JP5099423B2 - Revetment block and tension block - Google Patents

Description

  The present invention relates to a revetment block and a tension block that are constructed on a slope such as a river.

  As a conventional technique, in a stacking block used for a slope, concrete blocks to be stacked one above the other are arranged side by side, and a gap is provided between the adjacent blocks so as to communicate in the front and rear direction. The connecting material is exposed in the gaps between the blocks, and the width between the left and right side surfaces of the blocks is narrowed toward the rear. There is a stacking block that can be stacked on top of each other and has a substantially horizontal upper and lower overlapping surface.

  Further, the single blocks are connected by one connecting member, and an anchor fixed to the connecting member is embedded in the center in the left-right direction of the single block.

Further, in the structure for sucking up for stacking blocks, the concrete blocks to be stacked one above the other are arranged side by side in the horizontal direction, and a suction preventing member is provided in the gap between the adjacent blocks. In addition, there is a stacking block suction prevention structure provided with a substantially vertical groove and insertion edges provided on both sides of the suction prevention member in the left-right direction (see Patent Documents 1 and 2).
Moreover, there exists a thing like patent document 3 as a connection type tension block.

JP 2001-115467 A JP 2002-317450 A JP-A-7-102582

  According to the above-described conventional technology, (1) a single block is provided with a gap communicating between the adjacent block single pieces in the front-rear direction, and the single blocks are connected by a connecting material, The connecting material is exposed to connect the blocks alone. In this case, the blocks are separated from each other, so when performing lifting work during transportation or construction, if the lifting work is not performed with all the blocks attached to the lifting tool, it will bend vertically. Therefore, there is a problem that handling is complicated and workability is poor.

  (2) Blocks are connected by connecting bars with a gap between them, and there are gaps communicating in the front and back of the block. Therefore, there is a suction prevention member to prevent the backfilling material and trunking material from flowing out. There is a problem that it is necessary to install and the construction becomes complicated.

(3) In connection type tension blocks used for slopes, it is necessary to connect each block during construction, and the size of conventional tension blocks is generally about 1 m ² , When the construction area is large, the connection work becomes enormous and can be done only by human power, so it is not possible to save labor by mechanization and the construction requires a lot of labor and time. is there.

   (4) In addition, from the viewpoint of improving workability, there is a problem that it is difficult to cope with changes such as the undulation of the slope if the block alone is enlarged.

  Therefore, the present invention has been invented in view of the above problems, and has an excellent workability for curve construction that matches the alignment of a river, and a block for revetment capable of efficiently carrying and carrying work. The purpose of the present invention is to provide a tension block that enables followability to surface undulations and that can be efficiently transported and constructed.

First, a block for revetment according to the invention of claim 1 of the present invention is:
A stacking block used for a slope, provided with a cut portion 3 in a V shape in plan view from both the front and rear directions, and continuously forming a plurality of block portions 2 in which side surfaces 4 are connected by connecting portions 5 having a predetermined depth. In the depth direction of the connecting portion 5, the anti-separation bars 6 are horizontally embedded in two upper and lower stages to prevent bending in the longitudinal direction in the longitudinal direction and in the vertical direction when lifted by a crane. It is a feature.

The block for revetment according to claim 2 is the block according to claim 1,
The connecting portion 5 is characterized in that a V-shaped guide joint 8 is formed before and after the connecting portion 5 to enable curve construction in accordance with the river line.

Next, the tension block of claim 3 is:
It is a connecting type tension block used for slopes,
One large substantially quadrilateral plate-like body is divided into a plurality of block bodies 13 having substantially the same size, and the adjacent block bodies 13 are connected by a connecting portion 5, and the adjacent portions excluding the connecting portion 5 are adjacent to each other. the gap 14 is formed between the block body 13, the substantially central position in the height direction of the front Symbol connecting portion 5, arranged separation preventing muscle 6 vertically and horizontally inseparably the block body 13 with each other, further wherein the connecting portion 5 is characterized in that a second guide joint 8a is formed by cutting the front and back surfaces of the connecting portion 5 into a V shape .

The tension block according to claim 4 is the structure according to claim 3,
The tension block 12 is characterized in that a connecting wheel 15 is disposed in a block portion 13 corresponding to an adjacent position of the tension block 12.

The present invention has the following effects.
(1) According to the invention of claim 1, it is built along the slope of the revetment, and in a place where the river is bent, a crack is generated in the connecting portion to cause a crack, so that the curve matches the shape of the river Construction is easy and efficient. On the other hand, the connected state of each block portion is maintained by the separation preventing streak even if the corresponding connecting portion is cracked.

 (2) According to the first aspect of the present invention, since the separation preventing streak is horizontally embedded in the upper and lower two stages so as to be horizontally held at the substantially central position in the depth direction of the connecting portion, a connected state and a crack are generated. Even in such a state, it is possible to prevent the revetment block from being bent in the vertical direction (up and down direction), and lifting work can be performed at two points. As a result, even if the block body is cracked in the connecting portion, each block body can be maintained in a stable and horizontal state during movement and construction, so that it is easy to handle and has excellent workability.

(3) According to the invention of claim 1, since each block part is integrally formed with the connecting part, it is not necessary to arrange a sucking prevention material for preventing the backfilling material or the trunking material from flowing out. . In addition, even when the connection part is cracked and curved, the connection state of the block part is maintained by the anti-separation bars, and the cracked part of the connection part is cracked by the front side of the connection part. On the other hand, when opened as a side, the rear side becomes the compression side and closes. As a result, there is no gap in which the backfill material or the waistfill material flows out. Therefore, it is not necessary to dispose the sucking prevention material at the connecting portion where the crack is generated, and it is possible to shorten the construction time and the cost.

 (4) According to the invention of claim 1, since the block portions are integrally connected by the connecting portion and the separation preventing bar, the block portions can be lifted at two points. Therefore, the block part does not fall apart during transportation from the factory to the construction site or the like, and can be transported as a whole.

 (5) According to the invention of claim 1, since the block parts are integrally connected by the connecting part and the separation preventing bar, it can be constructed in a state where a plurality of block parts are arranged in parallel at the construction site. . Therefore, the workability is much better than in the case of the conventional revetment block.

(6) According to the invention of claim 2, since the induction joint is formed before and after the connecting portion, the crack can be easily formed along the induction joint when the connecting portion is cracked and bent. Unnecessary cracks due to the occurrence of irregular cracks do not reach the block portion.

(7) According to the invention of claim 3, since the size of one block is 3m ² ~5m ² and large, workability is good labor saving can be achieved. In addition, the connecting part and anti-separation bar keep the block part in a horizontal state even when it is lifted at two or four points depending on the number and size of the block during transportation and construction. Can be transported and constructed. And when constructing a slope with undulations, construction is made easy to follow the back ground by cracking the connecting part to give flexibility.

(8) According to the invention of claim 3 , since the induction joint is formed on the front and back surfaces of the connecting portion, when the crack is made in the connecting portion, it can be bent easily along the induction joint. Unnecessary cracks due to the occurrence of irregular cracks can be prevented from reaching the block portion.

(9) According to the invention of claim 4 , large tension blocks can be connected together by connecting the connecting wheels with the connecting bracket. Moreover, by using a large tension block, it is possible to construct a strong and stable revetment against the river water.

  The revetment block 1 constructed on a slope of a river or the like of the present invention shown in FIGS. 1 to 9 is assembled on a foundation block 11a along a slope 11 of a river or the like as shown in FIG. It is a stacking block, and is mainly installed in a place that is affected by rolling stones, such as a water hitting part upstream from the midstream part.

  As shown in FIGS. 1 and 2, the revetment block 1 has a plurality of block portions 2 in which cut portions 3 are provided in a V shape in plan view from both front and rear directions, and side surfaces 4 are connected to each other by a connecting portion 5 having a predetermined depth. Are continuously formed in parallel.

  The front surface 2a of each block part 2 is preferably formed into a pseudo natural stone so as to match the natural scenery.

  An anti-separation bar 6 that prevents bending in the vertical direction when lifted by a crane device or the like is horizontally embedded in two upper and lower stages in the longitudinal direction at a substantially central position in the depth direction L of the connecting portion 5 and held horizontally. Has been made possible.

  The revetment block 1 is formed so that the depth L of the connecting portion 5 is about 40 mm when the length of the revetment block 1 in the longitudinal direction is 2000 mm and the width of each block portion 2 is 360 mm.

  In addition, the separation prevention bar 6 does not bend in the vertical direction even if it is lifted at two points by a crane or the like, and cracks are generated in the connecting part so that it can be bent in the horizontal direction. It is better to use a rebar with a thickness of about φ6mm. Further, the separation prevention bars 6 are embedded in two upper and lower stages, and prevent the block part 2 from bending in the vertical direction (vertical direction) even in a connected state and a cracked state. Even if a crack is made in 5, it can be held in a horizontal state in a stable state during movement and construction.

  Further, a convex portion 9 is provided at the top end of each block portion 2, and an engagement for fixing the assembled block portion 2 to the bottom surface of each block portion 2 corresponding to the convex portion 9. A recess 10 is provided. Furthermore, a suspension fitting 7 is provided at the top end of the predetermined block portion 2 for lifting with a crane during construction or movement.

  In the connecting portion 5, a V-shaped guide joint 8 is formed in front of and behind the connecting portion 5, as shown in FIG. The connecting part 5 is bent from the front and rear guide joints 8 using a simple jig such as a bar to form a crack K in the connecting part (see FIG. 7), and bend according to the shape of the river. It becomes possible. When a crack is made in the connecting portion 5, the crack K can be made along the induction joint 8. As a result, the position of the crack is limited so that unnecessary cracks do not reach the block portion 2.

Blocks shown in FIGS. 10 to 14 showing the first embodiment of Zhang Ri block 12 is linked tension blocks used slope 11. One size of the tension block 12 is a relatively large block of approximately 3m ² ~5m ^2, the result of applying by arranging the tension block 12 in this large, the area occupied by the block 12 against the construction area Since it is large, workability is good and labor saving can be achieved. This one substantially rectangular plate-like body is divided into a plurality of block bodies 13 having substantially the same size.

  Further, each block body 13 is easily provided with earth and sand for plant growth, and is formed with convex portions 17 and a plurality of holes 16 in order to prevent the covering soil from flowing out.

  In addition, as described above, the sediment for growing the plant is easy to accumulate, and the convex portion 17 and the plurality of holes 16 are formed in order to prevent the covering soil from flowing out. The same applies to the case of the fourth embodiment.

  In the tension block 12, adjacent block bodies 13 are connected by a connecting portion 5, and a gap 14 is formed between the adjacent block bodies 13 except for the connecting portion 5.

Further, at approximately the center position in the height direction of the connecting portion 5, separation preventing bars 6 are arranged vertically and horizontally so that the block bodies 13 cannot be separated from each other.
It is preferable to use a reinforcing bar having a thickness of about 6 mm so that the separation preventing bar 6 does not bend even when lifted at two or four points by a crane or the like. For this reason, when the tension block 12 is moved or constructed, it can be held in a stable horizontal state.

  The connecting portion 5 is formed with a second guide joint 8a in which the front and back surfaces of the connecting portion 5 are cut into a V shape (see FIG. 4). The connecting portion 5 is cracked by making a crack K in the connecting portion 5 from the second guide joint 8a on the front and rear surfaces using a simple bar or the like (see FIG. 7), and the river slope 11 Construction is possible according to the undulation shape. When cracks are formed in the second induction joint 8a of the connecting portion 5, the cracks K can be formed along the second induction joint 8a. As a result, irregular cracks K are generated and unnecessary cracks are blocked. It does not reach the body 13.

  In the tension block 12, a connecting wheel 15 is disposed on a block portion 13 corresponding to an adjacent position of the tension block 12.

As shown in FIGS. 15 18 showing the second embodiment of the tension block, tension block 12 is a substantially square plate-like body, one of the relatively large blocks of approximately the size 3m ² ~5m ² You may divide and manufacture in the two block bodies 13 of the substantially same magnitude | size. Further, as shown in Figure 19 Figure 21 showing the third embodiment of the tension block, tension block 12 is substantially a square plate-like body, of one size substantially 3m ² of ～5M ² relatively large The block may be divided into three block bodies 13 having substantially the same size.

Furthermore, as shown in FIG. 22-FIG. 24 showing the fourth embodiment of the tension block, tension block 12 is substantially a square plate-like body, of one size substantially 3m ² of ～5M ² relatively large The block may be divided into nine blocks of approximately the same size, and may be composed of a central block 18 and a peripheral block 19 surrounding the central block 18.

  In the tension block 12 of the fourth embodiment, a flexible portion 20 having flexibility is provided at the portion where the central block 18 and the peripheral block 19 are in contact, and the portion where the peripheral blocks 19 are in contact with each other is provided. The connecting portion 5 in which the second induction joint 8a (see FIG. 4) is cut is made to have a crack, and the followability to the undulation of the slope 11 is given.

  The central block 18 of the fourth embodiment is preferably provided with a plurality of through holes 16 so that plants and cover soil can be accumulated and fixed, and a plurality of convex portions 17 are provided on the upper surface. The peripheral block 19 is provided with a plurality of through holes 16 in substantially the same manner as the central block 18, and a plurality of convex portions 17 are provided on the upper surface.

  Further, the central block 18 and the eight peripheral blocks 19 surrounding the central block 18 are connected to each other by the separation preventing muscle 6 so as not to be separated. That is, the four flexible portions 20 where the central block 18 and the surrounding block 19 are in contact are connected only by the separation preventing muscle 6, and the surrounding blocks 19 are connected by the connecting portion 5 and the separation preventing muscle 6 so as not to be separated. ing. Further, a connecting wheel 15 for connecting adjacent tension blocks 12 is attached to the peripheral block 19 so that the adjacent tension blocks 12 can be connected to each other with a connecting metal fitting.

It is a top view of the block for river revetments in this invention. It is a front view of the block for river revetments in this invention. It is a side view of the block for river revetments in this invention. It is a principal part enlarged view of the connection part of the block for river revetment in this invention. It is a curve construction perspective view of the block for river revetment in the present invention. It is a curve construction state figure of the block for river revetment in the present invention. It is explanatory drawing of the crack state in a guidance joint part. It is a construction example front view of a building block. It is construction example explanatory drawing of a building block. It is a top view of the 1st example of the tension block in the present invention. It is a front view of the 1st example of the tension block in the present invention. It is a right view of the 1st Example of the tension block in this invention. It is AA sectional drawing of the 1st Example of the tension block in this invention. It is a perspective view of the 1st example of the tension block in the present invention. It is a perspective view of the 2nd example of the tension block in the present invention. It is a top view of the 2nd example of the tension block in the present invention. It is a front view of the 2nd example of the tension block in the present invention. It is BB sectional drawing of the 2nd Example of the tension block in this invention. It is a top view of the 3rd example of the tension block in the present invention. It is a front view of the third embodiment of the tension block in the present invention. It is CC sectional drawing of the 3rd Example of the tension block in this invention. It is a top view of the 4th example of the tension block in the present invention. It is a front view of the 4th example of the tension block in the present invention. It is DD sectional drawing of 4th Example of the tension block in this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Block for revetment 2 Block part 3 Cut part 4 Side surface 5 Connection part 6 Separation prevention muscle 7 Suspension metal fitting 8 Guide joint 8a Second guide joint 9 Convex part 10 Engaging concave part 11 Slope L depth width 12 Tension block 13 Block body 14 Gap 15 Connecting wheel 16 Hole 17 Convex part 18 Central block 19 Peripheral block 20 Flexible part

Claims (4)

  Stack blocks used for slopes, a plurality of block portions in which cut portions (3) are provided in a V shape in plan view from both front and rear directions, and side surfaces (4) are connected to each other by connecting portions (5) having a predetermined depth. (2) is continuously formed in parallel, and a separation prevention bar (6) for preventing bending in the vertical direction when the crane is lifted by a crane in the longitudinal direction at a substantially central position in the depth direction of the connecting portion (5). A revetment block characterized by being embedded horizontally in two upper and lower stages. The connecting portion (5), revetment according to 請 Motomeko 1 to form a V-shaped induction joint (8) back and forth, allowed the curve construction tailored to the linear rivers of the connecting portion (5) For block. It is a connecting type tension block used for slopes,
One large substantially rectangular plate-like body is divided into a plurality of block bodies (13) having substantially the same size, and the adjacent block bodies (13) are connected by a connecting portion (5). 5) the adjacent block bodies except (13) forming a gap (14) between, on the substantially central position in the height direction of the front Symbol connecting portion (5), the block body (13) with each other inseparably Further, separation prevention bars (6) are arranged vertically and horizontally, and a second guide joint (8a) is formed in the connecting part (5) by cutting the front and back surfaces of the connecting part (5) into a V shape. Upholstery block characterized by that. The tension block according to claim 3 , wherein the tension block (12) is provided with a connecting ring (15) in a block portion (13) corresponding to an adjacent position of the tension block (12).

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