JP4707838B2 - Retaining wall system including engaging wall construction unit - Google Patents

Abstract

A retaining wall structure built of wall-building units such as sand/soil bags or hardenable building units such as clay bricks has interconnecting members placed between adjacent courses of units to attach the adjacent courses to one another. The interconnecting members are plates having projections on both sides which protrude into the wall-building units of the adjacent courses. Sheets of geogrid preferably extend from between some of the courses of wall-building units into the fill retained by the wall-building units. Projections on the interconnecting members protrude through holes in the geogrid sheet, anchoring the wall face to the reinforced soil structure.

Description

[0001]
(Technical field)
The present invention relates to retaining walls and methods for building retaining walls, and more particularly to retaining walls made of units such as sand / soil bags or curable units such as fresh clay bricks. In this case, adjacent course units are connected together.
[0002]
(Background of the Invention)
Retaining walls are used in a wide variety of civil engineering and landscaping operations, for example, to support slopes and highways and railway banks, and to support sound barriers and the like. Retaining walls usually include soil or other fills installed or squeezed behind the walls, including sheets of geogrids placed in fills of various heights extending back from the walls. Made to have a support surface structure made of connecting blocks. Geogrid sheets that stabilize backfill soil are often attached to interlocking blocks.
[0003]
It is well known how to construct a sandbag retaining wall instead of an interlocking block to hold backfill soil. In the case of the prior art, the sandbags in the retaining walls are not attached to each other and essentially stabilize the walls depending on their mass. This limits the forward oblique angle and height of the retaining wall that can be built with a sandbag. In the prior art, the sandbag retaining wall is usually temporary rather than permanent.
[0004]
Also known are methods of building retaining walls with various types of blocks. In the case of the prior art, in order to build a firm and stable retaining wall, generally such blocks must be made of members that are engaged with each other, or these blocks must be joined together by concrete or the like. I must.
Japanese abstract JP-A-06-322730 dated November 22, 1994 uses a disc-like solid with protrusions on both sides to prevent slipping between Remicon bags in the retaining wall. Disclosure. However, such devices can only prevent slipping between two vertically adjacent bags. Japanese abstract JP-A-59-048525, dated 19 March 1984, is a sand and soil bag formed integrally on the end of a water-permeable sheet extending into a fill behind a vertical bank. Disclose use.
[0005]
(Summary of Invention)
The present invention provides a permanent retaining wall structure in which a wall building unit, such as a sand / soil bag, used to form the face of the structure is attached to a wall building unit of an adjacent course. In this case, the wall building unit is preferably attached to the geogrid sheet. This attachment is done by means of plates with protrusions on both sides, which protrude into the wall construction unit of the adjacent course and protrude through the holes in the geogrid sheet, And supports the backfill soil stably.
[0006]
In one embodiment of the invention, the wall building unit is a bag of sand, soil or similar backfill material. As used herein, the term “sand / soil bag” refers to a bag filled with any suitable fill material that includes sand, soil, mixtures thereof, and fills mixed with grass or other plant seeds. Means. In other embodiments, the wall building unit is a unit that can be cured or cured after being installed in the wall and interconnected by the mounting device of the present invention. As an example of the wall building unit, it can be hardened by adding water and curing after hitting the newly formed brick made of clay or similar material, or in place before hardening. There is a bag of cement or a mixture of cement and aggregate. In this specification, such a wall building unit is collectively referred to as a “curable unit”. Therefore, the “wall building unit” may be a “sand / soil bag” or may be a “curable building unit”. The difference between the two is that the former still contains a friable embankment even after forming the wall, whereas the latter hardens or cures after the wall is formed, forming a rigid unit. .
[0007]
The present invention forms a first horizontally extending course, includes a first plurality of wall building units adjacent to each other, forms a second course, on the first course A second plurality of wall building units adjacent to each other, and an interconnection member installed between the first course and the second course connecting the two wall building units to each other. A retaining wall structure is provided. The interconnect member comprises a plate having an upper surface and a lower surface, a first set of protrusions on the lower surface, and a second set of protrusions on the upper surface. The protrusion can protrude into the wall building unit. The interconnect member is located between the first course and the second course wall building unit so that the first set of protrusions protrudes into the lower course unit and the second course The pair of protrusions protrudes into the upper course unit. The interconnect member can also be placed on the ground or scaffold under the board course of the wall building unit.
[0008]
Optionally, the retaining wall structure may include a geogrid sheet that extends from between adjacent courses into the retaining wall backfill soil. The geogrid sheet is installed so that the protrusions of the interconnect members protrude through the holes in the sheet.
[0009]
The present invention also provides an interconnecting member for connecting a first horizontally extending course of a wall building unit to a second horizontally extending course located vertically adjacent to the first course. The interconnect member comprises a plate having an upper surface and a lower surface including a set of protrusions on each surface that can protrude into the wall building unit. The protrusions can also serve as attachment means to the geogrid sheet, but preferably the interconnect members are specifically shaped to protrude through holes in the geogrid sheet, It is preferred to include a set of geogrid retaining members on the top surface of the adapted plate. A holding cap attached to the geogrid holding member for holding the geogrid sheet can be installed thereon. The interconnect member may also have a flange with a lip that seals the wall building unit around the base of each protrusion on the top surface of the plate.
[0010]
Optionally, the retaining wall structure can also include a cover plate to improve the durability and appearance of the wall.
The present invention also provides a method for constructing a retaining wall structure having a plurality of course wall construction units. The method includes the steps of installing a first plurality of wall building units adjacent to each other to form a first horizontally extending course, and a first on the first course and on a lower surface thereof. An interconnection member having a pair of protrusions, a second set of protrusions on the upper surface thereof, and the first set of protrusions projecting into the wall building unit of the first course of the wall building unit A plurality of walls adjacent to each other to form a second course on the first course, such that a second set of protrusions protrudes into the wall construction unit of the second course. Installing a building unit. This method for building a retaining wall is a geogrid that extends from between the course of the wall building unit to the backfill soil, with the projections of the interconnecting members protruding through the holes, in order to fix it in place. -A step of installing a seat may be included.
[0011]
(Explanation)
Referring to FIG. 1, the retaining wall structure 10 built on the ground 12 includes a plurality of courses of sand / soil bags 14 installed in a horizontal direction. The course is arranged vertically in the wall structure. If it is better to do this for special applications, the wall surface can be inclined rather than vertical. The bag 14 is preferably made from a durable ground sheet material, a woven fabric that allows water to flow into and through the bag and seedlings to penetrate while retaining soil particles in the bag. It is preferable. The material of the bag 14 should not be biodegradable for wall durability.
[0012]
Backfill soil 16 is compacted behind and supported by sand / soil bag 14. The geogrid sheet 18 extends horizontally back into the backfill soil between the course of the sand / soil bag 14 and between the course of the sand / soil bag 14 attached thereto, as described below. Interconnect member 26 is installed between adjacent courses of sand / soil bag 14.
[0013]
With reference to FIGS. 2 and 3, the interconnect member 26 comprises a generally rectangular and flat plate 22 in the preferred embodiment that includes a plurality of protrusions 24 extending vertically from both sides of the plate 22. The protrusion 24 is strong enough to penetrate into the sand / soil bag 14 and has a pointed tip. Interconnect member 26 is preferably made of plastic, or aluminum, or other non-corroding metal or material.
[0014]
Referring to FIGS. 4 and 5, the interconnecting member 26 is placed on the top surface of the sand / soil bag 14 in the course so that the protrusions 24 on the lower surface protrude into the bag, thereby retaining the wall structure 10. Used in manufacturing. The second course of the bag is installed on the first course and the top surface of the interconnect member 26. The protrusions on the upper surface of the interconnect member 26 rush into the second course bag, and the weight of these sand / soil bags exerts pressure on the interconnect member so that the protrusions on its lower surface are Plunge completely into the bag of the first course. The protrusions 24 can be configured to pierce completely into the bag, but preferably the bag is simply dented. In either case, the protrusion is considered to “plunge” into the bag.
[0015]
Interconnect member 26 is also used to secure the geogrid sheet to the sandbag. Geogrid sheet 18 is well known and commercially available plastic mesh products are usually used for soil reinforcement. Referring to FIG. 5, the geogrid sheet 18 has a plurality of holes 28 therein. The sheet 18 is formed on the interconnect member 26 on the top surface of the course of the sandbag 14 such that the protrusion 24 on the upper surface of the interconnect member and its adjacent back edge penetrate the hole 28 in the geogrid. It is fixed to the wall surface by installing the edge of the sheet. The next upper course of the bag 14 is placed on the top surface and extends through the geogrid sheet, and the protrusion 24 on the upper surface of the interconnecting member rushes into the lower surface of the upper course bag. .
[0016]
As an alternative to installing on the interconnect member 26, the geogrid sheet could be installed directly on the course of the sand / soil bag and the top surface of the interconnect member installed thereon. In this case, the protrusion 24 on the lower surface of the interconnect member 26 penetrates through the hole 28 in the geogrid sheet and enters the bag. That is, the geogrid can be placed below the interconnect member rather than above.
[0017]
Geogrid sheets are placed on selected levels during wall construction, such as on the top of each third course of the bag, or as required for special applications.
[0018]
FIG. 6 is a preferred method step for manufacturing the retaining wall structure of the present invention. Referring to FIG. 6 (a), the trough 30 is formed in the ground 12, where the base of the trough is suitably formed by a leveling pad or a concrete scaffold to support the wall. Such formation is a method that has been used in the past in constructing retaining walls. The first course of the sand / soil bag 14 is installed in the trough 30 (FIG. 6 (b)). A row of interconnecting members 26 is installed on the bag 14 of the first course (FIG. 6 (c)). Next, another course of bag 14 is installed and backfill soil 16 is placed behind the sand / soil bag and tamped. A row of interconnect members 26 is installed thereon, after which another course of bag 14 is installed (FIG. 6 (d)). Thereafter, a row of interconnect members 26 are installed along the uppermost course of the bag 14, on which a geogrid sheet 18 is installed and extends back along the surface of the backfill 16 (see FIG. 6 (e)). As shown in FIG. 1, wall construction continues in the same way until a retaining wall of the required height is completed.
[0019]
For certain applications, it may be desirable to place the interconnect member 26 on the ground below the basic course of the bag 14. In this case, a row of interconnecting members 26 is placed on the leveling pad or concrete scaffold, and the first course of the bag 14, ie the foundation course, is placed thereon. Thereafter, the walls are further constructed as described above. By doing so, the deviation or slip of the basic course of the bag is reduced, and the bag can be easily installed at the correct position.
[0020]
In one embodiment of the invention, the bag 14 contains grass seeds or other ground covers are mixed with the fill. After building the retaining wall, the bag is naturally or artificially watered, a ground cover grows from the bag, and the retaining wall is covered with green leaves.
[0021]
In other embodiments of the present invention, the bag does not contain seed, but instead is shaped to build an attractive wall when the wall is complete. For example, the bag surface can be rectangular, square, or hexagonal so that the wall can be constructed of any of a variety of intermeshing patterns. The bag can be made from a transparent material such as plastic, in which case the fill can be colored decoratively. For example, green gravel can be used as the embankment.
[0022]
7-10 are other embodiments of interconnect members. In these embodiments, the interconnect members are of various shapes so that various shapes and configurations of bags can be optimally combined. In the case of a round or unshaped bag, there is a gap between adjacent bags on the course, so that the interconnecting members that extend across such a bag are crossed by the lower bag across the gap. It is not fully supported. In such cases, it is preferable to use an interconnect member having an opening in the unsupported region. By doing so, the pressure of the upper bag is not applied to the unsupported portion of the interconnect member. In the case of FIG. 7, the interconnect member 126 comprises a plate 122 having protrusions 24 on both sides thereof. The plate 122 is generally C-shaped and includes a space or opening 123 between the two arms of C. The interconnect member 126 is installed between the courses of the sand / soil bag so that the space 123 is located on the space between adjacent bags of the lower course. A portion of the upper course bag extends through space 123 and rides directly on the lower bag. Similarly, as in FIG. 7, the amount of plastic or other material required for the member can be reduced, thus reducing costs. FIG. 10 shows a similar shape, but in this case, the interconnect member 226 having protrusions 24 on both sides thereof is substantially trapezoidal with an opening 52 in the center. When this interconnection member is used, as in the embodiment of FIG. 7, a portion of the upper bag is placed directly on the lower bag with the bag engaged with the adjacent course. be able to. The narrow side of the trapezoid is for placing behind, in which case the geogrid is connected only to the narrow side. Again, because of such a shape, the amount of material required to make the interconnecting member is reduced and the cost is reduced.
[0023]
8 and 9 show two other shapes. In the case of FIG. 8, the interconnect member 326 is a semi-cylindrical plate. In the case of FIG. 9, the interconnect member 426 is an L-shaped plate. Both of these forms of interconnect members can be used in appropriately shaped engaging sand / soil bags. For example, the plate of FIG. 9 can be used when the bag 14 has a hexagonal face or cross section. The plate of FIG. 8 can be used when the cross section of the bag is round. As shown in FIG. 8 and FIG. 9, by forming the plate for fitting to the formed bag, the plate and the bag are securely in contact with each other. It will be apparent that the interconnect members can be molded to engage any required shape of sand / soil bag.
[0024]
In other embodiments of the invention, the wall building unit is a curable building unit. For example, a curable building unit may be a newly formed brick of clay, concrete or similar material used prior to curing, and the unit may be watered after being placed at the installation site. It may be a bag of cement or a mixture of cement and aggregate that can be cured by wetting and curing, or it has sufficient softness to penetrate through the protrusions of the interconnecting members, For example, in the case of a similar material that hardens (by drying) as in the case of clay bricks or concrete bricks, or after being placed at the installation site (eg in the case of cement or a mixture of cement and aggregate) As such, it may be a similar material that can be cured by wetting with water followed by curing. A curable building unit should be nearly solid enough to retain its shape and stack when in use. That is, it must be able to be stacked without collapsing or breaking. In the case of newly formed clay or concrete blocks, such blocks must be semi-cured. Retaining walls made according to this embodiment of the invention using a curable building unit can be made by the same method as described above for retaining walls, where the wall building unit is a sand / soil bag. In this case, this method of manufacturing a retaining wall includes the additional step of curing or curing the curable building unit. For example, if the curable building unit is a clay brick, the clay brick is used to build the retaining wall while still having a softness that can be easily penetrated by the protrusions 24 of the plate 122. As the walls are built, the clay bricks gradually heal and harden. If the curable building unit is a cement or cement and aggregate bag, this bag is used in the same way as the sand / soil bag described above for building a retaining wall. Thereafter, the bags are wetted with water and cured, and the cement or cement and aggregate in each bag is cured. Similarly, a row of interconnect members 26 can be used under the foundation course of a curable building unit, as already described in the construction of the wall made of sand / soil bags.
[0025]
13 and 14 are other embodiments of interconnect members. The interconnect member 60 comprises a generally rectangular and flat plate 62 in the preferred embodiment, including a plurality of protrusions 64 extending vertically from both sides of the plate. A set of geogrid retaining members 66 extend perpendicularly from the top surface of the plate along its edges. Unlike the embodiment of FIG. 2, where the protrusions 24 both attach the geogrid and rush into the wall building unit, the geogrid retaining member 66 of the interconnect member 60 is an emergency for attaching to the geogrid. Molded into a special shape to provide a solid means. The geogrid retaining members 66 have relatively steep, substantially vertical walls and are housed in rows along the edges of the plates so that they fit snugly into adjacent holes along the edges of the geogrid sheet. It is large enough to be placed on the array. A cap 67, which can be made from rubber or similar material, fits comfortably on the top end of member 66, and geogrid 18 is attached over member 66 to more securely attach the geogrid to the interconnect member. Later, if it is desired to do so, it can be placed in the correct position on one or more members 66, and preferably it is. The outer diameter of the cap 67 is larger than the diameter of the geogrid holes, so that the geogrid keeps it from slipping up and off on the member 66. Geogrid sheet 18 fits and is held on member 66 between the lower edge of plate 62 and cap 67.
[0026]
The protrusions 64 are preferably formed in the plate 62 by pressing and molding a plate. As a result, a corresponding recess 68 is created in the opposite side of the plate. However, the protrusions can also be non-hollow, as in the embodiment of FIG.
[0027]
As shown in FIGS. 13 and 14, a protrusion ring or flange 70 is formed around the base of each protrusion 64 on the top surface of the plate 62. The flange includes an upper end or lip 72. The flange 70 has special application, such as when the interconnect member is used in a wall where the wall building unit is a sand / soil bag. In this case, some of the protrusions 64 may open a hole in the bag installed on the top surface of the interconnect member, causing sand to leak from the bag. The role of the flange 70 is to urge the periphery of the protrusion 64 so that it can be pressed against the bag to reduce such sand leakage and to reduce or stop sand or soil leakage from the hole. It is to seal. If so, and as shown in FIGS. 13 and 14, flange 70 may be used to reduce leakage from the bag under plate 62 that is perforated by protrusions 64 on the lower surface of plate 62. Can also be provided on the lower surface of the plate 62.
[0028]
The interconnect member 60 can be configured such that, in use, the geogrid retention member 66 is covered by a sand / soil bag located thereon. In this case, the distance between the row of members 66 and the row of protrusions 64 closest to it is relatively narrow, so that the sand / soil bag on the top surface of the interconnecting member 60 is free from protrusions 64 and geogrid retaining members. 66 is covered. Alternatively, the interconnect member 60 can be configured such that the geogrid retaining member 66 is not covered by the sand / soil bag located thereon during use. In this case, the distance between the row of members 66 and the row of protrusions 64 closest thereto is relatively long, so that the cross section of the plate 62 supporting the members 66 extends beyond the sand / soil bag, Not covered by them. In this case, in order to facilitate drainage through the retaining walls and to save material, i.e. to be able to reduce the manufacturing costs of the interconnect members, the geogrid retaining members 66 of the plates 62 And a hole (not shown) can be provided in a region between the nearest row of protrusions 64. Although described with reference to the embodiment of FIGS. 13 and 14, these functions are illustrated in FIGS. 15-16, 17-18, 19-20, 21-22, and 23-FIG. It will be appreciated that the embodiments shown in FIGS. 24, 25-26, 27-28 and 29-30 are equally applicable.
[0029]
15 and 16 show another embodiment of the interconnect member of FIGS. 13 and 14. The structure of the interconnect member 80 is the same as that of the interconnect member 60 of FIG. 14, except for the flange lip. Interconnect member 80 has a flange 74 with a concentric recess 78 therebetween and a lip with two concentric protrusions 76. Both protrusions 76 push the sand / soil bag located on the top of the interconnect member 72, in effect creating a double seal. The height of the concentric protrusions 76 on the lip may be the same or different. When the heights are different, the outer convex portion 76 is preferably slightly higher than the inner convex portion as shown in FIGS. 15 and 16. Its purpose is to provide as effective a seal as possible around the protrusion 64 against the perforated sand / soil bag. As in the embodiment of FIGS. 13-14, the flange 70 and the protrusion 74 can be formed only on the top surface of the interconnect member, or can be formed on both the top and bottom surfaces. .
[0030]
The geogrid holding member 66 of the interconnecting members 60 and 80 is a function that can be incorporated in the structure of the embodiment of the interconnecting member of FIGS. 2, 7, and 10. This function is not limited to use in interconnect members having the flanges of FIGS. Further, the function of the flange is not limited to the interconnect member having the geogrid holding member 66. Either function can be built into the interconnect member with or without other functions.
[0031]
17 and 18 are similar to the embodiment of FIGS. 13 and 14 except for the interconnecting member indicated by reference numeral 90 except that it does not include the function of a sealing flange around the protrusion 64. It is an embodiment.
[0032]
FIGS. 19-30 illustrate embodiments of interconnect members that are otherwise configured for geogrid retention members to be effectively attached to geogrid sheets.
19 to 24, the geogrid holding member 94 includes a first upright portion 96 protruding upward from the plate 62 and a second horizontal portion 98 extending from the upright portion in the direction of the protrusion 64. It is almost L-shaped. When the geogrid sheet 18 is mounted on the holding member 94 by inserting the portion 98 into the hole of the geogrid and pulling the geogrid downward in the direction of the upright portion 96, the horizontal portion 98 is held by the sheet. The member 94 is held so as not to slip.
[0033]
19 and 20 are embodiments of an interconnect member, indicated by reference numeral 95, having a geogrid retaining member 94. FIG. The structure of the remaining part of the interconnection member 95 is the same as the embodiment shown in FIGS.
[0034]
FIGS. 21 and 22 are other embodiments of an interconnect member indicated by reference numeral 100 having a geogrid retaining member 94. The structure of the remaining part of the interconnection member 100 is the same as the embodiment shown in FIGS.
[0035]
FIGS. 23 and 24 are other embodiments of an interconnect member, indicated by reference numeral 102, having a geogrid retaining member 94. The structure of the remaining part of the interconnection member 102 is the same as the embodiment shown in FIGS.
[0036]
Referring to FIGS. 25-30, the geogrid retaining member 104 is a tapered post having a relatively narrow base 109 and a relatively wide top 108. The horizontal cross section of the member 104 is substantially rectangular. The side 106 closest to the protrusion 64 is inclined upward in the direction of the protrusion 64. The top 108 of the member 104 has a size and shape that fits easily into the hole in the geogrid sheet. When the geogrid sheet 18 is mounted on a set of geogrid retaining members 104 on the interconnect members, the wide tapered top of the geogrid retaining member 104 retains the sheet from slipping.
[0037]
FIG. 25 and FIG. 26 are one embodiment of an interconnect member indicated by reference numeral 110 having a geogrid retaining member 104. The structure of the remaining part of the interconnecting member 110 is the same as the embodiment shown in FIGS.
[0038]
FIG. 27 and FIG. 28 show another embodiment of an interconnection member indicated by reference numeral 112 having a geogrid holding member 104. The structure of the remaining part of the interconnection member 112 is the same as that of the embodiment shown in FIGS.
[0039]
FIG. 29 and FIG. 30 are other embodiments of an interconnect member indicated by reference numeral 114 having a geogrid retaining member 104. The remaining structure of the interconnect member 114 is the same as the embodiment shown in FIGS. 17-18.
[0040]
The interconnect members of the present invention can also be used in applications that do not use a geogrid, or applications that use a geogrid but the geogrid is not attached to a retaining wall. For such applications, the interconnect member does not include the geogrid retention member described above. 31-33 show another embodiment of such an interconnect member. FIG. 31 shows an interconnect member 116 that is similar in structure to that shown in FIGS. 17-18, but does not include a geogrid retaining member. FIG. 32 shows an interconnect member 118 that is similar in structure to that shown in FIGS. 13-14, but does not include a geogrid member. FIG. 33 shows an interconnect member 120 that is similar in structure to that shown in FIGS. 15-16 but does not include a geogrid retaining member.
[0041]
The retaining wall of the present invention can include a cover plate that attaches to the face of the wall if desired. Referring to FIGS. 11 and 12, the cover plate assembly 30 has a generally rectangular cover plate 32 that can be made of wood, concrete, plastic or other material. Plate 32 has opposing edges 34, 36 and 38, 40 and has a bore 42 at each corner that can accommodate mounting rod 44. As shown in FIG. 11 (b), the mounting rod 44 has a tortuous portion 46 and a point 48 at one end and is threaded at the other end for engagement with a nut 50 having a head 52. Have a mountain. The mounting rod 44 is attached to the cover plate 32 by being inserted through the bore 42 and engaging the nut 50.
[0042]
The cover plate assembly 30 is made of a curable building material such as a sand / soil bag or (as opposed to a wall made of newly formed molded blocks) such as a cement and aggregate bag. In order to improve the durability and appearance of the wall, it is used in special applications for the retaining wall of the present invention. The cover plate assembly is attached to the wall by pushing the pointed end of the rod into the bag until the inside of the cover plate 32 strikes the wall. The tortuous portion 46 of the rod 44 enhances the engagement of the rod within the sand / soil bag fill material or the material of the curable building unit. To cover almost completely, an additional cover plate assembly is attached to the wall in abutment with each other. As shown in FIG. 11, since the opposing edges 34, 36 and 38, 40 are concave on one side and convex on the other side, the edge of the cover that is abutting is aligned with the cover. And engage in a nested state together to engage to some extent. The cover is preferably arranged to form a zigzag arranged brick wall type array as shown in FIG.
[0043]
If desired, the rod 44 may have a sand / soil bag fill material, or other engagement means for engaging within a curable building unit, instead of the tortuous portion 46. For example, the rod 44 can have threads, protrusions or other structures for engagement.
[0044]
In view of the foregoing description, it will be apparent to those skilled in the art that various changes and modifications may be made in practice without departing from the spirit or scope of the invention. For example, the interconnect members can be made flexibly to fit the shape of the wall building unit. To enhance attachment to the wall building unit, the protrusions on the interconnect member can be provided with needle-like protrusions that can protrude at various angles other than perpendicular to the plate. it can. Accordingly, the scope of the invention should be construed in accordance with the subject matter defined in the following claims.
[Brief description of the drawings]
FIG. 1 is an end cross-sectional view of a retaining wall structure according to one embodiment of the present invention.
FIG. 2 is a perspective view of one embodiment of an interconnect member.
3 is a cross-sectional view taken along line 3-3 in FIG.
FIG. 4 is a perspective view of a course of a sand / soil bag that includes an interconnect member placed thereon.
FIG. 5 is a cross-sectional view of a sand / soil bag course that is adjacent and interconnected.
FIG. 6 (a) shows the steps of a method for manufacturing a retaining wall structure.
FIG. 6 (b) shows the steps of the method for manufacturing the retaining wall structure.
FIG. 6 (c) shows the steps of the method for manufacturing the retaining wall structure.
FIG. 6 (d) shows the steps of the method for manufacturing the retaining wall structure.
FIG. 6 (e) shows the steps of the method for manufacturing a retaining wall structure.
FIG. 7 is a perspective view of another embodiment of an interconnect member.
FIG. 8 is a perspective view of another embodiment of an interconnect member.
FIG. 9 is a perspective view of another embodiment of an interconnect member.
FIG. 10 is a perspective view of another embodiment of an interconnect member.
FIG. 11 (a) is a perspective view of a cover / plate assembly and its members.
FIG. 11 (b) is a perspective view of the cover plate assembly and its members.
FIG. 11 (c) is a perspective view of the cover / plate assembly and its members.
FIG. 12 is a perspective view of a wall including a cover plate assembly attached thereto.
FIG. 13 is a perspective view of another embodiment of an interconnect member.
14 is a cross-sectional view taken along the line 14-14 in FIG. 13 with a geogrid sheet attached.
FIG. 15 is a perspective view of another embodiment of an interconnect member.
16 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 16-16 in FIG.
FIG. 17 is a perspective view of another embodiment of an interconnect member.
18 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 18-18 in FIG.
FIG. 19 is a perspective view of another embodiment of an interconnect member.
20 is a cross-sectional view taken along the line 20-20 in FIG. 19 with a geogrid sheet attached.
FIG. 21 is a perspective view of another embodiment of an interconnect member.
22 is a cross-sectional view taken along the line 22-22 in FIG. 21, with a geogrid sheet attached.
FIG. 23 is a perspective view of another embodiment of an interconnect member.
24 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 24-24 in FIG. 23. FIG.
FIG. 25 is a perspective view of another embodiment of an interconnect member.
26 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 26-26 in FIG. 25. FIG.
FIG. 27 is a perspective view of another embodiment of an interconnect member.
FIG. 28 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 28-28 in FIG.
FIG. 29 is a perspective view of another embodiment of an interconnect member.
30 is a cross-sectional view showing a state where a geogrid sheet is attached, cut along line 30-30 in FIG. 29. FIG.
FIG. 31 is a perspective view of three other embodiments of interconnect members.
FIG. 32 is a perspective view of three other embodiments of interconnect members.
FIG. 33 is a perspective view of three other embodiments of interconnect members.

Claims (26)

Interconnecting member for attaching a first horizontally extending course of the wall building unit (14) to a second horizontally extending course of the wall building unit located vertically adjacent to said first course ( 26) comprising a body (22) comprising a protrusion (24) that can project into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface. Each surface is a plate (22) having a plurality of the protrusions (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Can extend across at least a portion of a wall building unit (14) such that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units. And the protrusion on the lower surface is disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when the interconnection member is disposed on the first course. Consisting of at least three protrusions,
And further comprising a set of geogrid retaining members (66, 94, 104) on the upper surface of the plate that is shaped and adapted to protrude through the holes (28) in the geogrid sheet (18);
An interconnect member further comprising a retention cap (67) attached to said geogrid retention member (66) for retaining a geogrid sheet (18) thereon. Interconnecting member for attaching a first horizontally extending course of the wall building unit (14) to a second horizontally extending course of the wall building unit located vertically adjacent to said first course ( 26) comprising a body (22) comprising a protrusion (24) that can project into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface. Each surface is a plate (22) having a plurality of the protrusions (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Can extend across at least a portion of a wall building unit (14) such that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units. And the protrusion on the lower surface is disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when the interconnection member is disposed on the first course. Consisting of at least three protrusions,
And further comprising a set of geogrid retaining members (66, 94, 104) on the upper surface of the plate that is shaped and adapted to protrude through the holes (28) in the geogrid sheet (18);
An interconnect member wherein the geogrid retaining member is a tapered post (104) having a top (108) wider than a base (109). Interconnecting member for attaching a first horizontally extending course of the wall building unit (14) to a second horizontally extending course of the wall building unit located vertically adjacent to said first course ( 26) comprising a body (22) comprising a protrusion (24) that can project into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface. Each surface is a plate (22) having a plurality of the protrusions (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Can extend across at least a portion of a wall building unit (14) such that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units. And the protrusion on the lower surface is disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when the interconnection member is disposed on the first course. Consisting of at least three protrusions,
Furthermore, a flange (70) is provided around the base of the protrusion on the upper surface of the plate (62), the flange having a lip (72) for sealing against a wall building unit (14). Connection member. The interconnect member of claim 3 , wherein the lip (72) of the flange has two or more concentric sealing protrusions (76). Interconnecting member for attaching a first horizontally extending course of the wall building unit (14) to a second horizontally extending course of the wall building unit located vertically adjacent to said first course ( 26) comprising a body (22) comprising a protrusion (24) that can project into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface. Each surface is a plate (22) having a plurality of the protrusions (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Can extend across at least a portion of a wall building unit (14) such that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units. And the protrusion on the lower surface is disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when the interconnection member is disposed on the first course. Consisting of at least three protrusions,
And further comprising a set of geogrid retaining members (66, 94, 104) on the upper surface of the plate that is shaped and adapted to protrude through the holes (28) in the geogrid sheet (18);
An interconnection member in which the geogrid retention member (94) is substantially L-shaped. Interconnecting member for attaching a first horizontally extending course of the wall building unit (14) to a second horizontally extending course of the wall building unit located vertically adjacent to said first course ( 26) comprising a body (22) comprising a protrusion (24) that can project into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface. Each surface is a plate (22) having a plurality of the protrusions (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Can extend across at least a portion of a wall building unit (14) such that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units. And the protrusion on the lower surface is disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when the interconnection member is disposed on the first course. Consisting of at least three protrusions,
An interconnect member in which the plate has a semi-cylindrical shape.   A retaining wall structure, forming a first horizontally extending course and a first plurality of wall building units (14) located adjacent to each other forming a first horizontally extending course; A plurality of second wall building units located adjacent to each other on the first course, and an interconnection member (26) between the first course and the second course. The interconnecting member comprises a body (22) including a protrusion (24) capable of projecting into the wall building unit of the first course and the second course, the body comprising an upper surface and a lower surface; Each surface is a plate (22) having a plurality of projections (24) thereon, the plates being adjacent to the two horizontal directions of the first course or the second course Across at least part of the wall building unit (14) Retaining wall extending and arranged so that the protrusion (24) on the upper surface or the lower surface protrudes into the two horizontally extending adjacent wall building units (14) Structure. The retaining wall structure according to claim 7 , further comprising a geogrid sheet (18) extending between the first and second courses into the embankment behind the retaining wall structure. The sheet (18) has a plurality of holes (28) therein, and the geogrid sheet has the first or second set of protrusions (24) in the geogrid sheet (18). Retaining wall structure located so as to protrude through said hole (28). The retaining wall structure according to claim 7 , wherein the interconnection member (60, 80, 90, 95, 100, 102, 110, 112, 114) is further provided with a hole in the geogrid sheet (18) ( 28) comprising a set of geogrid retaining members (66, 94, 104) on the upper surface of the plate that are specifically shaped and adapted to protrude through 28), the retaining wall structure further comprising the first and first A geogrid sheet (18) extending between the two courses into the embankment behind the retaining wall structure, the geogrid sheet having a plurality of holes (28) therein, and A retaining wall structure in which a geogrid holding member (66, 94, 104) is arranged so as to protrude from the hole (28) of the geogrid sheet (18). The retaining wall structure according to claim 9 , wherein the second course of the wall building unit (14) covers the geogrid holding member (66, 94, 104). The retaining wall structure according to claim 9 , wherein the second course of the wall building unit (14) does not cover the geogrid holding member (66, 94, 104). Retaining wall structure according to claim 7 , wherein the wall building unit (14) is a sand / soil bag. Retaining wall structure according to claim 7 , wherein the wall building unit (14) is a curable building unit. The retaining wall structure of claim 12 , wherein the sand / soil bag includes a transparent cover and a decorative colored fill. The retaining wall structure of claim 12 , wherein the sand / soil bag includes ground cover seeds.   A method of constructing a retaining wall structure having a plurality of courses of a wall construction unit (14), wherein the first plurality of wall constructions are adjacent to each other to form a first horizontally extending course. Installing a unit (14); and a body (22) having a protrusion (24) that can project into the wall building unit (14) of a course that is vertically adjacent on the first course. Providing an interconnecting member (26) comprising: a second horizontal on the first course such that the protrusion (24) protrudes into the wall building unit (14) of the second course; Installing a second plurality of wall building units (14) adjacent to each other to form an extended course, wherein the body is a plate having an upper surface and a lower surface, each surface being Multiple on it With protrusions (24), the plate (22) can extend across at least a portion of two horizontally adjacent wall building units (14) of the first course or the second course. The protrusions (24) on the upper surface or the lower surface are arranged to protrude into the two horizontally extending adjacent wall building units, the protrusions on the lower surface being connected to the interconnect member by the first A method comprising at least three protrusions disposed on the lower surface for supporting the plate in a generally horizontal position on the first course when disposed on one course. 17. The method of claim 16 , further comprising a geo extending from the top of the first course to the embankment behind the retaining wall structure prior to installing the interconnecting member (26) on the first course. The grid sheet (18) is inserted into the wall construction unit (18) of the first course through the hole (28) in the first set of protrusions (24) in the geogrid sheet (18). A method comprising the step of installing to protrude. 17. The method of claim 16 , further comprising: prior to installing the second plurality of wall building units (14) to form the second course, from the top of the first course, the retaining wall. A geogrid sheet (18) on the interconnecting member (26) extending to the embankment behind the structure, and the first set of protrusions (24) are holes in the geogrid sheet (18). (28) including the step of installing to project into the wall building unit (14) of the second course through. 17. The method according to claim 16 , wherein the interconnecting member (60, 80, 90, 95, 100, 102, 110, 112, 114) further passes through a hole (28) in a geogrid sheet (18). A set of geogrid retaining members (66, 94, 104) on the upper surface of the plate shaped and adapted to protrude, the method further comprising in a fill behind the retaining wall structure Attaching a geogrid sheet (18) to the interconnecting member extending. 17. The method according to claim 16 , wherein the wall building unit (14) is a sand / soil bag. 17. A method according to claim 16 , wherein the wall building unit (14) is a curable building unit. The method according to claim 21 , further comprising the step of curing or curing the curable building unit (14). 17. The method of claim 16 , further comprising the step of attaching a cover plate assembly (30) to the retaining wall structure to form a cover that is substantially continuous to the surface of the retaining wall structure. Including methods. A retaining wall structure, forming a first horizontally extending course and a first plurality of sand / soil bags located adjacent to each other and forming a second horizontally extending course A second plurality of sand / soil bags positioned adjacent to each other on the first course, and an interconnection member between the first course and the second course, the interconnection A member comprises a plate having an upper surface and a lower surface, each surface having a plurality of the protrusions (24) thereon, wherein the protrusions are the sand / sand of the first course and the second course. Configured to protrude into a soil bag, the plate extending across at least a portion of two horizontally adjacent sand / soil bags of the first course or the second course; The protrusion on the upper surface or the lower surface is in front Arranged to project into two horizontally extending adjacent sand / soil bags, the protrusions on the lower surface projecting the plate when the interconnecting member is disposed on the first course A retaining wall structure comprising at least three protrusions disposed on the lower surface for supporting in a substantially horizontal position on the first course. The retaining wall structure according to claim 24 , further comprising a geogrid sheet extending from between the first and second courses into a fill behind the retaining wall structure, the geogrid sheet comprising: The geogrid sheet has a plurality of holes therein, and the geogrid sheet is positioned such that at least a part of the protrusions on the upper surface or the lower surface of the plate protrudes through the holes of the geogrid sheet. Wall structure. A retaining wall structure, forming a first horizontally extending course and a first plurality of sand / soil bags located adjacent to each other and forming a second horizontally extending course A second plurality of sand / soil bags positioned adjacent to each other on the first course, and an interconnection member between the first course and the second course, the interconnection A member comprises a plate having an upper surface and a lower surface, each surface having a plurality of the protrusions (24) thereon, wherein the protrusions are the sand / sand of the first course and the second course. Configured to protrude into a soil bag, the plate extending across at least a portion of two horizontally adjacent sand / soil bags of the first course or the second course; The protrusion on the upper surface or the lower surface is in front The plate adapted to project into two horizontally extending adjacent sand / soil bags, the interconnect member further shaped and adapted to protrude through a hole in the geogrid sheet A set of geogrid retaining members on the top surface of the geogrid, the retaining wall structure further extending between the first and second courses into a fill behind the retaining wall structure. Comprising a sheet, the geogrid sheet having a plurality of holes therein, wherein the geogrid sheet is positioned such that the geogrid holding member protrudes through the holes in the geogrid sheet. Retaining wall structure.

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