JPH04194105A - Heat-insulating floor structure for indoor artificial skiing site - Google Patents

Abstract

PURPOSE:To prevent the bias of sloped face by a method in which a moisture- proof sheet is bonded to the upside of a rectangular frame whose lower part is covered with aluminium foil, a concrete layer is formed, and concrete is packed into the space of the heat-insulating floor unit having projected pieces on its side. CONSTITUTION:A heat-insulating layer 13 in which the periphery of a heat insulator is covered with a moisture-proof layer 14 with aluminium foil is formed on the downside of a rectangular frame 11, a hold concrete layer 15 with a waterproof sheet layer 16 is formed on the upper periphery, and many projected pieces 12 are formed on the way of the side wall of the frame 11 to form a heat-insulating floor unit 10. The unit 10 is attached to the recessed section 21 of a concrete base 19, and concrete 32 is packed into the adjacent space to fix it to the pieces 12. The unit 10 is attached, a water trough 17 is formed of the waterproof layer 16 on the space, and a snow mat 23 is bonded to the upside of the trough 17. The bias of the sloped face can thus be prevented.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] This invention relates to a heat insulating floor structure for an indoor ski resort.

[Prior Art] Fig. 11 is a cross-sectional view (a cross section perpendicular to an inclined surface) of an indoor ski resort made of steel. In the figure, an indoor ski resort 1 has a floor 4 formed on pillars 3 erected on a foundation 2, walls 5 erected on both sides of the floor 4, and a frame on the upper end of the wall 5. It is composed of a roof section 6 that is extended. Indoor Niski maintains the indoor temperature at a low temperature of -3 to -5 degrees Celsius, and uses a snowmaking machine to deposit about 20 to 50 an of snow on the floor to form a ski slope. At the indoor ski resort, the temperature of the air space in the building is high (30 to 43 degrees Celsius in the summer), so the floor 4, walls 5, and roof are insulated to prevent heat from entering the indoors from the outdoors. It is necessary to have a structure. In particular, the floors of indoor ski resorts are covered with snow mats (artificial turf-like material made of short fibers flocked to drainage mats) to prevent snow from slipping, and waterproof sheets that form drainage gutters. has been
Pile snow on top of this. When snow is used for downhill skiing, the surface of the snow gets dirty, so it is necessary to pile up new snow on top of the dirty snow and melt the snow at the bottom to regenerate the snow. Therefore, the top of the sheet waterproof layer that forms snow mats and drainage gutters is always covered with water, so if water leaks from the sheet waterproof layer or moisture barrier layer and enters the insulation material, the insulation ability of the insulation floor will decrease. Insulated floors must be provided with a moisture barrier. JP-A No. 60-17642 describes that aluminum foil or non-foamed film is pasted on the insulation material (polystyrene foam board) used for the walls of refrigerated warehouses to prevent water vapor from penetrating into the insulation material. However, an insulating floor structure suitable for indoor ski resorts under the above conditions has not yet been published.

[Problems to be Solved by the Invention] The following conditions must be satisfied for the insulated floor of an indoor ski resort.

(1) The insulating floor must be installed at an incline, and the inclination must not cause any slipping (slippage) of the floor components.

(2) Even if water leaks from the sheet waterproof layer pasted on the floor, it must be ensured that water does not infiltrate the insulation materials that make up the insulated floor.

(3) The insulation floor can be installed in a short period of time.

[Means for Solving the Problems] The present invention aims to solve the above problems,
One is a rectangular parallelepiped frame with a rectangular bottom plate, with a heat insulating material layer wrapped around the outer periphery of the heat insulating material in a waterproof layer covered with aluminum foil at the bottom of the inside of the rectangular parallelepiped frame with a rectangular bottom plate; A heat insulating floor unit is formed by forming a compressed concrete layer with a moisture-proof layer pasted thereon, and a plurality of protruding pieces are provided in the middle of the side walls of the rectangular parallelepiped frame, and is installed in a rectangular concave section formed on a concrete base, and the adjacent heat insulating floor is This is an insulating floor structure for an indoor artificial ski resort, characterized in that the spaces between the walls of the units are filled with concrete to fix and connect the insulating floor units.

The other method is to wrap a rectangular parallelepiped-shaped insulation material with a sheet vapor barrier layer covered with aluminum foil, and then form a rectangular parallelepiped-shaped pressing concrete layer on top of the insulation layer, whose outer periphery is wrapped with wire mesh. A heat insulating floor unit made by pasting a sheet waterproof layer on the outer edge of the top of the concrete layer is installed in a rectangular concave section formed on the concrete base, and the space between the side walls of adjacent heat insulating floor units is filled with concrete. This is an insulating floor structure for an indoor artificial ski resort, which is characterized by fixing and connecting an insulating floor unit.

The other type of heat insulating floor consists of a rectangular parallelepiped-shaped insulating material wrapped in a sheet vapor barrier layer with aluminum foil, a rectangular-shaped pressed concrete layer is formed on top of the insulating material layer, and a rectangular parallelepiped frame with an open bottom is placed over these laminated layers. This insulating floor structure for an indoor artificial ski resort is characterized in that the unit is installed in a rectangular concave compartment formed on a concrete base, and a gutter forming material is fixed to an adjacent insulating floor unit to connect and fix the unit. .

The other method is to wrap the outer periphery of a rectangular parallelepiped-shaped insulation material with a sheet moisture-proof layer with aluminum foil, and then form a rectangular-shaped pressed concrete layer on top of the insulation layer with a sheet waterproof layer attached to the outer periphery. A heat insulating floor uni-nod is formed by covering the top of the laminated layer with a cap-shaped frame material, which has a side wall formed downward on the outer periphery of a shaped top plate and a flange formed on the outer periphery of the lower end of the side wall, on a concrete base. The bolt holes of the presser metal with bolt holes formed at intervals are planted in the partition of the concrete base, and the anchor bolts are passed through and tightened with nuts to connect the adjacent insulation floor unit. This is an insulated floor structure for an indoor artificial ski resort, which is fixed by pressing the upper edge.

The other is a rectangular parallelepiped with a recess formed on the top of the insulation material, wrapped around the outer periphery of the insulation material with a sheet moisture-proof layer covered with aluminum foil, and a sheet waterproof layer pasted on the bottom, sides, and top edge of the insulation material. A cover frame consisting of a recess that fits into the recess and a flange formed on the outer periphery of the upper end of the recess is attached, and a heat insulating floor unit is formed on the concrete base by filling the recess of the lid frame with pressurized concrete. The upper edge of the adjacent insulating floor unit is attached to the rectangular concave compartment, and the bolt holes of the presser metal with bolt holes formed at intervals are passed through the anchor bolts planted in the partition of the concrete base and tightened with nuts. This is an insulating floor structure for indoor artificial ski resorts that is fixed by pressing.

[Function] In the case where the heat insulating material layer and the pressing concrete layer are housed inside the rectangular parallelepiped frame, even if the heat insulating floor unit is installed on an inclined surface, no displacement occurs between the layers.

Wrapping the insulation material with a sheet vapor barrier layer with aluminum foil prevents water and moisture from entering the insulation material, and the insulation performance of the insulation material does not deteriorate.

By providing a protruding piece midway between the side walls of the rectangular parallelepiped frame and filling the space between the side walls of adjacent rectangular parallelepiped frames with concrete, the insulating floor unit can be firmly fixed.

If the outer periphery of the heat insulating material is wrapped with a moisture-proof layer covered with aluminum foil, then the outer periphery of the heat insulating material is wrapped with a wire mesh, and a layer of compacted concrete is formed on top of this, the heat insulating material and the compact concrete are firmly bonded through the wire mesh.

By covering the lamination of the heat insulating material layer and the pressing concrete layer with a rectangular parallelepiped frame having a top plate, the sheet waterproof layer can be saved.

By arranging a gutter forming material between adjacent insulating floor units, it becomes easy to form a gutter for draining snowmelt water.

The insulation floor unit can be firmly installed by tightening the presser metal fittings that come into contact with the upper side wall and upper edge of the adjacent insulation floor unit to the anchor bolts planted in the partition of the concrete base. It also makes it easier to replace the insulation floor unit.

[Example] An example of the present invention will be described below based on the drawings. The insulating floor of the present invention has a plane size of 3 to 10 m (vertical) x
They are made 3 to 10 meters (horizontally) and are installed side by side on the concrete base 19 of the indoor Niski resort to form the slope of the ski slope.

FIG. 12 is a diagram showing a part of the plane of the insulating floor installed on the concrete base 19, and shows drainage #l! which drains snowmelt water between the insulating floors installed side by side and the adjacent insulating floor!
There are 17.

1 and 2 are examples of the first invention. In the figure, a heat insulating floor unit 10 has a heat insulating material layer 13 in which the outer periphery of a heat insulating material (polystyrene foam, etc.) is wrapped with a sheet vapor barrier layer 14 covered with aluminum foil at the lower part of the interior of a rectangular parallelepiped frame 11 with a rectangular bottom plate. A pressurized concrete layer 15 is formed on the upper part with a sheet waterproof layer 16 attached to the bottom, side walls and outer edge of the upper surface, and a large number of protruding pieces 12 are provided in the middle of the side wall of the rectangular parallelepiped frame 11. On the other hand, the concrete base 19 is provided with partitions 20 in a grid pattern to form rectangular concave sections 21.

The insulating floor unit 10 is installed by attaching the insulating floor unit 10 to the concave section 21 of the concrete base 19, and installing concrete 32 in the space between the side walls of the adjacent insulating floor units 10.
The adjacent insulating floor unit 1 is filled with a protruding piece 12.
0 on the concrete base 19 and connected. The rectangular parallelepiped frame 11 is generally made of a steel plate, but if it is made of reinforced plastic or a light metal plate, the weight of the heat insulating floor unit 10 can be reduced. After installing the heat insulating floor unit 1O, a sheet waterproof layer 16 is attached to the upper part of the space between the side walls of the adjacent heat insulating floor units 10 to form a drainage @17 for snowmelt water. Thereafter, the snow mat 23 is attached to the upper surface of the heat insulating floor unit 10 and the upper part of the drain gutter 17.

3 and 4 are examples of the second invention. In the figure, a heat insulating material layer 1 is made by wrapping a rectangular heat insulating material with a sheet moisture-proof layer 14 with aluminum foil, and wrapping the outer periphery with a wire mesh 22.
A rectangular parallelepiped-shaped pressed concrete layer 15 is formed on the upper part of the concrete layer 3, and a sheet waterproof layer 16 is attached to the bottom and sides of these laminated layers and the outer edge of the upper surface of the pressed concrete layer 15, thereby constructing the heat insulating floor unit 10. There is. On the other hand, the concrete base 19 is provided with partitions 20 in a grid pattern to form rectangular concave sections 21.

To install the heat insulating floor unit 10, the heat insulating floor unit 10 is installed in the concave section 21 of the concrete base 19, and the concrete 32 is installed in the space between the side walls of the adjacent heat insulating floor unit 10.
The adjoining heat insulating floor unit 10 is filled with the adhesion of the sheet waterproof layer 16 and the concrete 32 forming the side walls.
This is done by fixing and connecting on the concrete base 19. The rectangular parallelepiped frame 11 is generally made of a steel plate, but if it is made of reinforced plastic or a light metal plate, the weight of the heat insulating floor unit 10 can be reduced. After the heat insulating floor units 10 are installed, a sheet waterproof layer 16 is adhered to the upper part of the space between the side walls of adjacent heat insulating floor units 10 to form a drainage gutter 17 for snowmelt water. Thereafter, the snow mat 23 is attached to the upper surface of the heat insulating floor unit IO and the upper part of the drain gutter 17.

FIG. 6 shows an embodiment of the third invention. The heat insulating floor unit 10 includes a rectangular parallelepiped concrete layer 15 formed on top of a heat insulating material layer 13 in which a rectangular parallelepiped-shaped heat insulating material is wrapped in a sheet moisture-proof layer I4 with aluminum foil, and a rectangular parallelepiped frame 11 with an open bottom on top of the heat insulating layer 13. It is constructed by covering it. On the other hand, partitions 20 are provided in the concrete base 19 in a grid pattern to form rectangular concave sections 21.

The insulating floor unit 10 is installed by attaching the insulating floor unit 10 to the concave section 21 of the concrete base 19, and inserting a gutter forming material 24 with a gutter cross-section shape between adjacent insulating floor units IO.
Attach the flange of the gutter forming material 24 to the insulation floor unit IO
connection by attaching it to the shoulder part with the child screw 25,
Do it in a fixed manner. A sheet waterproof layer 16 is adhered to the inner surface of the gutter forming material. Thereafter, the snow mat 23 is attached to the upper surface of the heat insulating floor unit 10 and the upper part of the drain gutter 17.

FIGS. 7 and 8 show an embodiment of the fourth invention. The insulation floor unit 10 includes a rectangular parallelepiped-shaped insulation material whose outer periphery is wrapped with a sheet moisture-proof layer I4 with aluminum foil, and a rectangular parallelepiped-shaped pressed concrete layer 15 on top of the insulation layer 13, which has a sheet waterproof layer 16 attached to the outer periphery. A cap-shaped frame member 26 is formed by forming a side wall downward on the outer periphery of a rectangular top plate and a flange formed on the outer periphery of the lower end of the side wall, and is placed over the top of the stack. Notch holes 28 through which anchor bolts 27 are passed are formed at intervals in the flange of the cap-shaped frame member 26. On the other hand, the concrete base 9 is provided with partitions 20 in the form of a lattice to form rectangular concave sections 21, and anchor bolts 27 are planted in the partitions 20 at intervals.

The heat insulating floor unit 10 is installed as follows. The heat insulating floor unit IO is installed in the concave section 21 of the concrete base 19 by passing the anchor bolt 27 through the cutout hole 28.

Fill the space between the side walls of the insulation floor unit IO with insulation material,
The anchor bolt 27 is passed through the bolt hole of the presser metal 24 (molded in the shape of a flange with a flange) on top of it, and the bolt is tightened. After that, a sheet waterproof layer is placed on the presser metal fitting 24! 6 is attached to form the drainage gutter 17. Then, the snow mat 23 is attached to the upper surface of the heat insulating floor unit 10 and the upper part of the drainage gutter 17.

FIG. 9 and FIG. 1θ are examples of the fifth invention. The heat insulating floor unit 10 is a heat insulating material having a shape of a rectangular parallelepiped with a recess formed in the upper part, the outer periphery of the heat insulating material being wrapped with a sheet moisture-proof layer 14 covered with aluminum foil, and further a sheet waterproof layer 16 affixed to the bottom, sides, and top edge. A lid frame is attached to the top surface, and includes a recess that fits into the recess (in this example, the bottom surface is formed of a deck plate) and a flange formed on the outer periphery of the upper end of the recess. On the other hand, partitions 20 are provided in the concrete base 19 in a grid pattern to form rectangular concave sections 21, and anchor bolts 27 are planted in the partitions 20 at intervals.

The heat insulating floor unit 10 is installed as follows. The heat insulating floor unit 10 is installed in the recessed section 21 of the concrete base 19. The space between the side walls of the heat insulating floor unit 10 is filled with heat insulating material, and the bolt hole of the presser metal 24 (molded in the shape of a flange with a flange) is passed through the anchor bolt 27 to attach it thereon, and then tightened with a nut. . After that, presser metal 2
A drainage gutter 17 is formed by pasting a sheet waterproof layer 16 on top of 4. Then, the snow mat 23 is attached to the upper surface of the heat insulating floor unit 10 and the upper part of the drainage gutter 17.

[Effects of the Invention] Since the insulating floor structure of the indoor ski resort of the present invention is constructed as described above, the following effects can be obtained.

(1) Even when installed on an inclined surface, the insulation floor constituent members do not shift.

(2) Since the heat insulating material is wrapped in a sheet moisture-proof layer with aluminum foil, water and moisture will not enter the heat insulating material and the heat insulating performance will not deteriorate.

(3) It is easy to produce a heat insulating floor unit.

(4) Since the insulating floor can be manufactured in a factory, the insulating floor can be installed in an indoor ski resort in a short period of time.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an embodiment of the first invention, FIG. 2 is a perspective view showing how the heat insulating floor unit of FIG. 1 is installed, and FIG. 3 is a diagram showing an embodiment of the second invention. FIG. 4 is a perspective view showing the installation state of the heat insulating floor unit, FIG. 5 is a perspective view showing the structure of the heat insulating material layer of the second invention, and FIG. 6 is a view showing an embodiment of the third invention. FIG. 7 is a diagram showing an embodiment of the fourth invention, and FIG.
The figure is a perspective view showing the installation state of the heat insulating floor unit in Fig. 7, Fig. 9 is a view showing an embodiment of the fifth invention, and Fig. 1θ is a lid frame attached to the heat insulating layer of the fifth invention. FIG. 11 is a cross-sectional view of an indoor ski resort built with a steel frame structure, and FIG. 12 is a partial plan view of a heat-insulating floor attached to a concrete foundation. 10... Insulating floor unit, 11... Rectangular parallelepiped frame, 12...
...Protruding piece, 13...Insulating material layer, 14...Sheet moisture barrier layer with aluminum foil, 15...Pressure concrete layer,
16...Sheet waterproof layer, 17...Drainage gutter, 19...
・Concrete base, 20... Partition part, 21...
Concave section, 22... Wire mesh, 24... Hammer forming row, 26.
...Cap-shaped frame material, 27...Anchor bolt.

Claims (5)

[Claims] (1) Inside a rectangular parallelepiped frame with a rectangular bottom plate, a heat insulating material layer with the outer periphery of the heat insulating material wrapped in a sheet waterproof layer with aluminum foil is placed at the bottom of the inside of the rectangular parallelepiped frame with a rectangular bottom plate. A heat insulating floor unit is formed by forming a pressed concrete layer with a laminate attached to it, and a plurality of protruding pieces are provided in the middle of the side wall of the rectangular parallelepiped frame.The insulating floor unit is installed in a rectangular concave section formed in the concrete base, and the adjacent insulating floor unit is A heat insulating floor structure for an indoor artificial ski resort characterized by filling the space between side walls with concrete to fix and connect a heat insulating floor unit. (2) A rectangular parallelepiped-shaped insulation material is wrapped with a sheet vapor barrier layer with aluminum foil, and a rectangular parallelepiped-shaped pressed concrete layer is formed on top of the insulation material layer whose outer periphery is wrapped with a wire mesh. A heat insulating floor unit formed by pasting a sheet waterproof layer on the outer edge of the upper surface is attached to a rectangular concave section formed on a concrete base, and the space between the side walls of adjacent heat insulating floor units is filled with concrete. A heat insulating floor structure for indoor artificial ski resorts characterized by fixing and connecting heat insulating floor units. (3) A rectangular parallelepiped-shaped pressed concrete layer is formed on top of the heat-insulating material layer, which is a rectangular parallelepiped-shaped heat insulating material wrapped in a sheet vapor barrier layer with aluminum foil, and a rectangular parallelepiped frame with an open bottom is placed over these laminated layers to form an insulating floor unit. A heat insulating floor structure for an indoor artificial ski resort, which is installed in a rectangular concave compartment formed on a concrete base, and connected and fixed by gutter forming material being fixed to an adjacent heat insulating floor unit. (4) Wrap the outer periphery of the rectangular parallelepiped-shaped insulation material with a sheet moisture-proof layer with aluminum foil, and then form a rectangular-shaped pressed concrete layer on top of the insulation layer with a sheet waterproof layer attached to the outer periphery. A cap-shaped frame material with a side wall formed downward on the outer periphery of the plate and a flange formed on the outer periphery of the lower end of the side wall,
A heat insulating floor unit formed by covering the top of the laminated layer is installed in a rectangular concave section formed in a concrete base, and bolt holes of a presser metal with bolt holes formed at intervals are planted in a partition part of the concrete base. A heat insulating floor structure for an indoor artificial ski resort, characterized in that the structure is fixed by passing anchor bolts through anchor bolts and tightening nuts and pressing the upper edge of an adjacent heat insulating floor unit. (5) The outer periphery of a heat insulating material with a recess formed at the top of a rectangular parallelepiped is wrapped with a sheet moisture-proof layer with aluminum foil, and a sheet waterproof layer is attached to the bottom, sides, and top edge of the insulating material.
A rectangular parallelepiped in which a heat insulating floor unit is formed on a concrete base by attaching a lid frame consisting of a recess that fits into the recess and a flange formed on the outer periphery of the upper end of the recess, and filling the recess of the lid frame with pressurized concrete. The upper edge of the adjacent insulation floor unit is held down by passing the bolt holes of the presser metal, which has bolt holes at intervals, through the anchor bolts planted in the partition of the concrete base and tightening the nuts. An insulating floor structure for indoor artificial ski resorts, which is fixed by