JP5979903B2 - Flexible joint for joint and method for preventing water leakage - Google Patents

Description

  The present invention relates to a joint for joints for stopping water between a plurality of concrete structures that construct, for example, a water channel and the like, and a water leakage prevention method for preventing water leakage from the joints.

  Conventionally, for example, a water channel or the like is constructed by connecting a plurality of concrete structures (box culverts) having a substantially rectangular cross section. In the water channel having such a structure, for example, as disclosed in Patent Documents 1 and 2, a joint for preventing water leakage between adjacent concrete structures may be installed.

  The joint of patent document 1 is equipped with the flexible water-impervious sheet which covers between adjacent concrete structures. One edge in the width direction of the flexible waterproof sheet is fixed to one concrete structure, and the other edge is fixed to the other concrete structure. In addition, the flexible waterproof sheet is provided with a folded portion that expands when a tensile force of a predetermined value or more is applied.

  Moreover, the joint of patent document 2 is equipped with the corrugated flexible water-proof sheet | seat and a pair of cover plate which covers a flexible water-proof sheet | seat from a water channel inner side, and a cover plate is being fixed to the concrete structure. Yes.

  Generally, the concrete structure may be displaced so that one concrete structure separates from the other concrete structure due to ground subsidence or the like after a long period of time after construction. In this case, in the flexible waterproof sheet of Patent Document 1, the folded portion expands, and in the flexible waterproof sheet of Patent Document 2, the corrugated portion extends to absorb the displacement of the concrete structure.

JP-A-10-159161 JP-A-10-88548

  By the way, water may accumulate outside the water channel in a state where water does not flow in the water channel. When this happens, water pressure (external water pressure) acts between the adjacent concrete structures from the outside to the inside of the water channel. When subjected to a large external water pressure, the flexible water-impervious sheet of Patent Document 1 is forcibly deformed so that the folded portion that is originally intended to absorb the displacement of the concrete structure expands and expands greatly inside the water channel. It is conceivable that the flow of water in the water channel is obstructed and eventually damaged.

  Therefore, it is conceivable to provide a pair of cover plates that cover the inner side of the flexible water shielding sheet as in Patent Document 2, but there is a gap between the cover plates, and the flexible water shielding sheet that receives external water pressure is considered. The water sheet may swell greatly from the gap between the cover plates toward the inside of the water channel and be damaged.

  Further, it is conceivable that the flexible water-impervious sheet that has been subjected to external water pressure pushes the cover plate to the inside of the water channel in an attempt to swell, thereby deforming the cover plate so as to be bent toward the inside of the water channel. If it becomes like this, a flexible waterproof sheet will swell greatly toward the inside of a waterway, and will be damaged.

  This invention is made | formed in view of this point, The place made into the objective is when providing a flexible water-proof sheet | seat so that water resistance can be ensured, allowing the relative displacement of an adjacent concrete structure. Furthermore, it is intended to prevent excessive deformation even when the flexible water shielding sheet is subjected to external water pressure, thereby improving the durability of the flexible joint.

  In order to achieve the above object, in the present invention, there are provided first and second swelling suppression plate-like bodies for suppressing swelling due to external water pressure of the flexible water-impervious sheet, and the first and second swelling suppression plate-like members are provided. The ends of the body opposite to the fixed side are connected to each other or fixed to a flexible water-proof sheet.

A first invention is a joint joint for joints that is disposed in a joint portion that receives an external water pressure of a plurality of concrete structures arranged so as to be aligned in a predetermined direction, and prevents water leakage from the joint portion,
A flexible water shielding sheet provided so as to cover the joint portion of the concrete structure adjacent in the predetermined direction;
1st and 2nd swelling suppression plate-like body which is arranged on the opposite side to the side where the outside water pressure acts of the above-mentioned flexible waterproof sheet, and controls the swelling by the outside water pressure of this flexible waterproof sheet. When,
A first fastening member that fixes one end in the width direction of the flexible water-impervious sheet to one of the concrete structures adjacent to the predetermined direction;
A second fastening member for fixing the other end in the width direction of the flexible water-impervious sheet to the other concrete structure of the concrete structure adjacent in the predetermined direction;
An end portion of the first swelling suppression plate-like body is fixed to the one concrete structure by the first fastening member,
An end of the second swelling suppression plate-like body is fixed to the other concrete structure by the second fastening member,
The ends of the first and second bulge-inhibiting plate-like bodies on the opposite side to the fixed side each extend to a portion that covers the joint portion of the concrete structure adjacent in the predetermined direction, and a flexible connecting member and it is characterized in that it is connected to each other by.

According to this configuration, when the external water pressure acts on the joint portion of the concrete structure, the flexible water-impervious sheet tries to swell due to the external water pressure, and the first and second swelling suppression plates. In contrast, a force toward the inside of the waterway acts. At this time, when the ends of the first and second swelling suppression plates are connected by a flexible connecting member, the ends of the first and second swelling suppression plates are the same. Since deformation in directions away from each other is suppressed, it becomes difficult to deform toward the inside of the water channel . It follows, it is possible to suppress the flexible water-impervious sheet is inflated to the first and second blister suppressing plate-like body.

  Further, when adjacent concrete structures are relatively displaced, relative displacement is allowed by bending of the flexible water shielding sheet. At this time, if a flexible connecting member is provided, the connecting member also bends and can follow the displacement of the concrete structure.

  A second invention is characterized in that, in the first invention, an end portion in the width direction of the flexible water-proof sheet is fixed to the first and second plate for suppressing swelling. It is.

  According to this configuration, when the flexible waterproof sheet is subjected to external water pressure and the flexible waterproof sheet swells toward the inside of the water channel, the flexible waterproof sheet is fixed by the plastic anchor or the like. The flexible water-impervious sheet is about to come out of the sheet, but the end of the flexible water-impervious sheet in the width direction is fixed to the plate for suppressing swelling, so the pull-out force of the flexible sheet is suppressed. Dispersed in the plate. This flexible waterproof sheet is likely to increase because the pressing force to the sheet is reduced at the center between the fixed parts to the concrete structure, and if the sheet comes out, water leakage will occur. Since the flexible water-impervious sheet is fixed to the plate for suppressing swelling, the pull-out force is dispersed and water-stopping property is maintained.

3rd invention is the water leak prevention method which prevents the water leak from the joint part which receives the external water pressure of the some concrete structure arrange | positioned so that it may rank with a predetermined direction,
A width direction end portion of the flexible water shielding sheet covering the joint portion of the concrete structure adjacent in the predetermined direction is a first fastening member with respect to one concrete structure of the concrete structure adjacent in the predetermined direction. And fixing the other end in the width direction of the flexible water-impervious sheet with the second fastening member to the other concrete structure of the concrete structure adjacent in the predetermined direction;
Disposing the first and second bulge-inhibiting plate-like bodies that suppress swelling due to external water pressure of the flexible waterproof sheet, on the side opposite to the side on which the external water pressure acts on the flexible waterproof sheet, Fixing with the first and second fastening members to the one and the other concrete structures respectively;
The ends of the first and second swelling suppression plates opposite to the fixed side extend to portions covering the joint portions of the concrete structures adjacent to each other in the predetermined direction, respectively. the fixed side of the blister suppressing plate-like body, characterized in that it comprises a degree Engineering you connected to each other by the opposite end of the flexible connecting element.

According to the present invention, since the fixed side of the first and second blister suppressing plate-like body was so that to consolidated together by a flexible connecting member end opposite the variable that receives the external water pressure When the flexible water-impervious sheet is about to swell, deformation of the first and second bulge-inhibiting plates can be suppressed. Thereby, it can suppress that a flexible water shielding sheet swells greatly. In addition, when adjacent concrete structures are displaced relative to each other, the flexible water shielding sheet and the flexible connecting member bend to allow the displacement of the concrete structures without applying excessive force to each part. Therefore, the durability of the flexible joint can be improved.

It is sectional drawing of the water channel which has the joint joint for joints concerning Embodiment 1. FIG. It is the II-II sectional view taken on the line in FIG. It is an expanded sectional view of a waterway. It is sectional drawing which shows the construction point of the flexible joint for joints. FIG. 4 is a view corresponding to FIG. 3 when the concrete structure is displaced and external water pressure is applied. FIG. 6 is a diagram corresponding to FIG. 3 according to a first modification of the first embodiment. FIG. 6 is a view corresponding to FIG. 5 according to a first modification of the first embodiment. FIG. 4 is a diagram corresponding to FIG. 3 according to a reference example. FIG. 4 is a diagram corresponding to FIG. 3 according to a modification of the reference example. FIG. 4 is a diagram corresponding to FIG. 3 according to the second embodiment.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. It should be noted that the following description of the preferred embodiment is merely illustrative in nature, and is not intended to limit the present invention, its application, or its use.

(Embodiment 1)
FIG. 1 shows a part of a water channel A provided with a joint joint 1 according to Embodiment 1 of the present invention. The water channel A is a concrete water channel formed by arranging a plurality of concrete structures (box culverts) B1 and B2 in a predetermined direction. Each concrete structure B1, B2 has a substantially rectangular closed section and is embedded in the ground. Therefore, earth and sand are present outside the concrete structures B1 and B2. When the joint material between the concrete structures B1 and B2 deteriorates or the concrete structure B1 and B2 is displaced to damage the joint material, the soil outside the water channel A contains water. In this case, water pressure (external water pressure) may act from the outside to the inside of the concrete structures B1 and B2 and cause water leakage.

  As shown in FIG. 2, the joint joint 1 for joints is for preventing the water leakage from the joint part of adjacent concrete structure B1, B2, and is each arrange | positioned at each joint part. The joint flexible joint 1 is configured to prevent water in the water channel A from leaking from the seam portion to the outside, and also to prevent water accumulated outside the water channel A from entering the inside from the seam portion. ing.

  The joint flexible joint 1 can be used even when the seam portion of the water channel A is deteriorated or damaged, and is formed in a long shape extending in the circumferential direction of the water channel A as a whole. It arrange | positions so that it may continue in the circumferential direction.

  This joint for joint 1 includes a flexible water-impervious sheet 5, and the flexible water-impervious sheet 5 covered from the inside of the concrete structures B1 and B2, and the flexible water-impervious sheet 5 is swollen by external water pressure. In order to fix the first and second swelling suppression plates 10 and 20 and the flexible waterproof sheet 5 and the swelling suppression plates 10 and 20 to the concrete structures B1 and B2, respectively. The first and second fastening members 30, 31, the flexible connecting member 40 for connecting the first and second bulging-suppressing plates 10, 20, and an indeterminate sealing material 50 are provided. Yes.

  As shown in FIG. 3 in an enlarged manner, the flexible water-impervious sheet 5 may be made of, for example, a rubber-based or thermoplastic elastomer-based material that does not allow permeation of water, but preferably a soft vinyl chloride resin, a vinyl chloride-based elastomer, It is made of a material selected from the group consisting of olefin elastomers, styrene elastomers, urethane elastomers and the like.

  As shown in FIG. 2, the flexible water-impervious sheet 5 extends from the edge of one concrete structure B1 to the edge of the other concrete structure B2, and further extends long in the circumferential direction of the water channel A. ing. As shown in FIG. 3, one edge part in the width direction of the flexible water-impervious sheet 5 is a first fixing part 5a fixed to the edge part of one concrete structure B1, and the other edge. The part is a second fixing part 5b fixed to the edge of the other concrete structure B2.

  Between the first and second fixing parts 5a and 5b of the flexible water-proof sheet 5, there is an extra length part 5c for allowing relative displacement between one concrete structure B1 and the other concrete structure B2. Is provided. The surplus length portion 5c is a portion that is loosened immediately after the first and second fixing portions 5a and 5b are fixed to the concrete structures B1 and B2 (immediately after the construction), respectively. It may be left as it is or may be folded although not shown.

  The first bulge suppressing plate 10 is a laminated steel plate having a steel plate and a coating layer formed by laminating a soft vinyl chloride resin or a thermoplastic elastomer on at least one surface of the steel plate. The first bulge suppressing plate-like body 10 is fixed to one concrete structure B1, and extends from the fixing part 11 toward the other concrete structure B2 side. And a covering portion 12 for covering. The coating layer is located so as to be exposed inside the water channel A.

  The fixing portion 11 is formed by bending one side (left side in FIG. 3) of a width direction of the laminated steel plate (left and right direction in FIG. 3) by a predetermined width, and has a thickness corresponding to two sheets of the laminated steel plate. . By forming the fixing part 11 by bending in this way, both the surface facing the water channel A inside and the surface facing the outside of the fixing part 11 are covered with the coating layer.

  The surface of the fixed portion 11 facing the outside of the water channel A is fixed to the flexible water-impervious sheet 5 with, for example, a solvent, heat, adhesive, or the like.

  The cover 12 extends in a flat plate shape substantially parallel to the inner surface of the water channel A. A gap is formed between the cover portion 12 and the inner surface of the water channel A to such an extent that the flexible water-impervious sheet 5 can be disposed in a relaxed state. The front end portion (the right end portion in FIG. 3) of the cover portion 12 extends to a position corresponding to the joint portion of the concrete structures B1 and B2.

  Further, the second swelling suppression plate-like body 20 is formed by bending a laminated steel plate in the same manner as the first swelling suppression plate-like body 10, and a fixing portion 21 fixed to the other concrete structure B2, The cover part 22 which covers the flexible water-impervious sheet 5 is provided. The distal end portion (left end portion in FIG. 3) of the second swelling suppression plate-like body 20 also extends to a position corresponding to the joint portion of the concrete structures B1 and B2, and the first swelling suppression plate-like body 10 Separated from the tip. Most of the flexible waterproof sheet 5 is covered with the first swelling suppression plate 10 and the second swelling suppression plate 20.

  The first swelling suppression plate-like body 10 and the second swelling suppression plate-like body 20 are for suppressing the flexible water-impervious sheet 5 from greatly expanding, and thus have high rigidity.

  The flexible connecting member 40 is disposed inside the water channel A of the first and second swelling suppression plates 10, 20, and connects the distal ends of the swelling suppression plates 10, 20. This is to prevent the parts from separating from each other. The flexible connecting member 40 is a long sheet-like member made of the same material as that of the flexible water-impervious sheet 5, and is fixed to the distal end portion of the first swelling suppression plate 10. It has the fixing | fixed part 41 and the 2nd fixing | fixed part 42 fixed to the front-end | tip part of the plate member 20 for 2nd swelling suppression. Examples of the fixing method of the first and second fixing portions 41 and 42 include a method of bonding with a solvent, heat, an adhesive, or the like, but is not limited thereto.

  A portion of the flexible connecting member 40 between the first fixing portion 41 and the second fixing portion 42 is an extending portion 43 that extends when a tensile force in the width direction is applied. This tensile force is a large force generated by the relative displacement of the concrete structures B1 and B2 due to ground subsidence or the like, as in the case where the flexible water-impervious sheet 5 tries to expand due to the external water pressure described later. However, it hardly stretches with a relatively small force.

  Next, a method (water leakage prevention method) of installing the joint joint 1 configured as described above in the water channel A will be described with reference to FIG.

  It is assumed that the concrete structures B1 and B2 are already installed, and there is a joint portion between them.

  First, a primer is applied in the vicinity of the edges on the inner surfaces of one and the other concrete structures B1 and B2 to form a primer layer P (shown only in FIG. 4), and then an amorphous sealing material is formed on the primer layer P. 50 is applied. The amorphous sealing material 50 is made of a material selected from the group consisting of urethane-based, silicon-based, modified silicon-based, epoxy-based, acrylic-based, butyl rubber-based, thiocol-based and other irregular-shaped caulking materials, sealing materials, and the like. be able to. The amorphous sealing material 50 is a component constituting a part of the joint joint 1 for joints.

  Further, the fixing portion 11 of the first bulge suppressing plate 10 is fixed to the first fixing portion 5 a of the flexible water-proof sheet 5, and the second bulge is fixed to the second fixing portion 5 b of the flexible water-proof sheet 5. The fixing portion 21 of the suppressing plate-like body 20 is fixed. At this time, a fixed position is set so that the flexible water-impervious sheet 5 has an extra length portion 5c.

  Further, the first fixing portion 41 of the flexible connecting member 40 is fixed to the distal end side of the first bulge suppressing plate 10, and the second fixing portion 42 of the flexible connecting member 40 is fixed to the second bulging suppressing plate. It fixes to the front end side of the shape-like body 20. As a result, the distal end sides of the first and second swelling suppressing plates 10, 20 are connected by the flexible connecting member 40. In other words, this step is a step of connecting the ends of the first and second swelling suppressing plates 10 and 20 opposite to the fixed side to each other by the flexible connecting member 40.

  Thereafter, the first fixing unit 5a and the second fixing unit 5b of the flexible waterproof sheet 5 are embedded in the amorphous sealing material 50 so as to be pressed. Thereby, even when the 1st and 2nd swelling plate-like bodies 10 and 20 have a seam in the longitudinal direction, the water stoppage can be maintained.

  After that, for example, using a hammer drill, through holes are made in the fixing portion 11 of the first bulge suppressing plate 10, the first fixing portion 5 a of the flexible waterproof sheet 5, and the irregular sealing material 50, A pilot hole (not shown) is made in the concrete structure B1. Similarly, the fixing portion 21 of the second swelling suppressing plate-like body 20, the second fixing portion 5b of the flexible water-proof sheet 5, and the indeterminate sealing material 50 are provided with through holes and the other concrete structure. A pilot hole (not shown) is made in the object B2.

  Next, the first fastening member 30 such as a plastic anchor is inserted into the fixing portion 11 of the first bulge suppressing plate 10, the first fixing portion 5 a of the flexible waterproof sheet 5, and the irregular sealing material 50, Further, the first fastening member 30 is struck into the prepared hole of one concrete structure B1, and the fixing portion 11 of the first swelling suppressing plate-like body 10 and the first fixing portion 5a of the flexible water shielding sheet 5 are moved to one side. The concrete structure B1 is fixed.

  Further, the same second fastening member 31 is inserted into the fixing portion 21 of the second bulge suppressing plate 20, the second fixing portion 5 b of the flexible water-proof sheet 5, and the irregular sealing material 50. The second fixing member 31 is struck into the pilot hole of the other concrete structure B2, and the fixing portion 21 of the second bulge suppressing plate 20 and the second fixing portion 5b of the flexible water-proof sheet 5 are used as the other concrete. It fixes to structure B2.

  The above process arrange | positions the flexible water shielding sheet 5 so that the joint part of adjacent concrete structure B1, B2 may be covered, and the width direction one end part of the flexible water shielding sheet 5 is one concrete structure B1. And fixing the other end in the width direction of the flexible water-impervious sheet 5 to the other concrete structure B2 by the second fixing member 31, and flexibly. The first and second bulge suppressing plate-like bodies 10 and 20 for suppressing the swelling due to the external water pressure of the water-proof impermeable sheet 5 are respectively fastened to the first and second concrete structures B1 and B2 respectively. This is a step of fixing with the members 30 and 31.

  In addition, the 1st and 2nd fastening members 30 and 31 are not restricted to a plastic anchor, For example, a screw screw etc. may be sufficient, and in the case of a screw screw, it fixes by screwing in a pilot hole.

  Moreover, after fixing the flexible water-impervious sheet 5 to the concrete structures B1 and B2, the first and second swelling suppression plates 10 and 20 may be fixed to the concrete structures B1 and B2.

  When the installation of the joint joint for joints 1 is completed as described above, the water in the water channel A is not leaked to the outside because the flexible water shielding sheet 5 is provided.

  Next, as shown in FIG. 5, one concrete structure B1 (or the other concrete structure B2) extends from the other concrete structure B2 (or one concrete structure B1) to the water channel A by, for example, ground subsidence. The case where it is displaced away from the direction will be described.

  In this case, the first fixing unit 5a and the second fixing unit 5b of the flexible water shielding sheet 5 are pulled in the width direction. At this time, since the extra length portion 5c is stretched, no excessive force is applied to the first fixing portion 5a and the second fixing portion 5b. Further, the relative displacement of the concrete structures B1 and B2 is allowed by the bending of the extra length portion 5c.

  Further, the first swelling suppression plate-like body 10 and the second swelling suppression plate-like body 20 are pulled away from each other. At this time, the first and second bulge suppressing plates 10 and 20 are connected by the flexible connecting member 40. The flexible connecting member 40 has a large tensile force such as ground fluctuation as described above. When receiving the force, the extending portion 43 extends. Thereby, the force concerning each part is reduced and displacement of concrete structure B1, B2 is accept | permitted. Further, when the adjacent concrete structures B1 and B2 are displaced so as to be tilted or displaced in the vertical direction, the displacement of the concrete structures B1 and B2 is allowed even when the elongated portion 43 is bent. .

  Next, a case where water has accumulated outside the water channel A in a state where there is no water in the water channel A, for example, during the agricultural off-season will be described. Water outside the water channel A enters the water channel A through the joint portion, and an external water pressure acts on the flexible water shielding sheet 5. The flexible impermeable sheet 5 that has been subjected to external water pressure tends to swell toward the inside of the water channel A.

  When the external water pressure is relatively low, the inner side of the water channel A of the flexible water-impervious sheet 5 is covered with the highly rigid first and second swelling suppressing plates 10, 20. The sheet 5 is prevented from greatly expanding.

  When the external water pressure is high, the force that the flexible water shielding sheet 5 tries to swell increases, and the first and second swelling suppression plates 10 and 20 are strongly pressed toward the inside of the water channel A. become. At this time, since the base end sides of the first and second swelling suppression plates 10 and 20 are fixed to the concrete structures B1 and B2, the tips of the first and second swelling suppression plates 10 and 20 are fixed. Although the sides are about to open, the distal end sides of the first and second swelling suppressing plates 10 and 20 are connected to each other by the flexible connecting member 40 and are prevented from opening. Therefore, the first and second swelling suppressing plates 10 and 20 are less likely to be deformed toward the inside of the water channel A, thereby suppressing the flexible water-impervious sheet 5 from greatly expanding.

  As described above, according to the joint flexible joint 1 according to this embodiment, the distal ends of the first and second bulge suppressing plate-like bodies 10.20 are connected to each other by the flexible connecting member 40. When the flexible water-impervious sheet 5 that has been subjected to external water pressure is about to expand, deformation of the first and second expansion suppressing plates 10 and 20 can be suppressed. Thereby, it can suppress that the flexible water shielding sheet 5 expands greatly. Moreover, when adjacent concrete structure B1, B2 carries out relative displacement, the force concerning each part is reduced when the flexible water shielding sheet 5 and the flexible connection member 40 bend, and concrete structure B1, Since the displacement of B2 can be allowed, the durability of the flexible joint 1 can be improved.

  Like the modification 1 shown in FIG. 6, you may form the protrusion parts 13 and 23 in the 1st and 2nd swelling suppression plate-like bodies 10 and 20, respectively. The protruding portion 13 is provided in the vicinity of the boundary portion between the fixing portion 11 and the covering portion 12 of the first bulge suppressing plate-like body 10, protrudes to the inside of the water channel A, and extends in the circumferential direction of the water channel A. By forming this protrusion 13, for example, when external water pressure is applied as shown in FIG. 7, when the cover portion 12 of the first swelling suppression plate-like body 10 is about to be deformed inside the water channel A, Only the cover part 12 can be deformed so that an unreasonable force is not applied to the fixing part 11. The same applies to the protrusions 23 of the second bulge suppressing plate-like body 20.

(Reference example)
FIG. 8 shows a joint joint 1 according to a reference example. In this reference example, the arrangement position of the flexible water shielding sheet 5 is different from that of the first embodiment. Hereinafter, a different part from Embodiment 1 is demonstrated in detail.

  That is, in the reference example, the flexible water-impervious sheet 5 is disposed on the inner side of the water channel A with respect to the first and second swelling suppression plates 10 and 20. Further, the first and second swelling suppressing plates 10 and 20 are provided with protrusions 14 and 24, respectively. The protrusion 14 protrudes in contact with the inner surface of the water channel A in the vicinity of the fixed portion 11 of the first bulge suppressing plate 10 and is continuous in the circumferential direction of the water channel A. This ridge part 14 is for suppressing applying an unreasonable force to the fixing part 11 similarly to the ridge part 13 of the modification of the first embodiment. The same applies to the protrusions 24 of the second bulge suppressing plate 20.

  The first fixing portion 5 a of the flexible water-proof sheet 5 is fixed to the fixing portion 11 of the first bulge suppressing plate 10. In addition, the second fixing portion 5 b of the flexible water-proof sheet 5 is fixed to the fixing portion 21 of the second swelling suppression plate 20.

  Moreover, the intermediate part of the width direction of the flexible water-proof sheet | seat 5 is being fixed to the front end side of the 1st swelling suppression plate-like body 10 by adhesion | attachment, and the adhesion part is shown with the code | symbol 5d. Furthermore, the intermediate portion in the width direction of the flexible water-impervious sheet 5 is fixed to the distal end side of the second bulge suppressing plate-like body 20 by bonding, and the bonded portion is denoted by reference numeral 5e. Between the adhesion part 5d and the adhesion part 5e of the flexible water-proof sheet 5, it is set as the expansion | extension part 5f extended when it receives the tensile force in the width direction of the flexible water-proof sheet 5. FIG.

  This tensile force is a large force generated by relative displacement of the concrete structures B1 and B2 due to ground subsidence or the like.

  In addition, the part which attached | subjected the cross hatching in FIG. 8 is an adhesion part to the 1st and 2nd plate-like bodies 10 and 20 for 2nd swelling suppression of the flexible water-impervious sheet 5.

  Also in the reference example, the joint flexible joint 1 can be installed in the water channel A in the same manner as in the first embodiment.

  Next, a case where the concrete structures B1 and B2 are relatively displaced will be described. In this case, the first fixing unit 5a and the second fixing unit 5b of the flexible water shielding sheet 5 are pulled in the width direction. At this time, since the extension portion 5f extends, the force applied to the first fixing portion 5a and the second fixing portion 5b can be reduced. Further, the relative displacement of the concrete structures B1 and B2 is allowed by the extension portion 5f being bent.

  Further, the first swelling suppression plate-like body 10 and the second swelling suppression plate-like body 20 are pulled away from each other. At this time, the distal ends of the first and second swelling suppressing plates 10 and 20 are connected to each other by the flexible water-proof sheet 5, and the flexible water-proof sheet 5 is like ground fluctuation. When receiving a large tensile force, the extension portion 5f extends, so that the force can be reduced and the displacement of the concrete structures B1 and B2 is allowed.

  Next, a case where water has accumulated outside the water channel A in a state where there is no water in the water channel A, for example, during the agricultural off-season will be described. Water outside the water channel A enters the water channel A through the joint portion, and an external water pressure acts on the flexible water shielding sheet 5. The flexible impermeable sheet 5 that has been subjected to external water pressure tends to swell toward the inside of the water channel A.

  When the external water pressure is relatively low, the highly rigid first and second swelling suppressing plates 10 and 20 and the flexible waterproof sheet 5 are bonded, so the flexible waterproof sheet 5 Is prevented from greatly expanding.

  When the outside water pressure is high, the force that the flexible water shielding sheet 5 tries to swell increases, and the first and second swell suppressing plates 10 and 20 are strongly pressed toward the inside of the water channel A. It will be. At this time, the front end sides of the first and second swelling suppressing plates 10 and 20 are connected by the flexible water-impervious sheet 5 and are prevented from opening. Therefore, the first and second swelling suppressing plates 10 and 20 are less likely to be deformed toward the inside of the water channel A, thereby suppressing the flexible water-impervious sheet 5 from greatly expanding.

  As explained above, according to the joint joint for joints 1 according to this reference example, the distal ends of the first and second bulge suppressing plates 10 and 20 are connected to each other by the flexible water shielding sheet 5. Therefore, when the flexible water-impervious sheet 5 subjected to external water pressure is about to expand, deformation of the first and second expansion suppressing plates 10 and 20 can be suppressed. Thereby, it can suppress that the flexible water shielding sheet 5 expands greatly. Moreover, when the adjacent concrete structures B1 and B2 are relatively displaced, the force applied by the flexible water shielding sheet 5 being bent can be reduced, and the displacement of the concrete structures B1 and B2 can be allowed. Therefore, the durability of the flexible joint 1 can be improved.

  As in the modification shown in FIG. 9, the flexible water shielding sheet 5 is adhered to the entire surface of the first swelling suppression plate-like body 10 and is adhered to the entire surface of the second swelling suppression plate-like body 20. It may be. Thereby, the flexible water-impervious sheet 5 and the first and second swelling suppressing plates 10 and 20 can be firmly integrated.

  Further, if the first and second swelling suppression plate-like bodies 10 and 20 are continuous in the circumferential direction of the water channel A, the bonded portion 5d at the end of the first and second swelling suppression plate-like bodies 10 and 20 is provided. , 5e can be connected by a flexible connecting member to obtain a water shielding effect, and a similar joint joint for joints can be obtained.

(Embodiment 2)
FIG. 10 shows a joint portion of the joint joint 1 according to the second embodiment of the present invention. The second embodiment is different from the first embodiment in that the flexible water shielding sheet has a double structure. Hereinafter, a different part from Embodiment 1 is demonstrated in detail.

  In the second embodiment, the joining auxiliary sheet 6 is provided on the outer side of the water channel A of the flexible water-impervious sheet 5 of the first embodiment, and the joint portion in the case of molding into a cylindrical shape as in the construction example shown in FIG. Can be connected while having a water shielding effect.

  The joining auxiliary sheet 6 is disposed so as to overlap with the flexible water shielding sheet 5, and the first fixing part 6a fixed to the edge of one concrete structure B1 and the other concrete structure B2 are arranged. A second fixing portion 6b fixed to the edge portion and a surplus length portion 6c are provided.

  By performing solvent welding or heat welding the flexible water shielding sheet 5 and the auxiliary bonding sheet 6, a water shielding effect can be obtained with a simple work, and the workability is excellent.

  In the second embodiment, the joint flexible joint 1 can be provided in the water channel A by the same method as in the first embodiment.

  As described above, the joint joint for joints according to the present invention can be used, for example, when water is stopped between a plurality of concrete structures that construct a water channel or the like.

DESCRIPTION OF SYMBOLS 1 Joint flexible joint 5 Flexible water-impervious sheet 5a 1st fixing | fixed part 5b 2nd fixing | fixed part 5c Excess length part 10 1st swelling suppression plate-like body 11 fixing | fixed part 20 2nd swelling suppression plate-like body 21 fixation Part 30 First fastening member 31 Second fastening member 40 Flexible connecting member B1, B2 Concrete structure

Claims (3)

A joint joint for joints that is disposed in a joint portion that receives external water pressure of a plurality of concrete structures arranged in a predetermined direction and prevents water leakage from the joint portion,
A flexible water shielding sheet provided so as to cover the joint portion of the concrete structure adjacent in the predetermined direction;
1st and 2nd swelling suppression plate-like body which is arranged on the opposite side to the side where the outside water pressure acts of the above-mentioned flexible waterproof sheet, and controls the swelling by the outside water pressure of this flexible waterproof sheet. When,
A first fastening member that fixes one end in the width direction of the flexible water-impervious sheet to one of the concrete structures adjacent to the predetermined direction;
A second fastening member for fixing the other end in the width direction of the flexible water-impervious sheet to the other concrete structure of the concrete structure adjacent in the predetermined direction;
An end portion of the first swelling suppression plate-like body is fixed to the one concrete structure by the first fastening member,
An end of the second swelling suppression plate-like body is fixed to the other concrete structure by the second fastening member,
The ends of the first and second bulge-inhibiting plate-like bodies on the opposite side to the fixed side each extend to a portion that covers the joint portion of the concrete structure adjacent in the predetermined direction, and a flexible connecting member The joint joint is characterized in that it is connected to each other. The joint joint for joints according to claim 1,
An end joint in the width direction of the flexible water-impervious sheet is fixed to the first and second bulge-inhibiting plate-like bodies. In the water leakage prevention method for preventing water leakage from a joint portion that receives the external water pressure of a plurality of concrete structures arranged in a predetermined direction,
A width direction end portion of the flexible water shielding sheet covering the joint portion of the concrete structure adjacent in the predetermined direction is a first fastening member with respect to one concrete structure of the concrete structure adjacent in the predetermined direction. And fixing the other end in the width direction of the flexible water-impervious sheet with the second fastening member to the other concrete structure of the concrete structure adjacent in the predetermined direction;
Disposing the first and second bulge-inhibiting plate-like bodies that suppress swelling due to external water pressure of the flexible waterproof sheet, on the side opposite to the side on which the external water pressure acts on the flexible waterproof sheet, Fixing with the first and second fastening members to the one and the other concrete structures respectively;
The ends of the first and second swelling suppression plates opposite to the fixed side extend to portions covering the joint portions of the concrete structures adjacent to each other in the predetermined direction, respectively. leakage prevention method and the fixed side of the blister suppressing plate-like body, characterized in that it comprises a degree Engineering you connected to each other by the opposite end of the flexible connecting element.

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