JP5342813B2 - Shutter device opening / closing body and shutter device using the opening / closing body - Google Patents

Description

  The present invention relates to an opening / closing body used for a shutter device including an overhead door, and a shutter device using the opening / closing body, and more particularly, to use an opening / closing body for a shutter device suitable for use for fire prevention and smoke prevention and the opening / closing body. The present invention relates to a shutter device.

  In high-rise buildings and underground shopping malls, flexible fireproof sheets are installed in the openings of passageways in buildings and underground shopping malls to prevent fire spread and smoke diffusion. This fireproof sheet is mainly non-combustible cloth made of inorganic fibers and the like, and is stored compactly in a wound or folded state during a normal time, and is drawn out when a fire breaks out to quickly set a shielding wall. This fire-resistant sheet is lighter and more flexible than a conventional shutter opening / closing body made of metal slats, etc., so it has a good workability and less stress on the building structure. It is used in the same way as an opening / closing body.

  However, in the fireproof sheet using the non-combustible cloth, the membrane material is easily damaged by the collision of the collapsed material or the collapsed material, so that the smoke leaks from the damaged part, and depending on the water discharge pressure from the fire hydrant equipment. There was a problem that the membrane material itself was torn apart. For this reason, for example, a refractory sheet (Patent Document 1) has been proposed in which a reinforcing material obtained by knitting fine metal wires in a mesh shape is attached to one side or both sides of an incombustible cloth. According to this refractory sheet, the strength can be increased by attaching a reinforcing material to the refractory film material, and it can be prevented from being easily cut or torn. As a similar strength reinforcement attempt, a heat shield screen for a disaster prevention shutter (Patent Document 2) in which a metal wire mesh is used as a reinforcing material and non-combustible cloths are provided on the front and back sides thereof has been proposed.

  These refractory sheets of Patent Document 1 and thermal barrier screens of Patent Document 2 are those that have been reinforced by using a metal reinforcing material. However, lamination (adhesion) of a metal reinforcing material and a non-combustible cloth is not possible. Since it is inherently difficult, there is a problem that the metal reinforcing material layer and the non-combustible cloth layer peel off during repeated operation and winding operation confirmation tests for periodic inspections. The performance anxiety is pointed out. Therefore, a fireproof sheet for a disaster prevention shutter reinforced with a metal reinforcing material is desired to have repeated bending and stretching durability associated with feeding and winding.

JP 11-89955 A Japanese Patent Application Laid-Open No. 2000-110459

  The present invention has been made in view of the above-mentioned conventional circumstances, and the subject of the present invention is composed of a fireproof sheet for a disaster prevention shutter reinforced with a metal reinforcing material, for repeated bending and stretching associated with feeding and winding. An object of the present invention is to provide a shutter device opening / closing body that can withstand and has excellent flexibility and a shutter device using the opening / closing body.

The technical means for solving the above-mentioned problem is that in a shutter device opening / closing body comprising a sheet-like opening / closing body body, one or more layers of ceramic yarn-containing fabric are laminated on one or more surfaces of a metal wire woven net. thereby forming the opening and closing body by incombustible laminate formed by, between the said metal wire knitted woven nets ceramic yarn containing fabrics, adhesive resin, or contact adhesive resin and reactive curable compound A copolymer resin having an α, β-unsaturated carboxylic acid unit as a copolymer resin having a flexible adhesive layer, and a copolymer of vinyl monomer and α, β-unsaturated carboxylic acid. An ionomer resin in which a part or all of the carboxylic acid in the copolymer is neutralized with a divalent metal ion metal cation, and the reaction curable compound is an isocyanate compound, an aziridine compound One or more of compounds, oxazoline compounds, titanium coupling agents, and silane coupling agents are included .

In one mode for carrying out the present invention, in a shutter device opening / closing body comprising a sheet-like opening / closing body main body, one or more layers of ceramic yarn-containing fabric are laminated on one or more surfaces of a metal wire woven net. The non-combustible laminate constitutes the opening / closing body main body, and an adhesive resin or a reactive curable compound, or an adhesive resin and a reactive curing between the metal wire woven net and the ceramic yarn-containing fabric. A flexible adhesive layer comprising a functional compound is interposed.
According to this structure, the opening / closing body for shutter devices excellent in bending durability can be obtained. The shutter device opening / closing body favorably prevents delamination between the metal wire woven net and the ceramic yarn-containing fabric by interposing a flexible adhesive layer. Therefore, in the event of a fire, the metal wire woven net effectively acts to maintain the tear strength of the shutter device opening / closing body, and the ceramic yarn-containing fabric effectively exhibits the action of preventing the transmission of flame, smoke, and the like.
Further, in another embodiment, the metal wire knitted woven nets are knitting or weaving by vertical metal lines and horizontal metal wire, Ru non-identical der mutually metal wire number including between inch.
According to this configuration, it is possible to improve the operability of the extension and winding of the shutter device opening / closing body. In addition, even when the shutter device opening / closing body is not wound and stored, but is stored after being bent, the shutter device opening / closing member can be operatively extended and stored.

In another embodiment , the metal wire woven net includes a metal wire in the opening / closing body width direction and a metal wire in the opening / closing body opening / closing direction, and the number of metal wires in the opening / closing body width direction is equal to the opening / closing body opening / closing direction. than the metal wire number not less 1 or more per inter inch.
According to this configuration, it is possible to improve the operability of the extension and winding of the shutter device opening / closing body. In addition, even when the shutter device opening / closing body is not wound and stored, but is stored after being bent, the shutter device opening / closing member can be operatively extended and stored.

In another embodiment , the surface of the metal wire woven net has at least one reactive curable compound selected from the group consisting of an isocyanate compound, a carbodiimide compound, an oxazoline compound, a titanium coupling agent, and a silane coupling agent. that has been coated with.
According to this configuration, particularly the surface of the metal wire woven net can be modified to increase the adhesive strength and to improve the bending durability.

Further, in another embodiment, the ratio of the sum of the knitted woven void portion area of the ceramic yarn containing fabric, Ru less than 1% der.
According to this configuration, it is possible to improve the smoke shielding and flame resistance of the shutter device opening / closing body.

In another embodiment , the ceramic yarn included in the ceramic yarn-containing fabric is silica, alumina, boron, potassium titanate, titania, silica-titania, boron nitride, boron carbide, zirconia, silicon nitride, silicon carbide. , silazane - silicon nitride, silicon carbide nitride, alumina - boria - Ru multifilament der constituted by one or more of the silica.
According to this configuration, the shutter device opening / closing body has good flame resistance, and by using a multifilament thread, the bending and stretching operability and durability associated with the drawing and winding of the shutter device opening / closing body are good. Can be.

Further, in another embodiment, the adhesive resin comprising the flexible adhesive layer, alpha, Ru copolymer resin der having β- unsaturated carboxylic acid unit.
According to this configuration, it is possible to particularly improve the adhesiveness to the metal wire woven net, and to improve the repeatability of bending and stretching associated with the extension and winding of the shutter device opening / closing body.

In another embodiment , the adhesive resin is 1) a copolymer of a vinyl monomer and an α, β-unsaturated carboxylic acid, and a part or all of the carboxylic acid in the copolymer is a divalent metal. Ionomer resin neutralized with ionic metal cation, 2) copolymer of α-olefin and glycidyl ester of α, β-unsaturated carboxylic acid, 3) α-olefin and α, β-unsaturated carboxylic acid ester and alpha, of the terpolymer of glycidyl esters of β- unsaturated carboxylic acids, including one or more.
According to this configuration, it is possible to particularly improve the adhesiveness to the metal wire woven net, and to improve the repeatability of bending and stretching associated with the extension and winding of the shutter device opening / closing body.

In another embodiment , the reactive curable compound contained in the flexible adhesive layer is an isocyanate compound, an aziridine compound, an oxazoline compound, a titanium coupling agent, or a silane coupling agent. including more than seeds.
According to this configuration, it is possible to particularly improve the adhesiveness to the metal wire woven net, and to improve the repeatability of bending and stretching associated with the extension and winding of the shutter device opening / closing body.

Further, in another embodiment, the flexible adhesive layer further montmorillonite, smectite, of the fluorine mica, that contain one or more layered minerals.
According to this configuration, the flame retardant / smoke resistance of the shutter device opening / closing body can be improved by leaving the decomposition residue of the inorganic flame retardant and the layered mineral in the voids of the ceramic yarn-containing fabric during combustion. it can.

Further, in another embodiment, the closing body is a plurality of closing constituting member made of the incombustible laminate ing connected by a stainless steel connecting member.
According to this configuration, particularly in a large and wide span shutter device, when the shutter member opening and closing member is configured by connecting and integrating a plurality of opening and closing member component members with the connecting member, the connecting member is made nonflammable and resistant. By using corrosive stainless steel, it is possible to suppress the collapse / breakage of the joint portion in the event of a fire.

In another embodiment , a shutter device is configured in which the opening / closing body main body is repeatedly opened / closed along the guide rail.
According to this configuration, the shutter device opening / closing member can be reliably extended to quickly construct the fire barrier, and further, the airtightness can be improved by improving the adhesion at the contact portion between the shutter device opening / closing member and the guide rail. Sex can be secured.

  In the above-described shutter device, the opening / closing body is wound and stored on the winding shaft, or the opening / closing body is stored in the opening direction side after being bent without being wound on the winding shaft. (For example, overhead doors). Further, the opening / closing direction of the shutter device opening / closing body is preferably the vertical direction, but may be an oblique direction, a horizontal direction, or the like.

In the present specification, the “opening / closing body thickness direction” means the thickness direction of the opening / closing body in the closed state.
In the present specification, the “opening / closing body width direction” means a direction that is substantially orthogonal to the opening / closing direction of the opening / closing body and not the thickness direction of the opening / closing body. The “opening / closing body width direction” may be referred to as a “span direction” by those skilled in the art.
Further, in this specification, the “opening / closing body opening / closing direction” means a direction in which the opening / closing body slides to partition or open the space.

Since the opening / closing body for the fireproof shutter device according to the above configuration is configured according to the above- described requirements, the opening / closing body is exposed to a flame, the surface of the opening / closing body is subjected to an impact by a fallen object or a collapsed object, or exposed to a flame. In this state, when the water discharge pressure from the fire hydrant is applied, damage and destruction of the opening / closing body can be kept to a minimum, and consequently, rapid flame and smoke casting can be prevented. In addition, despite having a metal reinforcing material layer, it is excellent in repeated operability of bending and stretching due to feeding and winding, and the metal reinforcing material layer and the non-combustible cloth layer are difficult to delaminate and are good Has flexibility. Therefore, the shutter device using the shutter device opening / closing body of the present invention is extremely useful as a disaster prevention facility installed in a high-rise building or an underground mall .

Next, a specific example of the above embodiment will be described with reference to the drawings.
The following specific examples are arranged in or on the opening or inside of a building or structure such as a house, building, warehouse, factory, underground mall, tunnel, vehicle loading platform, etc., opening and closing the opening, or opening the space inside the enclosure A so-called shutter device that partitions and opens, particularly a fire- and smoke-proof shutter device suitable for quickly preventing the spread and spread of flames and smoke when a fire or the like occurs, and the shutter device are provided. The opening / closing body for the shutter device will be described.

  The shutter device A includes an opening / closing body 10 (shutter device opening / closing body) that divides and opens a space vertically, a guide rail 20 that guides the opening / closing body 10 in the opening / closing direction on both the left and right sides, and the opening / closing body 10. The opening / closing body 10 includes a metal wire woven net 11a1 and a ceramic yarn-containing fabric 11a2 having fire resistance and flexibility.

  The opening / closing body 10 has a sheet-like opening / closing body main body 11 having an opening 10a through which a passing material (specifically, a person or an object) can pass, and a sheet shape that closes the opening 10a so that the opening 10a can be opened The door member 12 and the seat plate member 13 connected to the lower end portion of the opening / closing body main body 11 in the width direction are integrally provided, and the opening / closing body 11 is repeatedly opened / closed along the guide rail 20. To do.

  The opening / closing body main body 11 has a plurality of substantially belt-shaped opening / closing body constituent members 11a having fire resistance and flexibility and extending in the width direction of the opening / closing body, and is connected between the opening / closing body constituent members 11a adjacent in the vertical direction. It is configured by sewing the ends together.

  Each opening / closing member constituting member 11a includes a metal wire woven net 11a1 having fire resistance and flexibility and a ceramic yarn-containing fabric 11a2 having fire resistance and flexibility, and a mesh 11a11 of the metal wire woven net 11a1. Are covered with the ceramic yarn-containing fabric 11a2, and the metal wire woven net 11a1 and the ceramic yarn-containing fabric 11a2 are bonded to each other with an adhesive resin or a reactive curable compound, or an adhesive resin and a reaction. The flexible adhesive layer 11a3 containing a curable compound is joined in the opening / closing body thickness direction.

If it demonstrates concretely, the metal wire knitting net | network 11a1 is the textile fabric or knitted fabric which consists of metal wires which have fire resistance and flexibility. When the metal wire knitted net 11a1 is a woven fabric, specific examples of the weaving method include plain weave, welded plain weave, tatami weave, twill weave, cedar weave, imitation weave, cocoon weave, triaxial weave, and toncap weave. .
The metal wire knitting net 11a1 may have two or more kinds of woven / knitted structures. Specifically, the metal wire knitted net 11a1 is formed by stacking a plain woven fabric and a patterned woven fabric, or a patterned woven structure on a part of the plain woven fabric. Or having a plain weave structure in a part of the imitation fabric, and these are formed so as to have a large number of meshes (voids) 11a11.
According to the example shown in FIG. 2, the metal wire knitted net 11a1 is made of stainless steel (for example, SUS304) or the like (for example, wire diameter of about 0.2 mm) of 10 / inch to 50 in each of the vertical and horizontal directions. It is composed of a plain woven fabric with a driving density of / inch. Although the driving density depends on the relationship with the wire diameter of the metal wire, for example, the void area ratio (area ratio of the mesh 11a11) to the area of the metal wire woven net 11a1 is preferably 50 to 90%.
Further, the metal wire knitted net 11a1 has the same number of metal wires included in one inch vertically and horizontally, and the number of metal wires on the side located in the opening / closing body width direction is determined from the number of metal wires in the opening / closing body opening / closing direction. However, it is preferable to reduce the number by one or more per inch because of excellent operability in feeding and winding.

  Other examples of the wire constituting the metal wire woven net 11a1 include, for example, iron, galvanized iron wire, brass, copper, phosphor bronze, various stainless steels, nickel, monel metal, two chrome, iron chrome, aluminum, titanium and the like. It is done. The fire resistance in the metal wire knitted net 11a1 only needs to have a heat resistance (melting point) of at least 1000 ° C., and preferably withstands a fire resistance test described later in a state where the opening / closing body 10 is configured. preferable. Further, the flexibility in the metal wire woven net 11a1 may be any flexibility as long as it can be wound and unwound by a winding shaft 31 described later in a state where the opening / closing body 10 is configured. .

The surface of the metal wire woven net 11a1 is preferably coated with one or more reactive curable compounds selected from an isocyanate compound, a carbodiimide compound, an oxazoline compound, a titanium coupling agent, and a silane coupling agent. .
This surface coating is configured by applying an aqueous solution or solvent containing the above reactive curable compound at a concentration of 0.1 to 10% by mass to the surface of the metal wire woven net 11a1, and drying it.
According to this surface coating, since a cured thin film of a reactive curable compound is formed on the surface of the metal wire woven net 11a1, the flexible adhesive layer 11a3 (adhesive resin layer) and the metal wire woven net 11a1 The ceramic yarn-containing fabric 11a2 can be firmly bonded, and as a result, the bending durability of the opening / closing body 10 can be improved.

  If the specific example of the said reaction curable compound is given, as an isocyanate compound, the organic compound (for example, 2, 4-tolylene diisocyanate etc.) which contains two or more isocyanate groups in a molecule | numerator, and a carbodiimide type compound in a molecule | numerator An organic compound containing two or more imide groups (for example, di-p-toluylcarbodiimide) and an oxazoline-based compound having two or more oxazolyl groups in the molecule (for example, 2,2′-bis ( 2-oxazoline etc.), organic titanate compounds such as tetra-n-butoxy titanium as titanium coupling agents, and organic silanes such as aminosilanes, epoxy silanes, vinyl silanes, mercapto silanes as silane coupling agents Compounds such as epoxy silanes include γ-glycidoxy B is pills triethoxysilane.

The ceramic yarn-containing fabric 11a2 is a plain fabric, a twill fabric, a satin fabric, or the like obtained by knitting ceramic yarn. In particular, it is preferable that the ratio of the total area of the knitted void portions of the ceramic yarn-containing fabric 11a2 is less than 1%. That is, if the ratio of the woven void portion area exceeds 1%, smoke may leak from the void portion.
The ceramic component of the ceramic yarn includes silica, alumina, boron, potassium titanate, titania, silica-titania, boron nitride, boron carbide, zirconia, silicon nitride, silicon carbide, silazane-silicon nitride, silicon carbonitride It is preferable to use one or more selected from alumina-boria-silica.
Moreover, it is excellent in the softness | flexibility of the opening / closing body structural member obtained that the said ceramic thread | yarn is a multifilament (yarn comprised from several fibers).
The ceramic yarn-containing fabric 11a2 is particularly preferably a knitted fabric (silica cloth) made of multifilament yarn made of silica.

The fire resistance in the ceramic yarn-containing fabric 11a2 includes a case where it is flame retardant, and has only to have a heat resistance (melting point) of at least 1000 ° C. Preferably, in the state where the opening / closing body 10 is configured, The fire resistance is such that it can withstand the fire resistance test described below.
Further, the flexibility in the ceramic yarn-containing fabric 11a2 may be any flexibility as long as it can be wound and unwound by the winding shaft 31 described later in the state where the opening / closing body 10 is configured. .

Next, the manufacturing method of the said opening-closing body structural member 11a is demonstrated.
First, flexible bonding is performed to the ceramic yarn-containing fabric 11a2 (silica cloth) located on the front side of the metal wire woven net 11a1 and to the ceramic yarn-containing fabric 11a2 (silica cloth) located on the back side, respectively. Layer 11a3 is formed. This flexible adhesive layer 11a3 contains an adhesive resin or a reactive curable compound, or contains both an adhesive resin and a reactive curable compound.
The adhesive forming the flexible adhesive layer 11a3 includes a known adhesive such as polyurethane resin, polyester resin, acrylic resin, vinyl acetate resin, modified polyolefin resin, and the present invention. In these adhesives, those containing 10 to 100% by mass of a copolymer resin having an α, β-unsaturated carboxylic acid unit as an adhesive resin, or those adhesives containing an isocyanate compound or a carbodiimide type A compound, 0.1 to 10% by mass of one or more reactive curable compounds selected from a oxazoline-based compound, a titanium-based coupling agent, and a silane-based coupling agent; Both reactive curable compounds are contained in an amount of 10.1 to 100% by mass.

  The copolymer resin having an α, β-unsaturated carboxylic acid unit includes i) a copolymer of a vinyl monomer and an α, β-unsaturated carboxylic acid, and a part of the carboxylic acid in the copolymer. Or an ionomer resin neutralized with a divalent metal ion such as zinc, magnesium or calcium, ii) a copolymer of an α-olefin and a glycidyl ester of an α, β-unsaturated carboxylic acid, iii) α -One or more types selected from terpolymers of olefins, α, β-unsaturated carboxylic acid esters, and glycidyl esters of α, β-unsaturated carboxylic acids, which are specifically ethylene・ Methacrylic acid copolymer (metal ion source: zinc), ethylene ・ (meth) acrylic acid ・ (Meth) acrylic acid alkyl ester copolymer resin (metal ion source: zinc), ethyl acrylate, anhydrous male Phosphate copolymer resins, ethylene - vinyl acetate - a glycyl methacrylate terpolymer, and the like.

  As specific examples of the reaction curable compound, the isocyanate compound is an organic compound containing two or more isocyanate groups in the molecule (for example, 2,4 tolylene diisocyanate), and the carbodiimide compound is an imide group in the molecule. An organic compound containing 2 or more of an organic compound (for example, di-p-toluylcarbodiimide), an oxazoline-based compound containing an organic compound containing 2 or more oxazolyl groups in the molecule (for example, 2,2′-bis (2- Oxazoline, etc.), organic titanate compounds such as tetra-n-butoxy titanium as titanium coupling agents, and organic silane compounds such as amino silanes, epoxy silanes, vinyl silanes, mercapto silanes as silane coupling agents, For example, epoxy silanes include γ-glycidoxypro Le triethoxysilane and the like. These reaction curable compounds can also be used in combination with the above copolymer resin having an α, β-unsaturated carboxylic acid unit.

  The flexible adhesive layer 11a3 more preferably contains one or more layered minerals selected from montmorillonite, smectite, and fluorine mica. When the opening / closing body for a shutter device of the present invention is exposed to a flame, these layered minerals become a strong combustion residue and block the slight woven space (pinhole) formed in the ceramic yarn-containing fabric. Leakage can be suppressed. Fluorine tetrasilicon mica having an average particle diameter of 10 to 30 μm is used as the fluorine mica. As montmorillonite, an octahedral water-containing layered silicate mineral having an average particle size of 0.1 to 2.0 μm is used. Smectite has a structure in which silica tetrahedron (tetracoordinate) and aluminum octahedron (hexacoordinate) are alternately layered, with a silica / aluminum ratio of 2: 1 and an average particle size of 0.1 to 2.0 μm. Use one. These layered minerals are used in an amount of 5 to 30% by mass with respect to the flexible adhesive layer 11a3. In addition, known inorganic flame retardants such as aluminum hydroxide, zinc borate, zinc stannate and the like can be used in combination as necessary.

The two ceramic yarn-containing fabrics 11a2 and 11a2 are arranged with their surfaces coated with the flexible adhesive layer 11a3 (adhesive) facing each other, and between the two ceramic yarn-containing fabrics 11a2 and 11a2. The metal wire knitting net 11a1 is arranged on the metal to constitute a laminate.
And this laminated body is crimped | bonded by passing between a pair of adjacent rollers 1 and 1, and pressing as shown in FIG. By this pressure bonding, the air between the front and back ceramic yarn-containing fabrics 11a2 and 11a2 is expelled to the outside. In this crimped state, the adhesive enters the mesh 11a11 of the metal wire woven net 11a1 and is bonded so that the ceramic yarn-containing fabrics 11a2 and 11a2 on the front and back sides are not easily peeled off. Therefore, since the air between the front and back ceramic yarn-containing fabrics 11a2 and 11a2 is expelled, an opening / closing body structure that is more difficult to burn can be obtained.

A plurality of the opening / closing member constituting members 11a are provided in the opening / closing direction (the vertical direction in the illustrated example). And the edge part between adjacent opening-and-closing body structural members 11a is piled up, and the overlapping part is connected by the some stainless steel connection member 11b over an opening-and-closing body width direction (refer FIG. 4). An example of the stainless steel connecting member 11b is a staple for a stapler. The stapler spelling needle 11b is formed by bending a stainless steel wire (such as SUS304) into a substantially U shape. The stapler 11b is inserted into the overlapping portion by the stapler, and each tip portion is bent. The stapler spelling needles 11b are arranged in a plover shape as shown in FIG. 4 as a preferred example, and are provided in a plurality of rows (three rows in the illustrated example) in the opening / closing body opening / closing direction.
According to the above configuration, the stapler spelling needle 11b is inserted into the metal wire knitting nets 11a1 and 11a1 at the front end side portion at the overlapping portion so that the upper and lower opening / closing member constituting members 11a, 11a is firmly connected. Therefore, according to the fastening structure using the stapler spelling needle 11b, durability and fire resistance can be improved as compared with the fastening structure using the conventional fire-resistant sewing thread.

  In addition, a plurality of retaining members 11c are provided at both ends in the width direction of the opening / closing body main body 11 formed of the opening / closing body constituting member 11a at intervals in the opening / closing body opening / closing direction. The retaining member 11c protrudes from the surface of the opening / closing body main body 11 in the opening / closing body thickness direction and engages with the guide rail 20 to prevent the opening / closing body 10 from coming off the guide rail 20 (see FIG. 6). ).

  Further, an opening 10a having a substantially rectangular notch shape through which a passing object such as a person or an object can pass is formed on the lower end side of the opening / closing body main body 11, and the opening 10a is closed by a door member 12 that can be opened and closed. ing. The door member 12 is provided on the front side and the back side of the opening / closing body main body 11 so as to sandwich the opening 10 a, and the upper end side portion of each door member 12 is sewn on the upper side of the opening 10 a in the opening / closing body main body 11. Then it is fixed. Each door member 12 is configured by stitching together sheet materials having a laminated structure substantially similar to the opening / closing member constituting member 11a in the opening / closing member opening / closing direction.

  A reinforcing member 12a extending in the opening / closing body width direction is fixed to each door member 12. The reinforcing member 12a is a metal rod-like member having fire resistance, and a plurality (three in FIG. 1) are arranged with respect to the door member 12 at intervals in the opening / closing body opening / closing direction. The reinforcing member 12a suppresses the bending of the door member 12 and acts as a weight, thereby improving the closing property of the door member 12.

  In addition, the seat plate member 13 is formed by combining a plurality of metal weight members, and is connected to the closing direction end of the opening / closing body body 11 over substantially the entire length in the width direction of the opening / closing body 10. While making closing property favorable, the opening-and-closing body main body 11 is pulled below with the dead weight, and the bending | flexion, wrinkles, etc. which are going to arise in the opening-and-closing body main body 11 are suppressed.

  Further, the guide rail 20 is a member having a substantially U-shaped cross section surrounding the end of the opening / closing body 10 in the opening / closing body width direction, and is provided in a long shape extending in the opening / closing body opening / closing direction.

  The storage unit 30 is configured to rotate the take-up shaft 31 within the storage case 32. The storage unit 30 winds or unwinds the opening / closing body 10 by the winding shaft 31 to store the opening / closing body 10 in the storage case 32, or feed the opening / closing body 10 out of the storage case 32. To do.

The mechanism in the storage unit 30 includes a mechanism for rotating the winding shaft 31 by an electric drive source such as a motor, a mechanism for rotating the winding shaft 31 by a biasing force of a biasing member such as a spring, and a weight. Any mechanism may be used, such as a mechanism for rotating the winding shaft 31 by its own weight or the weight of the opening / closing body 10 or a combination of these mechanisms. It is preferable to provide a mechanism that is not electrically operated at least when the opening / closing body 10 is drawn out (for example, a mechanism that performs the closing operation using the biasing member, the weight body, or the weight of the opening / closing body 10). .
As another example of the storage unit 30, a configuration in which the winding shaft 31 is exposed without including the storage case 32 may be used.

Next, characteristic operational effects of the above-described embodiment will be described.
FIG. 5 shows a situation of a fire resistance test for the opening / closing body 10. If this fireproof test is roughly explained, the opening / closing body 10 is exposed to a furnace, and the furnace temperature is raised from room temperature to nearly 1000 ° C. (more specifically, about 978 ° C.) over about 1 hour and 30 minutes. After the heating, the surface of the opening / closing body 10 is subjected to an impact by water discharge with a water pressure of about 207 kPa, a water discharge time of about 16 seconds / m ² , and a flow rate of about 0.62 m ³ / min.
During the heating and water discharge test, it is confirmed that the opening / closing body 10 does not have an opening due to oxidative degradation or breakage.

  According to the opening / closing body 10 of the present embodiment, even when the ceramic yarn-containing fabric 11a2 is somewhat oxidized and deteriorated during the fire resistance test, the ceramic yarn-containing fabric 11a2 is reinforced by the metal wire woven net 11a1. Therefore, damage such as collapse of the ceramic yarn-containing fabric 11a2 due to the water discharge impact can be prevented. Furthermore, after the fire resistance test, the opening / closing body 10 is prevented from being separated between the opening / closing body constituent members 11a, 11a adjacent to each other by a large number of staple needles 11b arranged in a plover shape. it can.

  Further, when the opening / closing body 10 receives wind pressure from one side in the thickness direction as shown in FIG. 6 due to the pressure difference between the inside and outside of the opening / closing body 10 in the event of a fire, the end of the opening / closing body 10 in the width direction The part contacts the opening edge of the guide rail 20. At this time, good smoke shielding properties can be obtained by contact between the surface of the ceramic yarn-containing fabric 11a2 and the opening edge of the guide rail 20. Similarly, good smoke shielding properties can also be obtained at a contact portion between a lintel portion (not shown) on the lower end side of the storage portion 30 and the ceramic yarn-containing fabric 11a2.

  In addition, according to the said embodiment, although it was set as the structure which adhere | attaches ceramic thread containing fabric 11a2, 11a2 only by flexible adhesive layer 11a3 (adhesive) with respect to metal wire woven net | network 11a1, as another example, As shown in FIG. 7, the metal wire woven net 11a1 and the ceramic yarn-containing fabric 11a2 are bonded by a flexible adhesive layer 11a3 (adhesive) and further sandwiched between a pair of rigid members 11d and 11d having fire resistance. It is also possible to join with. The rigid member 11d is a long metal member (for example, stainless steel, iron, titanium, or the like) extending in the width direction of the opening / closing body, and the front side and the back side of the opening / closing body main body 11 with the opening / closing body main body 11 interposed therebetween. And both. Then, fasteners 11e such as bolts and nuts are inserted through the rigid members 11d and 11d and the opening / closing body main body 11 between the members and tightened.

  When a pair of the rigid members 11d and 11d are provided for the opening / closing body 10, a portion of the opening / closing body 10 having a relatively large tensile force due to its own weight, specifically, near the center of the opening / closing direction of the opening / closing body 10 or the It is preferable to dispose in a portion closer to the opening direction than near the center. Further, in order to further improve the adhesion between the metal wire woven net 11a1 and the ceramic yarn-containing fabrics 11a2 and 11a2, the pair of rigid members 11d and 11d are spaced apart in the opening / closing body opening / closing direction, A plurality of sets may be provided.

Moreover, according to the aspect shown in FIG. 2, while having the single metal wire knitting net | network 11a1 between the two ceramic yarn containing fabrics 11a2 and 11a2, and between the ceramic yarn containing fabric 11a2 and the metal wire knitting net | network 11a1. Although the flexible adhesive layer 11a3 is interposed between them, as another example, as shown in FIG. 8, a single metal wire woven net 11a1 and a single ceramic yarn-containing fabric 11a2 are connected to each other. It is also possible to adopt a configuration in which the layers are bonded by 11a3.
In this aspect, in particular, when a fire occurrence location is predicted, the ceramic yarn-containing fabric 11a2 may be used to face the fire occurrence location side, and the effect is achieved by the minimum necessary ceramic yarn-containing fabric 11a2. Fireproof performance is demonstrated.

Further, as another example of the opening / closing member constituting member, the embodiment shown in FIG. 9 is to improve the durability in particular, and sandwich the ceramic yarn-containing fabric 11a2 between the two metal wire woven nets 11a1 and 11a1. The metal wire knitting net 11a1 and the ceramic yarn-containing fabric 11a2 are bonded by a flexible adhesive layer 11a3.
In this configuration, the metal wire woven nets 11a1 and 11a1 sandwiching the ceramic yarn-containing fabric 11a2 may or may not coincide with each other. Further, the weaving and knitting methods of the metal wire knitting nets 11a1 and 11a1 may be the same or different. For example, when one of the metal wire knitted nets 11a1 and 11a1 is made of Melias knitting and the other is plain weave and wound around the winding shaft 31, the outer diameter side when wound around the winding shaft 31 is Melias knitting. The inner diameter side is preferably plain weave. That is, since the outer diameter side has a larger amount of tension than the inner diameter side, it is preferable to use a Melias knitting with relatively good stretchability.

  In any of the above-described opening / closing member constituting members, as another preferred embodiment of the metal wire knitted net 11a1, a wire rod made of stainless steel (for example, SUS304, etc.) (for example, an outer diameter of about 0.25 mm) is formed in a meli knitted shape. A knitted structure or a knitted structure is possible. According to this aspect, it is possible to configure the opening / closing body 10 that is relatively flexible and has good stretchability.

  Moreover, according to the said embodiment, it may be made to sew on the joining member of the overlapping part between the opening-closing body structural members 11a and 11a adjacent to the opening-closing direction with a wire rope made of stainless steel (for example, SUS304). Good. The wire rope preferably has an outer diameter larger than 0.2 mm and smaller than 0.4 mm, and is configured by combining several (for example, 5 to 9) stainless steel wires. That is, if the outer diameter is 0.2 mm or less, sufficient durability and fire resistance cannot be obtained, and if the outer diameter is 0.4 mm or more, machine sewing becomes extremely difficult.

  Further, in the other examples of the opening / closing member constituting member described above (see FIGS. 8 to 9), the stapler spell needle 11 b and / or the wire rope can be used when a plurality of connections are made in the opening / closing member opening / closing direction. It is. Furthermore, also in these other examples, the pair of rigid members 11d and 11d are used together in order to more firmly join the metal wire woven net 11a1 and the ceramic yarn-containing fabric 11a2 (or the synthetic resin layer 11a2 ′). It may be.

  Moreover, in the said embodiment, it is preferable that a water | moisture content does not penetrate as much as possible between ceramic yarn containing fabric (or between ceramic yarn containing fabric and a metal wire woven net). That is, when moisture enters, the interlayer may be isolated or damaged when the moisture is heated and expanded. For this reason, it is preferable to perform the operation | work which joins a ceramic thread containing fabric and a metal wire woven net in the opening-closing body thickness direction in a dry atmosphere.

  Moreover, according to the said embodiment, although the stainless steel stapler spell needle 11b and the stainless steel wire rope were used for the connection between the ends of the opening / closing body bodies 11, 11 adjacent to each other in the opening / closing direction, The stapler spell needle 11b and the wire are used for sewing other than the opening / closing member constituting members 11a (for example, sewing between the opening / closing member body 11 and the door member 12) or for joining the layers in the opening / closing body body 11. A rope may be used.

  The opening / closing body 10, the opening / closing body main body 11, or the opening / closing body constituting member 11a used in the shutter device A of the present embodiment includes, for example, an overhead door, a roll screen device, an awning device, a moving partition device (sliding wall device). ) And the like. In addition, the shutter device A of the present embodiment can be used for purposes other than fire prevention and smoke prevention, for example, for the purpose of preventing the circulation of cold air and the like and suppressing the decrease in heat retention as much as possible. It can also be used as a shutter device disposed in a cool box or the like.

1) <Ceramic yarn-containing fabric>
The warp and weft are silica fiber yarns (multifilaments), and the weaving structure is 50 warps / 1 inch x 35 wefts / 1 inch satin weave (mass 590 g / m ² : woven fabric void area ratio 0%) Silica cloth was used. (The same standard cloth was used for the front side and the back side.)
2) <Metal wire woven net>
A plain weave wire netting was used in which stainless steel wire (SUS304) having a wire diameter of 0.2 mm was driven at 10 vertical / inch × 10 horizontal / inch ×.
3) <Flexible adhesive layer>
20 parts by mass of a one-component polyurethane resin as an adhesive, 80 parts by mass of an ethylene / methacrylic acid copolymer (metal ion source: zinc) as an adhesive resin, and a silane coupling agent (γ-glycidoxy as a reactive curable compound) 2 parts by mass of propyltriethoxysilane) as an effective solid component.
4) <Manufacturing process>
The composition for forming the flexible adhesive layer of the above 3) is applied to one side of the silica cloth for the front side and the back side by a coating method and dried to give a flexible adhesive of 150 g / m ² each. A layer was provided. Next, the flexible adhesive layer forming surfaces of the silica cloth for the front surface side and the back surface side are made to face each other, and the metal wire woven net of 2) above is interposed between them. / Silica cloth "in an overlapped state, press the two hot rolls at 150 ° C and press and pass the flexible adhesive layers to each other so as to close the mesh voids of the metal wire woven net. An opening / closing body having a mass of 1900 g / m ² was obtained.

An opening / closing body having a mass of 1900 g / m ² was obtained in the same manner as in Example 1 except that the metal wire knitted net of Example 1 was changed to the following metal wire woven net.
<Metal wire woven net>
A plain woven wire mesh in which a stainless steel wire (SUS304) having a wire diameter of 0.2 mm was driven at a length of 10 pieces / inch × width of 10 pieces / inch × was used, and a silane coupling agent (γ-glycidoxypropyl) was applied to the plain woven wire mesh. Triethoxysilane) treated with an aqueous solution containing 2 parts by mass and dried.

An opening / closing body having a mass of 1900 g / m ² was obtained in the same manner as in Example 1 except that the flexible adhesive layer of Example 1 was changed to the following flexible adhesive layer.
<Flexible adhesive layer>
20 parts by mass of a one-component polyurethane resin as an adhesive, 80 parts by mass of an ethylene / methacrylic acid copolymer (metal ion source: zinc) as an adhesive resin, and a silane coupling agent (γ-glycidoxy as a reactive curable compound) A composition containing 2 parts by mass of propyltriethoxysilane), 100 parts by mass of aluminum hydroxide as a flame retardant, and 30 parts by mass of fluoric mica as a layered mineral was used as an effective solid component.
[Comparative Example 1]

The adhesive resin and the reaction curable compound were omitted from the flexible adhesive layer of Example 1, and 20 parts by mass of the one-component polyurethane resin was changed to 100 parts by mass. Otherwise, the opening / closing body having a mass of 1900 g / m ² was obtained in the same manner as in Example 1.
3) <Flexible adhesive layer>
A composition containing 100 parts by mass of a one-component polyurethane resin as an effective solid component as an adhesive was used.

The opening / closing body 3m obtained in Examples 1 to 3 and Comparative Example 1 was wound around a winding shaft having a diameter of 3 inches, and then the winding of 3 m was drawn out. As a result of repeating this winding and drawing operation as one set, the separation failure between the silica cloth layer and the metal wire woven net layer was 1094 times in the opening / closing body of Example 1, and 1330 in the opening / closing body of Example 2. The opening / closing body of Example 3 was 1005 times, whereas the opening / closing body of Comparative Example 1 was 146 times.
Moreover, when the opening / closing bodies obtained in Examples 1 to 3 and Comparative Example 1 were exposed to a furnace at 1000 ° C., the opening / closing body of Example 3 was most excellent.

It is a front view which shows an example of the shutter apparatus using the opening-and-closing body for shutter apparatuses concerning this invention. It is a perspective view which shows the internal structure of the opening / closing body for shutter devices. It is sectional drawing which shows the manufacturing method of the opening / closing body for shutter devices. It is a principal part front view which shows the connection location of the opening / closing body for shutter devices. It is a longitudinal cross-sectional view which shows the state which is performing the fireproof test with respect to the opening / closing body for shutter devices. It is a principal part cross-sectional view which shows the state which the opening / closing body for shutter devices received the wind pressure. It is a principal part perspective view which shows the other examples of the joining structure of a metal wire woven net and a ceramic yarn content cloth. It is a perspective view which shows an internal structure about the other example of the opening / closing body for shutter devices concerning this invention. It is a perspective view which shows an internal structure about the other example of the opening / closing body for shutter devices concerning this invention.

DESCRIPTION OF SYMBOLS 10: Opening / closing body 11: Opening / closing body main body 11a: Opening / closing body structural member 11a1: Metal wire woven net 11a2: Ceramic thread containing fabric 11a3: Flexible adhesive layer 11a11: Mesh 11b: Spelling needle 11a2 ': Synthetic resin layer 20: Guide rail 30: Storage part A: Shutter device

Claims (11)

In a shutter device opening / closing body comprising a sheet-like opening / closing body main body,
The opening / closing body body is constituted by a non-combustible laminate formed by laminating one or more layers of ceramic yarn-containing fabric on one or more surfaces of a metal wire woven net, and the metal wire woven net and the ceramic yarn-containing fabric between, by interposing a flexible adhesive layer comprising an adhesive resin or contact adhesive resin and reactive curable compound,
The adhesive resin is a copolymer of a vinyl monomer and an α, β-unsaturated carboxylic acid as a copolymer resin having an α, β-unsaturated carboxylic acid unit, and the carboxylic acid in the copolymer is a copolymer resin. Including an ionomer resin partially or wholly neutralized with a divalent metal ion metal cation,
An opening / closing body for a shutter device, wherein the reaction curable compound contains at least one of an isocyanate compound, an aziridine compound, an oxazoline compound, a titanium coupling agent, and a silane coupling agent .   2. The opening / closing body for a shutter device according to claim 1, wherein the metal wire woven net is knitted by a vertical metal wire and a horizontal metal wire, and the number of metal wires included in one inch is not the same.   The metal wire woven net includes a metal wire in the opening / closing body width direction and a metal wire in the opening / closing body opening / closing direction, and the number of metal wires in the opening / closing body width direction is 1 than the number of metal wires in the opening / closing body opening / closing direction. The opening / closing body for a shutter device according to claim 1, wherein the number is less than one per inch.   The surface of the metal wire woven net is coated with one or more reactive curable compounds among an isocyanate compound, a carbodiimide compound, an oxazoline compound, a titanium coupling agent, and a silane coupling agent. The opening / closing body for a shutter device according to any one of claims 1 to 3.   The shutter device opening / closing body according to any one of claims 1 to 4, wherein a ratio of the total area of the knitting voids of the ceramic yarn-containing fabric is less than 1%.   The ceramic yarn contained in the ceramic yarn-containing fabric is silica, alumina, boron, potassium titanate, titania, silica-titania, boron nitride, boron carbide, zirconia, silicon nitride, silicon carbide, silazane-silicon nitride, carbonized. The opening / closing body for a shutter device according to any one of claims 1 to 5, wherein the opening / closing body is a multifilament composed of one or more of silicon nitride and alumina-boria-silica. The adhesive resin is a copolymer of an α-olefin and a glycidyl ester of α, β-unsaturated carboxylic acid, an α-olefin, an α, β-unsaturated carboxylic acid ester and an α, β-unsaturated carboxylic acid. The shutter device opening / closing body according to any one of claims 1 to 6, further comprising one or more of ternary copolymers with glycidyl ester .   The shutter opening / closing device for a shutter device according to any one of claims 1 to 7, wherein the flexible adhesive layer further includes one or more layered minerals among montmorillonite, smectite, and fluorine mica. body. The shutter device according to any one of claims 1 to 8, wherein the opening / closing body main body is formed by connecting a plurality of opening / closing body constituting members made of the non-combustible laminate by a stainless connecting member. Opening and closing body. The opening / closing body main body sandwiches the metal wire woven net from both sides in the thickness direction with the ceramic yarn-containing fabric, and further, the metal wire woven net and the ceramic yarn-containing fabric on both sides thereof in the thickness direction. The shutter device opening / closing body according to any one of claims 1 to 9, wherein the shutter device opening / closing body has a five-layer structure sandwiched by the flexible adhesive layer from both sides of the shutter device. The shutter device using the opening / closing body for a shutter device according to any one of claims 1 to 10, wherein the opening / closing body is repeatedly opened and closed while following the guide rail .

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