JPH0941731A - Membrane construction of air tent - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make it possible to execute dimming or snow melting, etc. SOLUTION: Two transparent membranes 4c and 4d having a circular shape in a plane view are arranged between light permeable membranes 4a and 4b forming an air tent 4, and an air chamber 14a is formed. A plurality of air inlets 20a linking with the air chamber 14a are provided to the periphery of the air chamber 14a, and while, a plurality of exhaust ports 20b linking with the air chamber 14a are formed in the periphery of the air chamber 14a on an opening side in the center of the air tent 4. A ventilating pipe 22a is connected to the air inlets 20a, and a ventilating pipe 22b is connected to the exhaust ports 20b. When dimming is executed, light shielding beads are sent to the inside of the air chamber 14a through the ventilating pipe 22a and the air chamber 14a is filled with them. As a result, outside light is shielded, and a dimming state is kept under the air tent 4.

Description

Detailed Description of the Invention

[0001]

TECHNICAL FIELD The present invention relates to a film structure of an air tent.

[0002]

2. Description of the Related Art Air tents are used in stadiums, baseball fields and the like as a means for forming a large space without using columns. Air tents are divided into two types according to their structure. In the first type of air tent, the conjunctiva is stretched and air is blown in from the inside to expand the conjunctiva and maintain a constant internal pressure to form a dome-shaped form. In the second type of air tent, the outside and inside 2
An air chamber is formed by a single film, and air is sent into the air chamber to expand the air chamber and maintain a constant internal pressure to form a structure having a predetermined shape. The latter air tent is referred to herein as an air-filled membrane structure air tent.

[0003]

In a facility equipped with such an air tent, when performing various events in the daytime, it is necessary to dim to obtain the effect of stage illumination. In an ordinary gymnasium, it is possible to create a darkened space by drawing a dark film on the lighting window. However, in the air tent, since the entire dome-shaped roof is illuminated,
It is extremely difficult to cover with a dark film, and so far no darkening has been realized in an air tent.

Further, when the air tent is constructed in a snowy area, some measures are required because snow is accumulated on the air tent. One countermeasure is to make the air tent strong enough to withstand the load of the accumulated snow.
Building such an air tent is expensive and uneconomical. Therefore, it is a realistic measure to install snow melting equipment and thaw the snow accumulated on the air tent. As a method of melting snow, it is possible to sprinkle warm water to melt the snow, but in the case of an air tent, the load of warm water becomes a problem, and it cannot be said that it is suitable for an air tent. On the other hand, the method of melting snow by warming the air tent with warm air does not apply a load like when using warm water,
Suitable for snow melting in air tents. However, even if warm air is used, 100-200 w / m ² ·
Since a heat quantity of about cm is required, and a huge air tent has a roof area of about 10,000 m ² , for example, in the case of an air-filled membrane structure air tent,
If the structure is such that hot air is blown into the entire air chamber, the snow melting facility will be extremely large-scale.

Therefore, an object of the present invention is to provide a film structure of an air tent which enables darkening and effective snow removal by a small-scale facility.

[0006]

In order to achieve the above object, the present invention provides a membrane structure of an air tent formed by sending air into the inside of a membrane forming a roof to maintain a predetermined air pressure. And an air chamber formed between the film and the other film, an air supply port of the air chamber, and an exhaust port of the air chamber.

Further, in the present invention, in the membrane structure of an air tent formed by feeding air into the membrane forming the roof and maintaining a predetermined air pressure, two other membranes are arranged inside the membrane. An air chamber formed between the two films, an air supply port of the air chamber, and an exhaust port of the air chamber.

According to the present invention, further another membrane is disposed inside the other membrane or the other two membranes, and the outermost membrane and the other membrane form an air chamber. This air chamber is filled with air to maintain a predetermined internal pressure,
The air tent is formed.

According to the present invention, the air chamber is divided into a plurality of sub air chambers whose side portions are in contact with each other, and the air supply port and the exhaust port are provided in each of the sub air chambers. Characterize. The present invention is also characterized in that both the film and the other film transmit light. The present invention is also characterized in that the film and the other two films both transmit light. The present invention also provides the above-mentioned membrane, and the other two.
Both the single film and the other film transmit light.

According to the present invention, the air chamber is formed by newly disposing one or two membranes. Therefore, an impermeable material, for example, a granular body that does not transmit light is air-conditioned in the air chamber. If it is sent together with it and the air chamber is filled with this granular material, external light is blocked, and the space under the air tent becomes dark. Further, if warm air is supplied into the air chamber, the snow accumulated on the air tent can be thawed and removed. Furthermore, if a sound absorber such as a lump of fibers is used instead of the light-shielding granular material, the inside and outside of the air tent can be acoustically insulated, which is effective when a music event is held. Further, if a colored body, for example, colored beads or the like is used instead of the light-shielding granular body, the air tent itself can be colored, and the transmitted light of the air tent can be colored. A light effect can be performed.

[0011]

BEST MODE FOR CARRYING OUT THE INVENTION Next, embodiments of the present invention will be described. As a first embodiment, an air tent darkening device that realizes darkening by an air tent having a film structure according to the present invention will be described. First, an outline of an air tent equipped with the membrane structure of the present invention will be described with reference to the sectional view of FIG. 11 and the partial sectional perspective view of FIG. FIG.
As shown in FIG. 1, the air tent 4 is an air tent having an air-filled membrane structure, and constitutes the roof of the stadium 2 in this embodiment. Eight pillars 8 around the ground 6
(Only two are shown in the drawing), but they are erected at substantially equal intervals, and the ring truss 10 is arranged on the ground truss 10 so as to surround the gland 6. A roof is formed on the outside of the ring truss 10 by a ceiling film 12 supported by a predetermined frame. It should be noted that the ceiling film 12 is made of a material that does not transmit light here.

The air tent 4 is annular when viewed from above,
In this embodiment, the opening 3 is formed at the center. The air tent 4 is composed of an outer membrane 4a made of, for example, Teflon and an inner membrane 4b made of, for example, Teflon.
An air chamber 14 is formed between the membrane and the membrane 4b. The air is blown into the air chamber 14 from the air supply port provided in the peripheral portion of the air chamber 14 through the blower pipe 7 by the blower 5, and as a result, the inside of the air chamber 14 has an appropriate internal pressure P.
As a result, the air tent 4 expands and forms a shape as shown in FIGS. The air chamber 14 formed by the membranes 4a, 4b is virtually impossible to keep completely airtight. Therefore, in order to make up for the air leaking from the air chamber 14, an appropriate amount of air is constantly blown into the air chamber 14 by the blower 5, and the above-described shape of the air tent 4 is maintained. Note that neither of the films 4a and 4b is colored with a paint or the like, and light passes through these films, so that the light is always taken through the air tent 4.

The opening 3 of the air tent 4 is shown in FIG.
As shown in FIG. 2, the pull rings 16a and 16b are arranged. The pull ring 16b is the pull ring 1
6a are arranged above the 6a in a concentric circle with respect to the pulling ring 16a, and the two pulling rings 16a, 16a
b is connected by a bundle 16c made of steel pipe. The pulling ring 16a and the inner peripheral end of the ring truss 10 are connected by about 50 cables 18a radially arranged at a predetermined angular interval, and the pulling ring 16a is pulled by an appropriate cable tension. The membrane 4b is supported by these cables 18a. The pull ring 16b and the inner peripheral end of the ring truss 10 are also connected by about 50 cables 18b radially arranged at a predetermined angular interval, and an appropriate cable tension is given.
These cables 18b prevent the membrane 4a from expanding excessively upward.

Next, the periphery of the air tent 4 directly related to the present invention will be described in detail with reference to FIG. FIG.
FIG. 12 is a partial cross-sectional view showing a portion A of FIG. 11 in an enlarged manner. Between the film 4a and the film 4b forming the air tent 4, two films 4c and 4d, which are ring-shaped in plan view and are transparent and are made of, for example, synthetic resin, are connected to each other, as shown in FIG. An air chamber 14a is formed between the membranes 4c and 4d. A plurality of air supply ports 20a communicating with the inside of the air chamber 14a are provided at predetermined locations around the air chamber 14a. On the other hand, a plurality of exhaust ports 20b communicating with the air chamber 14a are formed at predetermined locations around the air chamber 14a on the side of the opening 3 of the air tent 4. A blower pipe 22a is connected to the air supply port 20a, and a blower pipe 22b arranged inside or outside the air tent 4 is connected to the exhaust port 20b. Although the air chamber 14a is divided into upper and lower parts by the air chamber 14a, air is supplied from the blower 5 to the vertically divided parts of the air chamber 14 to maintain the shape of the air tent 4.

On the other hand, the bead supply equipment 24 shown in FIG. 2 is installed at a predetermined location around the ground 6 shown in FIG. This bead supply facility 24 is used for the bead tank 2.
6, a blower 28, dampers 30 and 32, and the like. The bead tank 26 contains innumerable black beads 40 which are impermeable materials. As the beads 40, a hollow plastic ball colored black, a styrofoam ball colored black, or the like can be used. The size of the beads 40 is 5 to 1 in diameter.
It may be about 0 mm. Ejection port 2 of bead tank 26
6b is connected to the suction port 28a of the blower 28 by a predetermined pipe 34 via a damper 32. On the other hand, the supply port 26a of the bead tank 26 is connected to the pipe 36 and the damper 30.
Is connected to the blower pipe 22b through. The outlet 28b of the blower 28 is connected to the blower pipe 22a. Note that the impermeable material is not limited to the beads 40, and other materials can be used. In short, a small and lightweight material that is movable by the flow of air and has impermeable properties may be used.

The dampers 30 and 32 are beads 40, respectively.
And electrically driven blades 30a, 32 for closing the air passages
a. As shown in FIG. 3, innumerable holes 300 each having a diameter smaller than that of the beads 40 are formed in each of the blades 30a and 32a. Therefore, the blades 30a, 32a
In the state in which the beads 40 and the air passage are blocked (that is, the damper is closed), only the air is absorbed by the damper 3.
0, 32 parts, while the blades 30a, 32a do not block the passage of the beads 40 and air (ie, the damper is open), both beads 40 and air pass the dampers 30, 32 parts. Can pass through, damper 30,
32 functions as a switchable filter.

In such a structure, when various events are performed at the stadium 2, when performing a darkening in order to produce the effect of stage illumination, the electric damper 32 is opened to a predetermined electric current. On the other hand, electric damper 30
Performs a predetermined energization to bring it into a closed state.

When the blower 28 is started in this state, the air moves inside the blower pipe 22a from the blower toward the air chamber 14a of the air tent 4, and then passes through the air chamber 14a to pass from the blower pipe 22b to the damper 30. Leading to. Here, although the damper 30 is in a closed state, air can pass therethrough, so the air that has reached the damper 30 enters the bead tank 26 through the pipe 36. As a result, bead tank 2
The beads 40 accommodated in 6 are pushed out and reach the damper 32 through the pipe 34. Since the damper 32 is in the open state as described above, the beads 40 pass through the damper 32, pass through the blower 28 and the blower pipe 22a, and then the air supply port 20a.
Enters the air chamber 14a.

In this state, the beads 40 are not accumulated in the air chamber 14a, so the beads 40 are discharged from the exhaust port 20.
Since it is discharged from b and the damper 30 is in a closed state, it accumulates in the blower pipe 22b. The beads 40 discharged from the bead tank 26 in this manner are provided in the blower pipe 22b.
When the air is gradually accumulated inside the air duct and the bead 40 is filled with the beads 40, thereafter, the air is accumulated inside the air chamber 14a of the air tent 4, and finally, as shown in FIG. It is filled. In this state, the blower 28 is stopped. Since the beads 40 are made of black plastic and do not transmit light, outside light is blocked at this time, and the inside of the stadium 2 becomes dark.

On the contrary, when the darkening is eliminated, the electric damper 32 is energized for a predetermined amount to be in the closed state contrary to the above case, while the electric damper 30 is energized for a predetermined amount. In contrast to the above case, the open state is established. When the blower 28 is started in this state, the beads 40 accumulated in the air chamber 14a are pushed out by the air from the blower 28, pass through the damper 30 in the open state, and enter the bead tank 26. Even if the beads are not accumulated in the bead tank 26 and are discharged from the discharge port 26b, the damper 32 is in the closed state, and is blocked by the damper 32 and does not move further. Therefore, bead tank 2
Beads 40 gradually accumulate in 6 and bead 40 is completely removed from air chamber 14a of air tent 4. As a result, outside light passes through the air tent 4 and enters the inside to eliminate the darkening.

Thus, in this embodiment, the air chamber 14 in which the beads 40 that do not transmit light are formed in the air tent 4.
By filling the inside of a, darkening can be easily realized.

Next, a second embodiment will be described. This embodiment is different from the above-mentioned embodiment in that an air chamber for filling beads is formed only by adding one film. FIG. 5 is a sectional view corresponding to FIG. In the air tent 4'of this embodiment, a single film 4e formed by joining transparent films made of synthetic resin, which are circular in plan view, is provided between the films 4a and 4b as shown in FIG. An air chamber 14b is formed between the membrane 4a and the membrane 4e. The air chamber 1 is provided at a predetermined position around the air chamber 14b.
A plurality of air supply ports 20a communicating with the inside of 4b are provided. A plurality of exhaust ports 20b communicating with the air chamber 14b are also formed at predetermined locations around the air chamber 14b on the side of the opening 3 of the air tent 4. A blower pipe 22a is connected to the air supply port 20a, and a blower pipe 22b is connected to the exhaust port 20b. The blower 5 is installed in the air chamber 14b.
It is optional to provide a pipe or a valve for feeding air from the.

In this embodiment, the bead supply equipment 24 is used as it is as the bead supply equipment, and the description thereof is omitted here. The blower tubes 22a and 22b are
Similar to the case of the above-described embodiment, the blower 28 is connected to the discharge port 28b and the damper 30, respectively. The operation when the lower part of the air tent 4 is in the dark state is the same as that in the above-described embodiment, and the beads 40 accommodated in the bead tank 26 are sent into the air chamber 14b by the blower 28, and the inside of the air chamber 14b is changed. To be filled. As a result, external light is blocked by the filled beads 40, and a dark state occurs.
When eliminating the darkness, the beads 40 in the air chamber 14b are blown by the air from the blower 28 in the same manner as the above case.
Are extruded and stored in the bead tank 26. As a result, outside light passes through the air tent 4 to reach the inside, and the darkening is eliminated.

In this embodiment, the air tent is the air tent of the air-filled type membrane structure, but in the case of the above-mentioned first type of air tent, the air tent made of the film of the predetermined material is also used. Further, two films corresponding to the films 4c and 4d or one film corresponding to the film 4e are further arranged below, and FIG.
Alternatively, since the air chamber 14a or the air chamber 14b as shown in FIG. 5 can be formed, the present invention can be applied to similarly realize the darkening in the air tent. As the films 4c, 4d, and 4e according to the present invention, films and sheets of various polymer compounds can be used, and fibers of various polymer compounds can be woven into a cloth or these can be attached. You may use what combined.

In the first and second embodiments, the beads 40 that do not transmit light are filled in the air chamber 14a or the air chamber 14b to darken the space under the air tents 4, 4 '. If a small and lightweight colored body that is movable and colored by the flow of air is used as 40, for example, colored beads, the air tents 4, 4'can be colored in the color of the beads. Further, by using colored beads that transmit light, it is possible to color not only the air tent itself but also the external light that is incident through the air tent. Therefore, at various events, it is possible to perform an effect with colors or colored light. In addition, beads 4
Instead of 0, if a small and lightweight sound absorbing body that is movable by the flow of air and has a sound absorbing property, such as a mass of fibers, is used, the space under the air tent and the outside can be acoustically isolated, External noise can be prevented from entering the inside of the air tent, and internal noise can be prevented from leaking to the outside.

Further, in the above-mentioned embodiment, the one air chamber 14a which covers the entire air tent is formed.
It is also possible to divide and use 4a. The plan view of FIG. 6 shows an example thereof. In the air tent 4 of FIG. 1, the membranes 4c and 4d have six straight lines L1 extending in the radial direction.
~ Sewn together along L6, resulting in
The air chamber 14a is divided into six air chambers 14a-1 to 14a-6. Then, as in the case of the first embodiment, an air supply port 20a and an exhaust port 20b are provided for each of these air chambers, and blower pipes 22a, 22b are provided respectively.
Is connected. Therefore, in this air tent, for example, beads of different colors can be filled in each of the air chambers 14a-1 to 14a-6, and more effective effects can be provided by colors and light.

Next, referring to FIGS. 7 and 8, the air chamber 14a is filled with a myriad of small and lightweight materials such as impermeable materials, colored bodies, and sound absorbing bodies, and the air chamber 14a is also filled. Another embodiment for excluding the above will be described. This sound absorber supply facility 70 includes a material tank 72 and two blowers 74.
It is composed of A and 74B, dampers 76 and 78, and the like. The blower pipe 22X is connected to the plurality of air supply ports 20a of the air chamber 14a, and the plurality of exhaust ports 20b of the air chamber 14a.
Blower pipes 22Y are connected to each other, the other end of the blower pipes 22X is connected to the discharge port 72A of the material tank 72, and the other end of the blower pipes 22Y is connected to the supply port 72B of the material tank 72.

The one blower 74A is interposed in the blower pipe 22X, and opening / closing valves 75A and 75A are provided at upstream and downstream positions of the blower 74A, respectively, and the blower pipe 22X between the material tank 72 and the blower 74A. A damper 76 is provided at the location. In addition, at a location where the blower 74A is provided, a bypass passage 80 is provided so as to bypass the blower 74A.
Is provided, and the opening / closing valve 80A is provided at both ends of the bypass passage 80.
80A is provided.

The other blower 74B is provided in the blower pipe 22Y, and opening / closing valves 75B and 75B are provided at upstream and downstream portions of the blower 74B, respectively, and between the exhaust port 20b of the air chamber 14a and the blower 74B. A damper 78 is provided at the location of the blower pipe 22Y. Also, the blower 74B
A bypass path 82 is provided at a position where the bypass path is bypassed so as to bypass the blower 74B, and opening / closing valves 82A and 82A are provided at both ends of the bypass path 82. In addition, damper 7
Reference numerals 6 and 78 have the same structure as the dampers 30 and 32.

When the air chamber 14a is filled with a myriad of small and lightweight materials, the damper 76 and the opening / closing valves 75B, 75B, 80A and 80A are opened and the damper 78 is opened / closed as shown in FIG. Valves 75A, 75A, 82A, 82
With A closed, only the blower 74B is driven, and the material tank 7
When the material in 2 is filled in the air chamber 14a without passing through the blower 74A and the material is removed from the air chamber 14a, as shown in FIG.
8. Open the on-off valves 75A, 75A, 82A, 82A,
The damper 76 and the on-off valves 75B, 75B, 80A, 80A are closed, and only the blower 74A is driven to remove the material from the air chamber 14a without passing the blower 74B.

Next, a third embodiment will be described. This embodiment is a snow melting device for an air tent that melts snow in an air tent equipped with a film structure according to the present invention. First, referring to FIG. This air tent 4 ″ is used in place of the air tent 4 in the stadium 2 shown in FIG. 11, and FIG. 9 is a sectional view showing a portion A of FIG. 11 in an enlarged manner. A third film 4f, which is formed by joining films made of, for example, synthetic resin, which is annular in a plan view, is arranged between the films 4a and 4b forming the air tent 4 "as shown in FIG. An air chamber 14c is formed together with the membrane 4a.A plurality of air supply ports 20a are provided at predetermined positions in the peripheral portion of the air chamber 14c, and the blower pipe 22a is provided from the air supply port 20a to the air chamber 14c. It is inserted into the inside of the air chamber 14c and is fixed in a state where its tip is intruded into the air chamber 14c by a predetermined distance.In the peripheral portion of the air chamber 14c, a plurality of exhaust ports 20b are also formed at predetermined positions. A blower pipe 22b is connected to 20b.
It is optional to provide a pipe or a valve for sending the air from the blower 5 into the air chamber 14c.

On the other hand, at a predetermined location around the gland 6 shown in FIG. 11, a warm air supply equipment 25 shown in FIG. 10 is installed in place of the bead supply equipment 24. The hot air supply facility 25 includes a hot water supply device 46, a pump 48, a hot water coil device 50, and a blower 52.
The water heater 46 includes a boiler part 46a and a tank part 46b. In the boiler part 46a, for example, heavy oil is burned and the water contained in the tank part 46b is heated. On the other hand, the hot water coil device 50 is provided with a coiled pipe 50e, and warm air is heated by circulating hot water in the coiled pipe 50e. Coiled piping 5
0e is connected to the water supply port 50a at one end and the drain port 5 at the other end.
It is connected to 0b.

The hot water generated in the tank portion 46b of the hot water supply device 46 is taken out by the pump 48 through the pipe 54 and the water supply port 50 of the hot water coil device 50 through the pipe 60.
a. The hot water supplied is the hot water coil device 5
After flowing through the coiled pipe 50e in 0 to heat the ambient air, the water returns from the drain port 50b to the tank 46b of the water heater 46 through the pipe 56.

Air is blown into the hot water coil device 50 from the air supply port 50c through the pipe 58 by the blower 52, and this air circulates when passing near the coiled pipe 50e in the hot water coil device 50. It is heated by the coiled pipe 50e which is at a high temperature due to hot water, and is discharged as hot air from the exhaust port 50d.

The warm air discharged from the hot water coil device 50 passes through the blower pipe 22a and the air chamber 14c of the air tent 4 ".
Introduced within. Then, the warm air circulates in the air chamber 14c, but at that time, warms the snow accumulated on the film 4a. As a result, the accumulated snow melts and is removed from the film 4a. After that, the hot air whose temperature has been lowered due to the heat taken by the snow is discharged to the outside of the air chamber 14c through the exhaust port 20b,
It is returned to the suction port 52a of the blower 52 of the warm air supply equipment 25 by the blower pipe 22b. The warm air returned to the blower 52 is heated again by the hot water coil device 50, and is again heated in the air chamber 14c.
Is supplied to.

As described above, in the present embodiment, the warm air for melting snow is not supplied to the entire air chamber 14, but is supplied only to the air chamber 14c forming a part thereof. Therefore, the total amount of heat to be supplied is significantly reduced as compared with the case where hot air is sent to the entire air chamber 14, and therefore the hot air supply equipment 25 may be of a small scale.

As the film 4f according to the present invention, various polymer compound films or sheets can be used, and various polymer compound fibers are woven into a cloth, or these are bonded together. You may use the thing.

[0038]

As described above, in the film structure of the air tent according to the present invention, the air chamber is formed by newly disposing one or two films, so that, for example, light If a granular material that does not pass through is sent together with air and the air chamber is filled with this granular material, external light is blocked, and the space under the air tent is in a darkened state. Further, by supplying warm air into the air chamber, it is possible to thaw and remove the snow accumulated on the film of the air tent that forms the roof. Furthermore, if a sound absorbing body such as a mass of fibers is used instead of the above-mentioned light-shielding granular body, the inside and outside of the air tent can be acoustically insulated, which is effective, for example, when holding a music-related event. Is. Also, instead of the light-shielding granular material,
By using colored beads or the like, the air tent itself can be colored, and the transmitted light of the air tent can be colored, so that it is possible to perform an effect by color or light.

[Brief description of drawings]

FIG. 1 is a partial sectional view showing an air tent according to a first embodiment of the present invention.

FIG. 2 is a configuration diagram showing a bead supply facility according to the first embodiment of the present invention.

FIG. 3 is a plan view showing blades constituting a damper of the bead supply equipment of FIG.

FIG. 4 is a partial cross-sectional view showing a state where beads are filled in the air tent of FIG.

FIG. 5 is a partial sectional view showing an air tent according to a second embodiment of the present invention.

FIG. 6 is a plan view showing a state where the air chamber of the air tent according to the first embodiment is divided.

FIG. 7 is a configuration diagram showing a material supply facility according to another embodiment of the present invention.

FIG. 8 is a configuration diagram showing a material supply facility according to another embodiment of the present invention.

FIG. 9 is a partial sectional view showing an air tent according to a third embodiment of the present invention.

FIG. 10 is a configuration diagram showing a warm air supply facility according to a third embodiment of the present invention.

FIG. 11 is a sectional side view showing an example of a stadium equipped with an air tent having the membrane structure of the present invention.

12 is a partial cross-sectional perspective view showing an air tent that constitutes the stadium of FIG.

[Explanation of symbols]

4, 4 ', 4 "Air tent 4a, 4b, 4c, 4d, 4e, 4f Membrane 5, 28, 52 Blower 7, 22a, 22b Blower pipe 14, 14a, 14b, 14c, 14a-1 to 14a-
6 Air Chambers 20a, 50c Air Supply Ports 20b, 50d Exhaust Ports 24 Bead Supply Equipment 25 Warm Air Supply Equipment 26 Bead Tanks 26a Supply Ports 26b Discharge Ports 28a, 52a Inlet Ports 28b Discharge Ports 30, 32 Dampers 40 Beads 46 Water Heaters 48 Pump 50 Hot water coil device

Claims (7)

[Claims] 1. Air is blown into the inside of the membrane forming the roof,
In a film structure of an air tent formed while maintaining a predetermined air pressure, an air chamber formed between the film and the other film by disposing another film inside the film, A membrane structure of an air tent, comprising: an air supply port; and an exhaust port of the air chamber. 2. Air is blown into the inside of the membrane forming the roof,
In the film structure of an air tent formed while maintaining a predetermined air pressure, an air chamber formed between the two films by disposing another two films inside the film, and an air chamber of the air chamber. A membrane structure of an air tent, comprising: an air supply port; and an exhaust port of the air chamber. 3. A further membrane is disposed inside the other membrane or the other two membranes, and an air chamber is formed by the outermost membrane and the other membrane. The film structure of the air tent according to claim 1, wherein the air tent is formed by filling an air chamber with air to maintain a predetermined internal pressure. 4. The air chamber is divided into a plurality of sub air chambers whose side portions are in contact with each other, and the air supply port and the exhaust port are provided in each of the sub air chambers. Three
The membrane structure of the air tent according to any one of 1. 5. The film structure of an air tent according to claim 1, wherein the film and the other film both transmit light. 6. The film structure of an air tent according to claim 2, wherein the film and the other two films both transmit light. 7. The film structure of an air tent according to claim 3, wherein the film, the other film, and the further film all transmit light.