JP2879387B2 - Retaining wall block assembly members and joining method - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a retaining wall block assembly member and a joining method thereof.

[0002]

2. Description of the Related Art It is already known to construct a retaining wall at a construction site using a retaining wall block precast in a concrete factory, and recently, a large-sized precast product is required.

[0003] However, even though a large precast product can be produced in a concrete factory, trucks for transporting the product to the construction site have a height limit and a width limit for the load, so that the factory can produce the product. The size of the precast product of the retaining wall block that can be supplied to the construction site has its own restrictions.

Therefore, Japanese Patent Publication No. Sho 61-23092 and Japanese Patent Publication No. Sho 61-32465 add restrictions to the length of the bottom plate portion of the precast retaining wall block.
It has been proposed that the height limit at the time of the transportation is cleared, and at the construction site, the insufficient length of the bottom plate is extended with cast-in-place reinforced concrete, and Japanese Patent Publication No. 60-58336 discloses a method. The precast casting retaining wall block is precast in a pre-divided shape, and a joint frame made of metal or plastic is fixed to the divided portion, and the divided portion of the precast product is constructed through the joint frame. It has been proposed that the joints be connected on site and the joint frames be finished with mortar if necessary.

[0005]

According to the above-mentioned prior art, a precast product can be formed into a size that can be transported by a truck, and it can be used to construct a retaining wall at a construction site. However, these prior arts have the following problems, respectively.

That is, in the case of the precast retaining wall block disclosed in Japanese Patent Publication No. Sho 61-23092, it is necessary to extend the insufficient length of the bottom plate portion with cast-in-place concrete. However, in the construction method where the entire length of the bottom plate is short on site at the construction site,

[0007] Since the amount of concrete required for cast-in-place becomes too large, the greatest advantage of the precast retaining wall block, such as labor saving and rapid construction at the construction site, is lost. .

[0008] At construction sites, the cast-in-place concrete often refills the back of the wall while the cast-in-place concrete is uncured, which is likely to cause serious defects. Moreover,
Since such defects occur in backfilled soil, it is almost impossible to find and detect the occurrence of the defects.

In particular, at a construction site of a retaining wall, usually, 3
For every layer thickness of about 0 cm, rolling pressure by heavy equipment such as a bulldozer is applied to the back soil, and at that time, the cross-sectional shape of the uncured concrete may be deformed, or the position of the reinforcing bar may be moved. There is a risk that, for this reason, the load-carrying capacity of the cast-in-place concrete portion is smaller than the originally designed value, and the effective thickness may not be ensured in the extension of the cast-in-place bottom plate. . Therefore, the safety of the retaining wall may not be ensured.

There is a disadvantage that such a problem is apt to occur.

The construction method of the pre-cast retaining wall block disclosed in Japanese Patent Publication No. 61-32465 is as follows.
Since this is a method of concrete-casting by connecting a step side groove in a direction perpendicular to the length direction of the bottom plate portion to the bottom plate portion of the retaining wall block, the above-described problem does not occur in this method. However, this method has a problem that a long bottom plate cannot be added to the bottom plate.

[0012] In this regard, the construction method of the retaining wall disclosed in Japanese Patent Publication No. 60-58336 discloses a method in which a bottom plate block that has been precast in advance is replaced with a horizontal wall of the retaining wall block that has been precast in advance at a construction site. Since this method is a method of connecting to a conventional art, there is no problem based on the above-mentioned prior art (Japanese Patent Publication No. 61-23092).

However, in the case of the joint frame made of metal or plastic according to the prior art, even if mortar is cast on the joint frame portion at the construction site, the joint frame having the shape as disclosed is not provided. Since the joint between the cast mortars is a vertical joint surface, this vertical joint surface will try to float in this concrete mortar by the breathing phenomenon until the concrete mortar hardens. Water, air and latencies, which are lighter than concrete,
Since the water rises along the vertical joint surface, a trace of moisture and a trace of air bubbles are formed on the vertical joint surface. I do. That is, it is adversely affected by the breathing phenomenon.

Therefore, in the method of forming a retaining wall according to the prior art, the connecting portion by the joint frame is still similar to the bottom plate portion of the retaining wall constructed by integral reinforced concrete cast in place. There is a fatal disadvantage that sufficient strength cannot be obtained.

Therefore, the present invention provides a method for manufacturing a large-sized retaining wall member precast product in a concrete factory even if the length of the bottom plate portion of the precast retaining wall block is restricted. Without the drawbacks described above, the bottom plate portion of the precast retaining wall block is provided with a precast bottom plate extension member having a sufficient length at the construction site, giving the strength as if it were a precast reinforced concrete product. It is an object of the present invention to provide a new retaining wall block assembly member that can be added and a joining method thereof.

[0016]

The technical means adopted by the present invention to achieve the above object is as follows.

In other words, the retaining wall block assembly member according to the present invention comprises a precast vertical wall member having a bottom wall portion of an appropriate length integrally formed at the lower end of the vertical wall, and an end of the basic bottom plate portion. a retaining wall block assembly member ing a combination of Purekiyasuto bottom plate extension member for annex bonded to the lengthwise direction of the bottom plate portion parts. Both the joining side end face of the basic bottom plate portion of the vertical wall member and the joining side end face of the bottom plate extension member joined to this end face are both formed on upward slopes, and
A large number of reinforcing bars of an appropriate length are protrudingly provided on each of the joint side end surfaces, or a large number of reinforcing bar mounting means (insert nuts) are buried . The joint side end face of the bottom plate extension member and the vertical wall member
Appropriate joint spacing is provided between the basic bottom plate and the joint end face.
In addition, a frame for connecting both end faces at both sides
The body is in the width direction of the joint side end face of the bottom plate extension member.
Basic bottom plate of the vertical wall member protruding from both ends
At the both ends in the width direction of the joint side end face of the portion, the bottom plate
The tip of a pair of frames protruding from the joint-side end surface of the extension member
Notch step for external fitting of the end
And, and,. Each end face of the pair of frame bodies is a downward slope.
And the notch stepped portion is opposed to the front end surface of the frame body.
Each of the facing abutment surfaces is formed on an upward slope.
When the two are brought into surface contact, the bottom plate extension member is
Positioning on the specified extension line with respect to the basic bottom plate part of the member
In the method of joining a retaining wall block assembly member according to the present invention, a basic bottom plate portion having an appropriate length is integrally formed at a lower end portion of a vertical wall. A method for joining a retaining wall block assembly member, wherein a precast bottom plate extension member is added to an end face of the basic bottom plate portion of the precast vertical wall member . When precasting the vertical wall member and the bottom plate extension member, both the joining side end surface of the basic bottom plate portion of the vertical wall member and the joining side end surface of the bottom plate extension member to be joined to this end surface, In addition to being formed on an upward slope, a number of reinforcing bars of an appropriate length are respectively protruded or reinforced with a number of reinforcing bar mounting means (insert nuts) at the joint side end surfaces of the above-mentioned two sides. An appropriate gap is provided between the joining side end face of the basic bottom plate portion of the vertical wall member and the joining side end face of the bottom plate extension member, concrete is poured into the gap, and the both end faces are connected with reinforced concrete. Doing, and . Joining the above retaining wall block assembly members at the construction site
When performing the above, the basic bottom plate portion of the vertical wall member and the bottom plate extension member
The construction ground between, By forming the groove in advance appropriate depth
The base plate portion of the vertical wall member and the bottom plate extension member
With concrete poured between both members to connect between
As a result, the anti-slip projection is formed at the joint between the two members.
Is performed .

[0018]

The retaining wall block assembling member according to the present invention is constituted by a precast vertical wall member and a precast bottom plate extension member, and the vertical wall member has an appropriate length at the lower end of the vertical wall. Since the basic bottom plate portion is only formed integrally, the vertical wall member has the length of the basic bottom plate portion, and the wall surface or side surface of the vertical wall of the vertical wall member is used as a truck bed. If it is set to a length that allows it to be transported without breaking traffic rules when it is loaded on a truck by contacting it, a precast vertical wall member with a sufficiently high vertical wall, It can be transported by truck to the construction site.

In the retaining wall assembly according to the present invention, both the joining side end face of the basic bottom plate portion of the vertical wall member and the joining side end face of the bottom plate extension member joined to this end face are provided with:
In each case, a large number of reinforcing bars of an appropriate length are protruded or a large number of reinforcing bar mounting means are buried, so when the reinforcing bar is not protruding, the reinforcing side mounting means is connected to the joint side end face via the reinforcing bar mounting means. After the rebar is attached, the basic bottom plate portion of the vertical wall member is placed at a predetermined position (ground or foundation concrete surface) of the construction site, and the vertical wall is erected, and the basic bottom plate portion is joined. An appropriate distance (preferably 1 m or less) is provided between the side end surface and the joining side end surface of the bottom plate extension member joined to the end surface, and the bottom plate extension member is placed on an extension of the basic bottom plate portion. If necessary, the reinforcing bars projecting from the joining side end faces of the two opposing sides were connected to each other, and concrete was cast in the gap between both end faces. With reinforced concrete On the extension of the base bottom plate portion of the wall member, it is possible to annex by bonding bottom plate extension member.

Further, the vertical wall member and the bottom plate extension member constituting the retaining wall block assembly member according to the present invention are connected to the joint side end face of the former basic bottom plate portion joined to each other by cast-in-place concrete. Since both of the joining side end surfaces of the latter bottom plate extension member are particularly formed on the upward slope, according to the present invention, the joining area of the cast concrete is increased, and the two are strongly connected. Not only can it be joined, but also the following phenomena can be caused in the concrete cast in the space between the two end faces.

That is, since the specific gravity of the concrete is generally about 2.3, a breathing phenomenon occurs in the freshly cast concrete, and a lighter material such as water, air, and latencies tends to float. I do. Moreover, all of these lightweight objects impair the strength of concrete. Therefore, the cast concrete is vibrated to make its structure dense. Therefore, in the poured concrete, the water, the air, and the latencies (which hinder the joining force) float up in the concrete until it solidifies. . However, in the retaining wall block assembling member according to the present invention, since the joining surfaces of the precast members to the concrete cast in place are all formed on particularly upward slopes, these joining force obstacles are affected. There is no possibility that a phenomenon such as rising along the joining surface will occur. Therefore, the joint surface of the cast-in-place concrete of the retaining wall block assembly member according to the present invention has no adverse effect due to breathing. That is, as described in the related art, no trace of water or a trace of air bubbles is formed, and no latency is attached to the joint surface. Therefore, the retaining wall block assembling member according to the present invention is provided between the basic bottom plate portion and the bottom plate extension member of the vertical wall member constituting the same.
By the method of the present invention, extremely strong bonding can be achieved.

In addition, according to the method of the present invention, a method for joining a basic bottom plate portion of a wall member and a bottom plate extension member is to provide a desired space between both members at a construction site, Since it is a method of joining between the joining side end faces of both members by casting concrete, when joining the two members, it is preferable to form a groove of an appropriate depth in advance on the construction ground of the gap portion. , With concrete cast between both members,
A strong anti-slip projection can be formed between the two members, and the presence of the projection buried in the soil can reduce the stress level near the connection between the two members. .

Also, at both ends in the width direction of the joining-side end face of the bottom plate extension member, an appropriate concrete casting interval is provided between the end face and the joining-side end face of the basic bottom plate portion of the vertical wall member. A frame for connecting the space between both end surfaces at both sides thereof is precast and projected, and at both ends in the width direction of the joining side end surface of the basic bottom plate portion of the vertical wall member, A notch step portion for externally fitting the front ends of the pair of frame members protruding from the joint side end surfaces of the bottom plate extension member is formed, and a pair of projections provided on the bottom plate extension member is formed. Forming the front end face of the frame body on a downward slope, and forming an abutment surface facing the front end face of the frame body of the step portion formed on the basic bottom plate portion of the vertical wall member,
If it is formed on an upward slope, at the construction site, the frame projecting from the bottom plate extension member is externally fitted to a notch step formed on the basic bottom plate portion of the vertical wall member. By abutting the front end surface of the frame body against the abutting surface of the step portion, the extension position of the bottom plate extension member with respect to the basic bottom plate portion of the vertical wall member can be changed in the width direction, the length direction, and the height direction of the bottom plate. Can be easily and accurately positioned and joined together.

[0024]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Referring to FIGS. 1-3, a preferred embodiment of the retaining wall block assembly of the present invention relates to an L-shaped retaining wall, as shown in FIG. It is constituted by a wall member 1 and a bottom plate extension member 2.

First, the vertical wall member 1 will be described. The vertical wall member 1 has a predetermined height H as shown in FIG.
And vertical wall portion 11 width W is given, be configured with at the base bottom plate portion 12 which appropriate lengths L ₁ and a predetermined width W is given, the lower end of the rising wall portion 11 The basic bottom plate portion 12 is integrally precast, and the joining side end surface 12a of the basic bottom plate portion 12 has an appropriate inclination angle θ.
(Θ <85 °) is formed on the upward slope, and a large number of reinforcing bars 3 are protruded from the end face 12a.

In the retaining wall block assembly member of this embodiment, both ends of the joining side end surface 12a are particularly
It is precast in a shape that is partially cut out in advance,
A pair of abutment surfaces 13a, 13a are formed by the notch step portions 13, 13 on both sides, and the pair of abutment surfaces 13a, 13a respectively have an inclination angle similar to that of the joint end surface 12a. θ ′ (see FIG. 2) is formed on the upward slope.

Next, the bottom plate extension member 2 will be described. The bottom plate extension member 2 of this embodiment is provided with a predetermined width W and an appropriate length L ₂ , and the joint-side end face 2 a thereof has an appropriate length. It is formed on an upward slope having an inclination angle θ (θ <85 °), and a large number of reinforcing bars 4 are protruded from the end face 2a.

In the retaining wall block assembling member of this embodiment, a pair of frame members 2 are provided at both ends of the joint side end surface 2a.
The pair of frames 21 and 21 have the width w, the length 1 and the shape thereof as follows. That is, the pair of frames 21 has a desired distance D (preferably D> 1 m) between the joint-side end surface 2a and the joint-side end surface 12a of the basic bottom plate portion 12 of the vertical wall member 1. (See FIG. 2), the frame body 21. 2 is opposed to the end face 12 a.
1 is externally fitted to the pair of notch steps 13 formed on both sides of the joint side end face 12a of the basic bottom plate portion 12, and the front end faces 21a 21a of the frame bodies 21 are
It is set in advance so as to be able to abut against the upward slope of the abutment surfaces 13a of the steps 13. That is, the tip surfaces 21a are formed as inclined surfaces having a downward inclination angle (180 ° −θ ′).

The retaining wall block assembly member of this embodiment, in which the vertical wall member 1 and the bottom plate extension member 2 are configured as described above,
At the construction site, first, the vertical wall 11 of the vertical wall member 1 is erected and its basic bottom plate portion 12 is placed in a predetermined position (see FIGS. 2 and 3), and then joined to the basic bottom plate portion 12. The joining side end surface 2a of the bottom plate extension member 2 is made to face the joining side end surface 12a of the basic bottom plate portion 12, and the distal ends of a pair of frames 21 of the bottom plate extension member 2 are attached to the basic bottom plate portion 12. Are fitted to the pair of notch step portions 13, 13, and the front end surfaces 21 a, 21 a of the former are
a and 13a, a predetermined distance D is provided between the basic bottom plate portion 12 and the extended bottom plate portion 2, and the bottom plate extension member 2 is positioned at a predetermined position on the extension line of the basic bottom plate portion 12. Can be installed.

Next, the reinforcing bars 3 and 4 protruding from the joint side end surfaces 12a and 2a of the base bottom plate portion 12 and the bottom plate extension member 2 are connected to each other, and concrete 5 is cast into the space D in place. Then, between the joint-side end faces 12a and 2a of the two 12 and 2 facing each other, the reinforced concrete 3
Connection can be made by using 4.5 (see FIGS. 2 and 3).

In FIG. 3, reference numeral 6 denotes a groove formed at an appropriate depth in the ground of the retaining wall construction site, and 7 denotes a reinforcing bar provided in the groove 5. When the concrete 6 is set in advance at the position where the concrete 5 is to be poured into the joint space D between the vertical wall member 1 and the bottom plate extension member 2, the basic bottom plate of the vertical wall member 1 is used. Concrete 5 cast in place between the part 12 and the bottom plate extension 2
By letting it flow into the groove 6, the anti-slip projection 8 can be formed at the joint between the two members 12 and 2, and the bottom plate can be joined in the width direction.

As described above, the retaining wall block in which the basic bottom plate portion 12 of the vertical wall member 1 and the bottom plate extension member 2 are integrally connected with the cast-in-place concrete 5 is composed of the basic bottom plate portion 12 and the extended bottom plate. Part 5 of the above concrete 5
Are formed on the upwardly sloped surface, so that in the concrete 5 cast in place in the space D, a breathing phenomenon occurs until the concrete 5 hardens. Light objects such as water, air, and latence floating in the concrete 5 are not directed along the joining-side end faces 12a and 2a which are inclined upward, as shown in FIG. Will rise. Therefore,
There is no trace of rising water or air bubbles between the concrete 5 cast in place in the gap D and the joining end faces 12a, 2a.
Laithance does not adhere to a.2a. That is, no adverse effects due to breathing occur on the joining side end surfaces 12a and 2a.

In the above-described embodiment, there has been shown an example in which the reinforcing bars 3 and 4 are protruded from the joining side end surfaces 12a and 2a of the precast vertical wall member 1 and the bottom plate extension member 2, respectively. However, in another embodiment, a large number of insert nuts 9 for attaching a reinforcing bar may be embedded in each of the end faces in place of the reinforcing bars 3 and 4 (see FIG. 5).

In the above embodiment, the frame members 21 are provided at both ends in the width direction of the joint-side end surface 2a of the bottom plate extension member 2 constituting the retaining wall block assembly member. Joining end face 12 of basic bottom plate portion 12 of member 1
In the example shown in FIG. 6, notch step portions 13 are formed at both ends in the width direction of a for externally fitting the front ends of the frame bodies 21 with each other. As shown in the figure, the bottom plate extension member 2 in which the frame body 21 does not protrude as described above, and the notch step portion 1 as described above
The retaining wall block assembling member may be constituted by a combination with the vertical wall member 1 in which 3 is not formed.

In each of the above embodiments, the present invention is applied to an L-shaped retaining wall block. However, as shown in FIG. 7, the present invention is applied to an inverted T-shaped retaining wall. It goes without saying that this can be implemented.

[0036]

As is apparent from the above description, the vertical wall member and the bottom plate extension member constituting the retaining wall block assembly member according to the present invention have the above-described structures. When this is joined by the joining method of the present invention, the above-described function can be obtained. Therefore, according to the retaining wall block assembly member of the present invention and the joining method thereof, It can solve all the problems of technology.

That is, on the basic bottom plate portion of the vertical wall member,
With a small amount of cast-in-place concrete, not only can a long bottom plate extension member be added, but also each joint surface between the basic bottom plate portion of the vertical wall member and cast-in-place concrete and between the bottom plate extension member and cast-in-place concrete can be added. Since there is no adverse effect due to the breathing, that is, the effect of reducing the adhesive force due to the breathing at the joining surface can be avoided, a strong joining strength can be obtained at the joining surface.

Further, as described above, the structure and the joining method of the retaining wall block assembly member according to the present invention are, as described above, made of concrete cast between the basic bottom plate portion of the vertical wall member and the bottom plate extension member as necessary. Therefore, since a projection for preventing slippage can be easily formed between both members, if such a projection is formed at a construction site, the presence of the projection causes the sliding resistance of the retaining wall block. In addition to increasing the effective thickness due to the presence of the protruding portions, the degree of stress near the joint between the two members can be reduced, and the bottom plate can be joined in the width direction. it can.

This means that even if a base plate extension member having a sufficient length is added to the basic bottom plate portion of the vertical wall member, the connection portion has a connection strength comparable to that of a reinforced concrete product integrally cast. Means that you can give.

According to the construction and the joining method of the retaining wall block assembling member according to the present invention, the cast-in-place concrete has a small surface area and an inverted trapezoidal vertical sectional shape. Applying compaction to the backfilled back soil has little adverse effect. In particular, when there is a frame as described above, a state surrounding both sides of the cast-in-place concrete can be obtained with this frame portion, so that the compaction load applied to the cast-in-place concrete can be further reduced. As a result, the adverse effect of the rolling load can be further reduced. In addition, there is an advantage that a mold for casting concrete is not required.

Therefore, according to the present invention, it is possible to fully utilize the potential of labor saving and rapid construction at the construction site, which are the advantages of the precast retaining wall block. The safety of the precast retaining wall block can be sufficiently ensured.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an embodiment of a retaining wall block assembly member, which shows a state before assembly.

FIG. 2 is a perspective view showing a state where the retaining wall block assembly member is assembled, and shows a state before concrete is poured.

FIG. 3 is a longitudinal sectional side view of the retaining wall block constructed with the retaining wall block assembly member.

FIG. 4 is a view for explaining a breathing phenomenon in cast-in-place concrete between a basic bottom plate portion of a vertical wall member and a bottom plate extension member, and the figure is a longitudinal side view of cast-in-place concrete.

FIG. 5 is a vertical sectional side view showing another embodiment of the basic bottom plate portion of the vertical wall member.

FIG. 6 is a perspective view showing another embodiment of the retaining wall block assembling member, which shows a state before assembling.

FIG. 7 is a schematic longitudinal sectional view showing another embodiment of the retaining wall block assembling member, showing the assembled state.

[Explanation of symbols]

DESCRIPTION OF SYMBOLS 1 Vertical wall member 2 Bottom plate extension member 2a Joining side end surface 3 Reinforcing bar 4 Reinforcing bar 5 Concrete 6 Groove 7 Reinforcing bar 8 Projection 9 Insert nut 11 Vertical wall portion 12 Basic bottom plate portion 12a Joining side end surface 13 Notch step 13a Abutment surface 21 Frame 21a Tip surface D Distance between basic bottom plate portion 12 and bottom plate extension member 2 θ Angle of inclination of slopes 12a and 2a θ 'Angle of inclination of step 13a H Height of vertical wall W Width of retaining wall block L ₁ the length of the bottom surface of the bottom surface of the length L ₂ bottom plate extension member of the base bottom plate portion

Claims (2)

(57) [Claims] 1. A precast vertical wall member in which a basic bottom plate portion having an appropriate length is integrally formed at a lower end portion of a vertical wall, and a length of the bottom plate portion joined to an end of the basic bottom plate portion. a retaining wall block assembly member ing a combination of Purekiyasuto bottom plate extension member for annex direction. Both joint side end surface of the bottom plate extension member joined to the end face and the bonding side end face of the base bottom plate portion of the rising wall members, all be formed in an upward slope, the joint end surface of the both , Respectively, a plurality of reinforcing bars of appropriate length are protruded or a plurality of mounting means of the reinforcing bars are buried . The joint side end face of the bottom plate extension member and the vertical wall member
Appropriate joint spacing is provided between the basic bottom plate and the joint end face.
In addition, a frame for connecting both end faces at both sides
The body is in the width direction of the joint side end face of the bottom plate extension member.
Basic bottom plate of the vertical wall member protruding from both ends
At the both ends in the width direction of the joint side end face of the portion, the bottom plate
The tip of a pair of frames protruding from the joint-side end surface of the extension member
Notch step for external fitting of the end
And, and,. Each end face of the pair of frame bodies is a downward slope.
And the notch stepped portion is opposed to the front end surface of the frame body.
Each of the facing abutment surfaces is formed on an upward slope.
When the two are brought into surface contact with each other, the bottom plate extension member
Positioning on the specified extension line with respect to the basic bottom plate part of the member
Retaining wall block assembly member, characterized in that, it adapted to be. 2. A base plate portion having an appropriate length at a lower end portion of a vertical wall.
The base of the precast vertical wall member integrally formed
Attach a precast bottom plate extension to the end face of the bottom plate
Plus, a method of bonding a retaining wall block assembly member. Precast the vertical wall member and bottom plate extension member
When, in advance, joined end face of the base bottom plate portion of the rising wall member
Junction end face of the bottom plate extension member which is joined to the end face
Both are formed on the upward slope, and
A number of rebars of appropriate length are protruded on both joint side end faces.
Attachment means or reinforcing bar to set leave multi number embedded, retaining
At the construction site of the wall, the basic bottom plate part of the vertical wall member
Between the joint-side end surface of the base plate and the joint-side end surface of the bottom plate extension member.
Concrete is poured into the space with a space of
A connecting child with between end faces of reinforced concrete, 及
And . Joining the above retaining wall block assembly members at the construction site
When performing the above, the basic bottom plate portion of the vertical wall member and the bottom plate extension member
The construction ground between, By forming the groove in advance appropriate depth
The base plate portion of the vertical wall member and the bottom plate extension member
With concrete poured between both members to connect between
As a result, the anti-slip projection is formed at the joint between the two members.
Method of joining a retaining wall block assembly member it, characterized in that.