KR101656656B1 - Versatuke honeycomb block unit - Google Patents

Abstract

The present invention relates to a multipurpose honeycomb block unit and, more specifically, to a multipurpose honeycomb block unit which is to plant plants on a cutting surface, a wall surface of a building, an embankment, and a bank of a river or a stream by arranging multiple block units in various forms by connecting the multiple block units. The multipurpose honeycomb block unit prevents scouring by being installed on the bottom surface of the river or the stream and can be used as an artificial reef for fishes by being installed under the water. To solve the purpose of the present invention, the multipurpose honeycomb block unit includes: a plate-shaped combining surface installed on both sides of a longitudinal direction; a plate-shaped protruding surface installed on one side of the combining surface at intervals; and a pair of connection surfaces individually connecting an inner edge of the combining surface and both edges of the protruding surface.

Description

A versatile honeycomb block unit {VERSATUKE HONEYCOMB BLOCK UNIT}

The present invention relates to a multi-purpose honeycomb block unit, and more particularly, to a multi-purpose honeycomb block unit in which a plurality of block units are connected and arranged in various forms to provide vegetation to the incised surface, wall surface, The present invention relates to a versatile honeycomb block unit that is installed on the bottom surface of a waterproof container to prevent scouring and can be installed in water to be used as an artificial fish filter for fish and the like.

It is common that the outer wall surface of the building or the shaft is finished with concrete or stone. Concrete, however, can make sturdy boulders and walls, but the problem is that the plants can not grow even after many years or decades, which can damage the surrounding landscape. Some of these problems are solved a little, and the flowerpots are hanged to give emotional stability and beauty to those who pass around. Also, in order to enhance the beauty of the intersection of the city center, a layered flowerpot is often installed. However, there is a problem in stability when the pollen is layered or hanged as described above, and there is a problem in that it is necessary to remove the pollen and installation repeatedly because it hurts the beauty in winter.

In addition, the artificial fish candle installed in the water is formed in a structure in which a space is formed therein and a passage through which fish can pass around is formed. In detail, according to the installation environment, various shapes and sizes A passage is provided. Conventionally used artificial fishes are mainly used in the form of a hexahedron, and artificial fishes of this type are not harmonized with the surrounding environment at all. Therefore, it is common for these types of artificial fishes to be located far away from the beach or relatively deep underwater, which is largely invisible to the public. However, when installing artificial fish candles on shallow rivers or seas near the beach, it is necessary to consider the harmony with the surrounding scenery and the aesthetics. Therefore, it is necessary to make a shape that can harmonize with the surrounding environment rather than a uniform structure.

Furthermore, in the place where the torrential current flows or the fall is severe, a stone or gravel is placed on a wire net or the like to prevent the scour on the floor surface, and the floor is laid on the floor or various types of blocks are made and installed. However, since the conventional anti-scouring block of this type has almost no binding with other adjacent blocks, it is often the case that the blocks are released and the scouring phenomenon occurs rapidly after a long period of time.

KR 10-2012-0140042 A KR 20-0344552 Y1

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and it is an object of the present invention to provide a honeycomb structure in which a plurality of block units are arranged in a desired shape in a width direction or a thickness direction, And a honeycomb block unit having a plurality of honeycomb units.

The present invention as technical means for solving the above problems is characterized by comprising: a plate-like coupling surface provided on both side surfaces in the longitudinal direction; A plate-shaped protruding surface provided on one side of the coupling surface; And a pair of connection surfaces connecting the inner edge of the coupling surface and the opposite side edges of the projecting surface.

In a preferred embodiment of the present invention, the coupling surface and the protruding surface are provided on different planes, and the gap between the coupling surfaces is formed wider than the width of the protruding surface, And may be formed to be inclined with increasing distance from the surface.

In a preferred embodiment of the present invention, at least one incision portion may be formed along the longitudinal direction on the projecting surface.

In a preferred embodiment of the present invention, the engaging surface has a width corresponding to 1/2 of the width of the projecting surface, and the other side edge of the engaging surface corresponds to the length of the incising portion, At least one coupling protrusion having a width corresponding to the coupling protrusion is formed so that two coupling protrusions can be inserted while inserting into the incision.

In a preferred embodiment of the present invention, a plurality of fastening holes may be formed in the coupling surface and the projecting surface along the longitudinal direction.

In a preferred embodiment of the present invention, the honeycomb block unit is arranged such that the coupling surfaces of any one of the block units are arranged side by side on the same plane as the coupling surfaces of other block units adjacent to each other, And a plurality of block units coupled to one side surface of the protruding surface of the other block unit so as to form a space of a honeycomb structure.

According to the multi-purpose honeycomb block unit of the present invention, when a plurality of block units are assembled, a space of a honeycomb structure is formed on the inside, and the top and side surfaces can be opened. Therefore, Various plants can be grown. Thus, there is an advantage in that the surrounding landscape can be improved by recording the outer wall of the building, the axle of the building, or the inner side of the bank of the river. In addition, since the multi-purpose honeycomb block unit according to the present invention can be formed into various shapes and thicknesses according to the assembly form, it can be installed in a structure and size suited to the surrounding environment and can act as an artificial fish There is an advantage to be able to. In addition, when installed in a place where ooze may occur in a river or a river, each block unit is rigidly connected to an adjacent block unit, so that it can serve as a scour prevention block. Furthermore, the multi-purpose honeycomb block unit according to the present invention is easy to assemble and can be used for various purposes as described above. However, because the cross-sectional shapes are the same, the production cost can be reduced. There is an advantage.

1 is a front view (a) and a rear view (b) of a honeycomb block unit according to the present invention.
BACKGROUND OF THE INVENTION 1. Field of the Invention [0001]
FIGS. 3, 4 and 5 are views showing the use state of the honeycomb block unit according to the present invention. FIG.

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

1 is a front view (a) and a rear view (b) of a honeycomb block unit according to the present invention.

1, a honeycomb block unit 100 according to the present invention includes a coupling surface 110 provided on both sides in the longitudinal direction and a protruding surface 130 spaced from one side of the coupling surface 110, And a pair of connection surfaces 150 connecting the inner edge of the coupling surface 110 and both sides of the protruding surface 130, respectively.

The coupling surface 110 is formed in a plate-like shape, and the two coupling surfaces 110 are configured to be spaced apart from each other at regular intervals on the same plane. It is preferable that one coupling surface 110 is formed to have a size corresponding to 1/2 of the width of the projecting surface 130 to be described later. Thus, when two adjoining engaging faces 110 are bonded onto one protruding face 130, the same or similar size is formed so that a uniform honeycomb structure can be obtained. The method of combining the plurality of honeycomb block units 100 and the structure formed by the combination of them will be described later in detail. At least one coupling protrusion 115 may be formed on the other side edge of the coupling surface 110. The specific shape and role of the coupling protrusion 115 will be described later.

The protruding surface 130 is formed in a plate-like shape and is spaced apart from one side of the coupling surface 110. The width of the protruding surface 130 corresponds to the sum of the widths of the two coupling surfaces 110 as described above and at least one cutout 135 is formed along the longitudinal direction of the protruding surface 130 . The role of the cutout portion 135 will be described later. The connecting surface 150 connects the inner edge of the mating surface 110 and the opposite side edges of the mating surface 130 described above.

In the above-described configuration, in a preferred embodiment of the present invention, the gap between the pair of engagement surfaces 110 provided on the same plane is configured to be larger than the width of the projecting surface 130. Thus, when the connection surface 150 is connected between the coupling surface 110 and the protruding surface 130, the distance between the coupling surface 110 and the protruding surface 130 is gradually widened toward the coupling surface 110.

Meanwhile, the multi-purpose honeycomb block unit according to the present invention may further include a blind net 140 covering the cut-out portion 135 of the protruded face 130 on the inner side of the above-described block unit. The screening net 140 is used to prevent the filled gravel from flowing out through the cutout 135, and various known shapes and materials can be applied. However, in a preferred embodiment of the present invention, the screening network 140 is formed in a net shape. As shown in the figure, the side walls are provided on both sides of the horizontal bottom surface, And the end of the side wall may be formed as an outwardly bent shape. So that the overall shape can be configured in a shape corresponding to the inner surface of the block unit and the shape of the mating surface 110. When the block unit is engaged with other adjacent block units, the block 140 having the above-described structure is tightly coupled with the inner side so as to cover the cut-out portion 135 formed on the protruding surface 130, .

2 is a view showing an assembled state of the honeycomb block unit according to the present invention.

Referring to FIG. 2, in the honeycomb block unit 100 according to the present invention, the coupling surface 110 is fixed to the wall surface such that the coupling surface 110 faces the wall surface or the shaft. At this time, the honeycomb block unit 100 directly fixed to the wall surface may not include the coupling protrusion 115 described above. A plurality of honeycomb block units 100 may be continuously and side by side along the wall surface. Thus, a trapezoidal space having a shape that becomes narrower toward the outer side can be formed inside the wall surface, the protrusion surface 130, and the connection surface 150. (Hereinafter referred to as "first block layer 100-1L") is provided on the outer side of the first block layer 100-1L when the plurality of honeycomb block units 100 are installed side by side on a wall surface, Another block layer (hereinafter referred to as " second block layer 100-2L ") may be combined. When the second block layer 100-2L is provided outside the first block layer 100-1L after the first block layer 100-1L is installed, The coupling surface 110-1L of the second block layer 100-2L faces the projection surface 130-2L of the second block layer 100-2L, To the protruding surface 130 of the first block layer 100-1L. In this case, the honeycomb block unit 100 according to the present invention can be fixed by a fastener 170 such as a bolt or an anchor bolt, and for this purpose, the coupling surface 110 and the protruding surface 130, A plurality of fastening holes 175 may be formed through the fastening holes 170 in the longitudinal direction.

Since the coupling surfaces 110 of the two block units of the second block layer 100-2L are attached to the protruding surface 130 of the first block layer 100-1L as described above, 110 are preferably configured to be one-half the width of the protruding surface 130. In addition, in another embodiment of the present invention, a plurality of coupling protrusions 115 may be formed on the other side edge of the coupling surface 110. In this case, the coupling protrusions 115 may be formed on the protrusive surface 130, And the width of the coupling protrusion 115 may be set to have a width corresponding to one-half of the width of the cutout portion 135. In this case, Thus, the coupling protrusions 115 of the two adjacent honeycomb block units 100 can be engaged while being inserted into the cutout portions 135.

As described above, the first block layer 100-1L is arranged such that the coupling surfaces 110 of any one of the block units are arranged side by side on the same plane as the coupling surfaces 110 of the other block units adjacent to each other, A coupling surface 110 of another block unit may be coupled to one side of the protruding surface 130 of the block unit and the other block unit so that a space of a honeycomb structure is formed between the three block units. In addition, the honeycomb block unit 100 according to the present invention has the same sectional shape as shown in the drawing, but the length can be variously formed as needed. Thus, it can be assembled in various ways such as a stepped shape, a pyramid shape, or a conical shape. The space composed of honeycomb can be filled with soil or filled with vegetable bags in the form of pockets containing nutrients and soil. As described above, the cutout portion 135 can be engaged with the coupling protrusion 115 while the outermost cutout portion 135 can provide a space where the body is grown.

3, 4 and 5 are views showing the use state of the honeycomb block unit according to the present invention.

3 to 5, the honeycomb block unit according to the present invention may be installed on a wall surface of an axle or the like to grow plants, or may be used for various other decorative or functional uses. In addition, the lengths of the block units can be variously stacked to enhance functionality and aesthetics.

Meanwhile, in the drawings, the honeycomb block unit 100 according to the present invention is installed in a place such as an axle, a wall surface, or the like to exemplify a plant growing state. However, the honeycomb block unit 100 according to the present invention is installed in water It can be used as an anti-scour block or as an artificial reef. In addition, even if it is not a wall surface, it can be used as a flower bed or a flowerpot growing in a city center in a pyramid shape on the floor.

Although the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments. Therefore, the scope of the present invention should not be limited to the embodiments described, but should be determined by the appended claims, as well as the appended claims.

110: coupling surface
115: engaging projection
130: protruding face
135: incision
150: connecting surface
170: fastener
175: fastener

Claims (7)

A plate-like coupling surface provided on both side surfaces in the longitudinal direction; A plate-shaped protruding surface provided on one side of the coupling surface; And a pair of connection surfaces connecting the inner edge of the coupling surface and the opposite side edges of the projecting surface,
Wherein the engaging surface and the protruding surface are provided on different planes and the gap between the engaging surfaces is formed wider than the width of the protruding surface so that the distance between the engaging surface and the engaging surface is widened Lt; / RTI &
At least one incision portion is formed along the longitudinal direction on the protruding surface, and a coupling protrusion is formed on the other side edge of the coupling surface, the coupling protrusion being inserted into the incision portion,
Wherein the engaging surface has a width corresponding to one-half of the width of the projecting surface, and at the other side edge of the engaging surface, at least one portion corresponding to the length of the incising portion and having a width corresponding to 1/2 of the width of the incising portion The coupling protrusions are formed so that the two coupling protrusions can be inserted while being inserted into the cutout portion,
The coupling surfaces of any one of the block units are arranged on the same plane as the coupling surfaces of other block units adjacent to each other and the coupling surface of another block unit is coupled to one side of the projecting surface of the block unit and the other block unit So as to form a space of a honeycomb structure between the three block units.
delete delete delete delete delete The method according to claim 1,
Wherein the inner surface of the block unit is further provided with a covering net covering the cut-out portion.

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