JPS63176577A - Control of inflation mode in pneumatic film structure - Google Patents

Abstract

(57) [Summary] This bulletin contains application data before electronic filing, so abstract data is not recorded.

Description

[Detailed Description of the Invention] "Industrial Application Field" The present invention relates to an inflation mode control method in an air membrane structure, and more specifically, when constructing a low rise cable reinforced air membrane structure, the deflated and assembled The present invention relates to an inflation mode control method that allows a membrane roof to be inflated in a good mode.

``Prior art'' A low rise cable reinforced air membrane structure is, for example, as shown in Figure 4, a cable 2... is stretched from a compression ring 1 provided around a building in accordance with the scale of the building. . . . The membrane material 3 . . . is stretched between them to form a membrane roof, and the 151! A structure is created in which a pressure greater than the weight per unit area of roots (for example, 25 kg/rJ) is applied to the chamber and the membrane roof is supported by air pressure.

In the above structure, the installation of 1 odor material 3...
This is usually done by subjecting the ends of the cut membrane material 3 to the area concavely formed by the cable 2 by performing a jitter-intrinsing process on the two cables.

For example, as shown in FIG.
At the same time, insert and fix the holding plate 5 into the large aluminum channel 6.
is used as a plate part for the membrane material joint, and by holding down the end of the membrane material 3.3 having the lobe edge 7.7 on this plate part with bolts using the aluminum hardware 8,
The membrane material 3 is fixed to the cable 2.
In FIG. 5, 9 indicates a gasket, 1O indicates waterproof neoprene rubber, and 11 indicates a condensation catcher.

``Problems to be Solved by the Invention'' By the way, in such an air membrane structure, when trying to inflate a membrane roof assembled by deflating, the diamond part (fourth point) where the cable crosses in two directions (see figure), the weight per unit area is large and the cable restraint effect is also large, so a free mode as shown by the solid line in FIG. 3(A), for example, occurs near the recursion point.

This free mode is in an unstable state, as shown in Figure 3 (A).
As shown in the figure, when the length L of the diamond portion is shortened to L', an unfavorable mode as shown by the solid line in the figure occurs, and the cable deformation does not follow well and the cable becomes localized. kink (Fig. 3 (A)
There was a problem that the membrane roof could be damaged due to the membrane roof being deflated (part (a)). Therefore, the present invention has developed an inflate mode control system that can safely inflate a membrane roof that has been deflated and assembled. The purpose is to provide a method.

"Means for Solving the Problems" In order to achieve the above object, the inflation mode control method according to the present invention provides a method for controlling the membrane roof when inflating the membrane roof in the cable-reinforced air membrane structure from the deflated state. It is characterized by pulling the cable laterally outward for a predetermined period of time at multiple locations located on the outer periphery.

``Operation'' According to the above method, the inflation mode as shown by the solid line in FIG. 3(B) occurs, and a large amount of slack in the cable, etc. is removed from the outer periphery of the membrane roof (one-way cable portion, see FIG. 4). While it is induced in the central part (diamond part), it is suppressed to a small extent.

This avoids the local kink phenomenon of the cable at the center of the membrane roof, which is likely to occur when the cable crosses in two directions.

“Embodiment” An embodiment of the present invention will be described below based on the accompanying drawings.

As shown in FIG. 1, in this embodiment, a towing rope 20,
A tension device (b) consisting of a pulley 21, a weight 22, etc. is used. That is, a pulley 21 is attached to the upper end of the structural wall 23, and one end of a pulling row 120, which is hooked on the pulley 21 and rotated, is connected to the end side of the membrane roof cable 2, and the pulley 21 is connected to the end of the membrane roof cable 2.
One end is connected to a weight 22.

And, as shown in FIG. 2, the above-mentioned tension device (b)
They will be installed at four locations located on the triangular panels around the outer periphery of the membrane roof. Incidentally, since the configuration of the air film structure is the same as that shown in FIGS. 4 and 5, detailed explanation will be omitted here with reference to FIGS. 4 and 5.

Because of this configuration, if the cable 2 is pulled laterally outward by the weight 22 before and after the recursion point including the recursion point that occurs during inflation of the membrane roof, a good inflation mode as described above can be achieved. is obtained (Figure 3 (B)
), at this time, by changing the size of the weight 22, the inflation mode can be freely controlled to a certain degree of culm.

Note that the tension device (b) is removed after inflation is completed. Further, in the above embodiment, a tensioning device (b) using the weight 22 is exemplified, but a mechanical tensioning device such as a winch may also be used.

"Effects of the Invention" As explained above, according to the present invention, when a membrane roof in a cable-reinforced air membrane structure is inflated from a deflated state, at a plurality of locations located on the outer periphery of the membrane roof,
Since the cable is pulled laterally outward for a predetermined period of time, the inflation mode of the membrane roof can be effectively controlled with a simple device, which has the effect of preventing the occurrence of local kinks in the cable. can get.

[Brief explanation of the drawing]

FIG. 1 is a schematic configuration diagram of a tensioning device showing one embodiment of the present invention, FIG. 2 is an explanatory diagram showing the arrangement of the tensioning device, and FIG. 3 (A
) and (B) are explanatory diagrams of different inflation modes, FIG. 4 is an overall plan view of the air chamber structure, and FIG. 5 is a structural diagram of the membrane joint part. 2... Cable, 3... Membrane material, (b)... Tension device Figure 1 Figure 2 Figure 3 (B) Figure 4 Figure 5

Claims (1)

[Claims] In a cable-reinforced air membrane structure, when the membrane roof is inflated from a deflated state, the cable is pulled laterally outward for a predetermined period at multiple points located on the outer periphery of the membrane roof. Inflate mode control method.