JP4077828B2 - Building concrete - Google Patents

Description

  The present invention relates to a technique for constructing a shade concrete on a wall of a sheet pile for revetment.

  A large number of sheet piles for revetment are driven adjacent to the shore to form a wall for retaining earth and water. Cover the sheet pile wall with a precast concrete shade block. Many shade blocks are arranged adjacent to each other. Concrete is packed between the shade block and the sheet pile wall, and the shade concrete is constructed on the upper part of the sheet pile wall.

[Technology of Patent Document 1 (Japanese Patent Laid-Open No. 2001-140237)]
The precast concrete shade block consists of a top plate, a front plate and a bottom plate. This shade block is placed over the sheet pile wall. Then, the top plate is placed on the sheet pile wall, the front plate is disposed on the front side and the water side of the sheet pile wall, and the rear surface of the bottom plate overlaps the front surface of the sheet pile wall. The front plate of the shade block and the wall of the sheet pile are arranged side by side at a distance.

  Next, the shade block connects the top plate to the upper end of the sheet pile wall with a fixture and bolts. Moreover, a turnbuckle is spanned between the fixture on the rear surface of the front plate and the fixture on the front surface of the sheet pile wall. The turnbuckle is shortened by a rotation operation, the front plate of the shade block is pulled to the side of the sheet pile, and the rear surface of the bottom plate of the shade block is pressed against the front surface of the sheet pile wall. The shade block is then connected to the sheet pile wall with a turnbuckle or the like. A hollow portion is formed between the cap block and the sheet pile wall.

  Concrete is put into the hollow portion. Concrete hardens with the turnbuckles buried. The shade block is coupled to the sheet pile wall.

[Technology of Patent Document 2 (Japanese Patent Laid-Open No. 9-287118)]
The permanent mold consists of a front plate and a bottom plate. This permanent formwork is arranged on the front side and the water side of the sheet pile wall. The wire is passed through the guide bar fixed to the front surface of the sheet pile wall. The wire connects the tip to the rear surface of the front plate of the permanent mold and pulls the end upward. The permanent formwork is drawn to the wall side of the sheet pile. The end of the wire is fixed to the upper end of the sheet pile wall with a wire clip. The permanent mold is welded to the wall of the sheet pile with a connector protruding from the rear surface of the front plate. Concrete is filled between the permanent formwork and the sheet pile wall. Concrete hardens with the wire buried. The permanent formwork is coupled to the sheet pile wall.

[Technology of Patent Document 3 (Japanese Patent Laid-Open No. 6-306832)]
The plate-shaped decorative panel is arranged on the front side and the water side of the sheet pile wall. Pass the wire through the ring fitting fixed to the front of the sheet pile wall. The tip of the wire is connected to the back surface of the decorative panel. The end of the wire is pulled upward with a center hole jack. The decorative panel is drawn to the wall side of the sheet pile. The end of the wire is fixed to the upper end of the sheet pile wall with an anchor grip. The top of the decorative panel is connected to the upper end of the sheet pile wall with a bolt. Underwater concrete is filled between the decorative panel and the sheet pile wall. Underwater concrete hardens with the wire buried. The decorative panel is coupled to the sheet pile wall.

JP 2001-140237 A JP-A-9-287118 JP-A-6-306832

  In the technique of Patent Document 1, when putting concrete between the shade block and the sheet pile wall, the concrete block prevents the shade block from separating from the sheet pile wall with the concrete. Rotate the turnbuckle between and rotate it. However, since the space between the front plate of the shade block and the wall of the sheet pile is narrow, it is difficult to perform the turnbuckle work and the rotation operation.

  In the technique of Patent Document 2, when pulling the permanent mold to the sheet pile wall side, the wire is passed through a guide bar fixed to the sheet pile wall, the tip of the wire is connected to the permanent mold, and the end of the wire is moved upward. Pull to the top of the sheet pile wall with a wire clip. In the technique of Patent Document 3, when pulling the decorative panel to the sheet pile wall side, the wire is passed through a ring fitting fixed to the sheet pile wall, the tip of the wire is connected to the decorative panel, and the end of the wire is connected to the center hole jack. Pull upward with, and fix it to the upper end of the sheet pile wall with an anchor grip.

  In the technique of Patent Document 1, it was noticed that the wire in the techniques of Patent Documents 2 and 3 was used in place of the turnbuckle that pulls the shade block toward the wall side of the sheet pile. The wire can be used in a narrow gap as compared to the turnbuckle. Therefore, when the use of a wire, more precisely, a wire rope was studied, the following problems were discovered. In addition, I got an idea to solve the problem.

  1) When a wire rope is used, the end of the wire rope is pulled upward, so it is necessary to bring a traction device such as a center hole jack to the site for operation.

  In the wire rope, a plurality of strands are twisted to form strands and strands, and a plurality of steel strands are twisted around a fiber rope as a core. Unlike a simple steel wire, the wire rope having such a structure becomes very large in the initial stage when the tensile force is increased. There is an initial elongation in structure.

  In addition, since the wire rope connects the tip to the wall of the shade block or sheet pile, a ring called an eye is formed at the tip. As the wire rope with an eye increases in tensile force, the eye is flattened in the initial stage and the elongation becomes very large.

  Therefore, the amount of elongation of the wire rope becomes very large in order to obtain the elastic contraction force necessary for pulling the cap block against the input concrete. As a result, it is necessary to bring a traction device having a long pulling distance, such as a center hole jack, to the site. In addition, much effort is required for the towing operation.

  In order to solve such a problem of the wire rope, in the technique of Patent Document 1, it was conceived to use a chain instead of a wire rope instead of a turnbuckle.

  The chain connects many links in a string shape. The link has a steel wire in an oval ring shape. As the tensile force increases, the chain having such a structure has a small elongation before the allowable load is exceeded.

  FIG. 1 is a diagram showing the relationship between tensile load and elongation for chains and wire ropes having the same allowable load. The wire rope has a very large elongation at the beginning when the tensile load is small. The chain has little elongation in the early days. When the tensile load becomes an allowable load, the chain has a much smaller amount of elongation than the wire rope. As a result, the chain does not require a traction device with a long pull distance.

  2) The chain can be hooked on a hook-shaped or shackle-shaped fastener at the end, in the middle, or at any position, and connected to the wall of the shade block or sheet pile. On the other hand, the end of the wire rope can be connected by attaching an eye or a clip to the end. Need an eye or clip. In addition, it is difficult to connect in the middle other than both ends.

  Further, when the chain is embedded in the concrete between the cap block and the sheet pile wall, the connecting force with the concrete and the anchoring force are high. On the other hand, the wire rope has a low anchoring force with the embedded concrete. In addition, the chain has a higher anchoring force than the wire rope, has a simple structure, and is inexpensive.

1) Put a precast concrete cap block on the sheet pile wall constructed by driving a large number of sheet piles, lay concrete between the cap block and the sheet pile wall, and construct the cap concrete covering the top of the sheet pile wall. In the method
The shade block has a top plate, a front plate, and a bottom plate. This shade block places the top plate on the sheet pile wall, and arranges the front plate at the front side of the sheet pile wall with an interval, and the rear surface of the bottom plate. On the front of the sheet pile wall,
The chain connects a large number of ring- shaped links in a string, and this chain connects the tip side to the rear surface of the front plate of the cap block or the front surface of the sheet pile wall, and the middle is connected to the front surface of the sheet pile wall or Through the guide attached to the rear face of the front block of the cap block, it spans between the sheet pile wall and the front plate of the cap block, and the end side is connected to the traction tool attached to the upper end of the sheet pile wall, In this connection, when the chain is longer than the required length, instead of the end link, the end adjacent link or the next link is connected to the traction tool,
The towing tool pulls up the end side of the chain to tension the chain, pulls the front plate of the cap block to the side of the sheet pile, presses the rear surface of the cap block bottom plate against the front of the sheet pile wall,
A method for constructing a concrete shade, characterized in that the concrete is poured into a hollow portion formed between the front plate of the shade block and the bottom plate and the wall of the sheet pile, and is cured in a state where the chain and the traction tool are buried.

2) Consists of a precast concrete shade block that covers the sheet pile wall and a traction mechanism that pulls the shade block toward the sheet pile wall side.
The cap block has a top plate to be placed on the wall of the sheet pile, a front plate arranged with a space in front of the wall of the sheet pile, and a bottom plate that overlaps the front surface of the wall of the sheet pile,
The traction mechanism consists of a chain that links many links in a string, a fastener that connects the tip of the chain, a guide that passes the middle of the chain, and a traction that connects the end of the chain.
The fastener is attached to the rear surface of the front plate of the shade block or the front surface of the sheet pile, and the guide is configured to be attached to the front surface of the sheet pile wall or the rear surface of the front plate of the shade block.
The traction tool penetrates the screw shaft so that it can move up and down through the base attached to the upper end of the sheet pile wall, screw the nut onto the top of the screw shaft protruding above the base, place the nut on the base, and protrude below the base A fastener is attached to the lower end of the screw shaft, and the end of the chain is connected to the fastener, and the chain is raised by the relative rotation of the nut and screw shaft to tension the chain. A construction member for shade concrete, characterized in that it is pulled to the wall side of the sheet pile and the rear face of the shade block is pressed against the front face of the sheet pile wall.

3) In the above-mentioned method for building a concrete cap,
The chain that spans between the wall of the sheet pile and the front plate of the shade block is doubled at the upper and lower positions,
The concrete thrown into the hollow part between the front plate of the shade block and the bottom plate and the sheet pile is made of underwater concrete and ordinary concrete.
Underwater concrete is filled in the lower part of the hollow part and hardened with the chain in the lower position buried,
Ordinary concrete is characterized in that after the underwater concrete is hardened, it is filled on the underwater concrete and hardened in a state where the chain at the upper position is buried.

  A pulling tool attached to the upper end of the sheet pile wall, pulling up the end of the chain to tension the chain, pulling the front plate of the cap block to the sheet pile wall side, and pulling the rear surface of the cap block bottom plate to the front of the sheet pile wall Press on.

  The chain does not have the initial elongation as in a wire rope, and the amount of elongation is small to obtain the force necessary to pull the cap block against the input concrete. There is no need for traction equipment with a long traction distance. Tow operation does not take much time.

  Further, when the chain is longer than the required length, not the end link but the link next to the end or the link next to the end link is connected to the traction tool. In the traction tool, the distance for lifting the end side of the chain is shortened, and the operation time is shortened.

  Further, when the chain is embedded in the concrete between the cap block and the sheet pile wall, the anchor force is higher than that of the wire rope, and the connection or coupling of the cap block, the concrete and the sheet pile wall becomes strong. The chain is simpler and less expensive than the wire rope.

[First example (see FIGS. 2 to 7)]
As shown in FIG. 2, the wall of the sheet pile 1 drives a large number of steel sheet piles 1 adjacent to the shore and constitutes a wall for revetment. In this wall, the concave and convex surfaces of the steel sheet pile 1 are alternately arranged on the front surface on the water side and the rear surface on the land side, respectively.

  A positioning tool 2 that determines the vertical position of the shade block is attached to the upper end of the wall of the sheet pile 1. The vertical positioning tool 2 penetrates a screw hole in a vertical direction through a base 3 attached to the upper end of the sheet pile 1, and a bolt 4 of a screw shaft is screwed into the screw hole so that the bolt 4 passes through the base 3 in the vertical direction. Yes. The bolt 4 has a receiving piece attached on the top of the head protruding above the base 3. The receiving piece moves up and down when the bolt 4 is rotated.

  A positioning tool 6 that determines the front and rear position of the cap block is attached to the upper end of the wall of the sheet pile 1. The front / rear positioning tool 6 passes through a screw hole in the front / rear direction in a base portion 7 attached to the upper end of the sheet pile 1, and a bolt 8 of a screw shaft is screwed into the screw hole, and the bolt 8 passes through the base portion 7 in the front / rear direction. Yes. When the bolt 8 rotates, it moves back and forth.

  The shade block 11 is a precast concrete block, and as shown in FIG. 3, the top plate 12, the front plate 13, and the bottom plate 14 are integrally formed. The longitudinal cross-sectional shape is substantially U-shaped. The top plate 12 passes through a plurality of work holes. The bottom plate 14 is shorter in the front-rear direction than the top plate 12, and the rear surface is an uneven surface that matches the front surface of the wall of the sheet pile 1. Further, the bottom plate 14 has packing attached to the rear surface of the uneven surface.

  A fastener 21 is attached to the lower surface of the rear surface of the front plate 13. The fastener 21 includes a hook-shaped member and a screw shaft. The screw shaft is screwed into the screw hole of the insert embedded in the front plate 13. The hook-shaped member protrudes from the rear surface of the front plate 13.

  The hook-shaped fastener 21 is hooked with a link at the tip of the chain 22, and the tip of the chain 22 is connected to the front plate 13. As shown in FIG. 4, the chain 22 connects a large number of links in a string shape. The link has a steel wire in an oval ring shape.

  On the other hand, a guide 23 through which the chain 22 passes is attached to the front surface of the wall of the sheet pile 1 as shown in FIG. The guide 23 is an eyebolt and includes a ring through which the chain 22 can pass and a screw shaft. The screw shaft is screwed into the screw hole of the substrate fixed to the front surface of the wall of the sheet pile 1.

  At the upper end of the wall of the sheet pile 1, a traction tool 24 that pulls the chain 22 is attached to an upper position of the guide tool 23. As shown in FIG. 4, the traction tool 24 is attached by fitting a base portion 25 into the upper end of the sheet pile 1, vertically passing through a flaw hole in the base portion 25, passing a screw shaft 26 of a bolt through the flaw hole, and a screw shaft 26. Through the base 25 in the vertical direction. The screw shaft 26 has a nut 27 screwed onto an upper portion protruding on the base 25, and the nut 27 is placed on the base 25. Further, the screw shaft 26 has a fastener 28 for connecting the chain 22 attached to a lower end protruding below the base portion 25. The fastener 28 is a shackle, and opens and closes the opening of the U-shaped member with a bolt pin. The shackle 28 connects the closed end of the U-shaped member to the lower end of the screw shaft 26.

  As shown by a chain line in FIG. 3A, a suspension line R is connected to the upper surface of the shade block 11, and a string r is connected to the end of the chain 22. The string r passes through the work hole of the top 12. As shown in FIG. 5, the shade block 11 and the chain 22 are lifted and arranged on the upper front side of the wall of the sheet pile 1. Then, the string r and the chain 22 are inserted into a ring-shaped guide 23 fixed to the wall front surface of the sheet pile 1, the string r is pulled upward, and the end side of the chain 22 is disposed above the guide 23, and the chain The middle part of 22 is bent through the guide 23.

  Next, the shade block 11 is put on the upper part of the wall of the sheet pile 1 as shown in FIG. The suspension rope R and the string r are removed. The top plate 12 is placed on the vertical positioning tool 2 at the upper end of the wall of the sheet pile 1. The front plate 13 applies the rear surface to the front / rear positioning tool 6 at the upper end of the wall of the sheet pile 1. The bottom plate 14 applies the packing on the rear surface to the front surface of the wall of the sheet pile 1. The rear end of the top plate 12 protrudes behind the wall of the sheet pile 1. The traction tool 24 faces the work hole of the top plate 12. The chain 22 connects the end link to a traction tool 24 at the upper end of the wall of the sheet pile 1. If there is more than one link loose in the chain 22, the next link or the next link is connected to the traction tool 24 instead of the end link. The chain 22 is vertically and vertically between the traction tool 24 and the guide tool 23, and is horizontally and longitudinally between the guide tool 23 and the fastener 21. A chain 22 is spanned between the wall of the sheet pile 1 and the front plate 13 of the shade block 11.

  In the traction tool 24, the nut 27 rotates with respect to the screw shaft 26, moves to the lower end side of the screw shaft 26, and raises the screw shaft 26 and the fastener 28 with respect to the base portion 25. Then, the end of the chain 22 is pulled up and tensioned, the front plate 13 is pulled toward the wall side of the sheet pile 1, the rear surface of the front plate 13 is pressed against the front / rear positioning tool 6 at the upper end of the wall of the sheet pile 1, The rear packing is pressed against the front surface of the sheet pile 1 wall. The force that pulls the shade block 11 toward the wall side of the sheet pile 1 prevents the front plate 13 from moving away from the front / rear positioning tool 6 and the bottom plate 14 from moving away from the wall of the sheet pile 1 due to subsequent charging of concrete. Set to the value required to

  Two traction mechanisms each including the fastener 21, the chain 22, the guide tool 23, and the traction tool 24 are provided for each shade block 11. Although the shade block 11 is not illustrated, a large number of the shade blocks 11 are arranged adjacently.

  A hollow portion is formed between the front plate 13 of the shade block 11 and the bottom plate 14 and the wall of the sheet pile 1. Moreover, as shown in FIG. 7, the formwork M is installed between the rear end of the top plate 12 protruding to the land side and the ground. A hollow portion is formed between the mold frame M and the wall of the sheet pile 1.

  The ready-mixed concrete 31 is introduced into the hollow portion on the front side and the rear hollow portion of the wall of the sheet pile 1 from the work hole of the top plate 12 and filled. The concrete 31 is hardened in a state where the fastener 21, the chain 22, the guide tool 23, the traction tool 24, the vertical positioning tool 2 and the front and rear positioning tool 6 are buried. The upper part of the wall of the shade block 11 and the sheet pile 1 is firmly connected by the traction mechanisms 21 to 24 and the concrete 31. The cap block 11, the concrete 31, and the upper part of the sheet pile 1 wall are integrated. In the upper part of the wall of the sheet pile 1, cap concrete is constructed. Thereafter, the formwork M is removed. Although not shown, a slope is formed on the land side of the shaded concrete.

[Second example (see FIG. 8)]
In this example, in the first example, the chain 22 spanned between the wall of the sheet pile 1 and the front plate 13 of the shade block 11 is doubled in the upper position and the lower position. Moreover, the concrete thrown into the hollow part of the front side of the sheet pile 1 is made into two types, underwater concrete and normal concrete. The description will focus on the differences from the first example. Other points are the same as in the first example.

  As shown in FIG. 8, the front of the wall of the sheet pile 1 is attached with a fastener 41 instead of the guide 23 in the first example. The fastener 41 includes a hook-shaped member and a screw shaft. The screw shaft is screwed into the screw hole of the substrate fixed to the front surface of the wall of the sheet pile 1.

  The rear surface of the front plate 13 is attached with a first guide 42 instead of the fastener 21 in the first example. A second guide tool 43 is attached to the upper position of the first guide tool 42. The 1st guide tool 42 and the 2nd guide tool 43 are eyebolts, and consist of a ring | wheel and a screw shaft. The screw shaft is screwed into the screw hole of the insert embedded in the front plate 13.

  A third guide tool 44 is attached to the upper surface of the fastener 41 on the front surface of the wall of the sheet pile 1. The third guide tool 44 is an eyebolt, and includes a ring and a screw shaft. The screw shaft is screwed into the screw hole of the substrate fixed to the front surface of the wall of the sheet pile 1.

  The chain 22 connects the tip to a fastener 41 fixed to the wall of the sheet pile 1. The end of the chain 22 sequentially passes through the first guide tool 42, the second guide tool 43, and the third guide tool 44, and is connected to the traction tool 24 attached to the upper end of the wall of the sheet pile 1. The chain 22 is spanned between the wall of the sheet pile 1 and the front plate 13 at an upper position and a lower position, respectively, and traverses horizontally. The traction tool 24 is operated in the same manner as in the first example, the chain 22 is tensioned, and the shade block 11 is pulled to the wall side of the sheet pile 1 with a required force.

  Underwater concrete 46 is put into a hollow portion formed between the front plate 13 of the shade block 11 and the bottom plate 14 and the wall of the sheet pile 1. The underwater concrete 46 is charged by filling only the lower part of the hollow portion, and the fastener 41, the first guide tool 42, and the chain 22 at the lower position spanned over them are buried. It hardens in this buried state. Then, the lower part of the shade block 11, the underwater concrete 46, and the wall of the sheet pile 1 are couple | bonded firmly.

  After the underwater concrete 46 is hardened, ordinary concrete 47 is put on the underwater concrete 46 and filled. The ordinary concrete 47 is in a state where the second guide tool 43, the third guide tool 44, the third guide tool 44 and the traction tool 24, the chain 22 stretched over them, the vertical positioning tool 2 and the front and rear positioning tool 6 are buried. Harden. The chain 22 at the upper position spanned between the second guide tool 43 and the third guide tool 44 is cured in a buried state. The cap block 11, the underwater concrete 46, the ordinary concrete 47, and the wall of the sheet pile 1 are firmly coupled and integrated. In the upper part of the wall of the sheet pile 1, cap concrete is constructed.

  When the first submerged concrete 46 is introduced, the submerged concrete 46 is filled only in the lower part of the hollow part, so that the cap block 11 is attached to the wall side of the sheet pile 1 with the chain 22 as compared with the case where the whole hollow part is filled. The force that pulls in is small. Further, when the second ordinary concrete 47 is put in, the lower part of the cap block 11 is connected to the wall of the sheet pile 1 by the first underwater concrete 46, so the lower part of the cap block 11 is connected to the wall of the sheet pile 1 with concrete. Compared to when it is not, the force for pulling the shade block 11 to the wall side of the sheet pile 1 with the chain 22 is small.

  Expensive underwater concrete 46 is saved only in the lower part of the hollow part where it is necessary.

[Third example (see FIG. 9)]
In this example, in the first example, as shown in FIG. 9, the rear plate 51 serving as a substitute for the mold M is added to the shade block 11 and integrally molded. There is no need to install and remove the formwork M. Other points are the same as in the first example.

[Fourth example (see FIG. 10)]
This example rearranges the chain 22 which pulls the shade block 11 to the wall side of the sheet pile 1 in the first example. The description will focus on the differences from the first example. Other points are the same as in the first example.

  As shown in FIG. 10, the front surface of the wall of the sheet pile 1 is attached with a fastener 56 instead of the guide 23 in the first example. The fastener 56 includes a hook-shaped member and a screw shaft. The screw shaft is screwed into the screw hole of the substrate fixed to the front surface of the wall of the sheet pile 1. A guide tool 57 is attached to the rear surface of the front plate 13 in place of the fastener 21 in the first example. The guide tool 57 is an eyebolt and includes a ring and a screw shaft. The screw shaft is screwed into the screw hole of the insert embedded in the front plate 13. The traction tool 24 is in a tilted posture in which the tractor 24 is inclined to the land side and the lower end is directed to the guide tool 57.

  The chain 22 connects the tip to a fastener 56 fixed to the wall of the sheet pile 1. The end of the chain 22 passes through the guide tool 57 and is connected to the traction tool 24 attached to the upper end of the sheet pile 1 so as to be inclined. The traction tool 24 is operated in the same manner as in the first example, the chain 22 is tensioned, and the shade block 11 is pulled to the wall side of the sheet pile 1 with a required force.

[Modification]
1) In said embodiment, although the sheet pile 1 is a steel sheet pile, it is made into a steel pipe sheet pile or a concrete sheet pile.
2) In the above embodiment, the traction tool 24 of the traction mechanism rotates the nut 27 with respect to the screw shaft 26 and the fastener 28 in order to tension the chain 22, but the screw shaft with respect to the nut and the fastener. Make a rotating structure.
3) In the above embodiment, the traction mechanisms 21 to 24, 41 to 43, 56, and 57 are provided in two for each shade block 11, but each one, three or four. Provide.

The diagram which shows the relationship between tensile load and elongation amount about a chain and a wire rope. The wall of the sheet pile in the 1st example of embodiment of this invention is shown, (a) is a vertical side view, AA sectional view taken on the line of (b), (b) is a top view. The shade block in the example is shown, (a) is a longitudinal sectional side view, and is a sectional view taken along line BB in (b), and (b) is a plan view. The enlarged side view of the traction tool in the example. The vertical side view which shows the state just before covering a cap block on the wall of a sheet pile in the example. The state which covered the cap block on the wall of the sheet pile in the same example is shown, (a) is a longitudinal sectional side view, and is a sectional view taken along the line CC of (b), and (b) is a plan view. The vertical side view which shows the state which packed concrete between the shade block and the sheet pile wall in the same example. The vertical side view which shows the state which packed concrete between the shade block and the sheet pile wall in the 2nd example of embodiment. The vertical side view which shows the state which packed concrete between the shade block and the wall of a sheet pile in the 3rd example of embodiment. The vertical side view which shows the state which packed concrete between the shade block and the wall of a sheet pile in the 4th example of embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Sheet pile, steel sheet pile 2 Vertical positioning tool 3 Base part of vertical positioning tool 4 Screw shaft, bolt 6 Front / rear positioning tool 7 Front / rear positioning tool base 8 Front / rear positioning tool screw shaft, bolt 11 Cap block, precast concrete block 12 Top plate of shade block 13 Front plate of shade block 14 Bottom plates of shade block 21 to 24, 41 to 43, 56, 57 Traction mechanism 21 Traction mechanism fastener 22 Traction mechanism chain 23 Traction mechanism guide, eyebolt 24 Towing tool traction tool 25 Towing tool base 26 Towing tool bolt, screw shaft 27 Towing tool nut 28 Towing tool fastening, shackle 31 Concrete M Formwork 41 Towing mechanism fastening 42 First guide tool of traction mechanism , Eye bolt 43 traction mechanism second guide, eye bolt 44 traction mechanism third guide, eye bolt 46 Cleats 47 Average concrete 51 guiding member of the fastener 57 traction mechanism plate 56 traction mechanism after bevel blocks, eyebolts

Claims (3)

In the method of constructing the shade concrete that covers the top of the sheet pile wall by covering the sheet pile block constructed by driving a number of sheet piles with the shade block of precast concrete, filling the concrete between the shade block and the sheet pile wall ,
The shade block has a top plate, a front plate, and a bottom plate. This shade block places the top plate on the sheet pile wall, and arranges the front plate at the front side of the sheet pile wall with an interval, and the rear surface of the bottom plate. On the front of the sheet pile wall,
The chain connects a large number of ring- shaped links in a string, and this chain connects the tip side to the rear surface of the front plate of the cap block or the front surface of the sheet pile wall, and the middle is connected to the front surface of the sheet pile wall or Through the guide attached to the rear face of the front block of the cap block, it spans between the sheet pile wall and the front plate of the cap block, and the end side is connected to the traction tool attached to the upper end of the sheet pile wall, In this connection, when the chain is longer than the required length, instead of the end link, the end adjacent link or the next link is connected to the traction tool,
The towing tool pulls up the end side of the chain to tension the chain, pulls the front plate of the cap block to the side of the sheet pile, presses the rear surface of the cap block bottom plate against the front of the sheet pile wall,
A method for constructing a concrete shade, characterized in that the concrete is poured into a hollow portion formed between the front plate of the shade block and the bottom plate and the wall of the sheet pile, and is cured in a state where the chain and the traction tool are buried. It consists of a precast concrete shade block that covers the wall of the sheet pile, and a traction mechanism that pulls the shade block toward the wall side of the sheet pile,
The cap block has a top plate to be placed on the wall of the sheet pile, a front plate arranged with a space in front of the wall of the sheet pile, and a bottom plate that overlaps the front surface of the wall of the sheet pile,
The traction mechanism consists of a chain that links many links in a string, a fastener that connects the tip of the chain, a guide that passes the middle of the chain, and a traction that connects the end of the chain.
The fastener is attached to the rear surface of the front plate of the shade block or the front surface of the sheet pile, and the guide is configured to be attached to the front surface of the sheet pile wall or the rear surface of the front plate of the shade block.
The traction tool penetrates the screw shaft so that it can move up and down through the base attached to the upper end of the sheet pile wall, screw the nut onto the top of the screw shaft protruding above the base, place the nut on the base, and protrude below the base A fastener is attached to the lower end of the screw shaft, and the end of the chain is connected to the fastener, and the chain is raised by the relative rotation of the nut and screw shaft to tension the chain. A construction member for shade concrete, characterized in that it is pulled to the wall side of the sheet pile and the rear face of the shade block is pressed against the front face of the sheet pile wall. The chain that spans between the wall of the sheet pile and the front plate of the shade block is doubled at the upper and lower positions,
The concrete thrown into the hollow part between the front plate of the shade block and the bottom plate and the sheet pile is made of underwater concrete and ordinary concrete.
Underwater concrete is filled in the lower part of the hollow part and hardened with the chain in the lower position buried,
2. The method for constructing shaded concrete according to claim 1, wherein the ordinary concrete is filled in the underwater concrete after the underwater concrete is hardened and hardened in a state where the chain at the upper position is buried.

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