KR20160095270A - A reinforcment grid structure - Google Patents

Abstract

The present invention relates to a reinforcement grid structure. The reinforcement grid structure comprises: a coupling terminal which has a bent pipe having a diameter becoming narrow from the bottom surface to the top surface and multiple guides protruding from the bottom end of the bent pipe in a radial direction and connected with the inside of the bent pipe; and a grid which is composed of transverse and longitudinal bars and is fixated in the contact points of the transverse and longitudinal bars by the coupling terminal, wherein the transverse and longitudinal bars are embedded in the guides of the coupling terminal. Therefore, the present invention prevents stress concentration caused by an overload.

Description

A reinforcment grid structure < RTI ID = 0.0 >

The present invention intends to reinforce the structural integrity of the entire structure by mitigating the load and strengthening the shear force between the stratum cores, and by using the grid as a pipe, in accordance with the use of the facility such as a pavement structure, a slope surface, a reinforced earth retaining wall, The present invention relates to a grid structure having advantages such as smooth horizontal drainage and ease of construction.

In recent years, urban floods and floods have been occurring frequently due to heavy rain due to climate change, and the increase of impervious layers due to urbanization has been analyzed as a typical flooding cause.

In spite of the fact that it is possible to reduce various environmental or natural disaster problems by constructing the pavement structure using the permeable concrete, etc., it is applied to the problem of the strength of the permeable concrete itself and the problem of lifting the base layer and the pavement layer due to the infiltration It is not easy. Therefore, reinforcement grid is placed between the pavement layer and the base layer (pitcher layer) using permeable concrete to reinforce rigidity and shear strength.

In addition, reinforcement grid is built in to prevent slope and loss of soil from various slopes such as incisions, castle land, etc. In case of tunnel, reinforcing grid is embedded between excavation surface and shotcrete layer to reinforce shear strength, .

For example, Korean Patent Registration No. 1217154 discloses a geoid having a lattice structure in which a transverse strap and a longitudinal strap intersect each other. In the geoid, a protrusion And the projecting portion is formed into a shape including a line body protruding upward from the intersection portion and a plurality of branch bodies projecting laterally from the upper end of the line body.

However, according to the above technique, there is a structural problem that the slip load is concentrated on the protruding portion with respect to the upper soil of the stiffener, and only the effect of slip resistance improvement in the planar direction of the heterogeneous layer is expected by the lattice structure. There is a problem that the load transfer and the mitigating structure are not sufficiently presented and the structural reinforcement function for the embedded portion is insufficient.

Korea Patent No. 1217154

The present invention intends to provide a reinforcing grid structure that is sufficiently flexible to sufficiently prevent stress concentration due to overburden loads, smoothly transfers loads, and facilitates horizontal drainage in permeable pavements and the like.

In order to achieve the above object, the reinforcing grid structure of the present invention comprises a bending tube having a shape narrowing in diameter from the lower surface to the upper surface, and a plurality of induction guides projecting radially from the lower end of the bending tube and communicating with the inside of the bending tube. Terminals; And a grid fixed to the transverse bar and the longitudinal bar at the contact points of the transverse bar and the longitudinal bar, wherein the transverse bar and the longitudinal bar are embedded in the guide, .

As one example, the outer periphery of the bending tube has a plurality of relief ridges projecting from the upper end and connected to the guide.

As an example, the grid is characterized in that the horizontal bars and the vertical bars are formed of pipes, respectively, so that horizontal drainage is possible from the inside of the fastening terminals.

As an example, a plurality of through holes are formed in the bending tube to guide water introduced from the upper layer of the fastening terminal into the inside of the bending tube, and at the contacts of the transverse bar and the longitudinal bar fixed by the fastening terminal, And the ends of the longitudinal bars are exposed inside the fastening terminals, so that the water introduced into the inside of the curved pipe is guided to the horizontal bar and the longitudinal direction, and horizontal drainage is performed.

The fixing cap may further include a head which is hooked on the upper end of the fastening terminal and a plurality of insertion protrusions protruding from the head and anchored to the lower layer of the fastening terminal.

The present invention provides a multi-directional curved surface in which a load is dispersed in a multi-directional curved surface by allowing a packing structure including a permeable packing, a slope, a buried embankment layer, a reinforced earth retaining wall, a tunnel, So that the structural stability can be achieved.

In addition, the present invention has an advantage in that the water permeable packaging structure can function as a drainage channel, and in particular, it is advantageous to ensure smooth water permeability when connected to a sidewall by inducing horizontal drainage as well as vertical drainage.

1 is a schematic diagram showing the state of use of the present invention,
2 is a perspective view showing a basic example of the present invention,
3 is an operational state diagram of the present invention,
4 is an operational state diagram showing an embodiment of the present invention,
5 is a perspective view showing a fixed cap as an embodiment of the present invention.

Hereinafter, the structure and operation of the present invention will be described in more detail with reference to the accompanying drawings. In describing the present invention, terms and words used in the present specification and claims are to be construed in accordance with the principles of the present invention, on the basis that the inventor can properly define the concept of a term in order to best explain his invention It should be construed as meaning and concept consistent with the technical idea of.

The reinforcing grid structure 100 according to the present invention is constructed in a package structure including a permeable package, a sloping surface, a buried embankment layer, a tunnel or an underground space wall, etc. to secure the structural rigidity thereof, Securing a horizontal drainage structure, etc., and to perform functions such as rockfall and fallout control in slopes, tunnels, underground space excavation walls, and the like.

In addition, the reinforcing grid structure 100 of the present invention may be embedded in the surface layer (upper layer), the base layer (lower layer), and may be embedded in the interface.

For example, as shown in FIG. 1, the reinforcing grid structure 100 of the present invention may be embedded in the interface between the upper layer 10 and the lower layer 20 so that the functions according to the structural stiffness and the application may be performed.

Here, the upper layer 10 corresponds to a packing layer including a water permeable layer and an asphalt layer in the case of a packaging structure, and the lower layer 20 corresponds to a base layer and an auxiliary layer. In the case of a sloped surface or the like, the upper layer 10 will be a shotcrete layer, a backfill layer, and the lower layer 20 will be an excavation surface on a sloping surface or the like.

Also, in the case of the reinforced earth retaining wall and the buried layer, the upper layer 10 will be an upper layer in a plurality of backfill layers formed in stages, and the lower layer 20 will be a lower layer formed adjacent to the upper layer 20. In the tunnel and underground excavation, the upper layer 10 will be a shotcrete layer and the lining layer, and the lower layer 20 will be an excavation surface. Hereinafter, a case where the reinforcing grid structure 100 according to the present invention is installed on the interface will be described.

1, the reinforcing grid structure 100 of the present invention includes a curved tube 111 having a shape narrowing in diameter from a lower surface to an upper surface thereof, a radially protruding portion 111 formed at a lower end of the curved tube 111, (110) including a plurality of induction guides (112) in communication with the connection terminals (110); A transverse bar and a longitudinal bar are fixed by the fastening terminal 110 at the contact points of the transverse bar and the longitudinal bar, and each transverse bar and the longitudinal bar are mounted in the induction guide 112, (120).

As shown in FIG. 2, the fastening terminal 110 is configured to fix the grid-like grid 120 at the contact point, and the upper load is relieved by the structure.

4, when the transverse bar and the longitudinal bar are constituted by a pipe in the grid 120 when applied to a permeable packaging structure or the like as shown in FIG. 4, the connection terminal 110 is guided from the upper layer 10 for horizontal drainage And to act as a platform for directing the water to the lateral bar and the longitudinal bar respectively.

2 and so on, the fastening terminal 110 has a curved tube 111 whose diameter is narrowed from the lower surface to the upper surface, a radially protruding tube 111 extending from the lower end of the tube 111, And a plurality of relief rims 113 protruding from the upper end of the outer circumference of the bending tube 111 and connected to the induction guide 112 are formed.

The curved tube 111 is formed in a shape that narrows the diameter of the upper part while forming a hollow so that the contact of the grid 120 is accommodated in the curved tube 111, Is to disperse the overhead load. 1, the curved tube 111 is located at the interface between the upper layer 10 and the lower layer 20 so as to improve the shear resistance between the two layers.

As shown in FIG. 2 and others, the guide 112 protrudes in four directions orthogonal to each other. The shape of the guide 112 is a semicircular cross-section of the guide 120, And to hold the longitudinal bars while holding them. In this way, the induction guide 112 is configured so that the grid 120 is firmly fixed to the lower layer 20.

In particular, the guiding guide 112 may be formed in the form of a pipe such that the lateral bars and longitudinal bars of the grid 120 are constructed of pipes as shown in Fig. 4, without the need to form separate connecting pipes at the contacts of the lateral bars and the longitudinal bars It is advantageous that the construction of the horizontal bar and the longitudinal bar is facilitated by the guide 112.

As shown in FIG. 2, the relief rim 113 is connected to the induction guide 112 from the upper end as shown in FIG. 2. The relief rim 113 is connected to the induction guide 112 by relieving the upper load, Four relief rims 113 connected to the upper surface when the upper load F1 acts on the upper surface of the bending tube 111 are connected to the guide 112 while forming a curved surface in the downward direction, The load F1 is branched by the dispersion load F2 in four directions so that the load F1 is directly transmitted to the lateral bar and the longitudinal direction of the grid 120 through the guide 112.

That is, when the upper layer 10 is made of a material having relatively low rigidity, such as a permeable concrete, by distributing the upper load 10 in each of the plurality of relief rims 113, the vertical load is dispersed to reinforce the structural integrity of the upper layer 10 .

The grid 120 may be variously configured according to the object to be reinforced. In the case of a slope, a reinforced earth retaining wall, or the like, a general grid-shaped wire mesh or geogrid may be used. ) Is to construct a horizontal bar and a vertical bar by pipes so that the concept of horizontal drain is added in addition to the concept of reinforcement.

In this case, as shown in FIG. 4, the transverse bar and the longitudinal bar are disposed in such a manner that their respective ends are exposed at the contact points. By mounting the fastening terminal 110, not only the connection of the transverse bar and the longitudinal bar, So that the water infiltrated from the upper layer 10 is horizontally drained through the horizontal bar and the vertical bar, respectively.

In order to further multiply such a function, another embodiment of the present invention is shown in Fig.

In this embodiment, a plurality of through holes 111-1 are formed in the bending tube 111 to guide the water introduced from the upper layer 10 of the fastening terminal 110 into the bending tube 111, At the contact points of the transverse bar and the longitudinal bar fixed by the terminal 120, the ends of the transverse bar and the longitudinal bar are exposed inside the fastening terminal 120, Direction bar and longitudinal direction are directly induced so that horizontal drainage can be performed.

4, the water W penetrated through the upper layer 10 is divided into water W2 penetrating into the respective fastening terminals 120 and water W1 penetrating into the other portions. The water W2 penetrated into the fastening terminal 120 passes through the through hole (not shown), and the water W2 penetrates into the fastening terminal 120. In this case, 111-1 so as to allow horizontal drainage through the pipe-shaped transverse bars and longitudinal bars exposed at the ends in the inside of the bending pipe 111. [

That is, in the case of the permeable packaging structure or the like in the case of allowing the permeation in the horizontal direction to be induced, the drainage is smoothly progressed through the piping by the pitcher in the horizontal direction,

In the present invention, as shown in FIG. 5, a configuration is shown in which the fastening terminal 110 is fixed to the lower layer 20. In FIG. 1 and the like, the configuration for fixing the fastening terminal 110 is not shown in the drawing, .

The configuration shown in this embodiment is composed of a head 131 attached to the upper end of the fastening terminal 110 and a plurality of insertion protrusions 132 protruded from the head 131 and anchored to the lower layer of the fastening terminal 110 And a fixed cap 130 is provided. The reason why the insertion protrusions 132 are formed in plural is that the grid 120 is placed between the insertion protrusions 132.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. Therefore, the technical scope of the present invention should not be limited to the contents described in the detailed description of the specification, but should be defined by the claims.

100: reinforcement grid structure 110: bend
120: grid 130: fixed cap

Claims (5)

A fastening terminal including a bending tube whose diameter is narrowed from the lower surface to the upper surface and a plurality of induction guides radially protruding from the lower end of the bending tube and communicating with the inside of the bending tube;
A grid comprising a transverse bar and a longitudinal bar and being fixed by the fastening terminals at the contacts of the transverse bar and the longitudinal bar, each transverse bar and longitudinal bar being mounted in the inductive guide;
/ RTI >
The method according to claim 1,
And a plurality of supporting rims protruding from an upper end of the bending tube and connected to the induction guide are formed on an outer periphery of the bending tube.
The method according to claim 1,
The grid
Wherein the horizontal bars and the vertical bars are constructed of pipes to enable horizontal drainage from the inside of the fastening terminals.
The method according to claim 1,
A plurality of through holes are formed in the bending tube to guide the water introduced from the upper layer of the fastening terminal into the inside of the bending tube,
At the contact points of the transverse bars and the longitudinal bars fixed by the fastening terminals, the transverse bars and the ends of the longitudinal bars are exposed inside the fastening terminals, So that horizontal drainage is achieved.
The method according to claim 1,
Wherein the fixing cap further comprises a head which is hooked on the upper end of the fastening terminal, and a plurality of insertion protrusions protruding from the head and anchored to the lower layer of the fastening terminal.

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