JPH0435569B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention provides a method for constructing end joints of an underground waterproof membrane panel and a formwork therefor, and more specifically, a method for constructing end joints of an underground waterproof membrane panel, and more specifically, a method for excavating a trench, Place the formwork at the end,
The purpose is to place concrete in a trench and then pull out the formwork.

[Problems to be solved by conventional technology and invention]

In such methods, trenches are generally excavated beneath bentonite mud. Once the trench has been excavated, formwork is sunk into the mud and placed at the end of the trench. Concrete is then poured to replace this mud. The concrete will therefore come into contact with the formwork. Once the concrete has hardened, the formwork is generally used to guide the drilling machine while a second one adjacent to the first is inserted from the other side of the formwork.
Dig two trenches.

The problem that arises at this time is the problem of drawing out the formwork. In fact, the formwork is so strongly attached to the concrete that it must be released before it can be pulled out. This disengagement is generally accomplished by lateral movement of a jack or wedge. However, these devices have the disadvantage of being complex and causing temporary work stoppages at the construction site.

The present invention aims to correct these drawbacks.

[Means to solve the problem]

Therefore, the object of the present invention is to first coat the formwork surface on the concrete side with a thin material that can be discarded into the trench prior to concrete pouring in the trench, and then to pull out the formwork almost vertically. There is a construction method for the end joints of underground waterproof membrane panels that involves excavating a trench, placing formwork at the end of the trench, pouring concrete into the trench, and then pulling out the formwork.

The problem of adhesion of concrete formwork is thus solved by interposing the material to be abandoned in the trench between the so-called formwork and the concrete. Since the bond between this sheathing and the formwork is considered to be very weak or such that it can be removed completely once the formwork has been installed, the pull-out stress of this formwork is effectively due to its own weight. limited to only.

A first embodiment uses a thin, foldable sheet of material and holds the sheet on the mold by folding its edges over the edges of the mold.

According to another embodiment, a sheet of magnetic material is used as the thin material and electromagnets are used to hold this sheet on the formwork.

According to yet another embodiment, a sheet of relatively airtight material is used as the thin material, and a suction device is used to hold this sheet on the formwork.

According to yet another embodiment, a sheet material is used as the thin material and this is attached to the formwork using means of low mechanical strength, such as pins or welding points, which can break during formwork withdrawal. Fix it on top.

The invention also aims at an end formwork for use in a method as described above, characterized in that the concrete side is provided with a thin coating that can be discarded in the trench.

In a special embodiment of the invention, the formwork contains electromagnets or suction devices for holding the coating.

In another embodiment, the coating is fixed onto the formwork using low mechanical strength means.

It is also possible to provide a formwork containing a groove in which the inflatable seal is fitted.
In this case, the covering is at least partially retained on the formwork by clamping it within such grooves using inflatable packing.

〔Example〕

By way of non-limiting example, specific embodiments of the invention will now be described with reference to the accompanying drawings, in which: FIG.

In general, the method according to the invention involves digging a trench 1 in the ground, most often beneath bentonite mud, at the end of which a type of structure, e.g. The work of placing the formworks 2a, 2b, 2c equipped with the packing 3, the work of pouring concrete into the trench 1,
It involves the known steps of excavating a second trench 1' on the opposite side of the trench 1 relative to the formwork and pulling out the formwork.

In known methods, the pulling out of the formwork has to be carried out before the concrete in trench 1 has hardened to avoid excessive adhesion (although this does not apply to the concreting of trench 1 and the pulling out of the formwork). ), or trench 1
Means had to be provided to allow the formwork to be moved laterally towards the trench 1' for release from the concrete.

In the embodiment shown in the drawings, the formwork 2
a, 2b and 2c have a base plate 4 on which are fixed two gas-tight caissons 5 defining a longitudinal groove 6 between them. The packing 3 includes an expandable web 7 supporting two side flanges 8. (FIG. 1), one of the side flanges 8 is fitted into the groove 6, into which the web 7 is likewise fitted at least partially. The packing 3 is held between the two caissons 5 by the expansion of the web 7.

According to the invention, the formwork side of the trench 1 facing the concrete side is covered with thin sheets 9a, 9b, 9c which can be discarded into the trench when the formwork is pulled out.

In the embodiment of FIG. 1, sheet 9a is made of a magnetic material, such as galvanized steel, and is held on the formwork by electromagnets 10 during installation of the formwork.

In the case of FIG. 2, the sheet 9b is made of a relatively airtight material, such as metal or synthetic material, and is held on the formwork 2b by a suction device 11. The adsorber 11 is placed in a hole formed in the wall of the caisson 5 and includes a support grid 12 and an O-ring 13 around this grid to avoid rupture of the sheet 9b. Although not shown, there are means for creating a vacuum within the caisson 5 to press the sheet 9b against the outer wall of the formwork.

In the case of FIG. 3, the sheet 9c is made of foldable material and folds its edge 14 around the lateral edges of the base plate 4 and seals 3.
is fixed on the formwork 2c by folding its edge 15 inside the groove 6 in which it is fixed due to expansion of the web.

Therefore, if it is desired to pull out the formwork from the trench, the power supply to the electromagnet 10 must be interrupted in the case of FIG. 1, the suction of air in the caisson must be interrupted in the case of FIG. It is sufficient to deflate the inflatable packing. In this way, the coverings 9a, 9b and 9c break away from the so-called formwork and the formwork can thus be pulled out in the vertical direction, since it has no adhesion to the concrete of the trench 1.

It will be appreciated that various modifications and changes may be made to the above description without departing from the scope and spirit of the invention.

[Brief explanation of drawings]

1 to 3 depict three embodiments of the invention. Number of main components, 1...trench, 2
a, 2b, 2c...Formwork, 3...Packing, 4...
...base plate, 5...caisson, 6...groove,
7... Web, 8... Side flange, 9... Sheet, 10... Electromagnet, 11... Adsorption device, 12...
...Support grid, 13...O ring, 14, 15...
edge.

Claims (1)

[Claims] 1. Prior to pouring concrete in the trench, the formwork surface on the concrete side is covered with a thin material 9a, 9b, 9c that can be left in the trench, and while this thin material is left in the trench, A trench 1 is excavated, formworks 2a, 2b, 2c are placed at the ends of the trench 1, and the trench is concreted. Then, there is a construction method for the end joints of underground waterproof membrane panels, which involves pulling out the formwork. 2. According to claim 1, characterized in that a sheet material 9c is used which can be folded as a thin material, and this sheet is held on the mold by folding its edges at the edges of the mold. the method of. 3 The sheet 9a of magnetic material as the thin material
2. A method according to claim 1, characterized in that the sheet is held on the mold using electromagnets (10). 4. Method according to claim 1, characterized in that a sheet (9b) of a relatively air-tight material is used as the thin material and that this sheet is held on a mold using a suction device (11). 5. Using a sheet material as the thin material and fixing it on the formwork using means of low mechanical strength, such as pins or welding points, which can break during differential withdrawal of the formwork. A method according to claim 1, characterized in that. 6. An end for applying the method according to any of claims 1 to 5, characterized in that the concrete side is provided with a thin coating 9a, 9b, 9c which can be discarded in the trench. Formwork. 7 said groove 6 having an inflatable gasket 3 engaged therein, said sheathing being at least partially secured in said groove by means of said inflatable gasket; Formwork according to claim 6, characterized in that it is held on the formwork by.