JP3883551B2 - Reinforced earth wall construction tool - Google Patents

Description

  The present invention relates to a reinforced earth wall construction tool (reinforced earth wall construction member) for forming and maintaining a vertical or inclined slope. The reinforced earth wall can also be called a retaining wall, a retaining wall, a bank wall, or the like.

  Conventionally, methods for constructing reinforced soil walls represented by the tail arme method and the geotextile method are known. These are comprised from the wall surface material which comprises a wall surface, and the reinforcing material connected with this wall surface material and embed | buried in embankment. And as a construction method using a chain for this reinforcing material, what is indicated by the following patent documents 1 is proposed. In the following, the reference numerals in parentheses are the reference numerals in Patent Document 1.

The invention described in Patent Document 1 includes a retaining wall forming unit (3 as a wall member in which vertical beam members (4, 4,...) And horizontal beam members (5, 5,...) Are connected and fixed in a lattice shape. ) And a chain (8) as a reinforcing member connected at one end to the retaining wall forming unit (3). In the retaining wall forming unit (3), the vertical beam member (4) is formed of a long flat steel, and the horizontal beam member (5) is formed of round steel. In addition, a horizontal member (6) made of flat steel is provided at the lower end of the vertical beam member (4) and is formed with a V-shaped notch (6B) on which one end of the chain (8) is hooked. Yes.
Japanese Patent Laid-Open No. 9-328761

  However, in the invention described in Patent Document 1, the vertical connection between the retaining wall forming units (3, 3) is made by overlapping a part of the vertical beam members (4, 4) made of flat steel, (7A, 7B). Therefore, the number of parts is large, the assembly is complicated, and the construction is difficult. Further, since the vertical beam member (4) is made of flat steel, the flat steel may be buckled.

  In the invention described in Patent Document 1, one end of the chain (8) as the reinforcing member is hooked on the notch (6B) of the horizontal member (6) of the retaining wall forming unit (3), and the other end Similarly, the part was only hooked on the notch formed in the upper part of the vertical piece of the L-shaped angle (11). For this reason, there was a possibility that the chain (8) may come off from these notches during construction.

  Furthermore, after the construction, the ground may be compressed and subsidized, but the invention described in Patent Document 1 could not sufficiently follow the ground subsidence. Further, depending on the ground, it may be desired to increase the pulling resistance of the reinforcing material (8), but this point has not been considered.

  This invention is made | formed in view of the said situation, The main objective is to provide the reinforced earth wall construction tool which can construct | assemble a strong and stable reinforced earth wall with simple structure and construction.

The present invention has been made to solve the above-mentioned problems, and the invention according to claim 1 includes a wall surface member in which a plurality of vertical members and a plurality of cross members are assembled in a lattice shape, The material is formed in a tubular shape, and each wall surface material can be connected up and down via a connecting pipe that extends in the vertical direction and is spaced apart from each other and arranged in parallel, and is fitted to the end of the vertical material. The lower part of the connecting pipe is fitted into the upper end of the vertical member of the lower wall material, and is positioned by contacting the horizontal member of the lower wall member. The upper and lower wall materials are connected to each other by inserting the lower ends of the vertical members of the wall materials .

In addition to the structural requirements of claim 1 , the invention described in claim 2 is characterized in that, in the middle of the connection pipe, one end of the reinforcing material of the reinforcing earth wall is connected to the connection pipe when the ground is compressed and subsidized. It is positioned and connected so as to allow relative downward movement.

According to a third aspect of the present invention, in addition to the constituent elements of the second aspect, a connecting device comprising an annular portion that is passed through the connection pipe in a ring fitted in the outer peripheral surface of the middle portion of the connection pipe The lower end portion of the reinforcing member is abutted and positioned, and one end portion of the reinforcing material is connected to the connecting tool.

According to a fourth aspect of the present invention, in addition to the constituent elements according to the third aspect , the reinforcing member comprises a chain in which a number of links are linked to each other, or a rod having an enlarged diameter portion at the other end. The anchor for fixing the other end of the reinforcing member has an L-shaped portion composed of a horizontal piece and a vertical piece, and the horizontal piece has an insertion hole through which the other end of the reinforcing member can be inserted. The extension groove extending to the middle of the vertical piece continuously with the insertion hole can be moved to the vertical piece so that the other end of the reinforcing material passed through the insertion hole cannot be dropped off. Features.

According to a fifth aspect of the present invention, in addition to the constituent elements according to any one of the second to fourth aspects, the reinforcing member is a chain in which a protrusion is provided on at least one link, and an elliptical cross section. It is characterized in that it is a chain using a link formed from a shaped wire, a chain using a link twisted 90 degrees at the center, or a chain having a wide pitch between links.

According to a sixth aspect of the present invention, in addition to the constituent elements of the fourth or fifth aspect , the reinforcing member is held at one end by the wall surface material and held at the other end by the anchor. The chains are connected to each other by an auxiliary chain.

Further, the invention according to claim 7, a in addition to the configuration requirements of any one of claims 1 to 6, reinforced earth wall construction tool is disposed at a corner portion of the reinforced soil walls, The cross member is slidably held in the horizontal direction with respect to the vertical member.

  According to the reinforced earth wall construction tool of the present invention, a strong and stable reinforced earth wall can be constructed with a simple configuration and construction.

  Hereinafter, the reinforced earth wall construction tool of the present invention and the construction of the reinforced earth wall using the same will be described in more detail based on examples.

  FIG. 1 is an exploded perspective view showing a schematic configuration of a reinforced earth wall construction tool 1 of the present embodiment. As shown in this figure, a reinforced earth wall construction tool 1 according to the present embodiment includes a wall surface material 3 that can be connected up and down via a connection pipe 2 and a chain-shaped reinforcement whose one end is connected to the connection pipe 2. A material 4 and an anchor 5 for holding the other end of the reinforcing material 4 are provided as main parts.

  The wall surface material 3 is configured by assembling a plurality of vertical members 6, 6... And a plurality of cross members 7, 7,. The wall material 3 in the illustrated example is configured by assembling four vertical members 6 (6A to 6D) and three horizontal members 7 (7A to 7C) in a lattice shape. As each longitudinal member 6, a pipe, particularly a pipe having a circular cross section is preferably used. By using a circular pipe, it is lightweight and secures strength. On the other hand, as each cross member 7, a rod, especially a reinforcing bar, is preferably used. The vertical members 6 are arranged in parallel at equal intervals on the left and right sides in a standing state. And each cross member 7 is arrange | positioned in parallel at equal intervals up and down, respectively so that this each vertical member 6 may be bridged.

  When assembling the vertical members 6 and the horizontal members 7 in a lattice shape, the upper and lower ends of the vertical members 6 extend from the upper and lower horizontal members 7A and 7C to the outside in the vertical direction by an equal distance, The left and right ends of each cross member 7 are arranged to extend from the left and right vertical members 6A and 6D by an equal distance outward in the left-right direction. And each vertical member 6 and each horizontal member 7 are fixed and integrated by welding in the location which mutually cross | intersects. The wall material 3 configured in this manner is not particularly limited in size, but in this embodiment, the vertical dimension (that is, the longitudinal dimension of the vertical member 6) is 500 mm, and the horizontal dimension (that is, the horizontal member 7). Of 1980 mm).

  The connection pipe 2 is formed of a circular pipe having a diameter larger than that of the longitudinal member 6. Therefore, the connection pipe 2 can be fitted to the end portion of the vertical member 6 of the wall surface material 3 so as to be almost fit. When the connection pipe 2 is fitted to the upper end portion of the vertical member 6, the lower end portion of the connection pipe 2 is positioned in contact with the uppermost cross member 7A constituting the wall surface member 3, and below it. Movement is prevented. In this state, the upper end portion of the vertical member 6 is inserted into the lower half of the connection pipe 2.

  A connecting tool 8 for connecting the reinforcing material 4 can be installed at the center in the vertical direction of the connecting pipe 2. The connection tool 8 of the present embodiment is formed by bending a long and narrow steel plate into a substantially U shape, and the open end portions 8a and 8a are slightly close to each other. That is, both end portions of the substantially semicircular bent portion 8c are close to each other via the inclined portions 8b and 8b, and the tip portions 8a and 8a are arranged in parallel with a gap therebetween. This gap is set slightly larger than the thickness of the link 4a of the chain 4 described later. Further, the arc of the bent portion 8 c is formed to be slightly larger than the connection pipe 2.

  In this way, the connection tool 8 formed in a substantially annular shape can be fitted with the connection pipe 2 substantially fitted to the bent portion 8c side. A chain 4 as a reinforcing material can be connected between the open ends 8a and 8a. That is, in a state where the link 4a at one end of the chain 4 is disposed in the gap between the open ends 8a and 8a of the connector 8, the pin 8d is laid between the open ends 8a and 8a through the hole of the link 4a. Provided to pass.

  By the way, in order to hold the connector 8 at the center in the vertical direction of the connection pipe 2, a rubber ring 9 for holding the lower end of the connector 8 is fitted at a position slightly below the center in the vertical direction of the connection pipe 2. It is. Thereby, the lower end part of the connection tool 8 passed through the connection pipe 2 is brought into contact with the rubber ring 9 for positioning.

  The reinforcing material 4 of this embodiment is composed of a chain. As is well known, the chain 4 is formed by connecting annular links 4a and 4a to each other. Each link 4a is made into the same shape, and is a substantially ellipse shape by which the substantially semicircular curved parts are connected by the linear part. In the chain 4, the link 4 a at one end can be connected to the connection tool 8 as described above. In other words, the link 4a at one end is inserted with the pin 8d provided so as to bridge the open ends 8a, 8a while being sandwiched between the open ends 8a, 8a of the connector 8.

  On the other hand, the other end of the chain 4 can be held by the anchor 5. The anchor 5 of the present embodiment includes an anchor material 10 that engages the other end of the chain 4 and an anchor pin 11 for fixing the anchor material 10 to soil. The anchor material 10 of the present embodiment is composed of an L-shaped material composed of a horizontal piece 10a and a vertical piece 10b. The horizontal piece 10a is formed with an insertion hole 10c through which the other end of the chain 4 can be inserted (FIG. 2). And it extends to the middle of the vertical piece 10b continuously with the insertion hole 10c, and an extension groove 10d is formed. The extended groove 10d is configured such that the other end portion of the chain 4 passed through the insertion hole 10c can be moved to the vertical piece 10b so as not to drop off.

  A more specific description will be given based on FIG. 2A and 2B are schematic explanatory views showing the connection operation between the other end of the chain 4 and the anchor 5, wherein FIG. 2A shows a state in which the other end of the chain 4 is passed through the insertion hole 10c, and FIG. 2B shows such a chain. 4 shows a state in which 4 is moved to the vertical piece 10b along the extending groove 10d. As shown in this figure, in the central part of the rectangular horizontal piece 10a, two cutout grooves S1, S2 parallel to each end are formed so as to intersect with each other, so that a substantially cross-shaped insertion hole 10c is formed. Is formed through. One notch groove S2 extends to the edge on the vertical piece 10b side, and is further formed continuously on the vertical piece 10b upward to form an extended groove 10d. Each width dimension of the notch grooves S1 and S2 and the extending groove 10d is formed to be slightly larger than the thickness of the link 4a of the chain 4.

  Therefore, as shown in FIG. 2 (A), one link 4a at the other end of the chain 4 is passed through the substantially cross-shaped insertion hole 10c from the lower side of the horizontal piece 10a, and then adjacent to the link 4a. With the link 4a disposed in the extending groove 10d, the chain 4 can be moved to the vertical piece 10b. In the state of being moved to the vertical piece 10b, there is no possibility that the chain 4 falls off the anchor material 10.

  In the horizontal piece 10a of the anchor material 10 of the present embodiment, small holes 10e and 10e are formed at two positions sandwiching the insertion hole 10c. The anchor pin 11 can be inserted into the small hole 10e. The anchor pin 11 of the present embodiment is composed of a wire bent in a downward U-shape. Therefore, the anchor material 10 and thus the other end of the chain 4 can be fixed by passing both end portions 11a and 11a of the anchor pin 11 through the small holes 10e and 10e and driving them into the ground.

  Next, a construction method for constructing a reinforced earth wall using the reinforced earth wall construction tool 1 having the above-described configuration will be described. FIG. 3 is a schematic longitudinal sectional view showing a construction state of the reinforced earth wall. 4 and 5 are a schematic longitudinal sectional view and a schematic front view of the reinforced earth wall completed state.

  As shown in FIG. 3, first, the first-stage wall material 3 is erected on the ground B on which a reinforced earth wall is to be constructed. For this, the bottom hardware 12 is used. As shown in FIG. 1, the bottom metal piece 12 is made of a substantially L-shaped material, and includes a vertical piece 12a on the near side and a horizontal piece 12b extending rearward from the lower end portion of the vertical piece 12a. The bottom metal piece 12 is elongated in the left-right direction, but its longitudinal dimension is substantially the same as the left-right dimension of the wall surface material 3 (longitudinal dimension of the cross member 7).

  The horizontal piece 12b is provided with an elongated rectangular plate-like protruding piece 12c extending upward. The width dimension of the plate-like protruding piece 12 c is formed slightly smaller than the inner dimension of the vertical member 6 of the wall surface material 3. Four such protruding pieces 12 c are provided at equal intervals on the horizontal piece 12 b of the bottom metal piece 12. The interval between the projecting pieces 12 c and 12 c corresponds to the interval between the vertical members 6 and 6 of the wall surface material 3. Therefore, the wall surface material 3 can be erected by fitting the lower portions of the vertical members 6 of the wall surface material 3 into the protruding pieces 12 c of the bottom metal piece 12. Note that rearwardly extending pieces 12d and 12d are provided on both the left and right portions of the horizontal piece 12b. Then, the bottom metal piece 12 can be fixed by driving the pin 13 into the ground B through the small hole 12e formed in the extending piece 12d.

  When the lower ends of the vertical members 6 of the wall surface material 3 are fitted into the projecting pieces 12 c of the bottom metal piece 12, the connecting tool 8 is passed through the lower ends of the vertical members 6. One end of the chain 4 is fixed to the connection tool 8, and the other end of the chain 4 is fixed to the ground B by the anchor 5. At this time, the chain 4 extends rearward from the wall surface material 3 and is maintained in a tension state without sagging. In this way, the first-stage wall surface material 3 is installed on the bottom hardware 12, the chain 4 as a reinforcing material is installed along the ground B so as to extend rearward from the wall surface material 3, and the tip portion is anchored 5 to fix to the ground B. Similarly, a plurality of wall surface materials 3 are installed side by side continuously.

  Next, the embankment material E is thrown into the rear region of the wall surface material 3 thus installed, and is compacted. A back net 14 and, if desired, a vegetation mat 15 for greening are overlaid on the rear surface of the wall surface material 3 for construction. Therefore, there is no possibility that the filled embedding material E will come out of the lattice holes constituting the wall surface material 3.

  The embankment is not performed all at once up to the height of the wall surface material 3, but is performed sequentially, for example, at half the height (here, approximately 25 cm). For example, the embankment material is unwound to a height of 30 cm and is compacted to a layer thickness of 25 cm. In this way, the bank wall material 3 is filled up to half the height of the first wall material 3 and compacted horizontally, and then the second wall material 3 is connected to the upper end of the wall material 3.

  For this purpose, first, the connection pipe 2 is fitted into the upper end of the vertical member 6 of the lower wall member 3. As described above, the connection pipe 2 is held with the lower end portion being brought into contact with the upper horizontal member 7A in a state where the upper end portion of the vertical member 6 is inserted into the lower half thereof. Next, the connection tool 8 is fitted into the connection pipe 2. The connecting tool 8 is positioned by abutting the lower end of the bent portion 8 c on the rubber ring 9 of the connecting pipe 2. In this state, the connection tool 8 is disposed at the center in the vertical direction of the connection pipe 2.

  Then, the lower end portion of the vertical member 6 of the upper wall surface material 3 is inserted into the connection pipe 2 thus installed. Thereby, the wall surface materials 3 and 3 are connected up and down. Then, the embankment material E is thrown in and it compacts so that it may be embanked to the upper end part of the lower wall surface material 3. FIG. Then, one end of the chain 4 is connected to the connector 8, the other end of the chain 4 is engaged with the vertical piece 10 b of the anchor material 10, and the horizontal piece 10 a of the anchor material 10 is connected to the anchor pin 11. And fix it on a compacted embankment. In this way, the chain 4 is fixed in a sufficiently extended state on the ground that has been filled up to the upper end of the lower wall surface material 3. In addition, when the upper wall material 3 is installed in advance when embankment is performed up to half the height of the lower wall material 3, it is possible to ensure the safety of the worker until the anchor 5 is installed.

  Thereafter, in the same manner, when the bank is filled up to half the height of the second-stage wall material 3, after the third-stage wall material 3 is installed on the upper surface of the wall material 3, the second-stage wall material 3 Fill to the upper end and install the chain 4 on the top. Thus, a reinforced earth wall can be constructed to a desired height using the reinforced earth wall construction tool 1.

  And the top end hardware 16 is attached to the upper part of the uppermost wall surface material 3. FIG. 6 is a schematic vertical cross-sectional view showing a mounting state of the top end hardware 16. The top end hardware 16 is made of a substantially L-shaped material, and includes a front vertical piece 16a and a horizontal piece 16b extending rearward from the upper end of the vertical piece 16a. As shown in FIG. 5, the top end hardware 16 is elongated in the left-right direction, and the longitudinal dimension thereof corresponds to the lateral dimension of the wall surface material 3 (longitudinal dimension of the cross member 7).

  The horizontal piece 16b of the top end hardware 16 is provided with a cylindrical short cylinder 16c protruding downward. The inner diameter of the short cylinder 16 c is formed to be slightly larger than the outer diameter of the vertical member 6 of the wall surface material 3. Four such short cylinders 16 c are provided at equal intervals on the horizontal piece 16 b of the top end hardware 16. The distance between the short cylinders 16 c and 16 c corresponds to the distance between the vertical members 6 and 6 of the wall surface material 3. Therefore, the upper part of the uppermost wall member 3 can be covered by fitting the upper part of each vertical member 6 of the wall member 3 into each short cylinder 16 c of the top end hardware 16. Moreover, the top end hardware 16 can be reliably fixed to the wall surface material 3 by screwing the screw 16d from the outer peripheral surface of the short cylinder 16c.

  In FIG. 5, the top metal fitting 16 is installed on the top of the wall material 3, but the top metal fitting 16 may be shifted to the left and right so as to bridge the adjacent wall material 3. Good. For example, the pitch can be shifted to the left or right by one pitch of the short cylinder 16c of the top end hardware 16. In that case, the pitch between the short cylinders 16c and 16c of the top end hardware 16 is adjusted in consideration of the separation distance between the adjacent vertical members 6 and 6 of the wall surface materials 3 and 3 arranged on the left and right.

  The reinforced earth wall constructed in this way is strong and stable. Moreover, when the chain 4 is about to move downward relative to the wall surface material 3 due to the compression and settlement of the ground, if a load exceeding a predetermined value is applied to the rubber ring 9, the rubber ring 9 moves downward or breaks. By doing so, it is possible to follow the compression settlement of the ground.

  In addition, by using a round steel pipe for the vertical member 6 of the wall surface material 3 of the reinforced soil wall, it is possible to realize a wall surface structure that is lightweight and easy to work with and that is highly rigid. In particular, compared with the conventional case where the vertical member 6 is flat steel, the steel pipe has high rigidity not only in the front-rear direction but also in the left-right direction with respect to the wall surface, and effectively prevents the wall surface from protruding and buckling. it can. Further, the upper and lower connections between the wall materials 3 and 3 can be easily assembled by using the connecting pipe 2 instead of the lap joint.

  The reinforcement earth wall construction tool 1 of this invention is not restricted to the structure of the said Example, It can change suitably. Below, the modification of the reinforced earth wall construction tool 1 is demonstrated.

  First, a modified example of the anchor 5 will be described. FIG. 7 is a perspective view showing Modification Example 1 of the anchor material 10. The anchor material 10 of the above embodiment is formed of a simple L-shaped material as shown in FIG. 2, but in Modification 1 of FIG. 7, both end portions 10f and 10f of the horizontal piece 10a are in the opposite direction to the central portion 10a. The cross section was inverted T-shaped as a whole. Thereby, falling of the anchor material 10 can be prevented further effectively.

  FIG. 8 is a perspective view showing Modification Example 2 of the anchor material 10. In this modification 2, it was comprised from the U-shaped material. That is, the horizontal pieces 10g and 10a are provided above and below the vertical piece 10b. Thereby, the rigidity of the anchor material 10 can be improved.

  FIG. 9 is a perspective view showing Modification 3 of the anchor material 10. In the third modification, the reinforcing member 4 is not a chain but a rod 4A, and a disc-shaped enlarged diameter portion 4b is provided at the other end of the rod 4A. When such a rod 4A is used, the insertion hole 10c formed in the horizontal piece 10a need not be a substantially cross shape as shown in FIG. 2, but a substantially T shape as shown in FIG. In addition, although the reinforcement material 4 whole may be made into the rod 4A, you may provide the rod 4A as shown in FIG. 9 only in the other end part of a chain.

  Next, a modified example of the chain 4 as a reinforcing material will be described. 10A and 10B are diagrams showing a first modification of the chain 4, in which FIG. 10A is a front view and FIG. 10B is a plan view. In this chain 4, a bar 4 c having a square cross section is provided at the center of the link 4 a so as to bridge between the linear portions of the link. This link with a bar may be used for all the links of the chain 4, but in the illustrated example, it is used at a desired pitch (for example, a ratio of one per several tens of centimeters). By attaching a bar to the link 4a, the pull-out resistance of the chain 4 after being buried in the embankment can be increased.

  11A and 11B are diagrams showing a second modification of the chain 4, in which FIG. 11A is a front view and FIG. 11B is an XX cross-sectional view thereof. In this chain 4, a disk 4d is provided at the center of the link 4a so as to bridge between the linear portions of the link. Although this link with a disk may be used for all the links of the chain, in the illustrated example, it is used at a desired pitch (for example, a ratio of one in several tens of centimeters). By attaching the disk 4d to the link 4a, the pull-out resistance of the chain 4 after being embedded in the embankment can be increased.

  FIG. 12 is a diagram showing a third modification of the chain 4 and shows the central link 4a in cross section. Each link 4a of the chain 4 has an elliptical cross section of the wire constituting the link 4a. When compared with the same cross-sectional area, the oval shape rather than the circular shape can increase the pull-out resistance of the chain 4 after being embedded in the embankment.

  FIG. 13 is a diagram illustrating a fourth modification of the chain 4. Each link 4a of the chain 4 is configured to be twisted 90 degrees at the center thereof. That is, a link is used in which one arcuate part and the other arcuate part are oriented in a direction different by 90 degrees. This cross link may be used for all links or only for some links. By using the cross link, the pulling resistance of the chain 4 after being buried in the embankment can be increased.

  FIG. 14 is a diagram illustrating a fifth modification of the chain 4. Each link 4a of the chain 4 is formed with a large number of ribs 4e on the outer peripheral surface protruding outward in the radial direction of the wire. The size and shape of the rib 4e and the location of the rib 4e are not particularly limited, but the wire used for manufacturing the chain can be manufactured as a deformed steel bar. By attaching the rib 4e to the link 4a, the pull-out resistance of the chain 4 after being embedded in the embankment can be increased. This ribbed link may be used for all links in the chain 4 or only for some links.

  FIG. 15 is a diagram illustrating a sixth modification of the chain 4. Each link 4a of the chain 4 is formed such that the length of the linear portion connecting the arc-shaped portions is relatively long. Therefore, when the chain is configured, the pitch of each link 4a is relatively long. By using such a long pitch chain 4, the weight of the chain 4 can be reduced. In order to securely maintain the long pitch state, each link 4a is provided with studs 4f and 4f for restricting the overlap with the adjacent links 4a so as to bridge the ends of the linear portions. It has been.

  Furthermore, in the said Example, it was the structure which only installs the chain 4 toward each back from each vertical member 6 of the wall surface material 3, However, as shown in FIG. You may install another auxiliary chain 17 so that it may span. That is, FIG. 16 is a plan view showing the installation state of the chain 4 on a certain embankment surface, but as shown in this figure, the reinforcing chain 17 may be provided in a cross shape on the main chain 4 extending from the wall surface material.

  FIG. 17 is a schematic exploded perspective view showing a connected state of the main chain 4 and the reinforcing chain 17. As shown in this figure, a substantially W-shaped connector 18 is used for installing the reinforcing chain 17. That is, the connecting tool 18 has a shape in which the round bar portion 18c is integrally formed upward in the central portion in parallel with the round bar portions 18a and 18b on both the left and right sides of the substantially U-shaped material opened upward. . The central round bar portion 18c is formed to extend upward from the left and right round bar portions 18a and 18b, and the upper portion thereof is formed in a bolt shape. A connection stopper 19 is attached to the upper part of the connection tool 18. The connection stopper 19 is made of a rectangular plate material, and small holes 19a, 19b, and 19c are formed at positions corresponding to the round bar portions 18a, 18b, and 18c.

  Accordingly, as shown in FIG. 17, when the reinforcing chain 17 is provided in a cross shape on the main chain 4 extending from the wall surface material 3, the round bar 18 c at the center of the connector 18 is attached to an arbitrary link 4 a of the main chain 4. Hook. Furthermore, it is only necessary to hook each link at one end of each auxiliary chain 17, 17 to each of the left and right round bar portions 18 a, 18 b of the connector 18. In this state, the connection stopper 19 may be fitted on the upper portion of the connection tool 18 and fixed with the nut 20. That is, the round bar portions 18a to 18c are inserted into the small holes 19a to 19c of the connection stopper 19, and the nut 20 is screwed into the round bar portion 18c protruding from the central small hole 19c. And what is necessary is just to connect the other end part of each auxiliary chain 17 to the link 4a of the other main chain 4 similarly. The attachment location and the number of attachments of the auxiliary chain 17 to the main chain 4 are appropriately set according to the ground conditions and the like.

  By the way, in the said Example, although illustrated about the case where a perpendicular | vertical reinforcement earth wall is constructed | assembled, it cannot be overemphasized that the reinforcement earth wall construction tool 1 of this invention is applicable also to an inclined surface. In that case, as shown in FIG. 18, the protruding piece 12c provided on the horizontal piece 12b of the bottom metal piece 12 may be installed at a desired angle instead of vertical. And as shown in FIG. 19, it is good to use the wall surface material 3A for corners for the corner part where inclined surfaces meet.

  FIG. 19 is a schematic view showing a usage state of the wall surface material 3A for corners of the present invention. In addition, the A part, the B part, and the C part in FIG. 19 are shown in FIG. 18, FIG. 20, and FIG. 21, respectively. The corner wall material 3A of this embodiment is composed of three vertical members 6 (6E, 6F, 6G) and a total of six cross members 7 (7D, 7E) in a lattice pattern. Thus, the cross member 7 is different from the wall member 3 of the above embodiment in that the cross member 7 can slide with respect to the vertical member 6. Specifically, in FIG. 19, three cross members 7D, 7D, and 7D are vertically spaced apart from each other at the center and right vertical members 6F and 6G in the same manner as the wall material of the above-described embodiment. Further, in a state of extending from the vertical members 6F and 6G to the left and right by a predetermined amount, they are arranged so as to cross the vertical members 6F and 6g and are fixed by welding. The left and center vertical members 6E, 6F are provided with three other horizontal members 7E, 7E, 7E that are slidable in the left-right direction with respect to the vertical members 6E, 6F.

  FIG. 20 is a schematic cross-sectional view showing a portion B in FIG. 19 and showing a joint portion between the left longitudinal member 6E and the transverse member 7E. As shown in this figure, a first fixing fitting 21 is provided on the outer peripheral surface of the left longitudinal member 6E. The first fixing bracket 21 is made of a substantially U-shaped material, and the end portions of both end pieces 21a, 21a are fixed to the vertical member 6E. Further, a round hole is formed in the left-right direction through the both end pieces 21a, 21a, and the cross member 7E is passed through the round hole. Thereby, the cross member 7E is slidable with respect to the vertical member 6E, the fixing screw 21c is screwed from the central piece 21b of the first fixing bracket 21, and the outer periphery of the cross member 7E is pressed by the fixing screw 21c. The cross member 7E can be fixed to the left vertical member 6E.

  Further, the right end portion of the cross member 7E can slide with the adjacent cross member (the cross member provided between the center and right vertical members 6F and 6G) 7D at two positions sandwiching the central vertical member 6F. Provided. FIG. 21 is a perspective view showing a state where the portion C in FIG. 19 is viewed from the back side and showing a joint portion between the cross members 7D and 7E. As shown in this figure, the second fixing bracket 22 is used for connecting the cross members 7D and 7E. The second fixing bracket 22 has a rectangular parallelepiped shape that can be divided into two parts, and round holes 22a and 22b are formed along the left-right direction at two upper and lower portions on the divided surface. The adjacent cross members 7D and 7E are slidably provided in the round holes 22a and 22b. The two divided parts are integrated with each other by screws 22c, and the second fixing brackets 21d and 22e are screwed into the round holes 22a and 22b. The cross members 7D and 7E can be fixed to the fixing bracket 22.

  Because of such a configuration, in the case of the illustrated example, the length of the horizontal member 7E extending to the left side with respect to the left vertical member 6E can be set differently between the upper and lower horizontal members 7E. . Therefore, it is possible to easily install the wall surface material 3 even at the corner where the inclined surfaces meet. In FIG. 19, the wall surface material 3A for corners is respectively used for the left end part of the front inclined surface and the end part of the left inclined surface that meets this. At that time, the same corner wall material 3A can be used on each inclined surface.

  In addition, in the said Example, although the example which hold | maintains the connection tool 8 with the rubber ring 9 inserted in the middle part of the connection pipe 2 was demonstrated, if it is the structure which can hold | maintain the one end part of the chain 4, it will be in a rubber ring. Not exclusively. For example, a plastic or metal ring made of a substantially annular belt-like material with a part cut away may be forced from the outer periphery of the vertical member. Further, a string may be used or a protrusion may be provided by welding.

It is a disassembled perspective view which shows schematic structure of one Example of the reinforced earth wall construction tool of this invention. It is a schematic explanatory drawing which shows the connection operation | work of the chain other end part and anchor of the reinforced earth wall construction tool of FIG. 1, (A) is the state which let the other end part of the chain pass to the insertion hole, (B) is such The state which moved the chain to the vertical piece along the extension groove | channel is shown. It is a schematic longitudinal cross-sectional view which shows the construction state of the reinforced earth wall using the reinforced earth wall construction tool figure of FIG. It is a schematic longitudinal cross-sectional view of the reinforced earth wall completion state of FIG. It is a schematic front view of the reinforced earth wall completion state of FIG. It is a schematic longitudinal cross-sectional view which shows the attachment state of a top end metal fitting. It is a perspective view which shows the modification 1 of an anchor material. It is a perspective view which shows the modification 2 of an anchor material. It is a perspective view which shows the modification 3 of an anchor material. It is a figure which shows the modification 1 of a chain, (A) is a front view, (B) is a top view. It is a figure which shows the modification 2 of a chain, (A) is a front view, (B) is the XX sectional drawing. It is a figure which shows the modification 3 of a chain, and shows the center link in the cross section. It is a figure which shows the modification 4 of a chain. It is a figure which shows the modification 5 of a chain. It is a figure which shows the modification 6 of a chain. It is a top view which shows the installation state of the chain in a certain embankment surface. It is a schematic exploded perspective view which shows the connection state of the main chain and a reinforcement chain. It is a schematic side view which shows the bottom metal fitting for the inclination reinforcement | strengthening earth wall construction. It is the schematic which shows the use condition of one Example of the wall surface material for corners of this invention. It is a schematic sectional drawing which shows the B section in FIG. 19, and shows the junction part of the left side vertical member and a horizontal member. It is a perspective view which shows the C section in FIG. 19, and shows the junction part of cross members.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Reinforced earth wall construction tool 2 Connection pipe 3 Wall surface material 3A Wall surface material for corner 4 Reinforcement material (main chain)
4A Rod 4a Link 4b Expanded part 4c Projection (bar)
4d protrusion (disc)
4e Projection (rib)
5 Anchor 6 (6A to 6G) Vertical member 7 (7A to 7E) Cross member 8 Connector 9 Ring 10 Anchor member 10a Horizontal piece 10b Vertical piece 10c Insertion hole 10d Extension groove 11 Anchor pin 12 Bottom metal piece 13 Pin 14 Back net 15 Vegetation mat 16 Top end hardware 17 Auxiliary chain 18 Connecting tool 19 Connecting stopper 20 Nut 21 First fixing bracket 22 Second fixing bracket

Claims (7)

Provided with a wall material in which a plurality of vertical members and a plurality of cross members are assembled in a lattice shape,
Each of the longitudinal members is formed in a tubular shape, extends in the longitudinal direction, and is spaced apart from each other and arranged in parallel .
Through the connecting pipe fitted into the end of the vertical member, the wall material can be connected up and down ,
The lower part of the connecting pipe is fitted into the upper end of the vertical member of the lower wall material, and is positioned in contact with the horizontal member of the lower wall member,
A reinforcing earth wall construction tool characterized in that the upper and lower wall materials are connected to each other by inserting the lower end of the vertical material of the upper wall material into the upper part of the connection pipe. One end of the reinforcing material of the reinforced earth wall is positioned and connected to the middle of the connecting pipe so as to allow a downward movement relative to the connecting pipe when the ground is compressed and settled. The reinforced earth wall construction tool according to claim 1 . The lower end portion of the connection tool having an annular portion that is passed through the connection pipe is brought into contact with the ring fitted in the outer peripheral surface of the middle portion of the connection pipe, and positioning is performed.
The reinforcing earth wall construction tool according to claim 2 , wherein one end of the reinforcing material is connected to the connecting tool. The reinforcing material is a chain in which a large number of links are linked to each other, or a rod having an enlarged diameter portion at the other end,
The anchor for fixing the other end portion of the reinforcing member includes an L-shaped portion composed of a horizontal piece and a vertical piece,
The horizontal piece is formed with an insertion hole through which the other end of the reinforcing material can be inserted,
An extending groove extending continuously from the insertion hole to the middle of the vertical piece is configured to be movable to the vertical piece so that the other end portion of the reinforcing material passed through the insertion hole cannot be removed. The reinforced earth wall construction tool according to claim 3 . The reinforcing member is a chain in which a protrusion is provided on at least one link, a chain in which a link formed of an elliptical wire is used, or a chain in which a link twisted 90 degrees is used in the center. The reinforced earth wall construction tool according to any one of claims 2 to 4 , wherein the chain has a wider pitch between links. The reinforcing member comprises a chain having one end held on the wall surface side and the other end held on the anchor,
The reinforced earth wall construction tool according to claim 4 or 5 , wherein the chains are connected to each other by an auxiliary chain. A reinforcing earth wall construction tool arranged at a corner of the reinforcing earth wall,
The reinforced earth wall construction tool according to any one of claims 1 to 6, wherein the cross member is held so as to be slidable in the horizontal direction with respect to the vertical member.

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