JPH0354172Y2 - - Google Patents

Description

[Detailed description of the invention] Industrial application field The present invention is used for agricultural water intake weirs, etc. for agricultural water intake, and is called an expandable and contractible rubber weir that is laid across rivers. This invention relates to flexible membrane weirs.

Prior Art In rubber weirs that can be expanded and contracted by injecting and discharging fluids such as air and water, in order to prevent damage to the rubber weir holding fittings caused by boulders, etc. that move from upstream to downstream of the river when they collapse and collapse, As shown in Fig. 7, the concrete foundation on the upstream side of the holding metal fitting was raised to the same height as the top surface of the holding metal fitting.

Problems that the invention aims to solve In order to create such a raised structure, a separate formwork is required on the downstream side of the raised part, or it is necessary to additionally cast only the raised part, which increases the number of man-hours. The cost will be increased even more.

Furthermore, since the upper surface of the holding fitting is exposed, wear of the holding fitting due to boulders and the like moving from upstream to downstream of the river is unavoidable.

Moreover, the raised portion of the concrete foundation was damaged by the boulders as shown in FIG. 8, and the holding metal fitting was raised in the water, making it impossible to fully achieve the purpose of protecting the holding metal fitting.

Means and Effects for Solving the Problems The present invention is concerned with devising a structure for protecting the installation part of a flexible membrane weir that overcomes these difficulties, and includes anchor bolts that protrude upward from a substantially flat concrete foundation; In a flexible membrane weir installed via a holding metal fitting with a nut screwed into the same bolt, a protective material is placed from the upper surface of the concrete foundation located on the upstream side of the river from the holding metal fitting to the upper surface of the guide holding metal fitting. By providing this, the upper surface of the concrete foundation on the upstream side of the membrane weir, the holding metal fittings, the anchor bolts and the nuts can be covered and protected with the protective material.

In addition, in this invention, the anchor bolts that fix the flexible membrane weir are installed in the concrete foundation separately from the anchor bolts that fix the protective material.
The protrusion height of the anchor bolts fixing the flexible membrane dam is reduced.

Embodiment An embodiment of the present invention shown in FIG. 1 and FIG. 3 will be described below.

A concrete foundation 2 is constructed across the riverbed 1 and extends from the riverbed 1 to slopes (not shown) adjacent to both banks.
A rubber weir 3, which is a type of flexible membrane weir, is laid on the concrete foundation 2, as explained below.

The main component of the rubber weir 3 is a belt-shaped rubber sheet made by folding a sheet of belt-shaped woven fabric made of cotton, rigid fibers, etc. in half, impregnating the woven fabric with raw rubber, and vulcanizing and molding the same. It is said that

Further, embedded metal fittings 4 are buried in the concrete foundation 2 oriented in the river width direction, and anchor bolts 5 are buried so as to penetrate the embedded metal fittings 4 and protrude upward at predetermined intervals across the river width direction. The overlapping side edges 3a of the rubber dam 3 are placed on the embedded fitting 4 with the overlapping side edges 3a located upstream, and the presser fitting 6 is placed on top of the embedded fitting 4. The holding metal fitting 6 is fitted onto the anchor bolt 5, and a nut 7 is screwed and tightened onto the upper end threaded portion 5a of the anchor bolt 5 which protrudes from the holding metal fitting 6.

Furthermore, two rows of anchor bolts 8 are buried at predetermined intervals in the upstream part 2a of the concrete foundation upstream of the push-in fitting 4 in the river width direction.

Furthermore, the protective member 10, which has a hole 11 and a recess 12 that can be fitted into the upper end threaded portion 8a of the anchor bolt 8, has a reinforcing steel plate 13 built in at its bottom, and has a reinforced top made of cotton, synthetic fiber, etc. It has a built-in woven fabric 14 and is constructed by vulcanizing and molding raw rubber in the same way as the rubber weir 3. After the rubber weir 3 is laid, the holes 11 of the protection member 10 and By fitting the recess 12, placing the protective member 10 on the upstream part 2a of the concrete foundation, and tightening the nut 9 onto the upper threaded portion of the anchor bolt 8, the protective member 10 is attached to the concrete foundation 2. mounted on.

Since the embodiment shown in FIGS. 1 to 3 is constructed as described above, the stones 18 are rolled downstream from the riverbed 1 on the upstream side of the concrete foundation 2, as shown in FIG. When the concrete foundation upstream part 2a, the holding fitting 6, the nut 7, and the upper threaded part 5a of the anchor bolt are damaged, the protective member 10
These do not come into contact with the stone 18, and the impact of the rolling of the stone 18 is buffered by the elasticity of the protection member 10, thereby preventing damage to the stones 18.

The upstream part of the concrete foundation 2, which is especially vulnerable to shocks, is protected by the thick part of the protection member 10, and the reinforcing steel plate 13 is located above it, so even if a large stone 18 rolls and a large impact force is generated, However, the upstream portion 2a of the concrete foundation 2 is sufficiently protected.

Further, the upstream portion 10a of the protection member 10 is provided with a reinforcing steel plate 13 along the upstream end wall 2b of the concrete foundation 2.
Therefore, even if the upstream part 1a of the river bed 1 adjacent to the upstream part 2a of the concrete foundation 2 is scoured, the upstream part 10 of the protection member 10
A is not turned upwards either.

Furthermore, since the top of the protection member 10 is reinforced with the reinforcing fabric 14, even if the top surface of the protection member 10 is rubbed by stones 18, earth and sand, the top of the protection member 10 is unlikely to be torn off.

Moreover, since the concrete foundation 2 is flat,
Concrete pouring work becomes easier.

In the embodiment shown in FIGS. 1 to 3, the anchor bolt 8 for installing the protection member 10 is buried so as to protrude from the top surface of the concrete foundation 2, but as shown in FIG. An anchor nut 19 may be made to protrude upstream from the upstream end wall 2b of the protective member 10, and the upstream portion 10a of the protective member 10 may be fixed with this anchor nut 19 and bolt 20. It is possible to reliably prevent the portion 10a from turning over.

Further, when the width of the upstream portion 2a of the concrete foundation 2 is wide, the surface of the concrete foundation 2 on the upstream side of the protection member 10 may be covered with a protective steel plate 16, as shown in FIG.

Furthermore, in the above embodiments, the protective member 10
was fixed to the concrete foundation 2 with anchor bolts 8 and nuts 9 or anchor nuts 19 and bolts 20, and as shown in FIG. 2 You can also glue
Such an embodiment would be easier to construct.

Effects of the invention As described above, in the present invention, since the upper surface of the concrete foundation located on the upstream side of the holding metal fitting is protected by the protective agent,
These will not be worn out or damaged by stones, sand, etc. moving in the river, and their durability will be significantly improved.

In addition, in this invention, the anchor bolts that fix the flexible membrane weir are installed in the concrete foundation separately from the anchor bolts that fix the protective material.
The protrusion height of the anchor bolts fixing the flexible membrane weir is reduced, which not only prevents the anchor bolts and nuts from being damaged by rocks with sharp edges flowing on the river bed, but also Even if the rock collides with the anchor bolt, since the protruding height of the anchor bolt is low, the bending moment applied to the anchor bolt due to the collision will be small, and the anchor bolt and the nut screwed into it will be damaged. Therefore, the installation of the flexible membrane weir on a concrete foundation is safe, and there are no accidents such as collapse due to leakage of fluid in the flexible membrane weir.

Furthermore, in the present invention, the upper surface of the concrete foundation is covered with a protective material in which a reinforcing plate is embedded;
Moreover, since the protective material is pressed against the upper surface of the foundation by the reinforcing plate and is not peeled off, damage to the upper surface of the concrete foundation is reliably prevented.

[Brief explanation of the drawing]

FIG. 1 is a cross-sectional side view illustrating an embodiment of the installation part protection structure of a flexible membrane weir according to the present invention; FIG. 2 is a cross-sectional side view illustrating the same embodiment in an upright and inflated state of the rubber dam; FIG. 3 is a cross-sectional side view illustrating the collapsed and contracted state, FIGS. 4 to 6 are cross-sectional side views of other embodiments of the present invention, and FIG. 7 is a cross-sectional side view of the installation part of a conventional flexible membrane weir. FIG. 8 is a cross-sectional side view showing the damaged state of the same part. 1...Riverbed, 1a...Upstream part, 2...Concrete foundation, 3...Rubber weir, 3a...Overlapping side edge, 4...Embedded metal fittings, 5...Anchor bolts,
5a... Upstream threaded portion, 6... Presser fitting, 7... Nut, 8... Anchor bolt, 8a... Upstream threaded portion, 9... Nut, 10... Protective member, 11...
hole, 12... recess, 13... reinforcing steel plate, 14...
Reinforcement woven fabric, 15... Plug, 16... Protective steel plate, 17
...Synthetic resin adhesive, 18...Stone, 19...Anchor nut, 20...Bolt.

Claims (1)

[Scope of utility model registration request] A flexible membrane weir is installed via a holding fitting with an anchor bolt protruding upward from a substantially flat concrete foundation and a nut screwed onto the bolt, and the concrete located on the upstream side of the river is A protective material is disposed from the top surface of the foundation to the top surface of the holding metal fitting, and includes an anchor bolt that projects upward from the concrete foundation separately from the anchor bolt, and a nut that is screwed onto the anchor bolt, and the protective material is A structure for protecting an installation part of a flexible membrane weir, characterized in that a reinforcing material is embedded in the protective material along the surface in contact with the upper surface of the concrete foundation.