JP2004084174A - Civil engineering structure unit, its manufacturing method, civil engineering structure and tie plate and fixing device for civil engineering structure unit - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To firmly attach a natural stone to a resin net when the natural stone is attached to the resin net using a washer and a fixing anchor. <P>SOLUTION: The washer 10 is provided with a sheet body 12 and a swelling part 13 swelling from a sheet surface of the sheet body 12 to the other surface of the resin net 4 and partitioning a partitioning area on the sheet surface of the sheet body 12. The partition area (sheet body 12) and the swelling part 13 are bent by a pushing force of a fixing anchor 11 applied to the partition region, and the force based on the bending firmly pushes and fixes the washer 10 to the natural stone 8 via the resin net 4 to apply to the resin net 4 and the natural stone 8 via the swelling part 13. On the other hand, the tip part of the swelling part 13 is rounded to suppress the pushing force from giving damage to the resin net 4. <P>COPYRIGHT: (C)2004,JPO

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a civil engineering unit using civil engineering materials such as natural stone and artificial stone, a method for manufacturing a civil engineering unit, a civil engineering structure using the civil engineering unit, a seat plate of the civil engineering unit, and a civil engineering structure. It relates to the stopper of the unit.
[0002]
[Prior art]
Recently, civil engineering construction units tend to be used in the construction of civil engineering structures such as revetments, and as such civil engineering construction units, a rectangular flexible sheet body (for example, a net-like structure) constituting a lattice structure is used. A body) is provided, and a plurality of stones (civil engineering materials) are attached to one surface of the flexible sheet body. By laying a large number of such civil engineering units on the construction surface via the suck-out prevention material, the revetment function can be ensured and the surrounding natural scenery can be absorbed.
[0003]
By the way, as a flexible sheet body in a civil engineering structure unit, the sheet surface is generally flush (a normal sheet or resin net (a lattice-like structure with no significant difference between lattice components was formed). Etc.) and those in which pores in a lattice structure are finely formed (such as a net-like body)). In a civil engineering structure unit using such a flexible sheet body, a plurality of stones and the like are disposed on one surface of the flexible sheet body, while a seat plate is provided on the other surface of the flexible sheet body. There is a case where the stone or the like is attached to the flexible sheet body by being disposed and fixed to the stone or the like in a state where the stopper is passed through the seat plate and the flexible sheet body.
[0004]
[Problems to be solved by the invention]
However, in the civil engineering structure unit, when the sheet surface of the flexible sheet body is substantially flush as described above, the entire flat surface of the seat plate is substantially the same as that of the flexible sheet body. If it is pressed against the flat sheet surface by a stopper, and the flexible sheet body is formed by finely forming holes in the lattice structure, it is spread throughout the entire flat surface of the seat plate. The pressing force per unit area that the seat plate presses against the flexible sheet body is not so large. For this reason, in such a case, although it is possible to restrict the stones and the like from dropping from the flexible sheet body by the seat plate, the stones and the like are attached accurately until the stones cannot rotate together with the stoppers around the stoppers. When a stone or the like rotates together with a stopper, the flexible sheet body may be damaged due to friction between the stopper and the flexible sheet body over a long period of time. is there.
[0005]
The present invention has been made in consideration of the above circumstances, and the first technical problem thereof is that civil engineering construction material is attached to a flexible sheet body using a seat plate and a stopper. An object of the present invention is to provide a civil engineering unit unit capable of firmly attaching a construction material to a flexible sheet body.
A second technical problem is to provide a method for manufacturing a civil engineering structure unit for manufacturing the civil engineering structure unit.
A third technical problem is to provide a civil engineering structure using the civil engineering structure unit.
A fourth technical problem is to provide a seat plate for a civil engineering structure unit that uses the civil engineering structure unit.
A fifth technical problem is to provide a stop for a civil engineering structure unit that uses the civil engineering structure unit.
[0006]
[Means for Solving the Problems]
In order to achieve the first technical problem, the present invention (the invention according to claim 1)
A civil construction material is provided on one side of the flexible sheet body, a seat plate disposed on the other surface side of the flexible sheet body, and the seat plate and the civil construction material comprise the flexible sheet body. In the civil engineering structure unit attached by the stopper that holds it so as to hold it,
The seat plate has a plate-like main body, and a protruding portion that projects from the plate surface of the plate-like main body to the other surface side of the flexible sheet body and divides a partition region on the plate surface of the plate-like main body, Have
The tip of the protrusion is formed with a round shape,
The said stopper is set as the structure set so that a pressing force may be given toward the said civil engineering construction material side with respect to the said division area in the said plate-shaped main body. Preferred embodiments of the first aspect are as described in the second to tenth aspects.
[0007]
In order to achieve the second technical problem, in the present invention (the invention according to claim 11),
Preparing a plurality of civil engineering construction materials, a flexible sheet body, a seat plate having a projecting portion that partitions a partition region on the plate surface of the plate-like main body, and a stopper;
First, after laying out the plurality of civil construction materials, covering the plurality of civil construction materials with a flexible sheet body,
Next, the seat plate is disposed on each of the civil construction materials via the flexible sheet body with the protruding portion facing downward,
Next, with the stopper, the seat plate is pressed and fixed to the civil engineering construction material via the flexible sheet body while causing the partition region of the seat plate to bend.
It is set as the structure made into the manufacturing method of the unit for civil engineering structures characterized by this. A preferred aspect of the eleventh aspect is as described in the twelfth aspect.
[0008]
In order to achieve the third technical problem, the present invention (the invention according to claim 13),
Many civil engineering units are laid on the construction surface,
Each of the units for civil construction includes a seat plate in which a civil construction material is disposed on one side of the flexible sheet body, a seat plate disposed on the other surface side of the flexible sheet body, the seat plate, and the civil construction material; Is attached by a stopper that holds the flexible sheet body so as to sandwich the flexible sheet body,
The seat plate of each unit for each civil engineering structure projects from the plate surface of the plate-shaped main body to the other surface side of the flexible sheet body and is partitioned on the plate surface of the plate-shaped main body. A projecting portion that divides the projecting portion, and a distal end portion of the projecting portion has a rounded shape, and the stopper is directed toward the civil engineering construction material side with respect to the partition region in the plate-like body. Set to apply pressure,
It is configured as a civil engineering structure characterized by this. A preferred aspect of the thirteenth aspect is as described in the twenty-second aspect.
[0009]
In order to achieve the fourth technical problem, the present invention (the invention according to claim 14),
A civil engineering construction unit seat plate mounted on one surface side of the flexible sheet body and mounted in cooperation with a stopper disposed on the other surface side of the flexible sheet body,
A plate-like main body, and a partition region projecting from the plate surface of the plate-like main body to the other surface side of the flexible sheet body and applied with a pressing force by the stopper on the plate surface of the plate-like main body And a protruding portion to be provided,
The tip of the protrusion is formed with a round shape,
It is the structure which made it the seat board of the unit for civil engineering structures characterized by this. Preferred embodiments of the fourteenth aspect are as described in the fifteenth to nineteenth aspects.
[0010]
In order to achieve the fifth technical problem, in the present invention (the invention according to claim 20),
A civil engineering structure in which a civil construction material having an attachment hole is attached to one side of a flexible sheet body in cooperation with a seat plate disposed on the other side of the flexible sheet body in a state having an insertion hole. For the unit,
A shaft portion that penetrates the insertion hole of the seat plate and the flexible sheet body and is held in the mounting hole of the civil construction material, and is provided at a base end portion of the shaft portion and engages with the seat plate And a head for making
A plurality of protrusions extending in the axial direction are sequentially formed on the outer peripheral surface of the shaft portion in the circumferential direction in the shaft portion, and curved so that the shaft center of the shaft portion bulges laterally. A curved portion is formed,
It is the structure used as the stop of the unit for civil engineering structures characterized by the above. A preferred aspect of the twentieth aspect is as described in the twenty-first aspect.
[0011]
【The invention's effect】
According to the invention described in claim 1, the seat plate protrudes from the plate surface of the plate-shaped main body and the plate surface of the plate-shaped main body to the other surface side of the flexible sheet body, and the plate surface of the plate-shaped main body. And the stopper is set so as to apply a pressing force toward the civil construction material side with respect to the partition region in the plate-shaped main body. The partition area in the main body is bent with the protruding portion as a fulcrum, and a strong force (spring force) is applied to the flexible sheet body and the civil engineering material via the protruding portion by the biasing force based on the bending. Will be able to. For this reason, the civil engineering construction material can be accurately and firmly attached to the flexible sheet body.
In addition, in this case, since the tip of the protrusion is formed with a round shape, even if the protrusion is pressed against the flexible sheet with a strong force, the flexible sheet is damaged. Can be suppressed.
[0012]
According to the invention described in claim 2, since the projecting portion is continuously formed in an annular shape, the flexible sheet body is based on bending the partition region defined by the annular projecting portion. It will be possible to attach the civil construction material to the proper and secure.
[0013]
According to the invention described in claim 3, the projecting portion is composed of a plurality of projecting components, and each projecting component is formed in an annular shape with a gap between adjacent projecting components. For this reason, the civil construction material can be accurately and firmly attached to the flexible sheet body based on bending the partition region defined by the annular protrusion.
[0014]
According to the invention described in claim 4, the plate-like main body is formed in a disc shape, the projecting portion is formed on the peripheral edge of the plate-like main body over the entire circumference, and the stopper is provided on the plate. Since it is set so as to apply a pressing force toward the civil engineering construction material side with respect to the central part in the radial direction of the main body, the material used for the seat plate (plate material) can be used efficiently The pressing force by the tool can be evenly distributed to the protruding portion of the peripheral portion of the plate-like main body, and the pressing force can be prevented from acting on the civil engineering construction material side in a biased state.
[0015]
According to the invention described in claim 5, since the projecting portion is constituted by the bulging portion formed by bulging with respect to the plate-like main body, the bulging portion is also bent, The pressing force of the stopper can be stored as a spring force, and the civil construction material can be more accurately and firmly attached to the flexible sheet body. In addition, in this case, as the pressing force of the stopper increases, the bulging portion is pushed open and the contact area with the flexible sheet body increases, and the bending portion is bent based on the pressing force of the bulging portion (stopper). It is possible to accurately prevent the flexible sheet body from being damaged.
[0016]
According to the invention described in claim 6, the plate-like main body is formed in a disc shape, the bulging portion is formed over the entire periphery of the peripheral portion of the plate-like main body, and the stopper is Since the pressing force is set toward the civil construction material side with respect to the central portion in the radial direction of the plate-shaped main body, the functions and effects of claims 4 and 5 can be obtained at the same time. .
[0017]
According to the seventh aspect of the present invention, not only can the shaft portion be held in the civil engineering construction material by using the curved portion by driving the stopper into the mounting hole of the civil engineering construction material, but in that case, the curved portion Can be caused to bite into the inner wall of the mounting hole, the engagement area of the shaft portion of the stopper with respect to the inner wall of the mounting hole can be increased, and the shaft portion of the stopper can be inserted into the mounting hole. It is possible to prevent rotation about the axis. For this reason, the exact and firm attachment of the civil construction material to the flexible sheet body can be ensured.
[0018]
According to the eighth aspect of the present invention, since the protrusion is provided on the upper surface of the head on the axis of the shaft, the hit is made by hitting the protrusion and driving the stopper. A force is applied to the stopper accurately, and the shaft portion of the stopper can be reliably engaged with the inner wall of the mounting hole.
[0019]
According to the invention described in claim 9, since the sheet surface of the flexible sheet body is substantially flush, even if such a sheet plane is substantially flush, By using the seat plate and the stopper, the civil construction material can be attached accurately and firmly.
[0020]
According to the invention described in claim 10, since the flexible sheet body is a resin net having a lattice-like structure, the seat plate and the stopper are also provided in this case where the sheet surface is substantially flush. By using this, it is possible to attach the civil construction material accurately and firmly.
[0021]
According to the invention described in claim 11, a plurality of civil engineering construction materials, a flexible sheet body, a seat plate having a projecting portion that partitions a partition region on a plate surface of the plate-like main body, and a stopper. First, a plurality of civil engineering materials are laid out, and then a flexible sheet is put on the civil engineering materials, and then a seat plate is projected on each civil engineering material. It is arranged through the flexible sheet body with the portion facing downward, and then the seat plate is bent with respect to the civil engineering construction material by bending the partition region of the seat plate by the stopper. Since it press-fixes via a flexible sheet | seat body, the unit for civil engineering structures based on the said Claim 1 using the bending of a seat board can be manufactured concretely.
[0022]
According to the invention described in claim 12, preparing a set tool having an opening at the top and laid with sand therein, and arranging a plurality of civil engineering construction materials on the sand in the set tool, Since the height of the sand spread is adjusted so that the upper surfaces of a plurality of civil engineering construction materials are substantially constant, the arrangement of the flexible sheet body and the mounting work of the seat plate and the stopper can be facilitated and stopped. If the tool is driven, the force can be received by sand and not transmitted to others.
[0023]
According to the invention described in claim 13, a large number of civil engineering building units are laid on the construction surface, and each civil engineering building unit has a civil engineering construction material on one side of the flexible sheet body. A seat plate disposed on the other surface side of the flexible sheet body, and a stopper that holds the seat plate and the civil construction material so as to sandwich the flexible sheet body. The seat plate of the civil engineering structure unit projects from the plate surface of the plate-shaped main body to the other surface side of the flexible sheet body, and defines a partition region on the plate surface of the plate-shaped main body. And a distal end portion of the protruding portion has a rounded shape, and the stopper is pressed toward the civil construction material side with respect to the partition region in the plate-shaped main body. Since it is set to give, using the unit for civil engineering structure according to claim 1 So that it is possible to obtain a tree constructs.
[0024]
According to the invention described in claim 14, the civil engineering construction material is disposed on the one surface side of the flexible sheet body and is disposed on the other surface side of the flexible sheet body and is attached in cooperation with the stopper. A seat plate of a unit for a structure, the plate-like main body, and protruding from the plate surface of the plate-like main body to the other surface side of the flexible sheet body, to the plate surface of the plate-like main body by the stopper And a projecting portion for partitioning a partition region to which a pressing force is applied, and a tip end portion of the projecting portion is formed to have a round shape. The civil engineering building unit according to the above can be obtained, whereby the civil engineering building material can be attached to the flexible sheet body accurately and firmly.
[0025]
According to the invention described in claim 15, since the projecting portions are continuously formed in an annular shape, the civil engineering structure unit according to claim 2 can be obtained using the seat plate. Become.
[0026]
According to the invention described in claim 16, the projecting portion includes a plurality of projecting components, and each projecting component is formed in an annular shape with a space between adjacent projecting components. Therefore, the civil engineering structure unit according to the third aspect can be obtained using the seat plate.
[0027]
According to the invention described in claim 17, since the plate-like main body is formed in a disc shape and the projecting portion is formed on the entire periphery of the peripheral portion of the plate-like main body, the seat plate Thus, the civil engineering unit according to claim 4 can be obtained.
[0028]
According to the invention described in claim 18, since the projecting portion is constituted by a bulged portion formed by bulging with respect to the plate-like main body, the seat plate is used for the above-mentioned claim 5. It is possible to obtain a civil engineering construction unit according to. In addition, the seat plate can be easily formed by press molding or the like.
[0029]
According to the invention described in claim 19, since the plate-like main body is formed in a disc shape and the bulging portion is formed on the entire periphery of the peripheral portion of the plate-like main body, the seat plate Thus, the civil engineering unit according to the sixth aspect can be obtained.
[0030]
According to the invention described in claim 20, the shaft portion that penetrates the insertion hole of the seat plate and the flexible sheet body and is held in the mounting hole of the civil engineering construction material, and the proximal end portion of the shaft portion A plurality of ridges extending in the axial direction on the outer peripheral surface of the shaft portion in the circumferential direction sequentially formed on the shaft portion; and a head portion for engaging with the seat plate. Since the curved portion is formed such that the axial center of the shaft portion bulges to the side, the civil engineering unit according to claim 7 can be obtained using the stopper. become.
[0031]
According to the invention described in claim 21, since the protrusion is provided on the upper surface of the head on the axis of the shaft, the civil engineering structure according to claim 8 using the stopper is used. You will get a unit.
[0032]
According to the invention described in claim 22, since the seat plate and the construction surface of each civil engineering structure unit are bonded via an adhesive, each civil engineering structure unit has a bonding surface with the seat plate. Not only can it be secured, it will be possible to secure a sufficient amount of adhesive in the partition area in the plate-shaped main body that will be bent with the installation of the civil engineering construction material, and each civil engineering construction unit can be securely held on the construction surface Become. Of course, in this case, the construction surface needs to be capable of adhering an adhesive.
[0033]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, embodiments of the present invention will be described with reference to the drawings.
In FIG. 1, reference numeral 1 denotes a civil engineering structure (for example, revetment) according to the embodiment. This civil engineering structure 1 basically has a construction surface 1 a (for example, revetment) via a suction prevention sheet 2 that prevents outflow of earth and sand. On the construction side, a large number of civil engineering structure units 3 are laid on the slopes, slopes, shoulders, etc., and the adjacent civil engineering structure units 3 are connected to each other.
[0034]
As shown in FIG. 2, each civil engineering structure unit 3 includes a resin net 4 (resin sheet) as a flexible sheet body. The resin net 4 is integrally formed so as to constitute a lattice-like structure (including a mesh-like or network-like aspect), and the front surface (one surface) and the back surface (other surface) have almost no step. Each is substantially flush. The outer peripheral shape of the resin net 4 is formed in a substantially square shape (for example, one side is around 2 m), and is attached to the entire peripheral edge portion so as to wrap the belt-shaped cloth material 5 (for example, sewing). . A cloth ring 6 is attached to the belt-like cloth material 5 at predetermined intervals. The cloth ring 6 is used to lift and convey the civil engineering structure unit 3 to the construction surface 1a, such as a crane and a lifting bracket. When constructing the civil engineering structure 1 which is directly or indirectly used as a hook hole and lays the civil engineering structure unit 3 on the construction surface 1a, as shown in FIG. Is used as a connection hole for passing the shackle 7 as a connection tool. In FIG. 2, the connection by the shackle 7 is omitted.
[0035]
As shown in FIGS. 1 and 2, the civil engineering structure unit 3 includes a plurality of natural stones 8 as a plurality of civil engineering materials. Natural stone 8 is not limited to cobblestone, but crushed stone is used as appropriate. The size of the natural stone 8 is about 100 to 500 mm, and the mounting hole 9 is selected by selecting a relatively flat surface. Is formed. Such natural stone 8 is provided in a state of being uniformly attached to the surface side of the resin net 4 with the attachment hole 9 directed to the resin net 4.
[0036]
For attaching each natural stone 8 to the resin net 4, as shown in FIGS. 3 and 9, a washer 10 as a seat plate and an attachment anchor 11 as a stopper are used. As the washer 10, a stainless steel one, a normal steel plate with galvanization or zinc aluminum alloy plating or the like is used, and the washer 10 is shown in FIGS. 4 and 5 by press molding or the like. Thus, the plate-shaped main body 12, the bulging part 13 as a protrusion part, and the insertion hole 14 are provided. The plate-like main body 12 occupies most of the washer 10 while forming a flat portion in a disk shape on the radially inner side of the washer 10. The bulging portion 13 is provided at the peripheral edge of the plate-like main body 12 so as to protrude from the plate surface of the plate-like main body 12. The bulging portion 13 is formed in an annular shape in the washer 10, and in the present embodiment, the plate-like main body 12 is positioned as a partitioned region inside the annular shape. Further, the tip of the bulging portion 13 is rounded. In the present embodiment, the rounded shape is a circular arc as shown in FIG. The insertion hole 14 allows the shaft portion of the mounting anchor 11 to be inserted, and the position thereof is the central portion in the radial direction of the washer 10. The washer 10 has a bulging portion 13 placed on the natural stone 8 via the resin net 4, and at that time, a fixed space is provided between the plate-like main body 12 and the resin net 4. 15 is to be formed (see FIG. 9).
[0037]
As shown in FIGS. 6 and 7, the mounting anchor 11 fixes itself to the natural stone 8 and presses and fixes the washer 10, as shown in FIGS. 6 and 7, and a proximal end portion (FIG. 7). And a head 17 provided in the middle and upper end). The shaft portion 16 has a diameter slightly smaller than that of the mounting hole 9, the mesh of the resin net 4 and the insertion hole 14, and can be inserted or inserted. A large number (a plurality) of protrusions 18 are sequentially formed in the circumferential direction so as to extend in the axial direction of the shaft portion 16 from the portion to the tip. Further, the shaft portion 16 is curved between the central portion in the axial center direction and the tip thereof so that the shaft center of the shaft portion 16 bulges to the side, and a curved portion 19 is formed. As shown in FIG. 8, the bulging amount of the curved portion 19 is set so as to protrude outward in the radial direction from the mounting hole 9 when the tip of the shaft portion 16 is inserted into the mounting hole 9. Therefore, when the shaft portion 16 is pushed into the mounting hole 9, as shown in FIG. 9, the bending portion 19 is pushed open (small curvature state), and the shaft portion 16 is on the bulging side of the bending portion 19. The distal end portion on the opposite side to the bulging side of the curved portion 19 and the proximal end portion on the same side are engaged with the inner wall of the mounting hole 9, so that the shaft portion 16 is held in the mounting hole 9. ing. Moreover, in this case, the protrusion 18 on the bulging side of the curved portion 19 bites into the inner wall of the attachment hole 9 as shown in FIG. 11, the inner wall of the mounting hole 9 bites into the mounting hole 9, whereby the engagement area of the shaft portion 16 with respect to the inner wall of the mounting hole 9 is increased and the rotation restriction of the shaft portion 16 with respect to the mounting hole 9 is strengthened. Is supposed to.
[0038]
As shown in FIG. 9, the head 17 of the mounting anchor 11 has a diameter larger than that of the insertion hole 14 of the washer 10 as well as the shaft portion 16. The head 17 pushes the shaft portion 16 into the mounting hole 9 in a state where the washer 10 is placed on the natural stone 8 with the bulging portion 13 being placed on the natural stone 8 via the resin net 4. In addition to exerting a function of inputting a pressing force in order to bend the plate-like main body 12 and the bulging portion 13, a stopper function is to be exhibited in order to restrict the washer 10 from being detached.
[0039]
Thereby, when attaching the natural stone 8 to the resin net 4, the attachment anchor 11 is held in the attachment hole 9 with its shaft portion 16 penetrating the washer 10 and the resin net 4, as shown in FIG. 9. In this state, the head 17 is to bend the plate-like main body 12 and the bulging portion 13 of the washer 10. As a result, the mounting anchor 11 applies a spring force to the natural stone 8 via the resin net 4 by the bulging portion 13 so that the washer 10 and the natural stone 8 sandwich the resin net 4. Based on this, the natural stone 8 is attached to the resin net 4 accurately and firmly (the natural stone 8 cannot be rotated). In addition, in this case, as the pressing force by the mounting anchor 11 increases, the bulging portion 13 is pushed open as shown in FIG. 9, and the contact area with the resin net 4 increases, which is locally large. The resin net 4 is prevented from being damaged by the action of force.
[0040]
12 and 13 show a modification of the mounting anchor 11. A protrusion 20 is provided on the upper surface of the head 17 of the mounting anchor 11, and the protrusion 20 is located on the axis (axis) of the shaft 16. If this mounting anchor 11 is used to strike the projection 20 to push the shaft portion 16 into the mounting hole 9, the direction of the mounting anchor 11 is appropriate (the axial center direction of the shaft portion 16 excluding the curved portion 19). A pressing force is applied, and the shaft portion 16 can be accurately held in the mounting hole 9.
[0041]
Next, an example of the manufacturing method of the civil engineering structure unit 3 used for the civil engineering structure 1 will be described with reference to FIGS.
[0042]
First, as shown in FIG. 15, a set tool 25 is prepared. The set tool 25 is surrounded by a frame body 26 in a square shape, the upper side thereof is open, and the lower surface side thereof is provided with a metal net 27 (net-like body) as a bottom wall. In the figure, reference numeral 23 denotes a hook portion used for reversal and the like, and reference numeral 24 denotes a hook portion for locking a belt 22 described later.
[0043]
Next, as shown in FIG. 16, a plurality of natural stones 8 are put into the set tool 25. In this case, since natural stones 8 have various sizes, as shown in FIG. 17, sand 28 is laid in the set tool 25 and the laid height of the natural stone 8 is set to the natural stone 8 to be arranged. Adjust according to size. Thereby, even if the natural stone 8 of various sizes is prepared in the set tool 25, the upper surface height of the natural stone 8 is made substantially constant. Of course, in this case, in each natural stone 8, a relatively flat surface portion is selected and set so that the surface portion is located on the upper surface. At this time, on the lower surface side of each natural stone 8, even if the shape is irregular, the sand 28 layer ensures the stability of each natural stone 8.
[0044]
Next, as shown in FIG. 18, the attachment holes 9 are formed in the upper surface of the natural stone 8 in the setting tool 25 and the inside of each attachment hole 9 is cleaned.
[0045]
Next, as shown in FIG. 19, the resin net 4 is disposed on the plurality of natural stones 8 in the setting tool 25, and each natural stone is used as described above by using the washer 10 and the mounting anchor 11. 8 is attached to the resin net 4. In this case, since the upper surface height of each natural stone 8 is substantially constant, the resin net 4 is laid substantially horizontally on the plurality of natural stones 8, and the natural stone 8 is attached by the washer 10 and the attachment anchor 11. Can be easily performed. Further, when the mounting anchor 11 is driven, the driving force of the mounting anchor 11 is received by the sand 28 and is not transmitted to the other, so that the wire mesh 27 or the like is prevented from being damaged, and the shape of the mattress, urethane foam, rubber or the like can be changed. This is preferable to the case where the material is laid in the setting tool 25.
[0046]
Next, as shown in FIG. 20, a plurality of natural stones 8 in the set tool 25 are covered with a cover 21, and fixed with a belt 22. This is to smoothly perform the reversing operation, which is the next step.
[0047]
Next, as shown in FIG. 21, the setting tool 25 in which a plurality of natural stones 8 are set is reversed by connecting a reversing device 29 (only a part is illustrated) 29 to the hook portion 23. At this time, the sand 28 in the set tool 25 is discharged through the mesh of the wire mesh 27 (indicated by an arrow in FIG. 21) as the set tool 25 is reversed.
[0048]
Next, when the setting tool 25 has been inverted, the belt 22 is removed, and only the setting tool 25 is removed as shown in FIG. As a result, a civil engineering structure unit 3 with the resin net 4 positioned below the natural stone 8 is obtained, and the civil engineering structure unit 3 is transported to a predetermined storage location in that state. Become. Of course, in this case, when the setting tool 25 is removed, not only is the rotating device 29 rotated by applying the force of the reversing device 29 to the hooking part 23 of the setting tool 25, but the hooking part 23 in the setting tool 25 is also removed. The set tool 25 may be lifted in a substantially horizontal state by providing ropes, wires and the like on both hook portions 23 provided on both opposing frame portions of the mold frame 26 and lifting them.
[0049]
The civil engineering structure unit 3 according to the above embodiment can be provided on the existing concrete block wall surface having a gentle or steep slope, and can be changed to the multi-natural civil engineering structure 1. In this case, the existing concrete block wall surfaces (recesses, boundaries, etc.) are made flat with mortar and the like, while the washers 10 in each civil engineering unit 3 (all or some washers in each civil engineering unit). The adhesive is placed on 10) to cover the washer 10, and the washer 10 of each civil engineering unit 3 is adhered to the mortar surface (construction surface) via the adhesive. Thereby, in each civil engineering structure unit 3, not only the bonding surface can be secured with the washer 10, but also sufficient adhesive is secured on the plate-like main body 12 (partition area) that will bend as the natural stone 8 is attached. (See the recess formed by the flexible plate-like main body 12 in FIG. 9), and each civil engineering structure unit 3 can be reliably held on the construction surface composed of a mortar surface. Of course, in this case, the cloth ring 6 in the resin net 4 may be used for connection, but basically does not need to be used.
Therefore, if the civil engineering structure unit 3 is used, an existing concrete block wall surface can be easily changed to a multi-natural wall surface (a natural stone is present on the surface).
[0050]
Although the embodiment has been described above, the present invention includes the following aspects.
1) Instead of natural stone 8, artificial stones, artificial trees, concrete blocks, etc. should be used as civil engineering materials.
2) The washer 10 is provided concentrically with a plurality of bulged portions 13 (projecting portions) insertion holes 14 as the center. In this case, when the partition region in the plate-like main body 12 is bent, the protruding amount of the protruding portion 13 on the outer peripheral side is set so that any protruding portion 13 comes into contact with the resin net (flexible sheet body). It is preferable to increase it.
3) Not only the driving anchor according to the embodiment but also various driving anchors should be used as a stopper.
4) A nut is attached to the natural stone 8, and a bolt is screwed into the nut through the eye of the resin net 4 from the back side of the resin net 4 (flexible sheet body), or a bolt (screw rod) to the natural stone 8 The natural stone 8 is attached to the resin net 4 by inserting the resin net 4 through the protruding portion of the bolt and screwing the nut into the protruding bolt portion.
5) An annular bulging portion 13 (protruding portion) is constituted by a plurality of bulging components, and an interval is provided between the adjacent bulging components.
6) Instead of the resin net 4, a metal net (having a lattice structure) is used as the flexible sheet body.
7) Give the flexible sheet body a blowout prevention function. In other words, in a resin net 4 or the like having a lattice structure, the eyes themselves are made finer or a plurality of pieces having a lattice structure are overlapped, resulting in finer eyes and the loss of earth and sand. To prevent.
8) Instead of the washer 10 made of stainless steel or steel plate, the one made of synthetic resin should be used as the seat plate.
[0051]
It should be noted that the object of the present invention is not limited to what is explicitly described, but includes provision of what is substantially preferable or corresponding to what is listed as an advantage.
[Brief description of the drawings]
FIG. 1 is an explanatory view showing a civil engineering structure using a civil engineering structure unit according to an embodiment.
FIG. 2 is a plan view showing a civil engineering structure unit according to the embodiment.
FIG. 3 is a perspective view showing a natural stone attached to a resin net using a washer and an attachment anchor.
FIG. 4 is a front view showing a washer according to an embodiment.
FIG. 5 is a view of the washer according to the embodiment as viewed from the inside.
FIG. 6 is a plan view showing a mounting anchor according to the embodiment.
7 is a front view of FIG. 6. FIG.
FIG. 8 is an explanatory view showing a state in which an attachment anchor is about to be driven into a natural stone attachment hole in order to attach a natural stone to a resin net.
FIG. 9 is an explanatory view illustrating a state in which natural stone is attached to a resin net using a washer and an attachment anchor.
10 is an enlarged sectional view taken along line AA in FIG.
11 is an enlarged sectional view taken along line BB in FIG. 9;
FIG. 12 is a plan view showing a modification of the mounting anchor.
13 is a front view of FIG.
FIG. 14 is a partial perspective view showing the connection between adjacent civil engineering structure units (resin nets).
FIG. 15 is a view showing a manufacturing process of the civil engineering unit according to the embodiment.
16 is a diagram showing manufacturing steps subsequent to FIG. 15. FIG.
17 is a view showing a vertical cross-sectional state of the state of FIG.
FIG. 18 is a diagram showing manufacturing steps subsequent to FIG. 16;
FIG. 19 is a diagram showing a manufacturing step that follows the manufacturing step shown in FIG. 18;
FIG. 20 is a view showing a manufacturing process continued from FIG. 19;
FIG. 21 is a diagram showing a manufacturing process that continues from FIG. 20;
FIG. 22 is a diagram showing manufacturing steps subsequent to FIG. 21;
[Explanation of symbols]
1 Civil engineering structure
1a Construction surface
3. Unit for civil engineering structure
4 Resin net
8 Natural stone
9 Mounting hole
10 Washer
11 Mounting anchor
12 Plate body
13 bulge
14 Insertion hole
16 Shaft
17 head
18 ridges
19 Curved part
20 protrusions
25 set tools
26 Frame
27 Wire mesh
28 Sand

Claims (22)

A civil construction material is provided on one side of the flexible sheet body, a seat plate disposed on the other surface side of the flexible sheet body, and the seat plate and the civil construction material comprise the flexible sheet body. In the civil engineering structure unit attached by the stopper that holds it so as to hold it,
The seat plate has a plate-like main body, and a protruding portion that projects from the plate surface of the plate-like main body to the other surface side of the flexible sheet body and divides a partition region on the plate surface of the plate-like main body, Have
The tip of the protrusion is formed with a round shape,
The stopper is set to apply a pressing force toward the civil engineering construction material side with respect to the partition region in the plate-shaped main body,
A civil engineering unit characterized by that. In claim 1,
The protrusion is continuously formed in an annular shape,
A civil engineering unit characterized by that. In claim 1,
The protrusion is composed of a plurality of protrusion constituent parts,
Each protruding component is formed in an annular shape with a gap between adjacent protruding components,
A civil engineering unit characterized by that. In claim 2 or 3,
The plate-shaped main body is formed in a disk shape,
The protrusion is formed over the entire periphery of the peripheral edge of the plate-shaped main body, and the stopper is pressed toward the civil engineering construction material side with respect to the radial central portion of the plate-shaped main body. Is set to grant,
A civil engineering unit characterized by that. In claim 1,
The protruding portion is constituted by a bulging portion formed by bulging with respect to the plate-shaped main body,
A civil engineering unit characterized by that. In claim 5,
The plate-shaped main body is formed in a disk shape,
The bulging portion is formed over the entire circumference of the peripheral portion of the plate-shaped main body, and the stopper is directed toward the civil construction material side with respect to the radial center portion of the plate-shaped main body. Set to apply pressure,
A civil engineering unit characterized by that. In claim 1,
A mounting hole is formed in the civil construction material, and insertion holes are formed in the flexible sheet body and the seat plate, respectively.
The stopper is provided at the base end portion of the shaft portion that is inserted through the insertion holes of the seat plate and the flexible sheet body and is held in the mounting hole of the civil engineering construction material. A head for engaging with the seat plate;
A plurality of protrusions extending in the axial direction are sequentially formed on the outer circumferential surface of the shaft portion in the circumferential direction on the shaft portion of the stopper, and the shaft center of the shaft portion bulges laterally. Is curved to form a curved portion,
The curved portion is in a state of being pushed open so that the curvature is reduced by the inner wall of the mounting hole in the mounting hole.
A civil engineering unit characterized by that. In claim 7,
On the upper surface of the head, a protrusion is provided on the axis of the shaft.
A civil engineering unit characterized by that. In claim 1,
The sheet surface of the flexible sheet body is substantially flush,
A civil engineering unit characterized by that. In claim 9,
The flexible sheet body is a resin net having a lattice structure,
A civil engineering unit characterized by that. Preparing a plurality of civil engineering construction materials, a flexible sheet body, a seat plate having a projecting portion that partitions a partition region on the plate surface of the plate-like main body, and a stopper;
First, after laying out the plurality of civil construction materials, covering the plurality of civil construction materials with a flexible sheet body,
Next, the seat plate is disposed on each of the civil construction materials via the flexible sheet body with the protruding portion facing downward,
Next, with the stopper, the seat plate is pressed and fixed to the civil engineering construction material via the flexible sheet body while causing the partition region of the seat plate to bend.
The manufacturing method of the unit for civil engineering structures characterized by the above-mentioned. In claim 11,
Prepare a set tool that is open at the top and sanded inside,
Laying and arranging the plurality of civil engineering materials on the sand in the set tool,
Adjusting the sand spread height so that the top surfaces of the plurality of civil engineering construction materials are substantially constant,
The manufacturing method of the unit for civil engineering structures characterized by the above-mentioned. Many civil engineering units are laid on the construction surface,
Each of the units for civil construction includes a seat plate in which a civil construction material is disposed on one side of the flexible sheet body, a seat plate disposed on the other surface side of the flexible sheet body, the seat plate, and the civil construction material; Is attached by a stopper that holds the flexible sheet body so as to sandwich the flexible sheet body,
The seat plate of each unit for each civil engineering structure projects from the plate surface of the plate-shaped main body to the other surface side of the flexible sheet body and is partitioned on the plate surface of the plate-shaped main body. A projecting portion that divides the projecting portion, and a distal end portion of the projecting portion has a rounded shape, and the stopper is directed toward the civil engineering construction material side with respect to the partition region in the plate-like body. Set to apply pressure,
Civil engineering structure characterized by that. A civil engineering construction unit seat plate mounted on one surface side of the flexible sheet body and mounted in cooperation with a stopper disposed on the other surface side of the flexible sheet body,
A plate-like main body, and a partition region projecting from the plate surface of the plate-like main body to the other surface side of the flexible sheet body and applied with a pressing force by the stopper on the plate surface of the plate-like main body And a protruding portion to be provided,
The tip of the protrusion is formed with a round shape,
A seat plate for a civil engineering unit characterized by that. In claim 14,
The protrusion is continuously formed in an annular shape,
A seat plate for a civil engineering unit characterized by that. In claim 14,
The protrusion is composed of a plurality of protrusion constituent parts,
Each protruding component is formed in an annular shape with a gap between adjacent protruding components,
A seat plate for a civil engineering unit characterized by that. In claim 15 or 16,
The plate-shaped main body is formed in a disk shape,
The protruding portion is formed over the entire circumference on the peripheral edge of the plate-shaped main body.
A seat plate for a civil engineering unit characterized by that. In claim 14,
The protruding portion is constituted by a bulging portion formed by bulging with respect to the plate-shaped main body,
A seat plate for a civil engineering unit characterized by that. In claim 18,
The plate-shaped main body is formed in a disk shape,
The bulging portion is formed over the entire circumference in the peripheral portion of the plate-shaped main body,
A seat plate for a civil engineering unit characterized by that. A civil engineering structure in which a civil construction material having an attachment hole is attached to one side of a flexible sheet body in cooperation with a seat plate disposed on the other side of the flexible sheet body in a state having an insertion hole. For the unit,
A shaft portion that penetrates the insertion hole of the seat plate and the flexible sheet body and is held in the mounting hole of the civil construction material, and is provided at a base end portion of the shaft portion and engages with the seat plate And a head for making
A plurality of protrusions extending in the axial direction are sequentially formed on the outer peripheral surface of the shaft portion in the circumferential direction in the shaft portion, and curved so that the shaft center of the shaft portion bulges laterally. A curved portion is formed,
A structural structure structural unit stop. In claim 20,
On the upper surface of the head, a protrusion is provided on the axis of the shaft.
A structural structure structural unit stop. In claim 13,
The seat plate and the construction surface of each civil engineering structure unit are bonded via an adhesive,
Civil engineering structure characterized by that.

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