducing the swallowing margin, the daylighting area can be increased. On the other hand, the swallowing margin L1 in which the groove of the sandwiching portion covers the edge of the translucent plate-shaped member is 24 mm. That is, L1 is set to be larger than L6. By increasing the swallowing margin covering the edge of the translucent plate in this way, even if a translucent plate that is more flexible than glass is used, dropping due to impact or pressing force can be prevented. Can be prevented. L1 is preferably set in the range of 10 to 100 mm. When L1 is less than 10 mm, the translucent plate-shaped body 8 may fall off the fall-off prevention attachment 1, more preferably 15 mm or more, still more preferably 18 mm or more, and most preferably 20 mm. That is all. Furthermore, when the length of the side of the translucent plate-shaped body 8 to which the fall prevention attachment 1 is attached is 500 mm or more and the entire plate thickness is 15 mm or less, it is necessary to secure L1 to 25 mm or more. preferable. On the other hand, if L1 exceeds 100 mm, the daylighting area becomes narrow, visibility deteriorates, and the appearance of the security sash may also deteriorate. It is more preferably 80 mm or less, and still more preferably 60 mm or less.
[0038]
The inner width L7 of the groove of the sash frame shown in FIGS. 6 and 7 is 9 mm. In the case of a sash frame on the assumption that glass is used as the window material, the inner width of the groove is often set to less than 10 mm. This is because the thickness of a glass plate used for ordinary window glass is often around 6 mm, and even with such dimensions, it is sufficiently possible to fit the edge of the glass plate. On the other hand, the inner width L2 of the groove of the holding portion is 15 mm. That is, L2 is set to be larger than L7. By increasing the inner width of the groove into which the edge of the light-transmitting plate is fitted, even if a thick light-transmitting plate is used, it can be incorporated into the sash frame. It becomes possible. L2 is preferably set in the range of 8 to 150 mm. When L2 is less than 8 mm, it is often unnecessary to use the fall prevention attachment 1 of the present invention, and more preferably, it is 10 mm or more. On the other hand, when L2 exceeds 150 mm, it is often difficult to fix to the sash frame even with the use of the fall prevention attachment 1 of the present invention, and more preferably 120 mm or less. When used as a window glass for home use, L2 is set to 30 mm or less, and more preferably 20 mm or less.
[0039]
Silicone sealants 10 and 13 are applied to the gap between the translucent plate 8 and the holding portion 101 and the vicinity of the upper end surface of the sash frame 9. To prevent water such as rainwater from entering the inside of the groove. At this time, if the sealant 10 reaches the bottom of the groove of the holding portion 101, the drainage hole 104 may not be able to fulfill its function. Therefore, the backup material 11 made of a string-like elastic body is arranged. A space is secured at the bottom of the groove of the holding portion 101. As a suitable material of the backup material 11, polyethylene is exemplified.
[0040]
Further, it is preferable that the setting block 12 be disposed at the bottom of the groove of the holding portion 101. Thereby, it is possible to prevent the edge of the translucent plate-shaped body 8 from being damaged by hitting the bottom of the groove, and to prevent rattling. The setting blocks 12 do not need to be arranged continuously, and may be arranged at regular intervals. In particular, when a drain hole is provided at the bottom of the fall-off prevention attachment, it is preferable to arrange the drain hole so as not to hinder the drain. The material of the setting block 12 is an elastic material, and is not particularly limited as long as it does not damage the light-transmitting plate-like body 8. Natural rubber, ethylene propylene rubber, neoprene rubber, silicone rubber, soft polyvinyl chloride, polyurethane Etc. can be used. The setting block may also be located at the bottom of the groove in the sash frame.
[0041]
Further, when the translucent plate includes a polycarbonate layer, it is preferable to cover the edge of the translucent plate 8 with an edge protection member (not shown). Thus, not only can the edge of the light-transmitting plate 8 be protected, but also the light-transmitting plate 8 can be prevented from swinging inside the groove of the holding portion 101. It becomes. As the edge protection member, it is preferable to use a sealing tape made of resin or the like. For example, a presymmed glazing tape “Tremco440” manufactured by Tremco is preferably used.
[0042]
In this security sash 7, the leg 102 is fixed to the sash frame 9 using bolts 14 and nuts 15. The head of the bolt 14 has a round shape having no screw tightening structure such as a screw groove or a hexagonal hole. The bolt 14 can be tightened only by tightening the nut 15. At this time, it is preferable that the head of the bolt 14 (the left side in the figure) be on the outdoor side. As a result, the bolt 14 cannot be removed from the outdoor side with a tool such as a spanner or a screwdriver. The interval at which the bolts 14 are tightened is preferably 10 to 500 mm. If the distance is smaller than 10 mm, the durability of the leg 102 and the sash frame 9 may be reduced. If the distance is larger than 500 mm, the integrity of the leg 102 and the sash frame 9 may be reduced. Also, when it is not desirable for the head or nut of the bolt to protrude from the outer surface of the sash frame, such as when using the security sash as a sliding window, instead of fixing with a bolt and nut, caulking with a rivet It is preferable to fix.
[0043]
In the security sash 7 of FIGS. 6 and 7, when the light-transmitting plate 8 is made of a single-layer light-transmitting resin plate such as polycarbonate, a through-hole is provided in advance in the light-transmitting plate. Alternatively, a bolt may be passed through the through hole. In this case, the distance from the end face of the light-transmitting plate to the center of the through-hole should be one of the diameter of the through-hole in order to reduce the reduction in strength due to the provision of the through-hole in the light-transmitting plate. It is preferable to provide the through holes so as to be at least twice, preferably at least 2.5 times. The interval at which the through holes are provided in the translucent plate is preferably 50 to 500 mm, and the diameter of the through holes is preferably 3 to 12 mm. If the diameter of the through hole is smaller than 3 mm, the diameter of the shaft portion of the bolt that can be attached is too small, and the bolt may be easily broken by an impact, and if the diameter is larger than 12 mm, There is a possibility that a sufficient distance from the end face of the translucent plate to the center of the through hole cannot be secured. When it is not preferable that the head of the tapping screw 17 protrude from the outer surface of the sash frame 9 such as when the security sash 7 is used as a sliding window, instead of fixing with the tapping screw, use a rivet. It is preferable to close and fix.
[0044]
FIG. 8 shows an embodiment of the security sash when there is a gap between the outer surface of the leg 102 and the inner surface of the groove of the sash frame 9. A hard plate-like body 16 is arranged in between to prevent the leg 102 from swinging inside the groove of the sash frame 9. The leg 102 is fixed to the sash frame 9 using a tapping screw 17. As described above, when the tapping screw 17 is passed through the hard plate-like body 16, it is preferable that the material of the hard plate-like body 16 be a resin or aluminum that is easy to form a hole. Since the tapping screw 17 has a screw groove on its head, it is preferable to mount the tapping screw 17 in a direction in which the head is on the indoor side. At the bottom of the groove of the sash frame 9, a setting block 18 is arranged.
[0045]
Next, the translucent plate-shaped member with an attachment of the present invention will be described. The translucent plate 19 with an attachment shown in FIG. 9 is one in which the fall-off prevention attachment 1 is attached to four sides of the translucent plate 8 using a resin seal tape and a silicone sealant. . Each of the fall-off prevention attachments 1 may be attached so as to be in contact with each other. In particular, when the light-transmitting plate-shaped body 8 is formed of a single-layer light-transmitting resin plate, the attachments 1 are arranged at predetermined intervals L8. Is preferred. In this case, L8 is preferably set to 1 mm or more. This is because a translucent resin plate of polycarbonate or the like generally has a greater degree of expansion or expansion and contraction caused by a temperature change than glass. Thereby, when the translucent plate-shaped body 8 contracts, it is possible to prevent the drop-off prevention attachments 1 from contacting each other. The value of L8 is determined in consideration of the size of the translucent plate 8 and its linear expansion coefficient. For example, the light-transmitting plate-like member 8 shown in FIG. ^-5 / K is a single-layer translucent resin plate) having a width of 1 m, and assuming that the temperature is lowered by 30 ° C. from the time of attachment of the fall-off prevention attachment 1, the shrinkage is 2.1 mm in the horizontal direction. It is possible to do. Therefore, it is sufficient to set L8 to 2 mm (a total gap of 4 mm is formed because there are two gaps in the horizontal direction).
[0046]
Finally, the crime prevention construction method of the present invention will be described. First, the existing translucent plate is removed from the existing sash. Thereafter, the leg of the fall-off prevention attachment of the present invention is fitted into the groove of the existing sash frame. At this time, only the fall-off prevention attachment may be attached to the sash frame, and then the light-transmissive plate may be fitted into the groove of the fall-off attachment, but the fall-off attachment is attached to the edge of the light-transmissive plate. It is preferable to fit the sash into the sash frame. As a result, it is possible to make work on site more efficient. At this time, the fall prevention attachment may be attached to the translucent plate at the site, or a translucent plate with an attachment to which the fall prevention attachment is attached in advance may be used.
[0047]
【The invention's effect】
The security sash of the present invention uses a light-transmitting plate-like body having at least one light-transmitting resin layer such as polycarbonate which is extremely excellent in impact resistance, and falls off from the sash frame against impact and pressing force. Without this, it is also excellent in impact resistance, so that the security performance is extremely high. In addition, the drop-off prevention attachment of the present invention can easily incorporate the translucent plate into the existing sash, so that the security performance of the existing sash can be easily improved at low cost. Furthermore, the crime prevention construction method of the present invention enables an existing sash to be easily and inexpensively converted into a crime prevention sash.
[Brief description of the drawings]
FIG. 1 is a perspective view showing a fall-off prevention attachment in which a holding portion and a leg portion are integrally formed.
FIG. 2 is a sectional view taken along line AA of the attachment for preventing falling off of FIG. 1;
FIG. 3 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion and a leg portion are fixed using a tapping screw.
FIG. 4 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion and a leg are fixed using a bolt and a nut.
FIG. 5 is a cross-sectional view showing a fall-off prevention attachment in which a holding portion made of a member whose interior side portion and exterior side portion are separate members is fixed using a male screw and a female screw having a tapered head.
FIG. 6 is a perspective view showing a security sash in which the legs of the fall-off prevention attachment are fixed to a sash frame using bolts and nuts with round heads.
FIG. 7 is a sectional view taken along line BB of the security sash of FIG. 6;
FIG. 8 is a cross-sectional view showing a security sash in which a leg portion of a fall prevention attachment is fixed to a sash frame using a tapping screw and a hard plate.
FIG. 9 is a front view showing a light-transmitting plate-like body with an attachment, in which a fall prevention attachment having a substantially rectangular side surface shape is attached to four sides of the light-transmitting plate-like body.
[Explanation of symbols]
1 Attachment prevention attachment
2 tapping screws
3 bolts
4 nuts
5 Male screw
6 Female screw
7 Security sash
8 Translucent plate
9 Sash frame
10 Sealants
11 Backup materials
12 Setting block
13 Sealant
14 volts
15 nuts
16 Hard plate
17 tapping screws
18 Setting block
19 Translucent plate with attachment
20 sealants
101 Holder
102 legs
103 Groove of clamping part
104 drainage hole
105 Indoor side
106 Outdoor side
L1 Swallow the groove of the holding part to cover the edge of the translucent plate-shaped body
L2 Inner width of groove of holding part
L3 Depth of the groove of the holding part
L4 Outer width of leg
L5 leg height
Swallow the groove of L6 sash frame to cover the leg
L7 Inner width of sash frame groove
L8 Interval of each fall prevention attachment in the translucent plate with attachment

Claims (15)

An edge of a light-transmitting plate having at least one resin layer is covered with a metal fall-off prevention attachment, and the fall-off prevention attachment is a security sash fitted in a groove of a sash frame. The attachment has a holding portion having a groove into which the edge of the light-transmitting plate is fitted, and a leg fitted into the groove of the sash frame, and the groove of the holding portion is an edge of the light-transmitting plate. A sash frame is characterized in that the groove of the sash frame is larger than the groove of the sash frame and the inner width of the groove of the holding portion is larger than the inner width of the groove of the sash frame. The security sash according to claim 1, wherein the light-transmitting plate-like body is a laminate in which a glass layer and a resin layer are bonded. The security sash according to claim 2, wherein the translucent plate-like body is formed by bonding a plurality of glass layers to each other via an adhesive resin layer. The security sash according to claim 2, wherein the light-transmitting plate-like body is formed by bonding a glass layer and a hard resin layer via an adhesive resin layer. The security sash according to claim 1, wherein the translucent plate-like body is formed by bonding a plurality of hard resin layers to each other via an adhesive resin layer. The security sash according to any one of claims 3 to 5, wherein the adhesive resin layer is made of one resin selected from the group consisting of polyvinyl butyral, polyurethane, and ethylene-vinyl acetate copolymer. The security sash according to claim 1, wherein the translucent plate-shaped member is formed of a single layer of a hard resin. The security sash according to any one of claims 1 to 7, wherein a spacer made of a hard plate is disposed between an inner surface of the groove of the sash frame and an outer surface of the leg. 9. The security sash according to claim 1, wherein the sash frame and the fall-off prevention attachment are screwed. 10. The security sash according to claim 9, wherein screws can be tightened only from the indoor side of the sash frame, and screws cannot be tightened from the outdoor side. A metal drop-off attachment that fits into a groove of a sash frame and covers an edge of a light-transmitting plate having at least one resin layer, wherein the edge of the light-transmitting plate is inserted. It has a holding portion having a groove and a leg fitted into the groove of the sash frame, the depth of the groove of the holding portion is 18 mm or more, and the inner width of the groove of the holding portion is larger than the outer width of the leg. A fall prevention attachment that is also large. The fall prevention attachment according to claim 11, wherein the holding portion and the leg portion are formed of separate members, and are fixed to each other. The fall prevention attachment according to claim 11 or 12, wherein the indoor side portion and the outdoor side portion of the holding portion are formed of separate members, and are screwed. A light-transmitting plate having an attachment, wherein an edge of the light-transmitting plate having at least one resin layer is covered with a metal fall-off prevention attachment, wherein the fall-off prevention attachment has a light-transmitting plate-like shape. It has a holding portion having a groove into which the edge of the body is fitted, and a leg portion fitted into the groove of the sash frame, and the swallowing margin of the groove of the holding portion covering the edge of the light-transmitting plate-shaped member is 18 mm or more. Wherein the inner width of the groove of the holding portion is larger than the outer width of the leg portion. The edge of the translucent plate having at least one resin layer is covered with a metal fall-off attachment, and the fall-off attachment is fitted into the groove of the sash frame to convert the existing sash into a security sash. In the security construction method, the fall-off prevention attachment has a holding portion having a groove into which an edge of the light-transmitting plate is fitted, and a leg fitted into a groove of the sash frame. The swallowing margin where the groove covers the edge of the translucent plate-like body is larger than the swallowing margin where the groove of the sash frame covers the legs, and the inner width of the groove of the holding portion is greater than the inner width of the groove of the sash frame. A security construction method characterized by being large.

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