KR100925400B1 - Method carrying out the outer building materal on the incline - Google Patents

Abstract

According to the present invention, when the inclined surface is formed more than the angle of repose of the surface material, a plurality of support members are fixedly arranged at regular intervals on the inclined surface so that the installed surface material can maintain a stable state. Regarding the construction method,

Digging a predetermined depth around the installation site forming the protrusions and compacting the burrowed soil into a place for forming the protrusions to form the protrusions higher than the ground surface;

Compacting rubble in the trenched space;

Curing after pouring concrete or asphalt on the compacted protrusions and rubble;

Fixing the support member at regular intervals on the inclined surface of the cured concrete or asphalt; And

And placing the surface layer material mixed with the binder in a crushed state on the inclined surface to which the support member is fixed, and molding the support member to be embedded.

Concrete, asphalt, slope, angle of repose, surface material, binder, support member, rubber bar

Description

{Method carrying out the outer building materal on the incline}

The present invention relates to a construction method of forming a projection higher than the ground surface for the landscaping of a playground or a park, and placing a surface material on the outside thereof. Laminated compaction on the projected part to make it higher than the surface of the earth, and after the rubble is compacted in the burrowed space, the concrete is placed on the compacted protrusion and the rubble, and a plurality of supporting members are installed on the surface at regular intervals, The present invention relates to a method for constructing a sloped surface material that can maintain a stable state even if it is out of the range of the angle of repose.

Places such as children's playgrounds, parks, high ground, jogging trails, or bicycle paths, where many people walk or ride bicycles, protrude from the ground to slope and bend for landscaping that matches the surrounding environment.

As such, the construction method of inclining the ground surface forms concrete or curved surface by placing concrete on the surface of the factory and then installs the surface material having elasticity on the inclined surface to prevent the concrete from being exposed to prevent the injury of pedestrians or cyclists. Doing.

However, in the conventional surface material construction method, as shown in FIGS. 1 and 2, the viscosity of the binder to which the inclined surface of the concrete 1 adheres to the repose angle of the surface material 3, that is, the finely crushed surface material 3, is obtained. When 3) is larger than the inclination angle (rest angle) in a state where it can be attached in a stable state, deformation occurs such that the surface layer material 3 installed on the inclined surface is partially cut off as shown in FIG. 1 or flows down as shown in FIG.

Therefore, the part where the surface material (3) was cut off after construction was filled with a new surface material (3), and the flowing part has to be re-deployed repeatedly to complete the construction. Not only the construction is inconvenient, there was a problem of air and cost.

In addition, if the surface material 3 is repeatedly reconstructed, the condition of the surface material 3, that is, the content of the binder functioning as an adhesive is changed every time, and the adhesive force between the surface material 3 is weakened, resulting in a shortened life. there was.

Accordingly, the present invention is to solve all the problems of the surface material construction method as described above, the purpose is to dig a predetermined depth around the place to form the protrusions and to form the surface of the earth by stacking the excavated soil in the protrusions It is made higher and it is stable even if the surface layer placed on the concrete is out of the angle of repose by placing the rubble in the burrowed space and placing concrete on the compacted protrusion and rubble and installing a plurality of supporting members thereon at regular intervals. It is to provide a method of construction of the inclined surface layer material that can be solid and easy to maintain the surface material construction to maintain.

Such slope surface material construction method,

Digging deeply around the place forming the protrusion and compacting the buried soil in a place for forming the protrusion to form the protrusion higher than the ground surface;

Compacting rubble in the trenched space;

Curing after pouring concrete or asphalt on the compacted protrusions and rubble;

Fixing the support member at regular intervals on the inclined surface of the cured concrete or asphalt; And

And placing the surface layer material mixed with the binder in a crushed state on the inclined surface to which the support member is fixed to form a support member embedded therein.

As described above, the inclined surface layer construction method fixes the support members on the concrete inclined surface at regular intervals, so that the support member functions as a stopper to prevent the surface material from spreading or slipping. Thus, the conventional problem can be solved simply.

The gap between the support members is selectively adjusted according to the angle of the inclined surface, that is, when the inclination angle of the inclined surface is large, the gap between the support members is narrowed, and when the inclination angle is gentle, the support member interval is widened according to the condition of the inclined angle. By selectively adjusting the position of the support member there is an advantage that can be installed in the optimal state.

Hereinafter, with reference to the accompanying drawings will be described in detail the construction method of the inclined surface layer material according to the present invention.

3 is a cross-sectional view illustrating a process of compacting the excavated soil by digging around the protrusions according to the construction of the present invention, and FIG. 4 is a cross-sectional view showing the state of rubble in the exploded space of FIG. 3. 5 is a cross-sectional view of the concrete poured on the protrusions and rubble of FIG. 4, Figure 6 is a cross-sectional view of the base material installed in the concrete corresponding to the rubble of FIG. FIG. 70 is a cross-sectional view of the support member fixed to the concrete and the base material of FIG. 6 at regular intervals, FIG. 8 is a cross-sectional view of the surface material laid on the concrete of FIG. 70, and FIG. 9 is an inner part of FIG. 8. Is a detailed view showing a state in which the supporting member is fixed. 10 is a cross-sectional perspective view showing a state in which the support member is installed on the concrete constructed by the present invention, Figure 11 is a cross-sectional perspective view showing a state in which the surface material is installed on the concrete of FIG.

As shown in the drawings, the inclined surface layer construction method according to the present invention,

Digging the periphery of the place where the protrusion 10 is formed to a certain depth and burying the excavated soil in a place for forming the protrusion 10 to form the protrusion 10 higher than the ground surface 20 ( S1);

Compacting rubble (40) in the bursting space (30) (S2);

Curing after pouring concrete (50) or asphalt on the compacted protrusions (10) and rubble (40) (S3);

Fixing the support member 60 at regular intervals on the inclined surface of the cured concrete 50 or asphalt (S4); And

And forming the support member 60 by embedding the surface layer material 70 mixed with the binder while being crushed on the inclined surface on which the support member 60 is fixed (S5).

The step S1 of forming the protrusion 10 is an initial process, as shown in FIG. 3, digging the periphery where the protrusion 10 is to be formed to a predetermined depth, and the soil obtained by the trench is provided with the protrusion 10. It is supplied to the place to be formed and compacted. Thus, the soil obtained by the trench is compacted higher than the ground surface 20 by being supplied to the place where the protrusions 10 are formed, so that the protrusions 10 are easily formed.

The space 30 generated by the trench and the protrusion 10 protruded by the compaction of the soil may form various shapes adjacent to each other, so as to avoid the purpose of landscaping or the monotony of the flat ground surface 20. Various shapes, for example, hemispherical hilly shape, it can be configured in the arch shape as shown in Figs.

In the space 30 and the protrusion 10, the concrete 50 is poured and the surface layer 70 is installed in the entire process thereafter.

The slope of the inclined surface of the protrusion 10 can be selectively adjusted according to the purpose of use, and if the slope is larger than the angle of repose of the surface material 70 installed on the surface thereof, the surface material (using the support member 60 described later) ( 70) can be installed stably.

Step (S2) of compacting the rubble 40 in the trench 30 is a process of compacting the bottom surface of the space 30 formed by the trench, a thickness of 10-30cm gravel having a size of about 3-7cm Pledge to The rubble 40 is placed in the space 30 and then evenly spread with a bucket of an excavator, and then pressurized until it is no longer pressed. The compacted rubble 40 supports the concrete 50 poured thereon to prevent the concrete 50 from being settled under load so as not to be damaged.

Curing after pouring concrete 50 or asphalt on the compacted protrusions 10 and rubble 40 is a step of forming a foundation for laying the surface material 70.

When the concrete 50 is poured into the protrusions 10 and the rubble 40, it is preferable to cure at least 10 days or more with a thickness of 10 cm or more, and preferably to cure for 14 days or more. If the curing is less than 10 days, the nail 80 is fixed when the support member 60 is fixed there is a fear that the portion where the nail 80 is fixed.

In addition, when placing the asphalt so as to prevent damage by the nail 80 as described above it is good to cure for at least 5 days.

Curing conditions of the concrete 50 and asphalt are based on summer, the curing period should be longer in winter.

The fixing of the support member 60 (S4) is a process of fixing the support member 60 having the elasticity to the nail 80. The support member 60 is fixed at regular intervals on the inclined surface of the protrusion 10 so that the surface layer material 70 installed on the inclined surface can maintain an angle of repose.

The support member 60 uses a rubber bar. This is to make the same or similar to the elastic modulus of the surface material 70 in consideration of the surface material 70 is installed.

The support member 60 is configured in the form of a rod, the cross section may be configured in a square, circular, triangular, polygonal shape, it is shown that the rectangular shape is used in this figure.

The support member 60 is fixed to a plurality of dogs fixed in a predetermined interval in parallel to the inclined surface of the protrusion 10 is fixed with a nail (80). The spacing of the support member 60 may be selectively adjusted according to the inclination of the inclined surface of the protrusion 10 and the viscosity of the surface layer material 70, which may be appropriately adjusted in the construction process.

That is, in the case of the surface layer material 70 in which the inclined surface slope of the protrusion 10 is large and the binder is mixed, the fluidity of the surface material 70 increases, so that the support member 60 is fixed to the surface material 70 ) Is filled between the support members 60 so as not to flow down or open.

In addition, in the case of the surface material 70 in which the inclined surface slope of the protrusion 10 is gentle and the binder is mixed small, the support member 60 is made wider than in the above case because the fluidity of the surface material 70 is not large. Even if arrange | positioned, the surface layer material 70 is shape | molded well.

The support member 60 may vary in size depending on the size of the inclined surface, preferably 15 mm × 50 mm or more in thickness, and is usually used in a state arranged in parallel at intervals of about 10 cm.

The surface layer 70 is a known one, and the finely crushed rubber particles having a size of 3-10 mm are mixed with a binder functioning as an adhesive. The surface layer material 70 has a property of increasing fluidity when a large amount of binder is mixed and decreasing fluidity when mixed with a small amount.

The surface material 70 is installed in the concrete 50 and the base material 90 to which the support member 60 is fixed, and is installed to be about 5 cm or more on the support member 60.

The surface layer material 70 is preferably formed for each color to be constructed in a variety of colors. When the surface material 70 is provided in various colors, it can be decorated with pictures, letters, letters, figures, etc. when installed on the protrusions 10, and thus, the protrusions 10 can be beautifully decorated.

Here, the base material 90 is installed between the upper concrete 50 and the surface material 70 corresponding to the rubble 40.

The base material 90 is known to bond finely crushed waste tires with a binder. Since the base material 90 uses waste tires and has elasticity to perform a buffer function, the base material 90 is installed together with the surface material 70 to prevent injuries of pedestrians or cyclists.

When the plurality of support members 60 are fixed in parallel to the inclined surface as described above, and then the surface material 70 mixed with the binder is installed on the inclined surface, the surface material 70 is filled with lead between the support members 60. It will not slip or drip.

Therefore, since the lower surface of the laid surface material 70 is firmly adhered to the concrete 50 or the asphalt surface, and the upper portion is installed only about 5 cm from the support member 60, the upper and lower portions are well aggregated due to viscosity, thereby reducing the range of the angle of repose. Even if it escapes, it resists its own weight and does not separate or flow down.

1 is a cross-sectional view showing that the conventional surface layer material is constructed in a disconnected state

2 is a cross-sectional view showing that the conventional surface layer material was constructed in a state of flowing down

3 is a cross-sectional view showing a process of compacting the excavated earth and sand by digging around the protrusions according to the construction of the present invention.

4 is a cross-sectional view showing a state in which rubble is made in the ruptured space of FIG.

5 is a cross-sectional view of the concrete poured on the protrusions and rubble of FIG.

6 is a cross-sectional view of the base material installed in the concrete corresponding to the rubble of FIG.

7 is a cross-sectional view of a state in which the support member is fixed to the concrete and base material of Figure 6 at regular intervals

8 is a cross-sectional view of the surface layer material laid on the concrete of FIG.

9 is a detailed view showing a state in which the support member is fixed by expanding the inner portion of FIG.

10 is a cross-sectional perspective view showing a state in which the support member is installed on the concrete constructed by the present invention

11 is a cross-sectional perspective view showing a state in which the surface material is constructed on the concrete of FIG.

12 is a construction flowchart of the present invention

Explanation of symbols on the main parts of the drawings

10: protrusion 30: space

40: rubble 50: concrete 60: support member 70: surface material

Claims (5)

Digging a predetermined depth around the installation site forming the protrusions and compacting the burrowed soil into a place for forming the protrusions to form the protrusions higher than the ground surface; Compacting rubble in the trenched space; Curing after pouring concrete or asphalt on the compacted protrusions and rubble; Fixing the support member at regular intervals on the inclined surface of the cured concrete or asphalt; And And placing the surface material mixed with the binder in a crushed state on the inclined surface to which the support member is fixed to form a support member embedded therein. The method of claim 1, wherein the support member is made of rubber, and the rubber bar is fixed to the inclined surface in parallel by a nail. The method of claim 1, wherein the concrete cures for 10 days or more, and asphalt cures for 5 days or more. The method of claim 1, wherein the surface material is formed by color so that it can be constructed in a variety of colors. The method of claim 1, wherein the base material having elasticity is further provided between the upper concrete or asphalt and the surface material corresponding to the rubble.

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