KR20130045680A - Stone panel unit and stone panel assembly using thereof - Google Patents

Abstract

The stone panel unit of the present invention, the main body having a lower metal mesh, and the side metal mesh erected on the edge of the lower metal mesh and forming a receiving area between the lower metal mesh; Filler filled in the receiving area of the mesh body; An upper metal net covered and fixed to an upper side of the net body to prevent the filler from being separated from the receiving area of the net body; A plurality of upper stones laid on the upper metal mesh; And fixing means for fixing the respective upper stones to the upper metal mesh; in arranging the stones at the bottom of the water channel, the method does not cause environmental problems or hygiene problems and does not harm the landscape of the water channel. As a result, the stones can be easily prevented from being swept away or moved.

Description

Stone panel unit and stone panel assembly using same

The present invention can easily prevent the stones from being swept away or moved in a manner that does not cause environmental problems or hygiene problems, and does not harm the landscape of the water channel in arranging the stones at the bottom of the waterway. It relates to a stone panel unit and a stone panel assembly.

Stones, such as natural stones, may be arranged at the bottom of a natural channel such as a river or a stream, or an artificial channel, such as an artificial channel, for improving the landscape. At this time, the stones placed at the bottom of the channel should be prevented from being pushed by the water in the channel and rolling or moving to another location.

One such solution is to use concrete to anchor stones to the bottom of the channel. That is, the concrete is placed at the bottom of the channel and the stones are placed on the concrete to cure the concrete, or the stones are placed at the bottom of the channel and the concrete is poured around the stones and cured, thereby placing the stones by the hardened concrete. To the bottom of the channel.

However, according to this method, there is an inconvenience in that the water channel must be blocked for placing and hardening concrete. In addition, there is a problem that various environmental problems can be caused by the concrete placed in the waterway.

On the other hand, instead of using concrete, stones are placed at the bottom of the channel by placing stones such as natural stones in a wire mesh frame made of wire mesh and then placing the mesh frame containing the stones at the bottom of the channel. Some methods have been considered.

However, if the stones are placed on the bottom of the channel with the stones filled in the mesh, the upper part of the mesh receiving the stones, i.e., the upper mesh, is easily visible, which causes the viewer to feel rejected. There is a problem that can be. In addition, foreign matter that has flowed with the water in the channel easily stays in the upper side of the wire mesh of the wire mesh, the foreign matter staying on the upper side of the wire mesh may damage the appearance and cause hygiene or environmental problems. Also, among the stones housed in the mesh frame, stones located in the lower layer can be fixed relatively stable due to the load by the stones above them, while stones in the upper layer, which are actually stones that are noticeable to the surrounding people Since they are not subjected to any load, they flow while slightly deforming the upper part of the mesh frame by water currents in the channel, and thus there is a problem that the upper stones are out of the position where they are initially placed.

The present invention is conceived in consideration of the above-described circumstances, when natural stones such as rivers, streams, or artificial waterways, or artificial waterways, such as artificial water, when trying to fix the stones for landscaping at the bottom of the water flow environment It is an object of the present invention to provide a stone panel unit which does not cause hygiene problems, does not harm the appearance, and can be fixedly arranged in an easy manner.

Another object of the present invention is to provide a stone panel assembly in which the plurality of stone panel units are connected and integrated.

In order to achieve the above object, the stone panel unit according to the present invention comprises: a main body having a lower metal mesh and a side metal mesh erected on an edge of the lower metal mesh and forming a receiving area between the lower metal mesh; Filler filled in the receiving area of the mesh body; An upper metal net covered and fixed to an upper side of the net body to prevent the filler from being separated from the receiving area of the net body; A plurality of upper stones laid on the upper metal mesh; And fixing means for fixing each upper stone to the upper metal mesh.

The stone panel assembly for achieving the above another object, has a configuration in which a plurality of such stone panel units are connected to each other.

According to the present invention, in the fixed arrangement of stones on the bottom of the waterway for landscaping or the like, it is possible to easily fix the arrangement without causing environmental problems or hygiene problems and without damaging the surrounding landscape.

1 is a schematic exploded perspective view of a stone panel unit according to an embodiment of the present invention.
FIG. 2 is a schematic perspective view of the stone panel unit shown in FIG. 1.
3 is a schematic exploded perspective view of the coupler portion shown in FIG. 2.
4 is an exploded perspective view of the upper metal mesh and the upper stone portion shown in FIG.
5 is an exploded cross-sectional view of the upper metal mesh and the upper stone portion shown in FIG.
6 is a schematic perspective view of a state before the nut member shown in FIG. 5 is inserted into the configuration formed on the upper stone.
7 is an exploded cross-sectional view of the upper metal mesh and the upper stone portion shown in FIG.
FIG. 8 is a schematic perspective view of a stone panel assembly in which a plurality of stone panel units shown in FIG. 1 are connected.
9 is a schematic perspective view of a stone panel unit according to another embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described with reference to the drawings.

1 is a schematic separated perspective view of a stone panel unit according to an embodiment of the present invention, Figure 2 is a schematic combined perspective view of the stone panel unit shown in FIG.

1 and 2, the stone panel unit 100 according to the present embodiment includes a main body 10, a filling material 20, an upper metal mesh 30, and a plurality of upper stones 40. Doing.

The net body 10 includes a lower metal net 11 and a side metal net 13. In the present embodiment, the lower metal mesh 11 and the side metal mesh 13 are each made of a wire mesh made of iron wires. The side metal mesh 13 stands on the edge of the lower metal mesh 11 so that an accommodating area 15 is formed between the side metal mesh 13 and the lower metal mesh 11.

The filler 20 is filled in the storage region 15 of the mesh body 10, that is, the storage region 15 formed between the lower metal mesh 11 and the side metal mesh 13. The filler 20 is applied to the net body 10 so as to prevent the net body 10 from flowing by water in the channel when the net body 10 is located in the channel, as will be described later. When the stone panel unit 100 of the present embodiment is disposed at the bottom of the waterway, the upper metal mesh 30 and the upper stones 40 are gripped to prevent it from being moved from the original position by being swept by the water flowing in the waterway. Play a role. The filling material 20 may be any kind of material as long as it has a weight enough to apply the load. However, in the present embodiment, a large number of stones such as gravel or rubble can be easily obtained without causing an environmental problem. It consists of 21.

In the present embodiment, the upper metal mesh 30 is made of a wire mesh made of iron wires, similarly to the lower metal mesh 11 and the side metal mesh 13. The upper metal mesh 30 has a mesh body 10 so as to prevent the filling material 20 filled in the storage region 15 of the network body 10 from being separated from the storage region 15 of the network body 10. It is overlaid on the upper side of). The upper metal mesh 30 overlying the upper portion of the mesh body 10 is fixed to the mesh body 10 by the coupling holes 50. As shown in FIG. 3, the coupler 50 includes a ring member 51 having a U-shaped body and a latch member 55 fastened to the ring member 51. A through hole 51a is formed at one end of the ring member 51, and a female screw hole 51b is formed at the other end. The clasp member 55 is formed with a male screw portion which penetrates the through hole 51a of the ring member 51 and is fastened to the female screw hole 51b. The hook member 51 of each coupling tool 50 is sewn on the upper end of the mesh body 10 (specifically, the upper edge of the side metal mesh 13) and the edge of the upper metal mesh 30. When the male screw portion of the clasp member 55 is inserted into the through hole 51a of the ring member 51 and screwed into the female screw hole 51b, the coupling member 50 is connected to the main body 10 by the coupling hole 50. Departure of the upper metal mesh 30 is prevented.

The upper stones 40 are located on the top floor of the stone panel unit 100 and exposed to human eyes, which directly contributes to the landscape of the waterway. As the upper stones 40, artificial stone may be used, but it is preferable to use natural stone, such as amber stone, because it is natural. The upper stones 40 are laid on the upper metal mesh 30 and fixed to the upper metal mesh 30. There are various fixing means for fixing each upper stone 40 to the upper metal mesh 30. In this embodiment, as the fixing means, as shown in Figures 4 to 7, the nut member ( 60), support plate member 70 and screw member 80 are provided.

The nut member 60 is inserted into and fixed to the hole 41 formed in the bottom side of the upper stone 40. As shown in FIG. 6, the nut member 60 before being fixed to the upper stone 40 has a female threaded portion 61 at one end and a plurality of deformation parts disposed along the circumferential direction at the other end ( 65). In order to fix the nut member 60 to the upper stone 40, for example, inside the hole 41 formed in the bottom of the upper stone 40, the deformation help member 45 having a tapered portion whose diameter gradually increases. After arranging, the nut member 60 is inserted into the hole 41 from the end side where the deformable portions 65 are located, and the nut member 60 is hit by a hammer or the like. In this way, the deformed portions 65 of the nut member 60 are pressed and opened by the tapered portion of the deformable help member 45 by the hammering force of the hammer, and the deformed deformed portions 65 are formed on the upper stone 40. By being pressed against the inner wall of the hole 41, the nut member 60 is fixed in the hole 41 while being prevented from falling out of the hole 41.

The support plate member 70 is located on the lower side of the upper metal mesh 30 (that is, the opposite side of the upper stone 40 with the upper metal mesh 30 interposed therebetween). The support plate member 70 has a through hole 71 penetrated in the vertical direction. The through hole 71 is formed to have a size that allows the male screw portion 81 of the screw member 80 to pass therethrough and cannot pass through the head portion of the screw member 80.

Therefore, as shown in FIG. 7, the male screw portion 81 of the screw member 80 is inserted into the through hole 71 of the support plate member 70 to be fastened to the female screw portion 61 of the nut member 60. In this case, the upper stone 40 is fixed to the upper metal mesh 30 by the fastening force between the screw member 80 and the nut member 60.

The stone panel unit 100 having such a configuration, after completing the assembly between the main body 10, the filler 20, the upper metal mesh 30 and the upper stone 40 is transported to the water channel and placed on the bottom of the water channel. Alternatively, first, the mantle body 10 is placed at the bottom of the waterway, and the filler metal 20 is filled in the mantle body 10, and then the upper metal mesh 30 to which the upper stones 40 are fixed is opened. By covering and fixing the net body 10, the stone panel unit 100 may be arranged in a water channel.

When the stone panel unit 100 is disposed at the bottom of the waterway, only the upper stones 40, which are the uppermost part of the stone panel unit 100, are mainly exposed to the human eye, and thus the stones of the uppermost floor are also stored in the wire mesh frame. Unlike the wire mesh upper, i.e., the wire mesh in the conventional method, which is disposed in a conventional manner, a landscape similar to the natural environment may be provided. In addition, since the upper metal mesh 30 can be largely covered by the upper stones 40, foreign matter flowing along the water in the channel can be effectively suppressed to be caught in the upper metal mesh 30, This prevents the appearance of damage to the aesthetics and can effectively prevent the occurrence of environmental or hygiene problems.

In addition, even if no concrete is used, the upper metal mesh 30 and the upper stones 40 are channeled by the weight of the filling material 20 accommodated in the net body 10 and prevented from being separated by the upper metal mesh 30. It is securely positioned within. Therefore, it is possible to prevent the occurrence of environmental problems due to the concrete used in the conventional construction method. In addition, unlike the conventional method of fixedly placing stones on the bottom of the channel by concrete, the stone panel unit 100 can be installed on the floor without blocking the channel, so that the stones (upper stones) are fixedly placed on the channel. The operation can be done easily.

Only one stone panel unit 100 may be disposed according to a water channel, and several stone panel units 100 may be disposed adjacent to each other at the bottom of the water channel.

In addition, in some cases, as shown in FIG. 8, the plurality of stone panel units 100 (three in FIG. 8) may be connected to each other to form an integrated stone panel assembly 200. In this case, various means may be considered as a means for connecting the stone panel units 100 to each other in order to configure the stone panel assembly 200. In this embodiment, the stone panel units 100 are coupled to the coupling holes 50a. Are connected to each other by Since the overall configuration and the use method of the coupler 50a are the same as the overall configuration and the use method of the coupler 50 as described with reference to FIGS. 2 and 3, detailed description thereof will be omitted.

The stone panel unit 100 or the stone panel assembly 200 may be installed such that the upper stones 40 are positioned below the surface of the water in the channel, or installed so that the upper portions of the upper stones 40 are exposed to the surface of the water in the channel. May be In addition, the stone panel unit 100 or the stone panel assembly 200 may be used even when the bottom surface of the water channel is horizontal or may be used when the bottom surface of the water channel is inclined, for example.

9 shows a stone panel unit 101 of another embodiment. The stone panel unit 101 is the stone panel unit 100 of the above embodiment only in that it has wires 90 that wrap and bind the net body 10 and the upper metal mesh 30. And the other part is the same as the stone panel unit 100 shown in Figs. Therefore, among the components of the stone panel unit 101 in FIG. 9, the same components as those of the stone panel unit 100 of the embodiment illustrated in FIGS. 1 and 2 are given the same reference numerals, and Detailed description thereof will be omitted.

In the case of the stone panel unit 101, the wire 90 can be more securely fixed to the upper metal mesh 30 to the mesh body 10.

The net body 10 in the above embodiments has been described and illustrated as being composed of a lower metal mesh 11 and a side metal mesh 13 erected on the edge of the lower metal mesh 11. It is further provided with a partition metal mesh (not shown) which is erected between side metal meshes on opposite sides of the mesh body so as to partition the receiving area 15 of the mesh body 10 in which the stones 21 are stored. It may be configured.

The present invention has been described above with reference to some examples, but the present invention is not limited to these examples, and may be embodied in various forms without departing from the scope of the claims.

10 ... Men body 11 ... Lower metal mesh
13 side metal mesh 15 storage area
20 ... filling material 21 ... stone
30 upper metal mesh 40 upper stone
60 Nut member 70 Support plate member
80 threaded member 90 wire
100, 101 ... stone panel unit 200 ... stone panel assembly

Claims (5)

A net body having a lower metal mesh and a side metal mesh erected on an edge of the lower metal mesh and forming a receiving area therebetween;
Filler filled in the receiving area of the mesh body;
An upper metal net covered and fixed to an upper side of the net body to prevent the filler from being separated from the receiving area of the net body;
A plurality of upper stones laid on the upper metal mesh; And
And a fixing means for fixing each upper stone to the upper metal mesh. The method of claim 1,
Wherein,
A nut member fixed to the upper stone,
A support plate member disposed below the upper metal mesh and having a through hole formed therein;
A stone panel unit having a screw member having a male screw portion which penetrates the through-hole of the support plate member and is fastened to the nut member. The method of claim 1,
The filling material is a plurality of stones, the upper stone is a stone panel unit, characterized in that the natural stone. The method of claim 1,
The stone panel unit, characterized in that it further comprises a wire wound around the mesh body and the upper metal mesh. A stone panel assembly in which a plurality of stone panel units according to any one of claims 1 to 4 are connected and integrated.

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