JP6393656B2 - Civil engineering bag and civil engineering bag construction method - Google Patents

Description

    BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a civil engineering bag body and a construction method for a civil engineering bag body, and in particular, a civil engineering bag body capable of firmly connecting one adjacent bag body and the other adjacent bag body. And a method for constructing a civil engineering bag.

2. Description of the Related Art Conventionally, a plurality of bags filled with filling material inside a net bag are arranged side by side to form a civil engineering bag as a coastal structure.
In that case, the upper part of one adjacent bag body and the upper part of the other adjacent bag body are connected by a connecting member.
However, when the lower portions of the adjacent bags are separated by an external force such as an earthquake, there is a problem in that the effect of the bag for civil engineering work is impaired by the suction and scouring force due to the wave force.

    An object of the present invention is to provide a civil engineering bag body and a construction method for a civil engineering bag body, which are made in consideration of the above-described problems.

    The civil engineering bag body according to claim 1 is a civil engineering bag body in which a plurality of bag bodies filled with a filling material are arranged in the inside of a net bag, and the height of one adjacent bag body is One upper annular member attached above 1/2, the other upper annular member attached above 1/2 of the height of the other adjacent bag body, and the height of one adjacent bag body One connecting member long in the longitudinal direction attached below 1/2 of the length and the other connecting member long in the longitudinal direction attached below 1/2 of the height of the other adjacent bag body The one connecting member passed through the other upper annular member and the other connecting member passed through the one upper annular member in a ring made of the other connecting member It is.

    Moreover, the construction method of the civil engineering bag body according to claim 2 is a construction method of the civil engineering bag body in which a plurality of bag bodies filled with the filling material are arranged in parallel inside the net bag and connected. One upper annular member attached above 1/2 of the height of one adjacent bag body and the other upper annular member attached above 1/2 of the height of the other adjacent bag body A member, one connecting member long in the longitudinal direction attached below 1/2 of the height of one adjacent bag, and a lower attachment than 1/2 of the height of the other adjacent bag The other connecting member that is long in the longitudinal direction, and the one connecting member that passes through the other upper annular member and the one upper annular member that passes through the other upper annular member. The other connecting member is tied and bound.

The civil engineering bag according to claim 3 is the civil engineering bag according to claim 1,
A ring made of the other connecting member is provided at the lowermost part of the other bag, one upper annular member is attached to the uppermost part of one bag, and the other upper annular member is the uppermost part of the other bag. The one upper annular member and the other upper annular member are in positions facing each other.

    The civil engineering bag according to claim 4 is the civil engineering bag according to claim 2, wherein a ring made of the other connecting member is provided at the lowermost part of the other bag. The upper annular member is attached to the uppermost portion of one bag body, the other upper annular member is attached to the uppermost portion of the other bag body, and the one upper annular member and the other upper annular member face each other. In position.

    The civil engineering bag according to claim 5 is a civil engineering bag in which a plurality of bags filled with a filling material are arranged in parallel inside the net bag, and the height of one adjacent bag is high. One upper annular member attached above 1/2 of the height, the other upper annular member attached above 1/2 of the height of the other adjacent bag, and the other adjacent bag The other lower annular member attached below 1/2 of the height of the other, and one longitudinally connecting member attached below 1/2 of the height of one adjacent bag body, adjacent And the other connecting member which is long in the longitudinal direction and is attached to the lower side of the height of the other bag body, and the terminal becomes an eye, and the eye of the other connecting member and the upper side of the other The one connecting member through the annular member and the other connecting member through the other lower annular member The connecting member is tied and bound.

    Moreover, the construction method of the civil engineering bag body according to claim 6 is a construction method of the civil engineering bag body in which a plurality of bag bodies filled with the filling material are arranged in parallel inside the net bag and connected. One upper annular member attached above one adjacent bag body, the other upper annular member attached upward to the other adjacent bag body, and attached downward to the other adjacent bag body The other lower annular member, one longitudinally long connecting member attached to the lower side of one adjacent bag body, and the longer longitudinal direction attached to the lower side of the other adjacent bag body. The other connecting member, and the one connecting member through the eye of the other connecting member and the other upper annular member, and the other connecting member through the other lower annular member, Are tied together.

    The civil engineering bag according to claim 7 is the civil engineering bag according to claim 5, wherein one upper annular member is attached to the uppermost part of one bag, and the other upper annular member is the other. The other lower annular member is attached to the lowermost part of the other bag body, and the one upper annular member and the other upper annular member are in a position facing each other.

    Moreover, the construction method of the civil engineering bag according to claim 8 is the construction method of the civil engineering bag according to claim 6, wherein one upper annular member is attached to the uppermost part of one of the bags. The upper annular member is attached to the uppermost part of the other bag body, the other lower annular member is attached to the lowermost part of the other bag body, and the one upper annular member and the other upper annular member face each other. In position.

    According to the civil engineering construction bag according to claim 1, one connecting member that passes through the other upper annular member and one upper annular member that passes through the other upper annular member and the other connecting member that passes through the one upper annular member. , The adjacent one bag body and the other adjacent bag body can be coupled not only upward but also downward and firmly connected.

    According to the construction method of the civil engineering bag according to claim 2, one connecting member and one upper annular member are passed through a ring made of the other connecting member and the other upper annular member. Since the other connecting member is tied and bundled, the adjacent one bag body and the other adjacent bag body can be coupled not only upward but also downward and firmly connected.

    According to the civil engineering bag of claim 3, the ring made of the other connecting member is provided at the bottom of the other bag, and the one upper annular member is at the top of the one bag. The other upper annular member is attached to the uppermost part of the other bag body, and the one upper annular member and the other upper annular member are in positions facing each other, and the other connecting member In the ring made in (1), one connecting member through the other upper annular member and the other connecting member through the one upper annular member are tied and bundled, so that one adjacent bag body and the other adjacent one The bag body can be efficiently coupled not only to the uppermost part but also to the lowermost part and firmly connected.

    According to the construction method of the civil engineering bag according to claim 4, the ring made of the other connecting member is provided at the lowermost part of the other bag, and the one upper annular member is formed on the one bag. It is attached to the uppermost part, the other upper annular member is attached to the uppermost part of the other bag body, and the one upper annular member and the other upper annular member are in positions facing each other, and the other Since one connecting member that passed through the other upper annular member and the other connecting member that passed through one upper annular member are tied and bundled in a ring made of the connecting member, the adjacent one bag body is adjacent. The other bag body can be efficiently coupled not only to the uppermost part but also to the lowermost part and firmly connected.

    Further, according to the civil engineering bag of claim 5, the eye of the other connecting member, the one connecting member through the other upper annular member, and the other connecting member through the other lower annular member Since they are tied and bundled, the adjacent one bag body and the other adjacent bag body can be coupled not only upward but also downward and firmly connected.

    According to the construction method of the civil engineering bag according to claim 6, the other connection member is connected through the eye of the other connection member and the one connection member through the other upper annular member and the other lower annular member. Since the members are tied and bound, the adjacent one bag body and the other adjacent bag body can be coupled not only upward but also downward and can be firmly connected.

    Further, according to the civil engineering bag according to claim 7, one upper annular member is attached to the uppermost part of one bag body, and the other upper annular member is attached to the uppermost part of the other bag body, The other lower annular member is attached to the lowermost part of the other bag body, and the one upper annular member and the other upper annular member are in a position facing each other, and the eye of the other connecting member And the other connecting member passed through the other upper annular member and the other connecting member passed through the other lower annular member are tied together so that the adjacent one bag body and the adjacent other bag body are the uppermost part. Not only can it be efficiently coupled to the bottom, but it can be firmly connected.

    According to the construction method of the civil engineering bag according to claim 8, one upper annular member is attached to the uppermost part of one bag body, and the other upper annular member is attached to the uppermost part of the other bag body. The other lower annular member is attached to the lowermost part of the other bag body, and the other upper annular member and the other upper annular member are in positions facing each other, and the other connection Since one eye connecting the member and the other connecting member passing through the other upper annular member and the other connecting member passing through the other lower annular member are tied and bound, the adjacent one bag body and the other adjacent bag body Can be efficiently coupled not only to the uppermost part but also to the lowermost part and firmly connected.

FIG. 1 is a schematic perspective view of a civil engineering bag body according to an embodiment of the present invention, showing a state in which one adjacent bag body and the other adjacent bag body are bound by a connecting member. . FIG. 2 is a schematic perspective view of the civil engineering construction bag in the middle of binding with the connecting member of FIG. FIG. 3 is a diagram for explaining the binding state of the civil engineering bag body of FIG. 1 and separates the adjacent one bag body from the other adjacent bag body (adjacent ones constituting the actual civil engineering bag body). It is a schematic perspective view showing a state where one bag body and the other bag body adjacent to each other are in contact with or close to each other. FIG. 4A is a schematic perspective view of a state in which one connecting member is passed through a ring of the other connecting member and the other upper annular member, and FIG. 4B is the other side of FIG. 4 (c) is a schematic perspective view of a state in which the connecting member is passed through one upper annular member, and FIG. 4 (c) shows one connecting member in FIG. 4 (b) and the other connecting member in FIG. 4 (b). It is a schematic perspective view which shows the state to bind. FIG. 5 is a civil engineering bag body according to another embodiment different from the civil engineering bag body shown in FIG. 1 to FIG. 4, and the adjacent one for explaining the binding state of the civil engineering bag body. The bag body and the other bag body adjacent to each other are separated (the one bag body constituting the actual civil engineering bag body and the other bag body adjacent to each other are in contact with or close to each other). It is a schematic perspective view which shows. FIG. 6A is a schematic perspective view of a state in which one connection member of FIG. 5 is passed through the eye of the other connection member of FIG. 5 and the other upper annular member, and FIG. Fig. 6 (a) is a schematic perspective view of a state in which the other connecting member is pulled and the other connecting member is passed through one upper annular member, and Fig. 6 (c) is one of Figs. It is a schematic perspective view which shows the state which binds a connection member and the other connection member of FIG.6 (b).

A civil engineering bag body and a construction method for a civil engineering bag body according to an embodiment of the present invention will be described with reference to the drawings.
B shown in Fig. 1 and Fig. 2 is a civil engineering bag, and the civil engineering bag B is used for emergency measures such as scouring a dike during a flood, river revetment, and pierced blocks such as a bridge pier. Therefore, a plurality of bag bodies 2 and 2 ′ in which the filling material 1 is filled inside the net bag are used in parallel.
The civil engineering bag B is, for example, a plurality of the bags 2 and 2 ′ arranged on the coast, and a tetrapot (registered trademark) is placed on the civil engineering bag B.
The filling material 1 is, for example, cobblestone, cracked stone, concrete or the like.
Specifically, the bag bodies 2 and 2 'are nets made of synthetic resin such as nylon, polyester, polyethylene, and recycled polyester. The bag body 2 is filled with the filling material 1 and is about 1 t to about 8 t, for example. Things are filled.
In FIGS. 3 and 4, two bags 2 and 2 ′ are arranged side by side for the sake of explanation of the bags 2 and 2 ′. In addition, many are arranged side by side in the vertical direction.
In FIGS. 3 and 4, for the description of the bag bodies 2, 2 ′, the adjacent one bag body 2 and the other adjacent bag body 2 ′ are separated from each other. , The end face of one adjacent bag body 2 constituting the civil engineering construction bag body and the end face of the other adjacent bag body 2 ′ are in contact with or close to each other.

A civil engineering bag body (construction method of civil engineering bag body) B will be described with reference to FIGS.
3 and FIG. 4 is one upper annular member, and one upper annular member 3 is attached above 1/2 of the height of one adjacent bag body 2, and one upper annular member 3 is attached. More preferably, it is attached to the uppermost part of one bag body 2.
Reference numeral 4 denotes the other upper annular member, and the other upper annular member 4 is attached above 1/2 of the height of the other adjacent bag body 2 ′, and the other upper annular member 4 is more desirable. Is attached to the uppermost part of the other bag 2 '.
Then, the one upper annular member 3 and the other upper annular member 4 are in positions facing each other.

Reference numeral 5 denotes one connecting member that is long in the longitudinal direction, and the one connecting member 5 is attached below ½ of the height of one adjacent bag body 2, and the one connecting member 5 is more desirable. Is attached to the lowermost part of one bag body 2.
6 is the other connecting member that is long in the longitudinal direction, and the other connecting member 6 is attached below 1/2 of the height of the other adjacent bag body 2 ′, and the other connecting member 6 is more preferably , Attached to the lowermost part of the other bag 2 '.
6A is a ring made of the other connecting member 6, and the ring 6A is well positioned below ½ of the height of the other adjacent bag body 2 ′, and the ring 6A is more preferably the other bag body. The lowest position of 2 'is good.

In order to connect the bags 2 and 2 ', one connecting member 5 [see FIG. 4 (a)] through the inside of the ring 6A made of the other connecting member 6 and the other upper annular member 4 is connected to one of them. The other connecting member 6 [see FIG. 4 (b)] through the upper annular member 3 is tied and bound [see FIG. 4 (c) and FIG. 1].
As a result, according to the civil engineering bag body (method for constructing a civil engineering bag body), the adjacent one bag body 2 and the adjacent other bag body 2 'are coupled not only upward but also downward. Can be firmly connected.
At the installation site, one connection member 5 through the other upper annular member 4 in the ring 6A made of the other connection member 6 and the other connection member 6 through one upper annular member 3 One connecting member 5 and the other connecting member 6 protrude from the upper ends of the bag bodies 2 and 2 ', respectively, and the other bag body 2' adjacent to the end face of the one bag body 2 Construction is performed in a state where the end face is in contact with or close to the end face.

    Next, the embodiment to be described is a civil engineering bag body (civil engineering bag body) of another embodiment different from the civil engineering bag body (method for constructing a civil engineering bag body) described in FIGS. 1 to 4 described above. The construction method) will be described below with reference to FIGS.

The civil engineering bag B shown in FIGS. 5 and 6 is the same as the civil engineering bag (the construction method of the civil engineering bag) shown in FIGS. 1 to 4 described above. Used for emergency measures, river revetments, piers, etc., and pierced blocks, etc., and used in parallel with a plurality of bags 2, 2 'filled with filling material 1 inside the net bag. With
The civil engineering bag B is, for example, a plurality of the bags 2 and 2 ′ arranged on the coast, and a tetrapot (registered trademark) is placed on the civil engineering bag B.
The filling material 1 is, for example, cobblestone, cracked stone, concrete or the like.
Specifically, the bag bodies 2 and 2 'are nets made of synthetic resin such as nylon, polyester, polyethylene, and recycled polyester. The bag body 2 is filled with the filling material 1 and is about 1 t to about 8 t, for example. Things are filled.
In FIGS. 5 and 6, two bags 2 and 2 ′ are arranged side by side for the sake of explanation of the bags 2 and 2 ′. However, in the actual installation site, the bags 2 and 2 ′ are arranged in the horizontal direction. In addition, many are arranged side by side in the vertical direction.
In FIGS. 5 and 6, for the description of the bag bodies 2, 2 ′, one adjacent bag body 2 and the other adjacent bag body 2 ′ are separated from each other, but the actual installation site , The end face of one adjacent bag body 2 constituting the civil engineering construction bag body and the end face of the other adjacent bag body 2 ′ are in contact with or close to each other.

5 and FIG. 6 is one upper annular member, and one upper annular member 3 is attached above 1/2 of the height of one adjacent bag body 2, and one upper annular member 3 is attached. More preferably, it is attached to the uppermost part of one bag body 2.
Reference numeral 4 denotes the other upper annular member, and the other upper annular member 4 is attached above 1/2 of the height of the other adjacent bag body 2 ′, and the other upper annular member 4 is more desirable. Is attached to the uppermost part of the other bag 2 '.
Reference numeral 7 denotes the other lower annular member, and the other lower annular member 7 is attached below ½ of the height of the other adjacent bag body 2 ′, and the other lower annular member 7 is more desirable. Is attached to the lowermost part of the other bag 2 '.
Then, the one upper annular member 3 and the other upper annular member 4 are in positions facing each other.

Reference numeral 5 denotes one connecting member that is long in the longitudinal direction, and the one connecting member 5 is attached below ½ of the height of one adjacent bag body 2, and the one connecting member 5 is more desirable. Is attached to the lowermost part of one bag body 2.
6 is the other connecting member that is long in the longitudinal direction, and the other connecting member 6 is attached below 1/2 of the height of the other adjacent bag body 2 ′, and the other connecting member 6 is more preferably , Attached to the lowermost part of the other bag 2 '.
6B is an eye (ring) formed at the end of the other connecting member 6, and the eye 6B is well positioned below ½ of the height of the other adjacent bag body 2 ′,
The eye 6B is more preferably located at the lowermost position of the other bag body 2 ′. The relationship between the eye 6B and the other lower annular member 7 is set so that the eye 6B cannot pass the other lower annular member 7.

In order to connect the bags 2 and 2 ', one connecting member 5 [see FIG. 6 (a)] through the eye 6B of the other connecting member 6 and the other upper annular member 4 and the other lower annular member 7 are connected. The other connecting member 6 (see FIG. 6B) that has been passed through is tied and bound [see FIG. 6C and FIG. 1].
As a result, according to the civil engineering bag body (method for constructing a civil engineering bag body), the adjacent one bag body 2 and the adjacent other bag body 2 'are coupled not only upward but also downward. Can be firmly connected.
In the installation site, the eye 6B of the other connecting member 6 and the one connecting member 5 through the other upper annular member 4 and the other connecting member 6 through the one upper annular member 3 can be bound. Further, one connecting member 5 and the other connecting member 6 protrude from the upper ends of the bag bodies 2 and 2 ', respectively, and the end face of the one bag body 2 and the end face of the other bag body 2' adjacent to each other are in contact with each other. Or work in close proximity.

B for civil engineering work 1 Filling material 2 Bag (one bag)
2 'bag (the other bag)
3 One upper annular member 4 Other upper annular member 5 One connecting member 6 Other connecting member 6A Wheel

Claims (8)

A civil engineering pouch body in which a plurality of pouch bodies filled with filling material are arranged in parallel inside the net bag,
One upper annular member attached above 1/2 of the height of one adjacent bag,
The other upper annular member attached above 1/2 of the height of the other adjacent bag,
One connecting member long in the longitudinal direction attached below 1/2 of the height of one adjacent bag,
The other connecting member long in the longitudinal direction attached below 1/2 of the height of the other adjacent bag body,

The one connection member through a ring made of the other connection member and the other upper annular member
And the other connecting member through the one upper annular member
A bag for civil engineering works, characterized by tying together. A construction method for a civil engineering construction bag body in which a plurality of bag bodies filled with filling material are arranged in parallel inside a net bag, and connected.
One upper annular member attached above 1/2 of the height of one adjacent bag,
The other upper annular member attached above 1/2 of the height of the other adjacent bag,
One connecting member long in the longitudinal direction attached below 1/2 of the height of one adjacent bag,
The other connecting member long in the longitudinal direction attached below 1/2 of the height of the other adjacent bag body,

The one connection member through a ring made of the other connection member and the other upper annular member
And the other connecting member through the one upper annular member
A method for constructing a bag for civil engineering, characterized by tying together and binding. A ring made of the other connecting member is provided at the bottom of the other bag body,
One upper annular member is attached to the top of one bag body,
The other upper annular member is attached to the top of the other bag body,
The civil engineering construction bag according to claim 1, wherein the one upper annular member and the other upper annular member are in positions facing each other. A ring made of the other connecting member is provided at the bottom of the other bag body,
One upper annular member is attached to the top of one bag body,
The other upper annular member is attached to the top of the other bag body,
The construction method for a civil engineering construction bag according to claim 2, wherein the one upper annular member and the other upper annular member are in a position facing each other. A civil engineering pouch body in which a plurality of pouch bodies filled with filling material are arranged in parallel inside the net bag,
One upper annular member attached above 1/2 of the height of one adjacent bag,
The other upper annular member attached above 1/2 of the height of the other adjacent bag,
The other lower annular member attached below 1/2 of the height of the other adjacent bag,
One connecting member long in the longitudinal direction attached below 1/2 of the height of one adjacent bag,
The other connecting member, which is long in the longitudinal direction and is attached to the lower side of the height of the other adjacent bag body, and the terminal becomes an eye,
The one connection member through the eye of the other connection member and the other upper annular member
And the other connecting member through the other lower annular member
A bag for civil engineering works, characterized by tying together. A construction method for a civil engineering construction bag body in which a plurality of bag bodies filled with filling material are arranged in parallel inside a net bag, and connected.
One upper annular member attached above one adjacent bag,
The other upper annular member attached upward to the other bag body adjacent thereto;
The other lower annular member attached to the other bag body below,
One connecting member long in the longitudinal direction attached to the lower side of one adjacent bag,
And the other connecting member which is long in the longitudinal direction attached to the lower side of the other adjacent bag body, and the terminal becomes an eye,
The one connection member through the eye of the other connection member and the other upper annular member
And the other connecting member through the other lower annular member
A method for constructing a bag for civil engineering, characterized by tying together and binding. One upper annular member is attached to the top of one bag body,
The other upper annular member is attached to the top of the other bag body,
The other lower annular member is attached to the lowermost part of the other bag body,
The civil engineering construction bag according to claim 5, wherein the one upper annular member and the other upper annular member are in a position facing each other. One upper annular member is attached to the top of one bag body,
The other upper annular member is attached to the top of the other bag body,
The other lower annular member is attached to the lowermost part of the other bag body,
The construction method for a civil engineering bag according to claim 6, wherein the one upper annular member and the other upper annular member are in a position facing each other.

Images