JP2023166669A - Coating structure - Google Patents

Abstract

To provide a coating structure excellent in heat-resistant protection.SOLUTION: A coating structure of the present invention is a coating structure of a cable supporter, the cable supporter is a ladder type, and the cable supporter is coated with a first fire spread prevention sheet, a heat foam fireproof sheet, and a second fire spread prevention sheet in this order.SELECTED DRAWING: Figure 4

Description

The present invention relates to a novel covering structure for a storage member.

Conventionally, various storage members have been used in buildings and the like. For example, in large-scale facilities such as power plants, factories, industrial buildings, or commercial buildings, many cables such as power cables and communication cables are laid (stored) in cable supports and routed to each floor. . When wiring such a large number of cables, there is a risk that some of the cables may be damaged due to fire or the like, so protective measures are required.

As such protection measures, for example, Patent Document 1 discloses a method of filling or applying a fireproofing material in a solid type cable support (cable tray) or on the cable, and Patent Document 2 describes a method of filling or coating a fireproof material in a solid type cable support (cable tray), and Patent Document 2 describes a method of filling or coating a fireproof material in a solid type cable support (cable tray) or on a cable. A method of wrapping a fireproof sheet around a cable support (cable rack), a method of combining these methods (for example, Patent Document 3), and the like are known.

Japanese Patent Application Publication No. 9-23523 Japanese Patent Application Publication No. 11-114084 Japanese Patent Application Publication No. 4-209422

However, in the methods of Patent Documents 1 to 3, if the cable support is exposed to high temperatures for a long time due to a fire or the like, the cable support may be deformed or the temperature inside the cable tray may rise, damaging the cable and causing cable performance may not be ensured. In particular, in contrast to the solid cable support (cable tray) of Patent Document 1, in the case of ladder-type cable supports (cable racks) such as those of Patent Documents 2 and 3, the cables are directly exposed to high temperatures. Therefore, it was necessary to further improve heat-resistant protection.

The present invention has been made in view of the above-mentioned problems, and it is an object of the present invention to provide a covering structure for a cable support that is excellent in heat-resistant protection and the like.

In order to solve the above problems, the inventors of the present invention have made extensive studies and developed a covering structure in which a first fire spread prevention sheet and a heat-foamable fireproof sheet are sequentially covered on a ladder-type cable support using a specific fixing device. This idea led to the completion of the present invention.

That is, the present invention has the following features.

1. A covering structure for a cable support,
The cable support is of a ladder type,
A covering structure characterized in that the cable support is coated with a first fire spread prevention sheet, a thermally foamable fireproof sheet, and a second fire spread prevention sheet in this order.
2. The cable support has a fixing device in the main girder part,
1. The first fire spread prevention sheet and the heat-foamable fireproof sheet pass through and are fixed in order through the pawl portion. The covering structure described in .
3. In the longitudinal direction of the cable support,
The first fire spread prevention sheets have an overlap portion,
The heat-foamable fireproof sheets have an overlap portion,
1. The second fire spread prevention sheets have an overlapping margin.1. or 2. The covering structure described in .
4. In the longitudinal direction of the cable support,
The first fire spread prevention sheets have an overlap portion,
The above heat-foamable fireproof sheets are fixed together with heat-foamable fireproof tape,
1. The second fire spread prevention sheets have an overlapping margin.1. or 2. The covering structure described in .

Above 1. The covering structure is a covering structure for a cable support, and the cable support is of a ladder type, and is covered with a first fire spread prevention sheet, a thermally foamable fireproof sheet, and a second fire spread prevention sheet in this order. There is. Such a covering structure provides excellent heat protection when the cable support is exposed to high temperatures.

Above 2. The covering structure has a fixing device having a pawl portion on the main girder portion of the ladder-type cable support, and the first fire spread prevention sheet and the heat-foamable fireproof sheet are passed through and fixed to the pawl portion. It is characterized by the presence of Such a covering structure is easy to coat and provides excellent heat protection when the cable support is exposed to high temperatures. Furthermore, it is easy to handle when replacing cables and the like within the cable support.

Above 3. The covering structure is characterized in that the first fire spread prevention sheets, the heat-foamable fireproof sheets, and the second fire spread prevention sheets each have an overlap portion in the longitudinal direction of the cable support. . This provides even better heat-resistant protection.

Above 4. In the covering structure, the first fire spread prevention sheets and the second fire spread prevention sheets each have an overlap portion in the longitudinal direction of the cable support, and the heat foamable fireproof sheets have a heat foamable fireproof tape. It is characterized by being fixed at. This provides even better heat-resistant protection.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view (I) and a cross-sectional view (II) of an example of a cable support of the present invention. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view (I) and a cross-sectional view (II) of an example of a cable support of the present invention. It is a figure showing an example of the fixture of the present invention. FIG. 1 is a perspective view showing an example of a covering structure of the present invention. FIG. 1 is a cross-sectional view showing an example of a covering structure of the present invention. FIG. 1 is a cross-sectional view showing an example of a covering structure of the present invention. It is a perspective view showing an example of a manufacturing process of a covering structure of the present invention.

(1) Cable support (1a), (1b) Main girder (1c) Child girder (2) Fixture (2a) Pawl portion (2b) Plate portion (3) Fire spread prevention sheet (3a) First fire spread prevention sheet ( 3b) Second fire spread prevention sheet (3x) Overlap section (4) Heat-foamable fireproof sheet (4x) Butt part (5) Cable (6) Tacker (7) Heat-foamable fireproof tape

EMBODIMENT OF THE INVENTION Hereinafter, the form for implementing this invention is demonstrated.

[Cable support]
FIG. 1 is a perspective view (I) and a cross-sectional view (II) showing an example of a cable support in which a cable is housed.
The present invention relates to a covering structure for a cable support (1). The cable support (1) of the present invention is a ladder-type cable support (cable rack). For example, as shown in FIG. 1, between a pair of opposing parent girders (1a) and (1b), a plurality of child girders (1c ) are attached at predetermined intervals. The child spar (1c) is fixed by bolts, welding, etc., with both end portions of the child spar (1c) being sandwiched between opposing surfaces of the parent spar (1a) and (1b). As the material of the cable support (1), for example, a steel plate, a stainless steel plate, a galvanized steel plate, etc. can be used.

FIG. 2 is (I) a perspective view and (II) a cross-sectional view showing another example of a cable support in which a cable is housed.
As shown in FIG. 2, the cable support (1) of the present invention preferably has a fixing device (2) in the main spar portion (preferably the upper part of the main spar). In the present invention, the fixing device (2) is installed on either the parent girder (1a) or the parent girder (1b) (more preferably both the parent girder (1a) and the parent girder (1b)). It is preferable that Furthermore, it is preferable that the fixing devices (2) installed on the main girder (1a) and the main girder (1b) be installed so as to be paired (opposed) in the longitudinal direction of the cable support (1). be. The installation interval (x) of the fixtures (2) in the longitudinal direction of the cable support (1) is preferably 50 to 300 mm (more preferably 80 to 250 mm).

The fixing device (2) of the present invention has a claw portion (2a), and any fixing device may be used as long as the claw portion (2a) can be bent and the fire spread prevention sheet and the thermally foamable sheet can be fixed. The shape is not particularly limited, but as shown in FIG. 3, it is preferable to have a claw part (2a) and a plate part (2b). Such a fixture (2) installs (fixes) the plate part (2b) on the main girder part of the cable support (1), and connects the claw part at the boundary between the plate part (2b) and the claw part (2a). It can be launched and used. The material of the fixture (2) is heat resistant, and for example, a steel plate, a stainless steel plate, a galvanized steel plate, etc. can be used. Further, the shape of the claw portion (2a) is such that it penetrates at least the first fire spread prevention sheet (3a) and the thermally foamable sheet (4), and the penetrating portion of the claw portion (2a) is bent. ) and the thermally foamable sheet (4), such as an inverted V shape, an inverted U shape, a trapezoid shape, a rectangular shape, a needle shape, a cylindrical shape, a conical shape, a rectangular shape, etc. can be mentioned. The length (height h) of the claw portion may be appropriately set depending on the thickness of the fire spread prevention sheet to be fixed and the heat-foamable fireproof sheet, but is preferably 10 to 100 mm (more preferably 20 to 80 mm). .

Examples of methods for installing (fixing) the fixture (2) on the main girder portion of the cable support (1) include adhesives, welding, and the like. In the present invention, it is preferable that the plate portion (2b) be installed by applying an adhesive and pasting (press-bonding) the plate portion (2b). Further, it is preferable that the claw portion (2a) be installed so as to face upward. The adhesive (3) is, for example, a water-dispersible type, a water-soluble type, or a solvent-type adhesive mainly made of acrylic resin, silicone resin, epoxy resin, vinyl resin, phenol resin, polyester resin, urethane resin, paraffin, etc. Known adhesives such as adhesives can be used. A flame retardant, a foaming agent, a carbonizing agent, a filler, etc. can also be added to the adhesive, if necessary. Note that in the present invention, the adhesive also includes a pressure-sensitive adhesive.

[Fire spread prevention sheet]
The fire spread prevention sheet (3) of the present invention can be used without particular limitation as long as it is flame retardant and noncombustible. For example, a fibrous layer (sheet, cloth, woven fabric, nonwoven fabric, woven fabric, etc.) containing inorganic fibers can be used. Examples of the inorganic fiber include rock wool, glass fiber, silica fiber, alumina fiber, silica-alumina fiber, carbon fiber, silicon carbide fiber, ceramic fiber, potassium titanate fiber, and metal fiber. One or more types of these may be included. Further, the fire spread prevention sheet (3) of the present invention may be one in which a flame-retardant and non-flammable resin layer is laminated on one and/or both sides of a fiber layer.

In particular, the fire spread prevention sheet (3) of the present invention is preferably a sheet in which a flame-retardant resin layer is laminated on at least one surface (more preferably both surfaces) of a fiber layer. Specifically, a sheet in which flame-retardant resin layers such as flame-retardant rubber are laminated on both sides of a fiber layer such as glass cloth is suitable.

The thickness of the fire spread prevention sheet (3) is preferably about 0.05 to 10 mm (more preferably 0.1 to 5 mm). The first fire spread sheet (3a) and the second fire spread sheet (3b) in the present invention may be of the same kind or different kinds as long as they are selected from the above.

[Thermofoamable fireproof sheet]
The thermally foamable fireproof sheet (4) of the present invention foams when the ambient temperature reaches a predetermined foaming temperature due to a fire or the like to form a carbonized heat insulating layer. The thermally foamable fireproof sheet (4) preferably contains a resin component, a flame retardant, a foaming agent, a carbonizing agent, and a filler as constituent components. Among these, resin components include thermoplastic resins such as vinyl resins, polystyrene resins, polypropylene resins, acrylic resins, acrylic styrene resins, polyamide resins, polyurethane resins, vinyl acetate resins, and ethylene vinyl acetate resins. Examples of flame retardants include ammonium polyphosphate, blowing agents include melamine, dicyandiamide, azodicarbonamide, etc. carbonizing agents include pentaerythritol and dipentaerythritol, and fillers include titanium dioxide.

The blending ratio of each component is preferably 50 to 1000 parts by weight of the flame retardant, 5 to 500 parts by weight of the blowing agent, 5 to 600 parts by weight of the carbonizing agent, and the filler to 100 parts by weight of the resin component in terms of solid content. The amount of the agent is 10 to 300 parts by weight. The thickness of the heat-foamable fireproof sheet (4) may be appropriately set depending on the application site, etc., but is preferably about 0.2 to 10 mm (more preferably about 0.5 to 6 mm).

Further, the thermally foamable fireproof sheet (4) of the present invention may be composed only of a sheet containing the above-mentioned components, but it is preferable that a fiber layer is laminated on at least one surface. Thereby, the effect of preventing the formed carbonized heat insulating layer from falling off can be enhanced. It is also advantageous in preventing damage to the thermally foamable fireproof sheet (4) penetrated by the claw portion (2a) of the fixture (2) (preventing tearing during penetration and over time), and the present invention The effect can be demonstrated stably.

Examples of such a fiber layer include sheets containing organic fibers and/or inorganic fibers.
Examples of organic fibers include pulp fibers, polyester fibers, polypropylene fibers, aramid fibers, vinylon fibers, polyethylene fibers, polyarylate fibers, PBO fibers, nylon fibers, acrylic fibers, vinyl chloride fibers, cellulose fibers, and woven fabrics thereof. Examples include cloth, nonwoven fabric, and the like. The organic fiber may be one that melts into a liquid state in a temperature range of about 150°C, but it is preferable that it does not melt in this temperature range.

Examples of inorganic fibers include rock wool, glass fibers, silica fibers, silica-alumina fibers, carbon fibers, silicon carbide fibers, woven fabrics and nonwoven fabrics thereof, and thin metal wires of iron, copper, and the like. Such inorganic fibers do not melt even when heated, and also act as reinforcing materials, allowing the foamed carbonized heat insulating layer to be maintained.

FIG. 4 is a perspective view showing an example of the covering structure of the present invention. Moreover, FIG. 5 is a cross-sectional view showing an example of the covering structure of the present invention.

As shown in FIGS. 4 and 5, the covering structure of the present invention has a ladder-type cable support (1) that includes a first fire spread prevention sheet (3a), a thermally foamable fireproof sheet (4), and a second fire spread prevention sheet (3a). It is coated with the prevention sheet (3b) in this order.

Examples of methods for constructing the covering structure of the present invention include the following methods.
(1st step)
The first step is a step of wrapping and covering the outer periphery of the ladder-type cable support (1) with the first fire spread prevention sheet (3a). In the covered structure of the present invention, by being covered with the first fire spread prevention sheet (3a), ventilation to the inside of the cable support (1) (near the cable) is blocked when exposed to higher temperatures during a fire. can do. Thereby, heat-resistant protection can be improved.

The method of wrapping the first fire spread prevention sheet (3a) is not particularly limited, but for example, the first fire spread prevention sheet (3a) starts wrapping from the bottom of the cable support (1) (more preferably from the bottom of the main girder), It is preferable to wrap it around the outer periphery of the cable support (1). When the ladder-type cable support (1) has a fixing device (2), the first fire spread prevention sheet (3a) is in a state where it passes through the claw portion (2a) of the fixing device (2), as shown in Figure 6. covered with. Thereby, displacement of the first fire spread prevention sheet (3a) can be suppressed, and the effects of the present invention can be enhanced. Further, the ends (the winding start part and the winding end part) of the first fire spread prevention sheet (3a) may be butted against each other, but in the present invention, it is preferable to have an overlapping margin, and the ends are separated by a tacker or the like. It can also be fixed.

Moreover, a plurality of fire spread prevention sheets (3) can be provided in the longitudinal direction of the cable support (1). The joint portions of the fire spread prevention sheets (3) may be butted together or may have an overlapped portion, but preferably have an overlapped portion. The overlap portion can also be fixed with a tacker or the like.

(Second process)
In the second step, the ladder-type cable support (1) coated with the first fire spread prevention sheet (3a) is coated with a thermally foamable fireproof sheet (4), and the first fire spread prevention sheet (3a) is coated with the first fire spread prevention sheet (3a). This is the step of fixing the heat-foamable fireproof sheet (4). In the covered structure of the present invention, since the thermally foamable fireproof sheet (4) is coated, when exposed to high temperatures due to fire etc., the carbonized heat insulating layer formed from the thermally foamable fireproof sheet (4) Due to the heat insulating effect, it is possible to suppress heat from being transferred to the inside of the cable support (1).

The method of covering the heat-foamable fireproof sheet (4) is not particularly limited, but as shown in FIG. (near the fixing device)) and wrap it so as to cover the outer periphery of the cable support (1), but in the present invention, the cable support (1) is coated so as to cover at least the sides and bottom. That's fine.

In addition, when the ladder-type cable support (1) has a fixture (2), one end of the thermally foamable fireproof sheet (4) is attached to the cable support (1) as shown in FIG. 6(I). The heat-foamable fireproof sheet is passed through the claw part (2a) of the fixture (2) installed on the top of the main girder (1a) and wrapped around the outer circumference of the cable support (1). It is made to penetrate and cover the claw part (2a) of the fixture (2) installed on the upper part of (1b). The other end of the heat-foamable fireproof sheet (4) can be fixed by butting the sheet ends together, fixed so as to have an overlap section, or fixed with a fixing device (2) installed on the top of the main girder (1a). ) can be fixed by passing through the claw part (2a). In the present invention, after the thermally foamable fireproof sheet (4) is penetrated, the claw portion (2a) is bent to fix the first fire spread prevention sheet (3a) and the thermally foamable fireproof sheet (4). Further, when fixing the ends of the heat-foamable fireproof sheet (4), a tacker, an adhesive, a heat-foamable fireproof tape, etc. can be used as necessary.

In addition, in the present invention, as shown in FIG. 6 (II), one end of the thermally foamable fireproof sheet (4) is attached to a fixture ( Pass through the tab (2a) of 2) and wrap it around the side and bottom of the cable support (1), and wrap the other end of the heat-foamable fireproof sheet (4) on the top of the main girder (1b). There is also an embodiment in which the first fire spread prevention sheet (3a) and the heat-foamable fireproof sheet (4) are fixed by penetrating the claw portion (2a) of the installed fixture (2) and bending the claw portion (2a). preferable.

As shown in Fig. 6, the heat-foamable fireproof sheet (4) is coated with the claw part (2a) of the fixing device (2) penetrated, thereby preventing the heat-foamable fireproof sheet (4) from shifting and causing a fire. It is also possible to prevent the carbonized heat insulating layer formed by such methods from falling off, thereby enhancing the effects of the present invention.

Moreover, a plurality of thermally foamable fireproof sheets (4) can be provided in the longitudinal direction of the cable support (1). The seam portions of the heat-foamable fireproof sheets (4) may abut each other or may have an overlap portion. Furthermore, it is preferable that the joints between the heat-foamable fireproof sheets (4) are fixed with a tacker, an adhesive, or a heat-foamable fireproof tape. Note that two or more heat-foamable fire-resistant sheets (4) can be stacked and coated according to the desired heat-resistant protection. Note that the heat-foamable fire-resistant tape may be a tape-like product in which an adhesive is laminated on the back side of a heat-foamable fire-resistant sheet (4).

(3rd step)
In the third step, the covered structure of the present invention is covered by wrapping the second fire spread prevention sheet (3b) around the outermost periphery. In the covered structure of the present invention, by being covered with the second fire spread prevention sheet (3b), when exposed to higher temperatures during a fire, the carbonized heat insulating layer formed from the thermally foamable fireproof sheet (4) will fall off. In addition, the heat insulating effect of the carbonized heat insulating layer can be improved, and the effects of the present invention can be enhanced.

The second fire spread prevention sheet (3b) may be wrapped and covered in the same manner as the first fire spread prevention sheet (3a). For example, it is preferable that the second fire spread prevention sheet (3b) starts wrapping from the bottom of the cable support (1) (more preferably from the bottom of the master girder) and is wound so as to cover the outer periphery of the cable support (1). . Further, the ends of the second fire spread prevention sheet (3b) (the winding start part and the winding end part) may be butted against each other, but in the present invention, it is preferable to have an overlapping margin, and the ends are separated by a tacker or the like. It can also be fixed. In addition, in the present invention, when the second fire spread prevention sheet (3b) is passed through the claw part (2a) of the fixture (2), there is a risk of thermal bridging phenomenon occurring. ) preferably does not pass through the claw portion of the fixture (2).

Specific examples are shown below.
(Fire spread prevention sheet)
It was used as a fire spread prevention sheet (thickness 0.4 mm, width 450 mm, length 20 m) in which both sides of glass cloth were coated with nonflammable rubber. Note that the length is determined by cutting as necessary.
(Manufacture of thermally foamable fireproof sheet)
A mixture mainly consisting of 100 parts by weight of acrylic resin, 90 parts by weight of melamine, 90 parts by weight of dipentaerythritol, 320 parts by weight of ammonium polyphosphate, and 100 parts by weight of titanium oxide was kneaded in a pressure kneader set at a temperature of 120°C and heated. After preparing the kneaded material for foamable fireproof sheeting, the kneaded material was laminated on a glass nonwoven fabric (basis weight 50 g/m ² , thickness 0.38 mm), processed into a sheet shape using a rolling roller, and thermally foamed to a film thickness of 1.5 mm. A fireproof sheet (width: 450 mm, length: 20 m) was produced. Note that the length is determined by cutting as necessary.

(Test example 1)
The cable is laid on the top of the main girder of a stainless steel ladder-type cable support (hereinafter referred to as "cable rack". Dimensions: width 600 mm x height 100 mm x length 1200 mm, child girder spacing: 300 mm) as shown in Figure 3. Fixing tools (length of claw portion: 40 mm) were fixed with adhesive at intervals of 200 mm.
As shown in FIG. 7(I), the first fire spread prevention sheet (3a) was wrapped around the cable rack once, and the ends of the first fire spread prevention sheet (3a) were fixed with tackers (6). At this time, the first fire spread prevention sheet (3a) penetrates the claw part of the fixture (2), and in the longitudinal direction of the cable rack, the first fire spread prevention sheets (3a) have an overlapping margin of 100 mm (3x ).
Next, as shown in Figure 7 (II), one end of the heat-foamable fireproof sheet (4) is passed through the tab of the fixing device (2) and wrapped to cover the side and bottom surfaces of the cable rack. The other end of the fireproof sheet (4) was passed through the claw of the fixture (2). At this time, in the longitudinal direction of the cable rack, the heat-foamable fireproof sheets (4) are butted against each other and covered (butt part (4x)), and the butt part is fixed with heat-foamable fireproof tape (7) (width 20 mm). did. Furthermore, three heat-foamable fireproof sheets (4) are covered in the same manner, and a total of four heat-foamable fireproof sheets (4) are passed through the claws, and then all the claws are bent to prevent the first fire spread. The sheet (3a) and four heat-foamable fireproof sheets (4) were fixed.
Furthermore, as shown in FIG. 7 (III), the second fire spread prevention sheet (3b) was wrapped around the cable rack once, and the ends of the second fire spread prevention sheet (3b) were fixed with tackers (6). At this time, in the longitudinal direction of the cable rack, the second fire spread prevention sheets (3b) were coated so as to have an overlap portion (3x) of 100 mm to produce the covering structure 1.

(Test example 2)
In the covering structure produced in Test Example 1, the thermally foamable fireproof sheets (4) were coated so that the thermally foamable fireproof sheets (4) had an overlap portion (4x) of 50 mm in the longitudinal direction of the cable rack. However, a covering structure 2 was produced in the same manner except that the overlap portion was fixed with an adhesive.

(evaluation)
Using the above-mentioned coated structures 1 and 2 as test specimens, a heating test was conducted for 1 hour according to the standard heating curve of ISO834. As a result, a uniform carbonized heat insulating layer was formed in both coated structures 1 and 2, and good heat-resistant protection performance was exhibited. In addition, it was confirmed that the temperature rise of the back surface of the first fire spread prevention sheet and the cable of both coated structures 1 and 2 was 140K or less.

Claims (4)

A covering structure for a cable support,
The cable support is of a ladder type,
A covering structure characterized in that the cable support is coated with a first fire spread prevention sheet, a thermally foamable fireproof sheet, and a second fire spread prevention sheet in this order. The cable support has a fixing device in the main girder part,
2. The covering structure according to claim 1, wherein the first fire spread prevention sheet and the thermally foamable fireproof sheet pass through and are fixed in order through the pawl. In the longitudinal direction of the cable support,
The first fire spread prevention sheets have an overlap portion,
The heat-foamable fireproof sheets have an overlap portion,
The covering structure according to claim 1 or 2, wherein the second fire spread prevention sheets have an overlap portion. In the longitudinal direction of the cable support,
The first fire spread prevention sheets have an overlap portion,
The above heat-foamable fireproof sheets are fixed together with heat-foamable fireproof tape,
The covering structure according to claim 1 or 2, wherein the second fire spread prevention sheets have an overlap portion.

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