KR20210117009A - concrete block for fence - Google Patents

Abstract

The present invention relates to a concrete block for a fence, which can reduce production costs. According to the present invention, a side protrusion (20) protruding outward is formed on any one of left and right sidewalls. Also, a lower insertion groove (41) is formed at a bottom part in a longitudinal direction of a horizontal direction, and an upper insertion groove (50) is formed on an upper surface.

Description

concrete block for fence

The present invention relates to a concrete block for a fence and a method for manufacturing the same, and the upper and lower portions are formed with irregularities for assembling, and the center of the irregularities is made in a sharp shape, making it easier to assemble and to handle various variables at the construction site. It relates to a concrete block for a fence, so that construction is possible.

In general, a retaining wall is a structure built on a terrain such as a fill site or a cut-off site to prevent deviation and collapse due to the loss of soil.

This retaining wall is made to be built into a solid structure by mixing a stone and cement of a predetermined shape on an inclined surface such as a fill site or a cut-off site, and curing them to prevent the loss of soil in the fill site or cut-off site.

Such a retaining wall, when constructed in the above manner on a terrain such as a large filled land or cut-off site, has a risk of deviating or collapsing due to the weight of the cement cured by the action of an external force between the constructed stone and the stone. And it took an excessive amount of time to cure the cement.

It is becoming increasingly difficult to use natural stone as a stone material to build a shaft due to the depletion of limited resources, and an additional process of cutting and cutting a large stone to a predetermined size is required to prepare the stone. It is expensive, and it is very difficult to use because the construction period is extended due to curing of cement and the labor cost is excessive.

In addition, if the retaining wall does not properly drain the moisture absorbed by the soil of the topography such as a fill site or a cut-off site, or if the moisture freezes and expands when the weather becomes cold, such as in winter, cracks occur in the retaining wall and even the retaining wall There was this disintegration point.

In order to overcome this point, recently, a method of combining a plurality of blocks and constructing them on a terrain such as a fill site or a cut-off site is widely used.

Blocks for such a retaining wall include a block that is installed in steps by filling the soil inside, and a block that is vertically assembled.

As a technology related to vertically constructed blocks, "vegetation building blocks and retaining walls using them" (Korean Patent Publication No. 10-1314556, Patent Document 1) have been disclosed.

In Patent Document 1, the front surface of the block is formed to protrude a natural stone pattern, and grooves and protrusions are formed on the upper, lower, and left and right sides of the block so that a plurality of blocks can be assembled vertically and horizontally.

At this time, the shape of the groove and the protrusion takes a rectangular cross-sectional shape or a trapezoidal cross-sectional shape, and the blocks adjacent to the top and bottom and the blocks adjacent to the left and right are in surface contact on the groove.

Such a bonding structure has an advantage in that the contact area is large in the bonding state, and thus structural stability can be increased.

However, as shown in FIG. 1 , it is very difficult to construct the blocks while completely forming a vertical and horizontal plane depending on various variables at the construction site, such as minute irregularities of the blocks or foreign substances penetrating during construction, at the construction site of the blocks.

In addition, even when the groove is formed in a pointed shape as shown in FIG. 1 , there is a problem in that it is difficult to make the contact surface between the two blocks as flat as possible as shown in the drawing.

Accordingly, as described above, in the case of blocks having a flat groove bottom surface or blocks having a pointed shape, it is rather difficult to construct adjacent blocks to form a straight line vertically or horizontally.

In addition, in order to construct the grooves and protrusions in a straight line, the dimensions of a pair of upper and lower plates, and left and right side wall plates required for manufacturing the molding die must be different, so there is a problem that the manufacturing cost of the mold for manufacturing the block increases. .

In order to solve this problem, the width of the groove may be made larger than the width of the protrusion, but in this case, there is a fatal disadvantage in that the coupling force is weakened.

KR 10-1314556 (2013.09.27)

The concrete block for a fence of the present invention is to solve the problems occurring in the prior art as described above, and the central part of the groove and the protrusion for assembling takes a slanted form rather than a flat form, but one side with respect to the center is formed to be inclined in a straight line, and the other side is inclined in a stepped shape with different inclination angles, and the width of the groove is made larger than the width of the projection. The goal is to be able to remain connected with flat surface contact.

In addition, even if a force is generated in the front-rear direction at the connection point of the blocks, the shape of the groove is asymmetrical and the front-to-back flow between the blocks is minimized due to the stepped shape to maintain a stable coupling state.

In addition, by forming the difference in width between the groove and the protrusion using a metal plate bent to the same shape, the cost of designing and producing the mold can be minimized to reduce the production cost.

In order to solve the above technical problem, the concrete block for a fence of the present invention has a hexahedral shape in which a number of natural stone-shaped pattern forming parts 10 protrude from the front side, and any one of the left and right side walls protrudes to the outside. A side projection 20 is formed, and a side insertion groove 30 having a shape into which the side projection 20 can be inserted is formed in the other one, and a lower insertion groove 41 is formed at the bottom along the longitudinal direction in the left and right direction. is formed, and an upper insertion groove 50 symmetrical with the lower insertion groove 41 is formed on the upper surface along the longitudinal direction in the left and right direction, the side projection 20, the side insertion groove 30, The lower insertion groove 41 and the upper insertion groove 50 are all inclined upwardly from the central lower end to one upper end of the one side inclined portion 60, and the other lower inclined portion 70 inclined upward from the central lower end to the other upper side, and, It consists of the other upper inclined part 80 inclined upward from the other lower inclined part 70 to the other upper end, and the other lower inclined part 70 has a smaller inclination angle than the other upper inclined part 80, The width of the side insertion groove (30) is characterized in that made larger than the width of the side projection (20).

Alternatively, it has a hexahedral shape in which a plurality of natural stone-shaped pattern forming parts 10 protrude on the front side, and a side protrusion 20 protruding outwardly is formed on any one of the left and right side walls, and the side protrusion part is formed on the other one. A side insertion groove 30 of a shape into which (20) can be inserted is formed, a lower protrusion 40 protruding downward is formed at the bottom, and an upper insertion shape into which the lower protrusion 40 can be inserted is formed on the upper surface. A groove 50 is formed, and the side protrusion 20, the side insertion groove 30, the lower protrusion 40, and the upper insertion groove 50 are all inclined upward from the center lower end to the upper end of one side. 60), the other lower inclined portion 70 inclined upward from the lower end of the center to the other side, and the other upper inclined portion 80 inclined upward from the other lower inclined portion 70 to the other upper end, and the other side The lower inclined portion 70 has a smaller inclination angle than the other upper inclined portion 80, and the width of the side insertion groove 30 is larger than the width of the side projection 20, and the upper insertion groove ( The width of 50) is characterized in that it is made larger than the width of the lower protrusion (40).

In the above configuration, the concrete block for the fence is manufactured by injecting a concrete composition into a hexahedral mold 90 and curing it, and the top, bottom, and left and right sides of the mold 90 are iron plates of a certain thickness. It is characterized in that the width of the side insertion groove 30 is greater than the width of the side protrusion 20 by the thickness of the bending plate by being formed of a bending plate formed by bending.

Alternatively, the concrete block for the fence is manufactured by injecting a concrete composition into a hexahedral mold 90 and curing, and the top, bottom, and left and right sides of the mold 90 are bent formed by bending an iron plate of a certain thickness. It is characterized in that the width of the upper insertion groove 50 and the side insertion groove 30 is made larger than the width of the lower protrusion 40 and the side protrusion 20, respectively, by the thickness of the bent plate by being composed of a plate.

According to the present invention, the central part of the groove and the protrusion for assembling takes a slanted form rather than a flat form, and one side is inclined in a straight line based on the center, and the other side has a stepped shape with different inclination angles. In addition to forming an inclined plane, the width of the groove is made larger than the width of the protrusion, so that even if there is a foreign material in the groove or the protrusion, the adjacent blocks can maintain the connection state while making the flat surface contact with each other as much as possible.

In addition, even if a force is generated in the front-rear direction at the connection point of the blocks, the shape of the groove is asymmetric, and due to the stepped shape, it is possible to maintain a stable coupling state by minimizing the front-to-back flow between the blocks.

In addition, by forming the difference in width between the groove and the protrusion using a metal plate bent to the same shape, it is possible to minimize the cost for design and production of the mold, thereby reducing the production cost.

1 is a cross-sectional schematic view showing a problem in the assembly of the conventional blocks.
Figure 2 is a perspective view showing an embodiment of the concrete block for a fence of the present invention.
Figure 3 is an exploded perspective view showing an assembly example of a mold for manufacturing the concrete block of Figure 2;
Figure 4 is a perspective view showing another embodiment of the concrete block for a fence of the present invention.
Figure 5 is an exploded perspective view showing an assembly example of a mold for manufacturing the concrete block of Figure 4;
Figure 6 is a perspective view showing a specific shape of the bending plate in the assembled state of Figure 5;
7 is a cross-sectional view showing a flat cross-section of the mold in the present invention and the left-right coupling state of the block manufactured thereby.
8 and 9 are cross-sectional views showing the side cross-section of the mold in the present invention and the left-right coupling state of the block manufactured thereby.

Hereinafter, a concrete block for a fence of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 3, the concrete block for a fence of the present invention has a hexahedral shape in which a plurality of natural stone-shaped pattern forming parts 10 protrude.

In addition, in the concrete block for a fence of the present invention, a side protrusion 20 protruding outward is formed on any one of the left and right side walls, and the side protrusion 20 has a shape in which the side protrusion 20 can be inserted into the other side insertion groove 30. is formed.

Accordingly, the blocks adjacent to each other on the left and right form a structure in which the side protrusion 20 of one block is inserted into the side insertion groove 30 of the other block.

In addition, the upper insertion groove 50 is formed along the longitudinal direction of the left-right direction on the front surface of the concrete block for fence of the present invention.

In addition, a lower insertion groove 41 is formed in the left and right longitudinal direction to form a symmetry with the upper insertion groove 50, or a lower protrusion 40 protruding downward is formed at the bottom.

If the lower insertion groove 41 is formed in the bottom, when the block is built up and down, the connection block 120 is inserted between the upper insertion groove 50 and the lower insertion groove 41 to be assembled.

Although an embodiment of the connection block 120 is illustrated in FIG. 8 , it is not limited to the shape of the drawing and various forms are possible.

Alternatively, when the lower protrusion 40 is formed, the blocks adjacent to each other up and down form a structure in which the lower protrusion 40 of the lower part of the upper block is fitted into the upper insertion groove 50 of the upper part of the lower block.

The above-described configuration is a block structure that is well known in the art.

In addition, in the concrete block of the present invention, the traction ring (b) as shown in FIG. 3 is integrally installed in the upper insertion groove 50 so that it can be lifted by a crane or the like.

As shown in FIG. 3, the concrete block for a fence of the present invention has the side projection 20, the side insertion groove 30, the lower projection 40, the lower insertion groove 41, and the upper insertion groove 50. All of the one side inclined part 60 inclined upward from the central lower end (a) to the one upper end, the other lower inclined part 70 inclined upward from the center lower end to the other upper side, and the other lower inclined part 70 from the other upper end. It has a characteristic consisting of the other upper inclined portion 80 that is inclined upwardly.

In addition, the other lower inclined portion 70 is characterized in that the inclination angle is made smaller than the other upper inclined portion (80).

In addition, as shown in FIG. 3 , the width of the upper insertion groove 50 is greater than the width of the lower protrusion 40 , and the width of the side insertion groove 30 is the width of the side projection 20 . It is characterized in that it is made larger than the width.

In addition, as shown in FIGS. 3 to 9, the concrete block for a fence of the present invention is manufactured by injecting a concrete composition into a mold 90 of a hexahedron shape and curing, the top surface, the bottom surface of the mold 90, The left and right sides are composed of a bending plate formed by bending an iron plate of a certain thickness, so that the width of the side insertion groove 30 is greater than the width of the side protrusion 20 by the thickness of the bending plate.

In addition, when the bottom shape is composed of the lower protrusion 40 , the width of the upper insertion groove 50 is greater than the width of the lower protrusion 40 .

More specifically, the molding frame 90 shown in FIG. 3 includes a front plate 91 having a groove formed therein for forming a natural stone pattern, and the front plate 91 to form the back shape of the block. A rear plate 92 arranged to be spaced apart from the rear side and a bottom bending plate 93 for connecting the front plate 91 and the lower portion of the rear plate 92 and forming the lower shape of the block, the bottom bending plate 93 ), the upper bent plate 94 connecting the upper portions of the front plate 91 and the rear plate 92, and connected to both ends of the front plate 91 and the rear plate 92, respectively. It is composed of a right bent plate 95 and a left bent plate 96 which are installed.

The connection of each plate may be fastened using a known fixing means such as a bolt.

At this time, the gap generated in addition to the connection of the above-described members may be closed by fixing an iron plate or the like.

In addition, the bottom bent plate 93, the upper bent plate 94, the right bent plate 95, and the left bent plate 96 are the aforementioned one side inclined part 60, the other lower inclined part 70 and the other upper part. In order to form the inclined portion 80, a bent plate is formed.

In this bending plate, the upper surface 110 is inclined upward to the right side on one side to form the one-side inclined part 60 of the lower protrusion 40 and the side protrusion 20 based on FIG. 6 , the upper first inclined part ( 111) is formed, and an upper second inclined part 112 inclined upward in the upper left direction from the lower end of the upper first inclined part 111 is formed to form the other lower inclined part 70, and the other upper part is formed. In order to form the inclined portion 80, the upper third inclined portion 113 inclined upward in a stepwise upward direction from the upper end of the upper second inclined portion 112 is formed.

In addition, based on FIG. 5 , the lower surface 100 is a lower first formed in parallel to the lower portion of the upper first inclined portion 111 to form the upper insertion groove 50 and the side insertion groove 30 . An inclined portion 101 is formed, and a lower second inclined portion 102 that is formed in parallel to a lower portion of the upper second inclined portion 112 is formed, and the upper third inclined portion 113 is formed. It takes a structure in which the lower third inclined portion 103 formed in parallel to the lower portion is formed.

Such a bending plate is formed by bending a certain metal plate using a bending machine, and has a structure in which points where each part meets each other do not form a straight line vertically.

In addition, the distance between the outer end of the upper first inclined portion 111 and the outer end of the upper third inclined portion 113 is the outer end of the lower first inclined portion 101 and the outer edge of the lower third inclined portion 103 . shorter than the distance between the ends.

That is, the width of the upper insertion groove 50 is made larger than the width of the lower protrusion 40 through one type of bending plate bent to the same dimension, and the width of the side insertion groove 30 is the side protrusion 20 is made larger than the width of

Referring to FIG. 9 , a state in which the lower protrusion 40 is inserted into the upper insertion groove 30 of the blocks adjacent to each other in the vertical direction is shown.

As can be seen from the drawings, it can be seen that the width of the upper insertion groove 50 is naturally greater than the width of the lower protrusion 40 due to the difference in dimensions between the inner surface and the outer surface of the bending plate having the same dimensions.

Accordingly, as shown in the cross-sectional view, it can be seen that the upper block is coupled while moving slightly to the left in the drawing even in a state in which foreign substances are caught on the inner circumferential surface of the upper insertion groove 30, and the two blocks are in uniform surface contact as a whole.

In particular, the other lower inclined portion 70 is not more easily separated from the force acting on the left and right as the other upper inclined portion 80 does not form a straight line and forms a bent shape.

In the case of forming the lower insertion groove 41 as shown in FIG. 8 , they are mutually fastened through the connection block 120 , and in this case, the width of the upper insertion groove 50 and the lower insertion groove 41 is the same.

Referring to FIG. 7 , a state in which the side projections 20 are fitted into the side insertion grooves 30 of the blocks adjacent to each other on the left and right is shown.

As can be seen from the drawings, it can be seen that the width of the side insertion groove 30 is naturally greater than the width of the side protrusion 20 due to the dimensional difference between the inner surface and the outer surface of the bending plate having the same dimensions.

Accordingly, as shown in the cross-sectional view, by making the adjacent blocks form a bent angle rather than a straight line, or when foreign substances are caught, they are easily combined in a bent state, or they are combined by moving them slightly in the front and rear direction. can

In particular, in this method, the length of the front plate 91, the rear plate 92, the upper bent plate 94, and the bottom bent plate 93 is long enough to manufacture several blocks at once, so that the overall length is very long. In addition to forming a long box shape, it is possible to simultaneously manufacture several blocks at a time by arranging the right bending plate 95 and the left bending plate 96 at an appropriate position inside at regular intervals. .

That is, after only the front plate 91 for forming a natural stone shape is equipped with a mold, for the remaining members, prepare an iron plate of the same width, then bend it to the same dimensions, cut it as necessary, and then cut the parts other than the front plate 91 It is possible to manufacture by placing it in the bar, it is possible to reduce the production cost compared to the conventional block.

In particular, it helps to reduce the cost of production by reducing the cost of the mold when manufacturing at a small-scale manufacturer that is difficult to mass-produce.

The concrete block for a fence of the present invention configured as described above can be used for various purposes, such as an axis, a retaining wall, etc. in addition to the fence.

10: pattern forming part 20: side protrusion
30: side insertion groove 40: lower protrusion
41: lower insertion groove
50: upper insertion groove 60: one side inclined part
70: the other lower inclined part 80: the other upper inclined part
90: mold 91: front plate
92: back plate 93: bottom bent plate
94: upper bent plate 95: right bent plate
96: left bent plate 100: lower surface
101: lower first inclined portion 102: lower second inclined portion
103: lower third inclined part 110: upper surface
111: upper first inclined portion 112: upper second inclined portion
113: upper third inclined part 120: connecting block

Claims (4)

In the concrete block for fence,
It consists of a hexahedral shape in which a number of natural stone-shaped pattern forming parts 10 protrude on the front side,
One of the left and right side walls is formed with a side protrusion 20 protruding to the outside, and a side insertion groove 30 having a shape into which the side protrusion 20 can be inserted is formed on the other side,
A lower insertion groove 41 is formed at the bottom along the longitudinal direction in the left and right direction,
An upper insertion groove 50 symmetrical with the lower insertion groove 41 is formed on the upper surface along the longitudinal direction in the left and right direction,
The side protrusion 20, the side insertion groove 30, the lower insertion groove 41, and the upper insertion groove 50 are all inclined upwardly from the central lower end to one upper end of the one side inclined portion 60, and the other side from the center lower end. It consists of the other lower inclined part 70 inclined upwardly, and the other upper inclined part 80 inclined upward from the other lower inclined part 70 to the upper end of the other side,
The other lower inclined portion 70 has a smaller inclination angle than the other upper inclined portion 80,
The width of the side insertion groove (30) is characterized in that made larger than the width of the side projection (20),
Concrete blocks for fences.
In the concrete block for fence,
It consists of a hexahedral shape in which a number of natural stone-shaped pattern forming parts 10 protrude on the front side,
One of the left and right side walls is formed with a side protrusion 20 protruding to the outside, and a side insertion groove 30 having a shape into which the side protrusion 20 can be inserted is formed on the other side,
A lower protrusion 40 protruding downward is formed at the bottom,
An upper insertion groove 50 of a shape into which the lower protrusion 40 can be inserted is formed on the upper surface,
The side protrusion 20, the side insertion groove 30, the lower protrusion 40, and the upper insertion groove 50 are all inclined upward from the center lower end to one upper end of the one side inclined portion 60, and the other upper side from the center lower end. It consists of the other lower inclined part 70 inclined upwardly, and the other upper inclined part 80 inclined upward from the other lower inclined part 70 to the upper end of the other side,
The other lower inclined portion 70 has a smaller inclination angle than the other upper inclined portion 80,
The width of the side insertion groove 30 is made larger than the width of the side protrusion 20, and the width of the upper insertion groove 50 is larger than the width of the lower protrusion 40, characterized in that,
Concrete blocks for fences.
The method of claim 1,
The concrete block for the fence is manufactured by putting a concrete composition into a mold 90 of a hexahedron shape and curing,
The upper surface, the bottom surface, and the left and right side surfaces of the mold 90 are formed by bending an iron plate of a certain thickness to form a bending plate.
Characterized in that the width of the side insertion groove (30) is made larger than the width of the side projection (20) by the thickness of the bending plate,
Concrete blocks for fences.
In claim 2,
The concrete block for the fence is manufactured by putting a concrete composition into a mold 90 of a hexahedron shape and curing,
The upper surface, the bottom surface, and the left and right side surfaces of the mold 90 are formed by bending an iron plate of a certain thickness to form a bending plate.
The width of the upper insertion groove 50 and the side insertion groove 30 by the thickness of the bending plate is made larger than the width of the lower protrusion 40 and the side protrusion 20, respectively,
Concrete blocks for fences.

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