JPH0321160Y2 - - Google Patents

Description

[Detailed description of the invention] "Industrial application field" This invention is a cable that is used by wrapping it around the outside of the cable to prevent the fire from spreading when a cable fire occurs inside a tunnel. This invention relates to a firetight cover for preventing the spread of fire.

``Prior art'' Multi-strand communication cables are installed in a concentrated manner in tunnels (underground ditches) installed between telephone offices, etc., and fires occur in places where such cables are congested. In such a case, the fire could spread along the entire length of the cable tunnel, causing serious damage to the information society.

Conventionally, as measures to prevent such cable fires, various types of fireproof coatings have been used to cover the outer circumferential surface of the cable, such as flame-retardant adhesive tape, flame-retardant paint, flame-retardant putty, flame-retardant tube, or heat insulating material. Two-split pipes made of steel are being considered.

``Problem that the invention aims to solve'' However, when these fireproof coverings are used for cables in tunnels, they must be installed all over the entire length of the cables in the tunnel. Moreover, since the cables in the tunnel are supported by metal supports at regular intervals, these metal supports become an obstacle, making tape wrapping work or painting work extremely complicated and prolonging the construction period. There is a problem.

The present invention was developed in view of these circumstances, and its purpose is to provide a cable with good installation workability, that is, with good construction workability.
Another object of the present invention is to provide a firetight cover for preventing the spread of cable fire, which can minimize the range of fire spread when a cable fire occurs.

"Means for solving the problem" The present invention covers a heat insulating layer made of inorganic fibers with metal foil, and covers this metal foil with a reinforcing cloth made of inorganic fibers to form a sheet body. is provided with a slit extending halfway from one side edge toward the other side edge, and through holes are provided at positions spaced apart from the end of this slit toward the other side edge. .

"Function" According to the present invention, by wrapping the sheet body around the cable, the heat insulating layer suppresses heat transfer to the cable, and suppresses the rise in temperature of the cable surface at the wrapping location in the event of a cable fire. At this time, the metal foil diffuses heat, and the reinforcing cloth mechanically reinforces the entire firetight cover for preventing the spread of cable fire without impairing its flexibility. In addition, the slit and through-hole allow the sheet body to be wrapped around the sheet body while avoiding the metal object by inserting the metal object into the through-hole and inserting the metal object into the slit. do.

"Embodiment" An embodiment of the present invention will be described below with reference to FIGS. 1 to 4.

Figure 1 shows the overall appearance of the firetight cover for preventing the spread of cable fire (hereinafter simply referred to as firetight cover) according to the present invention, and the reference numeral 1 in the figure is a thick sheet with flame retardant and heat insulating properties. It is the main body. The seat body 1 has a slit 2 extending halfway from one side edge to the other side edge.
A plurality of (two in this embodiment) are provided at intervals _l1 in the direction perpendicular to the slit 2.
The interval l ₁ is set to be approximately equal to the interval at which the metal supports are disposed in the tunnel (the interval at which they are disposed in the axial direction of the tunnel), which will be described later. In addition, through holes 3 are provided at positions spaced apart from the end of each of the slits 2 in the longitudinal direction of the slits 2, and pass through the sheet body 2 in its thickness direction.

As shown in FIG. 2, the sheet body 2 has a heat insulating layer 4 made of so-called inorganic fibers wrapped in a metal foil 5, and the metal foil 5 covered with a reinforcing cloth 6.
Furthermore, these are sewn together with flame-retardant threads in a so-called quilt-like configuration as shown in FIG. The inorganic fibers include, for example, glass fibers, carbon fibers,
Alumina fiber, zirconia fiber, silicon carbide fiber, potassium titanate fiber, rock wool, alumina silicate fiber, silica fiber, etc. are used. Alternatively, it is formed by stacking a plurality of knitted or woven fabrics made of inorganic fibers. Further, the metal foil 5 is, for example, aluminum foil, and the reinforcing cloth 6 is a knitted or woven cloth made of inorganic fibers.

Next, an example of a method of using the fire tight cover configured in this manner to prevent the spread of a cable fire in a tunnel will be described. However, as shown in Fig. 4, the cable C is supported by cantilever-shaped brackets R that protrude from the inner wall surface W of the tunnel T at predetermined intervals _l1 . It is assumed that the cables are installed along the intersecting direction.

First, a plurality of firetight covers are prepared, and these are wrapped around a plurality of locations on the cable C at predetermined intervals _l2 in the length direction of the cable C, as shown in FIG. In this winding method, as shown in FIG. 4, the tip of the metal holder R is inserted into the through hole 3 of the sheet main body 1, and the winding is started from the other side edge. Then, while inserting the base end of the metal fitting R into the slit 2, wrap it around the metal fitting R so as to avoid it.
Finally, one side edge is superimposed on the other side edge and fixed by appropriate means. That is, if a plurality of cables C are supported on the metal support R as shown in FIG. 4, they are covered together. In this state, the heat insulating layer 4 of each firetight cover suppresses heat from being transferred from the outside to the surface of the cable C where it is wound. In addition, metal foil 5
diffuses the heat transmitted from the outside of the reinforcing cloth 6,
The reinforcing cloth 6 mechanically reinforces the entire firetight cover.

Therefore, if a cable fire occurs at a certain point in the tunnel T, once the cable fire has spread to the point in front of the point where the Fire Tight cover is wrapped, the Fire Tight cover will stop at that point. This prevents a rise in temperature on the surface of the cable to prevent it from igniting, and also prevents the spread of fire to areas beyond which it is not wrapped. In other words, the spread of the fire is limited to only the area between two adjacent wrapping points including the point where the fire occurred. In addition, by inserting the metal support R into the through hole 3 of the seat body 1, the metal support R directly supports part of the weight of the Firetight cover, reducing the weight burden on the cable C itself. Become.

Incidentally, according to a fire test conducted inside a tunnel, when the fire-tight cover is wrapped at one point for approximately 20 m or more along the length of the cable, the temperature near the ceiling in the tunnel will be lower than that of the fire-tight cover along the length of the cable. The ignition temperature of the cable sheath (approximately 300 to 350℃) decreases gradually along the length of the cable, and above the point where it is not wrapped, the ignition temperature of the cable sheath (approximately 300 to 350℃)
It was confirmed that the following conditions were maintained.

In the above embodiment, it is desirable that the length of the slit 2 is adjustable using a heat-resistant fastener or the like. Further, a so-called snap or a layer of adhesive may be provided on the side edge of the sheet body 1 to facilitate attachment to the cable. Further, the reinforcing cloth 6 may be treated with water-repellent material such as flame-retardant silicone rubber or aluminum foil to prevent water from penetrating.

"Effects of the invention" As explained above, according to the invention, a heat insulating layer made of inorganic fibers is covered with metal foil, and this metal foil is covered with a reinforcing cloth made of inorganic fibers to form the sheet body. A slit was provided in the seat body extending from one side edge to the other side edge, and through holes were provided at intervals from the end of this slit toward the other side edge. You can get excellent effects such as:

By wrapping it around the cable, it is possible to suppress heat from being transferred to the cable.
Therefore, it is possible to prevent the cable from being heated in the event of a cable fire, and to prevent the cable from igniting in the area around which the firetight cover is wrapped.

By inserting the metal fitting in the tunnel into the through hole and inserting it into the slit during winding, it is possible to easily wrap the metal piece while avoiding the metal fitting. Furthermore, there is no need to construct the entire length of the cable within the tunnel. In other words, by wrapping the cable at multiple locations spaced apart along its length, the spread of a cable fire can be minimized. Therefore, construction workability is extremely good.

Since part of the weight of the fire tight cover is directly supported by the metal holder, the weight burden on the cable itself can be reduced.

It has good flexibility as a whole, and can be easily wrapped around a cable laid in a bent state.

[Brief explanation of the drawing]

Figures 1 to 4 show one embodiment of the present invention; Figure 1 is a perspective view, Figure 2 is a partially enlarged cross-sectional view, and Figure 3 is a tunnel explaining an example of how to use it. FIG. 4 is a perspective view illustrating the winding method. 1...Sheet body, 2...Slit, 3...Through hole, 4...Insulating layer, 5...Metal foil, 6...Reinforcement cloth, C...Cable, l ₁ ...Spacing, R...Receptacle Hardware, T... tunnel.

Claims (1)

[Scope of utility model registration request] A fire-tight cover for preventing the spread of cable fire, which is used by being wrapped around one or more cables C laid along a direction intersecting the cantilever-shaped metal holder R while being supported by the metal holder R, A sheet body 1 to be wrapped around a cable is provided with a slit 2 extending over a portion from one side edge of the sheet body, and a through hole 3 through which the metal holder is inserted is provided at a position spaced apart from the end of the slit. Further, the sheet body is characterized in that the heat insulating layer 4 made of inorganic fibers is covered with a metal foil 5, and the metal foil is covered with a reinforcing cloth 6 made of inorganic fibers. tight cover.