JP6018739B2 - Fixing method of water shielding sheet - Google Patents

Description

  The present invention relates to a method for fixing a water shielding sheet to the surface of a concrete structure.

Conventionally, there are the following methods for fixing a water shielding sheet to the surface of a concrete structure.
<1> A method of fixing an impermeable sheet to a concrete structure by applying an adhesive to the concrete surface and adhering the concrete and the impermeable sheet.
<2> A method of placing concrete on the back side of the formwork and attaching a water shielding sheet with irregularities on the back side.
<3> A method in which a sheet having irregularities on the front and back is attached to a mold, and after removing the mold, a resin is sprayed on the irregularities on the surface to form a water shielding layer.
<4> A method of fixing a water shielding sheet to a structure by installing a large number of strip-shaped plates on the water shielding sheet after laying the water shielding sheet and fixing the plate with an anchor.

JP 7-42497 A

The above-described conventional method for fixing a water shielding sheet has the following problems.
<1> The method of applying adhesive to the concrete surface and bonding the concrete and the water-impervious sheet and fixing the water-impervious sheet to the concrete structure results in the problem of maintaining durability because different materials are joined together. In general, peeling has occurred in about 10 years.
<2> The method of attaching a water-impervious sheet with irregularities on the back side to the back side of the mold and placing concrete there is a problem in the method of fixing the water-impervious sheet to the mold. In other words, since the water shielding sheet is nailed to the formwork with a nail, it is necessary to repair the nail hole opened in the water shielding sheet after removing the formwork.
<3> In the above method, since the bolt for fixing the mold itself penetrates the water shielding sheet, the work of repairing the bolt hole after removing the mold is also performed in the same manner as the repair of the nail hole. Necessary. Therefore, if the repair is incomplete, it leads to a decrease in reliability that the function of the water shielding sheet cannot be achieved.
<4> In a method in which a sheet with irregularities on the front and back is attached to a mold, and after removing the mold, a resin is sprayed on the irregularities on the surface to form a water-blocking layer, after the mold is disassembled, the front is blocked. This requires a work for spraying the material for forming the water layer, and is a method with poor workability.
<5> After laying the water-impervious sheet, a number of belt-like plates are installed on the water-impervious sheet, and the plate is fixed by the anchor, so that the anchor penetrates the water-impervious sheet. Doing so will cause water leakage. Therefore, it is necessary to perform an extra work of covering the plate with the covering water shielding sheet, and welding a part of the covering water shielding sheet to the already fixed water shielding sheet.
<6> Further, in the above method, since the plate and the anchor are located under the water shielding sheet, irregularities are generated in the portion, which tends to be a weak point.

In order to solve the above-described problems, the fixing method of the water shielding sheet of the present invention is a method of fixing the water shielding sheet by spot welding to a concrete surface, the fixing anchor having a screw hole, A welding surface for welding the water shielding sheet, a protruding portion protruding from the welding surface to the back side, contacting the fixing anchor, and a bolt hole provided on the bottom surface of the protruding portion and communicating with the screw hole. A fixing plate, and the fixing plate is arranged so that the welding surface is in contact with the surface of the formwork on the concrete placement side, and is a temporary fixing bolt attached from the outside of the formwork, the screw hole and the bolt Through the hole, the fixing plate and the anchor for anchoring are integrated, and the concrete is placed in the mold so that the welding surface is exposed on the same plane as the concrete surface. Fixed plate And fixing anchors, and when disassembling the formwork, remove the temporary fixing bolts, remove the formwork, and install the fixed bolts accommodated in the projecting portions through the screw holes and the bolt holes. The fixing plate and the anchor for anchoring are integrated, and then the filler is filled in the filler so as to be flush with the welding surface, a metal to be heated is attached to the welding surface, and the outside of the metal to be heated is A water shielding sheet is laid, the metal to be heated is heated from the outside of the water shielding sheet by induction with an electromagnetic induction device, and the fixing plate and the water shielding sheet are thermally welded. .
In the method described above, the welding surface can be made of polyethylene.
In the above-described method, the water shielding sheet may be composed of a polyethylene resin.

Since the fixing method of the water shielding sheet of the present invention is as described above, the following effects can be obtained.
<1> The water shielding sheet can be fixed without forming irregularities on the surface of the concrete structure.
<2> Since heat welding fixation is adopted, a material different from the water shielding sheet such as an adhesive is not interposed. Therefore, reliability can be ensured for a long time.
<3> A heated metal such as an aluminum net is interposed between the surface of the stationary platen and the water shielding sheet. This is for heat generation, and the welding itself is the stationary platen and the water shielding sheet. Can be dissolved directly and integrated, and high reliability can be expected.
<4> In particular, the surface of the stationary platen is made of polyethylene, and the water shielding sheet is made of polyethylene resin, so that heat can be easily generated by the electromagnetic induction device, and complete welding can be expected.
<5> By adjusting the vertical and horizontal distances of the fixed plate embedded in the concrete surface, the resistance against separation of the water shielding sheet can be set freely, and the water shielding sheet is fixed with high reliability. be able to.
<6> Although it is a method of supporting a water-impervious sheet, which is a wide surface body, at a number of points of a fixed platen, it is made to function so as to be supported by the surface as a whole by appropriately setting intervals in the vertical and horizontal directions. Can do.

Explanatory drawing of the member used for the fixing method of the water-impervious sheet of this invention. Explanatory drawing of the state which attached each member to the concrete formwork. Explanatory drawing of the state where concrete was laid. Explanatory drawing of the state which disassembled the formwork. Explanatory drawing of the state fixed with the permanent volt | bolt. Explanatory drawing of the state heated with an electromagnetic induction apparatus.

  DESCRIPTION OF EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the drawings.

<1> Parts and Equipment to be Used Parts used in the method of the present invention are the fixed platen 1, the anchor 2 for fixing, the temporary fixing bolt 3, and the electromagnetic induction device 4.

<2> Fixed platen The fixed platen 1 is a plate body provided with a welding surface 11 on which the water shielding sheet A is welded.
At least the surface of the stationary platen 1 is made of polyethylene, which becomes the welding surface 11.
A bolt hole 12 is opened at the center of the fixed platen 1.
The fixing plate 1 is installed so that the welding surface 11 is exposed on the same plane as the surface of the concrete structure B.
The center part of the fixed platen 1 is projected in the shape of a bowl toward the side opposite to the welding surface 11 and a bolt hole 12 is opened on the bottom surface.
Around the bolt hole 12, a flat portion is formed so that the head of the permanent bolt 6 described later can be positioned.

<3> Anchor for Fixing The anchor for fixing 2 is a resistor embedded in the concrete structure B, and includes a nut cylinder 21 and a resistance plate 22 integrated in the direction perpendicular thereto.
The nut cylinder 21 is a cylinder having a screw hole installed therein.
The resistance plate 22 is a plate having a larger area than the nut cylinder 21, and the resistance plate 22 is integrally formed on the bottom surface of the nut cylinder 21.
The fixing plate 1 and the fixing anchor 2 are screwed into the nut of the nut cylinder 21 of the fixing anchor 2 by screwing the temporary fixing bolt 3 or the permanent bolt 6 through the bolt hole 12 of the fixing plate 1. Can be integrated.

<4> Construction Method Next, a method for fixing the water shielding sheet A will be described.

<5> Mounting on the formwork (Figure 2)
In order to construct the concrete structure B, the formwork 5 that maintains the shape of the concrete is installed.
A fixed platen 1 and a fixing anchor 2 are attached to the surface of the mold 5 on the concrete placing side.
For this purpose, a hole 51 through which the temporary fixing bolt 3 can pass is opened in the mold 5, and the temporary fixing bolt 3 is passed through the through hole 51.
The outer diameter of the head of the temporary fixing bolt 3 is made sufficiently larger than the inner diameter of the through hole 51, and the fixing plate 1 and the fixing anchor 2 arranged on the back surface of the mold 5 are integrated by this bolt 3. And attach to the mold 5.
At that time, the welding surface 11 of the stationary platen 1 is fixed so as to coincide with the back surface of the mold 5.
By adjusting the vertical and horizontal arrangement intervals of the fixed platen 1, when the water shielding sheet A is fixed as will be described later, the resistance against the separation can be freely set, and with high reliability. The water shielding sheet A can be fixed.

<6> Placing concrete (Figure 3)
Concrete is placed on the back surface of the formwork 5.
As a result, the anchor 2 for fixation is embedded in the concrete, and the concrete is solidified in a state where the welding surface 11 of the stationary platen 1 is in close contact with the back surface of the mold 5.

<7> Formwork dismantling (Figure 4)
The temporary fixing bolt 3 is pulled out and the mold 5 is disassembled.
Then, the welding surface 11 of the fixed platen 1 is exposed on the same surface as the surface of the concrete structure B.

<8> Integration with permanent bolts (Fig. 5)
When the temporary fixing bolt 3 is extracted, the integration of the fixed platen 1 and the fixing anchor 2 is lost in the concrete structure B.
For this purpose, the permanent bolt 6 is screwed again into the nut cylinder 21 of the anchor 2 for fixing, and both are firmly integrated.
The permanent bolt 6 is made of stainless steel, and is screwed into the nut cylinder 21 of the fixing anchor 2 until the head of the bolt 6 is located at the bottom of the protruding portion formed in a bowl shape.
Thereafter, the teacup-like protrusions are filled with a filler 13 such as gypsum to form a flat surface without irregularities.

<9> Attaching the metal to be heated (Fig. 6)
If cement milk or the like is rotating around the welding surface 11 of the fixed platen 1 by placing concrete, it is removed so that there is no foreign matter.
Thereafter, for example, an aluminum net is attached to the welding surface 11 of the stationary platen 1 as the metal 7 to be heated.
As the aluminum net, for example, a net in which wires having a diameter of 0.1 mm are arranged at intervals of 1 mm is employed.
Thus, the metal 7 to be heated such as an aluminum net is interposed between the surface of the fixed platen 1 and the water shielding sheet A.
However, this is for heat generation, and since the welding itself is performed by directly melting and fixing the fixed platen 1 and the water shielding sheet A as described later, high reliability can be expected.

<10> Laying water-impervious sheet (Fig. 6)
A water shielding sheet A is laid on the surface of the concrete structure B.
As the water shielding sheet A, for example, a water shielding sheet A made of polyethylene resin can be employed.
Furthermore, a long fiber nonwoven fabric can be used by adhering to the water shielding sheet A.
Although FIG. 6 shows an example in which the water shielding sheet A is attached vertically, the same applies to the case where the water shielding sheet A is attached to a horizontal surface or an inclined surface.

<11> Heating (Fig. 6)
Since the surface of the concrete structure B is covered with the water shielding sheet A, the position of the fixed platen 1 is not visible from the outside, but the arrangement position can be known by measuring the interval in advance. it can.
Alternatively, the position can be identified later by a method of detecting a bolt for fixing the aluminum net or the fixed platen 1 to the concrete structure B with a metal detector.
Therefore, the metal 7 to be heated of the stationary platen 1 located on the back side of the water shielding sheet A is heated from the outside of the water shielding sheet A by the electromagnetic induction device 4.
A commercially available electromagnetic induction device 4 can be used.
Then, by the heat of the metal 7 to be heated, the welding surface 11 of the stationary platen 1 which is a polyethylene plate and the surface of the water shielding sheet A on the stationary platen 1 side melt, and the water shielding sheet A can be thermally welded. .
In this operation, heat fusion is usually completed in about 3 seconds.
However, since the conditions slightly change depending on the material and thickness of the water shielding sheet A and the outside air temperature, a calibration curve for each water shielding sheet A, that is, a relationship between the outside air temperature and the optimum time is obtained in advance and the fusion work is performed. .
If this management is performed every day under the same conditions as the work, heat fusion is performed on the separately prepared fixed platen 1 and the work is started after confirming that it is fused with a predetermined strength. Certainty.

<12> Completion of fixing of water-impervious sheet Thus, the work of fixing the water-impervious sheet A to the surface of the concrete structure B is completed in the plurality of fixing plates 1.
As described above, the method of the present invention employs the heat welding fixing method.
Therefore, a material different from the water shielding sheet A such as an adhesive does not intervene, and reliability can be ensured for a long time.
In this method, the impermeable sheet A, which is a wider surface, is supported at a number of points of the fixed platen 1, and is generally supported by a surface by appropriately setting the arrangement interval in the vertical and horizontal directions of the fixed platen 1. Can be made to function.

1: Fixing plate 2: Fixing anchor 3: Temporary fixing bolt 4: Electromagnetic induction device 5: Concrete mold 6: Main bolt 7: Heated metal

Claims (3)

It is a method of fixing the water-impervious sheet by spot welding to the concrete surface,
A fixing anchor with a screw hole;
A welding surface for welding the water shielding sheet, a protruding portion protruding from the welding surface to the back side, and in contact with the fixing anchor; a bolt hole provided on the bottom surface of the protruding portion and communicating with the screw hole; Using a fixed plate,
The fixed platen is disposed so that the welding surface is in contact with the surface on the concrete placement side of the formwork,
With the temporary fixing bolt attached from the outside of the formwork, the fixing plate and the anchor for fixing are integrated through the screw hole and the bolt hole,
With the concrete to be cast in the mold, the fixing plate and the anchor for anchoring are embedded so that the welding surface is exposed on the same plane as the surface of the concrete,
When dismantling the formwork, remove the temporary fixing bolt and remove the formwork,
A permanent bolt accommodated in the projecting portion, the fixing plate and the anchor for anchoring are integrated through the screw hole and the bolt hole, and then the filler is filled in the projecting portion to be flush with the welding surface. age,
Attaching a metal to be heated to the welding surface, laying the water shielding sheet on the outside of the metal to be heated,
The metal to be heated is heated by being induced by an electromagnetic induction device from the outside of the water shielding sheet,
The fixing plate and the water shielding sheet are thermally welded,
Fixing method of water shielding sheet. The method of claim 1, wherein
The welding surface is made of polyethylene,
Fixing method of water shielding sheet. The method according to claim 1 or 2, wherein
The water shielding sheet is made of a polyethylene resin,
Fixing method of water shielding sheet.

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