KR200430136Y1 - Boundary stone construction structure of a sidewalk block - Google Patents

Abstract

A boundary stone construction structure using a prosthesis for a boundary stone separating a sidewalk block and a road is disclosed. Wire mesh frame for supporting the boundary stone fixed between the road and the sidewalk block by the concrete at a predetermined height from the ground, and boundary spacers and wires for clearance of the boundary stone in the wire mesh frame by supporting the bottom of the boundary stone on the upper surface of the wire mesh frame. By including a control spacer for supporting the bottom of the mesh frame from the ground to adjust the height of the wire mesh frame, it is easy to match the height of the boundary stone, the support structure of the boundary stone is reinforced, the construction of concrete provides a simple advantage.

Wire mesh frame, boundary stone, spacer

Description

Boundary stone construction using prosthesis {BOUNDARY STONE CONSTRUCTION STRUCTURE OF A SIDEWALK BLOCK}

1 is a front view of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention.

Figure 2 is a side view of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention.

Figure 3 is a perspective view showing a wire mesh frame of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention.

Figure 4 is a perspective view showing another wire mesh frame of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention.

<Explanation of symbols on main parts of the drawings>

100: concrete 110: road

120: sidewalk block 130: boundary stone

140: wire mesh frame 145: support wire

145a: horizontal portion 145b: inclined portion

145c: bend 147: upper horizontal wire

148: lower horizontal wire 150: boundary spacer

160: adjusting spacer 162: inclined surface

170: square wire 175: connection wire

The present invention relates to a boundary stone construction structure using a prosthesis, and more particularly, to a boundary stone construction structure using a prosthesis to distinguish between a sidewalk block and a road by a boundary stone.

In general, pedestrian sidewalk blocks are arranged on both sides of the road, and boundary stones are arranged in a row between the road and the sidewalk blocks to distinguish the road and the sidewalk blocks, thereby preventing pedestrians from entering the sidewalk blocks to increase pedestrian safety. .

In recent years, the pedestrian walkway is replaced with a sidewalk block, and asphalt is pasted with a color distinguished from the road for a sidewalk, and a bicycle road is formed separately from the sidewalk.

Here, in the construction method where the boundary stone is arranged, curing the concrete for supporting the boundary stone lower than asphalt between the road and the sidewalk block, arranging the boundary stone on the concrete, and then returning the concrete to the space formed between the boundary stone and the road and the board block. There is a concrete base structure that fixes the boundary stone by curing.

At this time, the boundary stone is formed of a granular cuboid, when arranged in a line on the ground that is not formed horizontally, the heights of the end portions facing each other are not matched, thereby damaging the aesthetics.

Therefore, it is difficult for the worker to adjust the curing height of the concrete to match the height of the boundary stone, and before placing the boundary stone on the concrete, it is necessary to adjust the height of the boundary stone by adding mortar to the concrete. There was a problem that the construction time takes a long time, such as need to be relocated after re-entry.

This problem could be solved somewhat by a construction method using a plastic support frame in which the triangular height and the support point of the three-sided ends of the concrete are not supported by concrete.

Here, the plastic support frame is provided with a height adjustment bolt that can adjust the height at the bottom of the ground portion, has three legs that are adjusted by the height of the adjustment bolt, the three legs are connected in three directions from the center of the leg Are connected to each other by the formed connection panel.

At this time, the plastic support frame is arranged in a row between the road and the sidewalk block, and supports the bottom part of the boundary stone formed of granite, which is formed of plastic, and is damaged due to the weight of the boundary stone before the concrete is installed below the boundary stone, Since the height adjustment bolt is subjected to the compressive force of granite, it was difficult to adjust the height of the leg by rotating the bolt, and it was difficult to adjust the twisted position of the boundary stone by moving the support position of the leg.

The present invention is devised to solve the above problems of the prior art, it is easy to adjust the height of the boundary stone disposed between the road and the sidewalk block, and also easy to adjust the twisted position of the boundary stone, the weight of the boundary stone The purpose is to provide a boundary stone construction structure using a prosthesis with improved durability.

The construction of the boundary stone construction structure using the prosthesis according to the present invention for solving the above problems is a wire mesh frame for supporting a boundary stone fixed between the road and the sidewalk block by concrete at a predetermined height, and the wire mesh frame By supporting the bottom surface of the boundary stone on the upper surface of the, and the boundary spacer for clearance of the boundary stone in the wire mesh frame and the control spacer for adjusting the height of the wire mesh frame by supporting the bottom surface of the wire mesh frame from the ground.

Hereinafter, with reference to the accompanying drawings will be described a preferred embodiment of the boundary stone construction structure using a prosthesis according to the present invention with reference to the accompanying drawings. In this process, the thickness of the lines or the size of the components shown in the drawings may be exaggerated for clarity and convenience of description. In addition, terms to be described later are terms defined in consideration of functions in the present invention, which may vary depending on the intention or custom of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

In addition, the following examples are not intended to limit the scope of the present invention, but are presented by way of example, and there may be various embodiments implemented through the present technical idea.

Example

1 is a front view of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention, Figure 2 is a side view of the boundary stone construction structure using a prosthesis according to an embodiment of the present invention, Figure 3 is 4 is a perspective view illustrating a wire mesh frame of a boundary stone construction structure using a prosthesis according to an embodiment, and FIG. 4 is a perspective view illustrating another wire mesh frame of a boundary stone construction structure using a prosthesis according to an embodiment of the present invention.

As shown in FIGS. 1 and 2, the boundary stone construction structure of the sidewalk block 120 according to an embodiment is a boundary stone 130 fixed between the road 110 and the sidewalk block 120 by the concrete 100. The wire mesh frame 140 to support the bottom surface of the boundary stone 130 on the upper surface of the wire mesh frame 140 and the wire mesh frame 140 to support the wire mesh frame 140. It includes a spacer spacer 150 and a control spacer 160 for adjusting the height of the wire mesh frame 140 by supporting the bottom surface of the wire mesh frame 140 spaced in the ground.

Here, a groove 130a through which the concrete 100 is drawn is formed in the front lower portion of the boundary stone 130. The boundary stone 130 is placed on the wire mesh frame 140 and arranged in a line, and then the concrete ( When the 100 is poured to the upper portion of the wire mesh frame 140 through the spaces formed on both sides of the boundary stone 130, the concrete 100 is hardened by entering the groove, so that the boundary stone 130 is separated from the concrete 100 More difficult structures are formed.

Here, the wire mesh frame 140 is arranged in a line between the road 110 and the sidewalk block 120 to support the boundary stone 130 at a predetermined height from the ground, the mesh shape for the boundary stone 130 is supported The frame is formed.

At this time, the boundary stone 130 is placed on top of the wire mesh frame 140 and the boundary spacer 150 to prevent corrosion of the wire mesh frame 140 by the chemical reaction of granite by gapping with the boundary stone 130 mainly formed by granite. Boundary stone 130 and the height is disposed on the upper surface of the control spacer 160 is supported by the other wire mesh frame 140 by adjusting the height slightly from the ground by fitting the spacer spacer 160 to the bottom of the wire mesh frame 140 Can be adjusted.

Then, after the boundary stone 130 is disposed in line on the ground by the wire mesh frame 140, the concrete 100 is poured into a space formed between the boundary stone 130 and the road 110 and the sidewalk block 120. The concrete 100 is injected into the inside of the mesh through the wire mesh frame 140, and filled up to the lower portion of the boundary stone 130, while curing and hardening to firmly fix the wire mesh frame 140, The boundary stone 130 is firmly fixed to the upper portion of the wire mesh frame 140 by concrete.

Here, the wire mesh frame 140 is disposed horizontally on the lower surface of the boundary stone 130 to support the boundary stone 130 and a distance from both ends of the horizontal portion 145a to the ground. Is gradually inclined to extend inclined portion 145b and the support portion 145c which is bent outwardly of the inclined portion 145b at both side ends of the inclined portion 145b and supported on the ground, in line with the ground A support wire 145 is disposed.

In addition, the support wire 145 is fixed by the upper horizontal wire 147 connecting both ends of the horizontal portion 145a of the support wire 145, the upper horizontal wire 147 is horizontal of the support wire 145 The boundary stone 130 is supported together with the portion 145a and the support wire 145 is connected to form a mesh on the upper surface of the support wire 145.

In addition, a lower horizontal wire 148 is disposed below the upper horizontal wire 147 in parallel with the upper horizontal wire 147, and the lower horizontal wire 148 has a lower end portion of the inclined portion 145b to each other. By connecting to form a mesh with the upper horizontal wire 147 and the inclined portion 145b, to provide a structure for restraining the support wire 145 to each other and support between the inclined portion (145b).

In addition, the ends of the support portion 145c may also be connected to each other by a horizontally formed wire, the connection structure of the support wire 145 is more robust, the end of the support portion 145c is supported by each other support portion 145c is an external force To prevent bending.

Here, the connection position of the upper horizontal wire 145a or the lower horizontal wire 145b is not limited, and the connection position and the number of connections may be changed in the support wire 145 as necessary.

At this time, the support wire 145 is a form in which the inclined portion 145b is spread on both sides in the horizontal portion 145a, and is connected by the upper horizontal wire 147 and the lower horizontal wire 148, and the upper surface portion is the horizontal portion. 145a and the upper horizontal wire 147 is formed in a mesh, and the lower end portion of the inclined portion 145b is wide open, so that a plurality of wire mesh frame 140 on the upper portion of the wire mesh frame 140 This can be loaded from below.

That is, since the wire mesh frame 140 of the above-described type can be loaded with a plurality of upper and lower portions, the number of the wire mesh frame 140 can be moved to a moving means such as a forklift at a time and loaded on the transportation means. It is a form with the convenience of transportation which saves space.

Here, the control spacer 160 is formed in a wedge shape having an inclined surface 162 to be easily inserted between the boundary stone 130 and the ground, and the wire mesh frame 140 on which the boundary stone 130 is raised by the inclined surface 162. ) Can be easily lifted, so that the height of both ends of the boundary stones 130 arranged in a line, the height of both ends do not match each other by the shape of the ground.

In addition, the wire mesh frame 200 is formed in a rectangular shape, and connects the square wire 170 and the square wire 170 arranged in a row on the bottom surface of the boundary stone 130 to form a mesh by the square wire. It may include a connecting wire 175.

Here, the wire mesh frame 200 with the square wire 170 is a closed form, unlike the wire mesh frame 140 with the support wire 145, the connection wire 175 horizontally disposed on both sides It is fixed by, the lower end of the square wire 170 is connected to each other compared to the wire mesh frame 140 having a support wire 145 provides a more robust structure, but is loaded as it is without saving the space occupied in the vehicle The space is large and the number that can be moved at one time is smaller.

In this case, the wire mesh frame 200 having the square wire 170 also needs to be disposed on the boundary stone 130 using the boundary spacer 150 as in the wire mesh frame 140 having the support wire 145 described above. In addition, heights facing each other may be adjusted by the adjustment spacer 160.

The boundary stone construction structure using the prosthesis according to the present invention configured as described above is easy to adjust the height of the boundary stone disposed between the road and the sidewalk block by a wire mesh frame whose height is adjusted by an adjustment spacer, and the boundary stone is twisted. The position can also be easily adjusted by the bending of the wire mesh frame, the support wire is connected to each other by a horizontally formed wire to obtain the effect of supporting the weight of the boundary stone during concrete curing.

Claims (5)

Boundary stone fixed between the road and the sidewalk block by concrete; A wire mesh frame for supporting the boundary stone at a predetermined height on the ground; A boundary spacer for supporting the bottom surface of the boundary stone on the upper surface of the wire mesh frame, thereby allowing the boundary stone to be free from the wire mesh frame; And A boundary stone construction structure using a prosthesis comprising a control spacer for supporting the bottom surface of the wire mesh frame on the ground to adjust the height of the wire mesh frame. The method of claim 1, The boundary stone construction structure using the prosthesis, characterized in that the groove is formed in the front lower portion of the boundary stone is introduced. The method of claim 1, The wire mesh frame is horizontally disposed on the lower surface of the boundary stone to support the boundary stone, an inclined portion extending inclined while gradually increasing the distance from both end portions of the horizontal portion to the ground, and at both end portions of the inclined portion. A support wire that is bent outwardly of the inclined portion and provided with a support portion supported on the ground to be disposed in line on the ground; An upper horizontal wire connecting both ends of the horizontal portion of the support wire to each other to support the boundary stone together with the horizontal portion of the support wire, and forming a mesh on the upper surface of the support wire by connecting the support wire; And And a lower horizontal wire forming a mesh together with the upper horizontal wire and the inclined part by connecting the lower ends of the inclined part to each other under the upper horizontal wire. The method of claim 1, The control spacer is a boundary stone construction structure using a prosthesis, characterized in that formed in the wedge shape. The method of claim 1, The wire mesh frame is formed in a quadrangular shape, the square wire arranged in a line on the bottom of the boundary stone; And The boundary stone construction structure using the prosthesis, characterized in that it comprises a connecting wire for connecting the square wire to form a mesh by the square wire.

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