JP2014156756A - Header stop block - Google Patents

Abstract

PROBLEM TO BE SOLVED: To structurally strongly construct a header stop structure provided for every specific section, with excellent workability and in a shortened construction period, for insulating and preventing displacement and damage of a slope face in a riber bulkhead or a road from continuously spreading to the other part, in a header stop block and a header stop method using the same.SOLUTION: The header stop method is provided for stacking in a predetermined height by layering a header stop block A formed of a side plate of rectangular fiber-reinforced concrete or precast concrete opposed to a precast concrete block, and stacks the header stop block A of a second stage, and at the same time, can stack a retaining wall such as, for example, a concrete-masonry-block in the lateral extension direction of the side plate of the rectangular fiber-reinforced concrete or the precast concrete of the header stop block A.

Description

  The present invention relates to a small-mouth stopper block and a small-mouth stopper construction method using the same, in order to insulate and prevent continuous displacement and breakage of slopes on river revetments or roads to other parts. The small-stop construction structure provided every time is constructed with good workability and robust structure.

  Conventionally, when the slope of a riverbank or road lining is displaced or damaged, it is necessary to insulate and prevent it from continuously spreading to other areas. It is known to construct a fore-stop construction structure (also referred to as a horizontal belt construction structure) along a slope in every fixed section (see, for example, Patent Document 1).

  For each riverbank, or for every fixed section in the direction of extension of the law lining on the road, to construct the foreclose structure with concrete, for example, through a excavated part that has been dug along a slope. The base is made, and a plywood is assembled on the upper surface of the foundation using a separator, and a mold is assembled in parallel, facing each other in parallel. The concrete is placed in this mold, and the mold is peeled off after curing and solidifying the concrete. Then, the surface of the peeled concrete molded body was troweled several times to finish the surface, thereby constructing a mouth-stopping structure.

  However, in order to construct a fore-closed structure as described in Patent Document 1, for example, a foundation is created in a drilling portion dug along a slope, and a plywood is formed on the upper surface of the foundation. Using a separator, they are placed opposite and parallel to each other to assemble a formwork, and cast concrete is placed in this formwork, and then peeled off after curing and solidification. Then, the surface of the peeled concrete molding is troweled several times to finish the surface, and a small-mouth stop structure is built. After curing and solidification, many steps such as peeling the mold from the concrete molded body and finishing the surface of the concrete molded body with a trowel were required.

  In addition, when placing ready-mixed concrete in the formwork, the formwork itself is assembled with a certain slope along the slope, so when placing ready-mixed concrete in the formwork. Because of the fluidity of ready-mixed concrete, ready-mixed concrete flows down the formwork along the slope of the formwork, and the ready-mixed concrete overflows from the formwork due to its own weight. It was not possible to cast and solidify concrete on the ground. For this reason, by repeatedly placing ready-mixed concrete and curing / hardening several times, a fresh-cast concrete is cast on the concrete molded body and added to form a small-stop structure. I had to do it. Moreover, it took a lot of time for the concrete to cure and solidify. Therefore, since a large amount of labor and a lot of time are required for the construction of the small-stop construction, the construction period is long, the workability is poor, and the construction cost and the production cost are expensive.

  Furthermore, since it is necessary to assemble the mold frame from the lower level to the predetermined upper level for the small-mouth stop structure, it is necessary to provide support for supporting the form frame, and compared to the front width of the small-mouth structure Since the width of the side portion is long and the structure is unstable, it is a dangerous process in terms of safety.

  Assembling the formwork by installing the plywood facing the left and right in parallel using a separator, the problem of peeling the formwork and requiring many steps, the problem of the ready-mixed concrete, and As a measure for improving the problem in terms of safety, there is a method in which a block body formed with precast concrete is continuously arranged along a slope with a drilling portion dug along a slope ( Patent Document 2).

  However, this method can cope with a slope with a slope of 10% or more, but cannot cope with a steep slope with a slope of 10% or less, for example, 5 minutes. That is, for example, in the case of a slope with a steep slope of 5 minutes, the vertical cross section of the forging structure constructed along the slope in the excavation section excavated along the slope is that of the excavation section. When the trapezoidal structure is required to be trapezoidal from the lower level to the upper level, the side of the block body formed in the previous period is fixed in a rectangular shape and cannot be adjusted. This is a problem, and the block body formed with the precast concrete has been used only when the slope has a slope of 10% or more.

  In addition, the above-mentioned plywood is installed in parallel on the left and right sides using a separator to assemble the formwork, remove the formwork, require many processes, and improve the slope gradient problem. As a measure, there is a method of constructing a small mouth-stopping structure using fiber reinforced concrete as a form plate (see Patent Document 3).

  However, in this method, construction can be performed regardless of the slope of the slope, and the mold is not required to be peeled off. Although it is possible to construct a knowledge block on the slope, it is possible to assemble a fiber reinforced concrete formwork from the lower level to the predetermined upper level and place the ready-mixed concrete in the formwork. The construction period is limited to a certain extent, and support for supporting the formwork is necessary, and the width of the side part is longer than the width of the front face of the small-mouth stopper structure, which is unstable. Since it is a structure, it has not been improved that it is a dangerous process in terms of safety.

JP 2008-231705 A

JP 2012-12804 A

JP 2012-1884 A

  The problem to be solved is that the advantage of the block body formed with the precast concrete cannot be utilized in a slope with a steep slope of, for example, 5 minutes, in addition to the fact that the precast concrete is formed. In the block main body, all the connections from the lower level to the upper level of the small-stop structure are performed, and ready-mixed concrete is sequentially applied from the lower level to the upper level in the ground edge concrete part where the installation length is adjusted at the forefront of the block main body. From the placement, until the placement is completed, the knowledge block cannot be constructed on the slope on the side surface of the block body.

  The present invention has been made in view of the above problems, and the invention according to claim 1 is formed of precast concrete on the back side and has a short side on the bottom side for each fixed section in the extending direction of the river bank or road lining part. A side wall trapezoidal block 1 and a side wall trapezoidal block 2 formed of precast concrete on the front side and having an upper surface as a short side are inserted into holes on the front side of the precast concrete block 1. The anchor and the anchor inserted in the hole on the back side of the precast concrete block 2 are bound by a reinforcing bar, and the side plates of rectangular fiber reinforced concrete or precast concrete are disposed opposite to each other so as to be integrally connected to the front and rear. It is characterized by that.

  The invention according to claim 2 is characterized in that, in claim 1, the fore-edge block is such that the precast concrete block 1 and the precast concrete block 2 are connected via an angle.

  The invention described in claim 3 is characterized in that, in claim 1, the small-mouth stopper block connects the opposing side plates of the rectangular fiber reinforced concrete or precast concrete with a dedicated separator.

  The invention according to claim 4 is characterized in that, in claim 1, the fore-edge block is connected by fitting guide pins inserted between the upper and lower blocks which are stacked. To do.

According to a fifth aspect of the present invention, fresh concrete is filled in a space between the precast concrete block 1, the precast concrete block 2, and the opposing rectangular fiber reinforced concrete or precast concrete side plates. ,
After the ready-mixed concrete is solidified, the angle is removed,
After removing the bolt that fixed the special separator and caulking the hole, it becomes a small block.
The precast concrete block 1 and the precast concrete block 2 are layered on a small-sized block where the hole is caulked, and a guide pin inserted between the upper and lower blocks is fitted and connected,
The anchor inserted in the hole on the front side of the precast concrete block 1 stacked on the upper part and the anchor inserted in the hole on the back side of the precast concrete block 2 are bound with a reinforcing bar,
The side plates of rectangular fiber reinforced concrete or precast concrete are placed facing each other,
Connecting the opposing side plates of the rectangular fiber reinforced concrete or precast concrete with a dedicated separator,
Filling the empty space between the precast concrete block 1, the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or precast concrete side plates,
After the ready-mixed concrete is solidified, the angle is removed,
After removing the bolt that fixed the special separator and caulking the hole, it becomes a small block.
Similarly, the mouthpiece is constructed by using the mouthpiece block to the predetermined height in the same manner.

  According to the invention described in claim 1 of the present invention, the side wall surface base is formed of precast concrete on the back side and has a short bottom surface at every fixed section in the extending direction of the river revetment or road lining. A block 1 having a shape and a trapezoidal block 2 formed of precast concrete on the front side and having a short upper surface, and an anchor inserted into a hole on the front side of the precast concrete block 1 and the precast concrete The anchor inserted into the hole on the back side of the block 2 is bound with a reinforcing bar, and the side plates of rectangular fiber reinforced concrete or precast concrete are arranged opposite to each other so In order to construct a mouth-stopping structure, first, slope slopes are created for each section of the river revetment and in the extension direction of the road lining. The drilling unit to enable laying small hush block along to drilling floor. Next, the precast concrete block 1 is disposed on the back side of the excavated portion, the precast concrete block 2 is disposed on the front side, and the anchor inserted in the hole on the front side of the precast concrete block 1 and the precast concrete block The anchors inserted into the holes on the back side of 2 are bound by reinforcing bars, and side plates of rectangular fiber reinforced concrete or precast concrete are disposed opposite to each other. And while connecting the said precast concrete block 1 and the said precast concrete block 2 via an angle, the side plate of the said rectangular fiber reinforced concrete or precast concrete which opposes is connected by a special separator. Then, after filling the empty space between the precast concrete block 1 and the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or the side plate of the precast concrete, after the ready concrete has solidified, After removing the angle and removing the bolt that has fixed the special separator, the hole is caulked to form a small mouth block. Then, the precast concrete block 1 and the precast concrete block 2 are overlaid on a small-sized block where the hole is caulked, and a guide pin inserted between the upper and lower blocks is fitted and connected. The anchor inserted in the hole on the front side of the precast concrete block 1 stacked on the upper part and the anchor inserted in the hole on the back side of the precast concrete block 2 are bound with a reinforcing bar, The side plates of the fiber-reinforced concrete or the precast concrete are arranged opposite to each other, the side plates of the rectangular fiber-reinforced concrete or the precast concrete facing each other are connected by a dedicated separator, and the precast concrete block 1 and the precast concrete block 2 are connected. Fill the empty space between the opposing rectangular fiber-reinforced concrete or precast concrete side plates with solid concrete, and after the ready-mixed concrete has solidified, remove the angle and use the bolts that have fixed the special separator. After removing the hole, it is made into a small mouth block by caulking the hole, and in the same manner, the small mouth block is constructed using the small mouth block from the lower level to the predetermined height in the upper level. Thus, for example, if the slope is 5 minutes, the slope of the side wall of the precast concrete block 2 on the front side is set to 5 minutes to cope with the slope of 5 minutes and the mouthpiece structure is stable. The side wall slope of the precast concrete block 1 on the back side is set to 4 minutes so that the length of the side plate of the rectangular fiber reinforced concrete or precast concrete is adjusted according to a predetermined height. By constructing the small mouth block from the lower level to the predetermined height, the vertical cross section of the small mouth structure becomes a trapezoid whose upper surface is shorter than the bottom, and the structure is stable and robust in response to the gradient. The structure can be installed.

  When the lower concrete block is filled and solidified, the angle is removed, the bolts are removed, and the caulking of the hole is completed, for example, a cognitive block or the like is provided on the slope of the side of the small block. You can build a wall. Therefore, as before, plywood is installed in parallel facing left and right using a separator to assemble the formwork, until the demolding is finished after curing and solidifying by placing raw concrete in this formwork, The point that the retaining wall such as the cognitive block cannot be constructed on the slope of the side surface of the block main body is improved, and the retaining wall such as the cognitive block is constructed in parallel with the construction of the lower-level stop block. The construction period can be shortened and the workability can be improved.

  According to the second aspect of the present invention, in the first aspect, since the precast concrete block 1 and the precast concrete block 2 are connected to each other through an angle, the small stop block has a small structure. In constructing the body, the precast concrete block 1 is prevented from falling to the back side due to a load, and the precast concrete block 1 and the precast concrete block 2 are opposed to the opposing rectangular fiber reinforced concrete or precast. Since it is possible to prevent squeezing of the ready-mixed concrete filled in the space between the side plates of the concrete, the construction of the small-sized stopper structure is safe and robust, and the workability is also improved. .

  According to the third aspect of the present invention, in the first or second aspect, the small-sized block is connected to the opposing side plates of the rectangular fiber-reinforced concrete or precast concrete with a dedicated separator. In addition, it is possible to prevent squeezing of the ready-mixed concrete filled in a space between the precast concrete block 1 and the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or the side plate of the precast concrete, Since the rectangular fiber-reinforced concrete or precast concrete side plates can be connected and maintained in an integrated manner even after the angle is removed, the construction period can be shortened in the construction of a small-mouth stop structure, and the structure The body structure is also robust, and the workability is also improved.

  According to a fourth aspect of the present invention, in any one of the first to third aspects, the fore-edge block is fitted with a guide pin that is layered and inserted between the upper and lower blocks. Therefore, the positioning of the upper and lower blocks is easy and reliable, and the upper and lower blocks are stabilized without shifting from front to back and from side to side.

  According to the invention described in claim 5 of the present invention, for each fixed section in the extending direction of the river revetment or road lining part, the side wall surface base that is formed of precast concrete on the back side and has a short bottom surface. A block 1 having a shape and a trapezoidal block 2 formed of precast concrete on the front side and having a short upper surface, and an anchor inserted into a hole on the front side of the precast concrete block 1 and the precast concrete The anchor inserted into the hole on the back side of the block 2 is bound with a reinforcing bar, and the side plates of rectangular fiber reinforced concrete or precast concrete are arranged opposite to each other so In order to construct a mouth-stopping structure, first, slope slopes are created for each section of the river revetment and in the extension direction of the road lining. The drilling unit to enable laying small hush block along to drilling floor. Next, the precast concrete block 1 is disposed on the back side of the excavated portion, the precast concrete block 2 is disposed on the front side, and the anchor inserted in the hole on the front side of the precast concrete block 1 and the precast concrete block The anchors inserted into the holes on the back side of 2 are bound by reinforcing bars, and side plates of rectangular fiber reinforced concrete or precast concrete are disposed opposite to each other. And while connecting the said precast concrete block 1 and the said precast concrete block 2 via an angle, the side plate of the said rectangular fiber reinforced concrete or precast concrete which opposes is connected by a special separator. Then, after filling the empty space between the precast concrete block 1 and the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or the side plate of the precast concrete, after the ready concrete has solidified, After removing the angle and removing the bolt that has fixed the special separator, the hole is caulked to form a small mouth block. Then, the precast concrete block 1 and the precast concrete block 2 are overlaid on a small-sized block where the hole is caulked, and a guide pin inserted between the upper and lower blocks is fitted and connected. The anchor inserted in the hole on the front side of the precast concrete block 1 stacked on the upper part and the anchor inserted in the hole on the back side of the precast concrete block 2 are bound with a reinforcing bar, The side plates of the fiber-reinforced concrete or the precast concrete are arranged opposite to each other, the side plates of the rectangular fiber-reinforced concrete or the precast concrete facing each other are connected by a dedicated separator, and the precast concrete block 1 and the precast concrete block 2 are connected. Fill the empty space between the opposing rectangular fiber-reinforced concrete or precast concrete side plates with solid concrete, and after the ready-mixed concrete has solidified, remove the angle and use the bolts that have fixed the special separator. After removing the hole, it is made into a small mouth block by caulking the hole, and in the same manner, the small mouth block is constructed using the small mouth block from the lower level to the predetermined height in the upper level. Thus, for example, if the slope is 5 minutes, the slope of the side wall of the precast concrete block 2 on the front side is set to 5 minutes to cope with the slope of 5 minutes and the mouthpiece structure is stable. As described above, after the side wall surface gradient of the precast concrete block 1 on the back side is set to a gradient of 4 minutes, the rectangular fiber reinforced concrete that becomes a formwork plate at a construction site according to a predetermined height or By adjusting the length of the side plate of the precast concrete to construct a small-mouth block from the lower level to a predetermined height, the vertical cross-section of the small-mouth structure is a trapezoid whose upper surface is shorter than the bottom surface, corresponding to the gradient As a result, it is possible to install a stable small-sized structure with a stable structure.

  When the lower concrete block is filled and solidified, the angle is removed, the bolts are removed, and the caulking of the hole is completed, for example, a cognitive block or the like is provided on the slope of the side of the small block. You can build a wall. Therefore, since the ready-mixed concrete is not cast or stripped after curing, the construction period is shortened and the workability is improved. In addition, as before, plywood is installed in parallel on the left and right sides using a separator to assemble the formwork, until the demolding is finished after curing and solidifying by placing ready-mixed concrete in this formwork, The point that the cognitive block cannot be constructed on the slope on the side face of the small mouth block body has been improved, and a retaining wall such as a cognitive block is constructed in parallel with the construction of the lower mouth block. Therefore, the construction period is shortened and the workability is improved.

FIG. 1 is a perspective view of a small-mouth stopper block. FIG. 2 is a perspective view of a state where a side plate of fiber reinforced concrete or precast concrete of the small-mouth stopper block is seen through. FIG. 3 is a perspective view of a state in which a mouth-stop structure is constructed using the mouth-stop block. FIG. 4 is a side view showing a state in which a mouth-stop structure is constructed using a mouth-stop block. FIG. 5 is a side view of a state where a small-mouth stopper structure body is constructed in a conventional field without using a small-mouth stopper block. FIG. 6 is a perspective view in the middle of constructing the cognitive block on the left side in a state where the fore-mouth stop structure is constructed using the fore-edge block. FIG. 7 is a perspective view in the middle of constructing a cognitive block on both sides in a state of constructing the mouthpiece structure using the mouthpiece block. FIG. 8 is a perspective view in which a small mouth stopper structure is constructed using a small mouth stopper block and a cognitive block is constructed on both sides. FIG. 9 is a perspective view of the precast concrete block 1 on the back side. FIG. 10 is a side view of the precast concrete block 1 on the back side. FIG. 11 is a plan view of the precast concrete block 1 on the back side. FIG. 12 is a perspective view of the precast concrete block 2 on the front side. FIG. 13 is a side view of the precast concrete block 2 on the front side. FIG. 14 is a plan view of the precast concrete block 2 on the front side.

  The details of the present invention will be described below according to the best mode for carrying out the present invention with reference to the drawings.

  With respect to the embodiment of the mouthpiece block according to the present invention, a case where a mouthpiece structure is constructed using the same will be described together with a mouthpiece construction method.

  1 is a block formed by precast concrete arranged on the back side to construct the small-mouth stopper block A, and 2 is formed by precast concrete arranged on the front side to construct the small-mouth block A After binding the anchor 3 inserted in the hole on the front side of the precast concrete block 1 and the anchor 4 inserted in the hole on the back side of the precast concrete block 2 with a reinforcing bar 5, The rectangular fiber reinforced concrete or precast concrete side plates 6 are arranged opposite to each other, and the precast concrete block 1 and the precast concrete block 2 are connected via an angle 7 so as to face each other. Concrete or precast concrete The side plate 6 of the sheet is connected by a dedicated separator 8, the dedicated separator 8 is fixed by a bolt 9, and the rectangular fiber reinforced concrete or precast concrete facing the precast concrete block 1 and the precast concrete block 2 is made of By filling the empty space between the side plates 6 with ready-mixed concrete, the small block A is constructed.

  After the ready-mixed concrete is hardened to such an extent that no side pressure is applied to the side plate after the empty space is filled with the ready-made concrete, the angle 7 is removed, and the hole 9 after removing the bolt 9 fixing the dedicated separator 8 is caulked. To do.

  In the illustrated embodiment, the side surface portion in the vertical direction Y toward the upper stage of the small-mouth stopper structure B in FIG. 4 is configured to have a trapezoidal shape 13 in FIG. 5 so as to have a stable structure. 11, the width W of the precast concrete block 1 is 300 mm, the height H of FIG. 10 is 500 mm, the gradient θ1 is 4 minutes, and the width W of the precast concrete block 2 of FIG. 14 is 300 mm. In FIG. 13, the height H is 500 mm, and the gradient θ2 is 5 minutes. The width W1 of the side surface of the small-mouth stopper block A in FIG. 4 is 1400 mm, and the width W2 of the side plate 6 of the rectangular fiber reinforced concrete or precast concrete is 740 mm. Increasing or changing the gradient θ1 of the precast concrete block 1 and the gradient θ2 of the precast concrete block 2 according to a predetermined slope gradient is free.

  After the small block A is installed at the bottom 14 of the excavation location in FIG. 4 as the first level from the lower level, the small block A is counted as the second level from the lower level, The guide pins inserted between the blocks are fitted and connected, but the side plate of the rectangular fiber reinforced concrete or precast concrete in the second-stage small-mouth stopper block The width 6 is adjusted to the upper level, and the width W3 is adjusted to 690 mm.

  In this embodiment shown in FIG. 4, the fore-edge block A is stacked on the bottom 15 of the excavation location from the lower level to the 11th level. The width W4 of the rectangular fiber reinforced concrete or precast concrete side plate 6 in the block is 640 mm, and the rectangular fiber reinforced concrete or precast concrete side plate 6 in the fourth stage of the small-sized block. The width W5 is 590 mm, and the width W6 of the side plate 6 of the rectangular fiber-reinforced concrete or precast concrete is 540 mm in the fifth-stage small-sized block, and the sixth-stage small-sized block is the above-mentioned small-sized block. The width W7 of the side plate 6 of rectangular fiber reinforced concrete or precast concrete is 490 mm, The width W8 of the rectangular fiber-reinforced concrete or precast concrete side plate 6 in the stopper block is 440 mm, and the rectangular fiber-reinforced concrete or precast concrete side plate 6 in the eighth stop block. The width W9 of the rectangular fiber-reinforced concrete or precast concrete side plate 6 is 340 mm in the ninth stage of the small-sized block, and the width W10 of the ninth-stage small-sized block is 340 mm. The width W11 of the side plate 6 of the rectangular fiber reinforced concrete or precast concrete is 290 mm, and the width W12 of the side plate 6 of the rectangular fiber reinforced concrete or precast concrete in the eleventh stage of the small-sized block is as follows. 240mm, the eleventh stage Width W13 of the side surface portion of the hush block A becomes 850 mm.

  The embodiment of the mouthpiece block according to the present invention has the above-described configuration, and the case where the mouthpiece structure B is constructed using the mouthpiece block will be described below in the order of steps.

  First, as a first step, the excavation section 14 is floor-digged so that a small block can be laid along the slope slope θ at every fixed section in the extension direction X of the river bank or road lining section 12. To do. In this embodiment, the slope slope θ1 in FIG. 4 is 4 minutes, but the increase / decrease change is free.

  Next, as a second step, the precast concrete block 1 is installed on the back surface in order to install the small-mouth stopper block from the first stage counted from the lower stage to the bottom 15 of the excavating part 14 of FIG. The said precast concrete block 2 is installed in the front part. Then, the anchor 3 inserted in the hole on the front side of the precast concrete block 1 and the anchor 4 inserted in the hole on the back side of the precast concrete block 2 are bound with a reinforcing bar 5, A side plate 6 made of fiber-reinforced concrete or precast concrete is disposed oppositely. Since the side plate 6 of the rectangular fiber reinforced concrete or precast concrete is formed by cutting at the construction site, the rectangular fiber reinforced concrete or precast of FIG. The concrete side plate 6 is cut to have a width W2 of 740 mm. The precast concrete block 1 and the precast concrete block 2 are connected via an angle 7, the opposing rectangular fiber-reinforced concrete or precast concrete side plates 6 are connected by a dedicated separator 8, and the dedicated separator 8 is bolted 9 is fixed, and the space between the precast concrete block 1 and the side plate 6 of the rectangular fiber reinforced concrete or precast concrete facing the precast concrete block 2 is filled with ready-mixed concrete. After the ready-mixed concrete is hardened to such an extent that no side pressure is applied to the side plate after the empty space is filled with the ready-made concrete, the angle 7 is removed, and the hole 9 after removing the bolt 9 fixing the dedicated separator 8 is caulked. To do.

  As a third step, after the small block A is counted as the first level on the bottom 15 of the excavation location in FIG. 4 from the lower level, the small block A is counted from the lower level to the second level. The guide pins inserted between the upper and lower blocks are fitted and connected to each other, but the rectangular fiber-reinforced concrete in the second-stage small-mouth block is connected. Or since the width | variety of the side plate 6 of precast concrete becomes an upper stage, it cuts and is formed so that it may be adjusted and the width W3 may become 690 mm in a construction site. Upon entering the third step, for example, a cognitive block in the left extension direction X as viewed from the front of the small mouth stop structure B shown in FIG. It is also possible to pile up the retaining walls, and it is also possible to pile up retaining walls, such as a cognitive block, in the left-right extension direction X as seen from the front of the small mouth stop structure B in FIG.

  As the fourth step, the third step is overlaid on the second-stage fore-edge block A in the third step, and also overlaid on the third-step fore-edge block A. As described above, the fourth stage is overlaid on the small-sized block A of the fourth stage so that the fifth stage is superimposed on the small-sized block A of the fifth stage. The seventh stage is layered on the forefoot block A of the sixth stage, and the eighth stage is layered on the forefoot block A of the seventh stage, The ninth stage is overlaid on the eighth stop block A, and the tenth stage is overlaid on the ninth stop block A. The eleventh stage is connected so as to be overlaid on the small-mouth stopper block A of the eyes. Then, when entering the fourth step, the left extension direction as viewed from the front of the small mouth stop structure B in FIG. 6 at the same time as the construction of the small mouth stop block A which is the third to eleventh steps from the lower level. It is also possible to pile up retaining walls such as cognitive blocks on X, and pile up retaining walls such as cognitive blocks in the left and right extension direction X when viewed from the front of the small mouth stop structure B in FIG. It is also possible to go. In this way, the small mouth stopper structure B is constructed by connecting the small mouth stopper block A which is the eleventh stage.

  Therefore, in the present embodiment, when the slope is steep with a slope of 5 minutes, for example, θ1 of the precast concrete block 1 is varied to 4 minutes, and θ2 of the precast concrete block 2 is varied to 5 minutes. In this way, the foundation part is made through the excavated part that is floor-drilled along the conventional slope, and a plywood is assembled on the upper surface of the foundation part using a separator to assemble the formwork in parallel, Placing ready-mixed concrete in the mold and stripping it after curing and solidifying the concrete, and then finishing the surface of the stripped concrete molding several times to finish the surface and construct a small-stop construction structure As with the conventional construction method, it can be applied to any slope, and a stable structure with a stable structure can be installed according to the slope. The process of removing the formwork from the concrete molded body is eliminated, and after the mold release, it is not necessary to finish the surface of the concrete molded body many times. Because it saves labor and does not require a great deal of labor and time for construction, the construction period is shortened, the workability when constructing the small-mouth stopper structure B is good, and the construction and production costs are low. Become.

  Moreover, after the first stop block A is installed from the lower level to the first level, the small size stop block A is layered from the lower level to the second level, and at the same time as viewed from the front of the small size stop structure B. It is possible to pile up retaining walls such as cognitive blocks in the left extension direction X, and pile up retaining walls such as cognitive blocks in the left and right extension direction X when viewed from the front of the small mouth stop structure B. Since it is also possible, the construction period is shortened and the workability is improved.

  The present invention is suitable for applications and functions in which the workability of the small-mouth stop structure can be satisfactorily constructed, the construction period is shortened, and the structure is robust.

1 Precast concrete block (back side)
2 Precast concrete block (front side)
3 Anchor (back side)
4 Anchor (front side)
5 Reinforcement 6 Rectangular fiber reinforced concrete or precast concrete side plate 7 Angle 8 Dedicated separator 9 Bolt 10 Ready-mixed concrete 11 Guide pin 12 Method lining part 13 Trapezoid 14 Excavation place 15 Bottom part A Body X Extension direction Y Vertical direction W Width of precast concrete block (rear side) and precast concrete block (front side) W1 Connected precast concrete block (rear side), precast concrete block (front side), rectangular fiber Side plate length of reinforced concrete or precast concrete W2 Width of side plate of rectangular fiber reinforced concrete or precast concrete θ1 Angle of precast concrete block (back side) θ2 Precast core Angle of the cleat block (front side)

Claims (5)

  For each riverbank or for a certain section in the extending direction of the law lining part of the road, it is made of precast concrete on the back side and is made of precast concrete on the front side and a side wall trapezoidal block 1 with a short bottom side. A side wall trapezoidal block 2 having an upper surface as a short side; an anchor inserted into a hole on the front side of the precast concrete block 1; and an anchor inserted into a hole on the back side of the precast concrete block 2; A small-sized stop block characterized in that it is integrally bonded to the front and rear by binding rectangular steel reinforcing bars together with side plates of rectangular fiber reinforced concrete or precast concrete.   The small-mouth stop block according to claim 1, wherein the pre-cast concrete block 1 and the pre-cast concrete block 2 are connected via an angle.   The said small-mouth-stop block connects the side plate of the said rectangular fiber reinforced concrete or precast concrete which opposes with a dedicated separator, The small-mouth stop block of Claim 1 characterized by the above-mentioned.   2. The mouthpiece block according to claim 1, wherein the mouthpiece block is connected by being fitted with a guide pin that is stacked and inserted between the upper and lower blocks. Filling the empty space between the precast concrete block 1, the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or precast concrete side plates,
After the ready-mixed concrete is solidified, the angle is removed,
After removing the bolt that fixed the special separator and caulking the hole, it becomes a small block.
The precast concrete block 1 and the precast concrete block 2 are layered on a small-sized block where the hole is caulked, and a guide pin inserted between the upper and lower blocks is fitted and connected,
The anchor inserted in the hole on the front side of the precast concrete block 1 stacked on the upper part and the anchor inserted in the hole on the back side of the precast concrete block 2 are bound with a reinforcing bar,
The side plates of rectangular fiber reinforced concrete or precast concrete are placed facing each other,
Connecting the opposing side plates of the rectangular fiber reinforced concrete or precast concrete with a dedicated separator,
Filling the empty space between the precast concrete block 1, the precast concrete block 2 and the opposing rectangular fiber reinforced concrete or precast concrete side plates,
After the ready-mixed concrete is solidified, the angle is removed,
After removing the bolt that fixed the special separator and caulking the hole, it becomes a small block.
The mouthpiece construction method is characterized in that a mouthpiece is constructed using the mouthpiece block to the predetermined height in the same manner.

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