CN218643112U - Landscape footpath - Google Patents

Abstract

The utility model relates to a landscape technical field specifically is a landscape footpath, including plain soil layer, the top fixedly connected with bed course on plain soil layer, the top fixedly connected with concrete layer of bed course, the first pitch layer of top fixedly connected with on concrete layer. The utility model has the advantages that: the particle surface layer is specifically an EPDM particle layer, namely the top surface of the running way is the particle surface layer, so that the particle surface layer has better resilience performance and gives people good running experience, and the width of the running way structure is larger than that of the walking way, so that the upper layer of the garden landscape running way is composed of a special running way structure and a running way structure, and the walking on the upper layer of the garden landscape running way feels not hard and does not press feet; the walking track structure is composed of a first asphalt layer, and the running track structure is composed of a second asphalt layer, a base coat, an elastic granular layer and a granular surface layer, so that the connection strength of the running track structure and the walking track is high, the associativity is good, and the adhesive force of the running track structure and the walking track is improved.

Description

Landscape footpath

Technical Field

The utility model relates to a landscape technical field, especially a landscape footpath.

Background

The basic components of landscape architecture can be divided into two main categories: one is soft such as trees, water, wind, light rain, sunlight, sky; the other is hard things such as paving, wall, railing, landscape construction. Soft things are called soft landscapes and are usually natural; what is hard, called a hard landscape, is generally artificial. The landscape adds a thick artistic interest to cultural squares, parks and districts. The protection of the limited forest resources on the earth is to protect the home of the people. As a novel ecological landscape product, the application and popularization of the wood-like series garden landscape product are the actual actions of protecting the environment and making people love nature. In landscape, the pavement is the road that the pedestrian walked, also is used for running sometimes, but current pavement structure is supreme down and is plain soil layer, metalling, concrete layer, mortar layer and face brick layer in proper order, and the pavement that is used for walking is different with the colour that the pavement that is used for running is the surface face brick only, and consequently the resilience force that is used for the pavement of running is relatively poor, runs and feels harder on it, runs and experiences not good enough, not comfortable enough.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome prior art's shortcoming, provide a landscape footpath.

The purpose of the utility model is realized through the following technical scheme: a garden landscape footpath comprises a plain soil layer, wherein the top of the plain soil layer is fixedly connected with a cushion layer, the top of the cushion layer is fixedly connected with a concrete layer, the top of the concrete layer is fixedly connected with a first asphalt layer, and the top of the concrete layer is fixedly connected with a second asphalt layer;

the top of the second asphalt layer is fixedly connected with a bottom coating, the top of the bottom coating is fixedly connected with an elastic particle layer, the top of the elastic particle layer is fixedly connected with a particle surface layer, namely the top surface of the running track is the particle surface layer, the elastic particle layer has better resilience performance and gives people good running experience, and the width of the running track structure is larger than that of the running track, so that the upper layer of the landscape footpath consists of a special running track structure and a running track structure, the running is not hard and does not press feet;

one side of the elastic particle layer and one side of the particle surface layer are fixedly connected with an adhesion layer, and one side of the adhesion layer is fixedly connected with a first asphalt layer;

the first asphalt layer forms a walking footpath structure, the second asphalt layer, the bottom coating, the elastic particle layer and the particle surface layer form a running path structure, and the adhesion layer is positioned at the joint of the walking footpath structure and the running path.

Optionally, the thickness of the plain soil layer is 15-20 cm, and the cushion layer is specifically a gravel layer.

Optionally, the particle size range of the gravel particles selected for the cushion layer is 10mm-20mm, and the thickness of the cushion layer is 8-10 cm.

Optionally, the thickness of the first asphalt layer is equal to the combined thickness of the second asphalt layer, the primer layer, the elastic particle layer and the particle surface layer, and the primer layer is specifically a polyurethane coating.

Optionally, the thickness of the particle surface layer is 2-3 cm, the particle surface layer is specifically an EPDM particle layer, the particle surface layer does not contain toxic volatile solvents such as benzene, toluene, xylene, and the like, does not contain harmful additives such as plasticizers, metals, and the like, does not have any volatile odor, and completely meets the environmental protection requirement.

Optionally, the adhesion layer is vertically filled, and the adhesion layer is specifically a quartz sand adhesion agent layer, so that the connection strength between the running track structure and the walking track is high, the bonding performance is good, and the bonding force between the running track structure and the walking track is improved.

The utility model has the advantages of it is following:

1. this landscape pavement, adopt integrated configuration, the bottom is plain soil layer, bed course and concrete range upon range of laying, and the bed course is the metalling, the back is laid to the bottom, lay the upper strata, the upper strata is divided into two parts, the first part is walking pavement structure, the second part is the runway structure, walking pavement structure constitutes for first pitch layer, the runway structure is second pitch layer, the under coat, elastic particle layer and granule surface stratum constitute, the under coat specifically is the polyurethane coating, prevent that second pitch layer from intaking, and the thickness of granule surface stratum is-centimetre, the granule surface stratum specifically is the EPDM granule layer, the top surface of runway is the granule surface stratum reticulare promptly, better resilience performance has, and give other people and use good experience of running, the width of running pavement structure is greater than the width of walking pavement, thereby this landscape pavement's upper strata comprises dedicated runway structure and runway structure, it is not hard to run on it, do not press against the foot.

2. This landscape pavement, adopt integrated configuration, elastic particle layer and one side fixedly connected with of granule surface course layer are followed the layer, the layer is vertical packing after that, the layer specifically is quartz sand adhesive layer after that, the layer is located the junction of walking pavement structure and running pavement after that, the walking pavement structure comprises first pitch layer, the running pavement structure is second pitch layer, the under coat, elastic particle layer and granule surface course are constituteed, make the joint strength of running pavement structure and walking pavement high, the associativity is good, improve the bonding power of running pavement structure and walking pavement.

Drawings

Fig. 1 is a schematic structural view of the present invention;

fig. 2 is a schematic sectional view of the present invention.

In the figure: the concrete-based asphalt pavement comprises, by weight, 1-plain soil layer, 2-cushion layer, 3-concrete layer, 4-first asphalt layer, 5-second asphalt layer, 6-base coat, 7-elastic particle layer, 8-particle surface layer and 9-adhesion layer.

Detailed Description

The invention will be further described with reference to the accompanying drawings, but the scope of the invention is not limited to the following description.

As shown in fig. 1-2, a landscape footpath comprises a plain soil layer 1, wherein the top of the plain soil layer 1 is fixedly connected with a cushion layer 2, the top of the cushion layer 2 is fixedly connected with a concrete layer 3, the top of the concrete layer 3 is fixedly connected with a first asphalt layer 4, and the top of the concrete layer 3 is fixedly connected with a second asphalt layer 5;

the top of the second asphalt layer 5 is fixedly connected with a bottom coating 6, the top of the bottom coating 6 is fixedly connected with an elastic granular layer 7, the top of the elastic granular layer 7 is fixedly connected with a granular surface layer 8, namely, the top surface of the running track is the granular surface layer 8, so that the running track has better resilience performance and gives people good running experience, and the width of the running track structure is greater than that of the running track, so that the upper layer of the landscape architecture running track consists of a special running track structure and a running track structure, the running is not hard and does not press feet;

one side of the elastic particle layer 7 and one side of the particle surface layer 8 are fixedly connected with an adhesion layer 9, and one side of the adhesion layer 9 is fixedly connected with the first asphalt layer 4;

first pitch layer 4 has constituteed walking pavement structure, and second pitch layer 5, under coat 6, elastic particle layer 7 and particle surface course 8 have constituteed the runway structure, and layer 9 is located the junction of walking pavement structure and runway after that.

As an optimal technical solution of the utility model: the thickness of the plain soil layer 1 is 15-20 cm, the cushion layer 2 is a crushed stone layer, the particle size range of crushed stone particles selected for the cushion layer 2 is 10mm-20mm, the thickness of the cushion layer 2 is 8-10 cm, the thickness of the first asphalt layer 4 is equal to the combined thickness of the second asphalt layer 5, the bottom coating 6, the elastic particle layer 7 and the particle surface layer 8, the bottom coating 6 is a polyurethane coating, the thickness of the particle surface layer 8 is 2-3 cm, the particle surface layer 8 is an EPDM particle layer, the following layer 9 is vertical filling, the following layer 9 is a quartz sand adhesive layer, so that the connection strength of the running track structure and the walking track is high, the associativity is good, and the adhesive force of the running track structure and the walking track is improved.

Example 1: the particle surface layer 8 does not contain toxic volatile solvents such as benzene, toluene, xylene and the like, does not contain plasticizers, metal and other harmful additives, has no volatile odor, and completely meets the requirement of environmental protection.

The utility model discloses a working process as follows:

s1, adopting a combined structure, wherein a bottom layer is formed by stacking a plain soil layer 1, a cushion layer 2 and a concrete layer 3, the cushion layer 2 is a gravel layer, after the bottom layer is laid, an upper layer is laid, the upper layer is divided into two parts, the plain soil layer 1 is tamped and flattened, the cushion layer 2 consisting of gravel is laid, and the concrete layer 3 is laid on the top of the cushion layer 2;

s2, lay thicker first pitch layer 4 at concrete layer 3 ' S top, first pitch layer 4 is walking pavement structure, lay thinner second pitch layer 5 at concrete layer 3 ' S top, lay priming coat 6 in proper order at second pitch layer 5 ' S top, elastic particle layer 7 and elastic surface layer 8, the runway structure is second pitch layer 5, priming coat 6, elastic particle layer 7 and particle surface layer 8 are constituteed, it is next layer 9 to fill in walking pavement structure and the junction of runway structure.

In conclusion, when the landscape footpath is used, a combined structure is adopted, the bottom layer is formed by stacking the plain soil layer 1, the cushion layer 2 and the concrete layer 3, the cushion layer 2 is a gravel layer, after the bottom layer is laid, the upper layer is laid and divided into two parts, the first part is a walking footpath structure, the second part is a running path structure, the walking path structure is formed by the first asphalt layer 4, the running path structure is formed by the second asphalt layer 5, the bottom coating 6, the elastic granular layer 7 and the granular surface layer 8, the bottom coating 6 is specifically a polyurethane coating, the second asphalt layer 5 is prevented from being watered, the thickness of the granular surface layer 8 is 2-3 cm, the granular surface layer 8 is specifically an EPDM granular layer, namely the top surface of the running path is the granular surface layer 8, the landscape footpath has good resilience performance, good running experience is brought to people, the width of the running path structure is larger than the width of the footpath, and the landscape footpath structure is formed by the special walking path structure, so that people can run on the footpath without feeling hard feet; adopt integrated configuration, elastic particle layer 7 and one side fixedly connected with of granule surface course 8 layer 9 is followed up, layer 9 is vertical packing after that, layer 9 specifically is the quartz sand adhesive layer after that, layer 9 is located the junction of walking pavement structure and runway after that, the walking pavement structure comprises first pitch layer 4, the runway structure is second pitch layer 5, ground coat 6, elastic particle layer 7 and granule surface course 8 are constituteed, make the joint strength of runway structure and walking pavement high, the associativity is good, improve the adhesion of runway structure and walking pavement.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (6)

1. The utility model provides a landscape pavement which characterized in that: the soil-release liner comprises a plain soil layer (1), wherein a liner layer (2) is fixedly connected to the top of the plain soil layer (1), a concrete layer (3) is fixedly connected to the top of the liner layer (2), a first asphalt layer (4) is fixedly connected to the top of the concrete layer (3), and a second asphalt layer (5) is fixedly connected to the top of the concrete layer (3);

the top of the second asphalt layer (5) is fixedly connected with a bottom coating (6), the top of the bottom coating (6) is fixedly connected with an elastic particle layer (7), and the top of the elastic particle layer (7) is fixedly connected with a particle surface layer (8);

one side of the elastic particle layer (7) and one side of the particle surface layer (8) are fixedly connected with an adhesion layer (9), and one side of the adhesion layer (9) is fixedly connected with the first asphalt layer (4);

the first asphalt layer (4) forms a walking track structure, the second asphalt layer (5), the base coat (6), the elastic particle layer (7) and the particle surface layer (8) form a running track structure, and the connection layer (9) is positioned at the joint of the walking track structure and the running track.

2. A landscape footpath according to claim 1, wherein: the thickness of the plain soil layer (1) is 15-20 cm, and the cushion layer (2) is a rubble layer.

3. A landscape footpath according to claim 2, wherein: the particle size range of the gravel particles selected for the cushion layer (2) is 10-20 mm, and the thickness of the cushion layer (2) is 8-10 cm.

4. A landscape footpath according to claim 1, wherein: the thickness of the first asphalt layer (4) is equal to the combined thickness of the second asphalt layer (5), the base coat (6), the elastic particle layer (7) and the particle surface layer (8), and the base coat (6) is a polyurethane coating.

5. The landscape architecture footpath of claim 1, characterized in that: the thickness of the particle surface layer (8) is 2-3 cm, and the particle surface layer (8) is specifically an EPDM particle layer.

6. A landscape footpath according to claim 1, wherein: the adhesion layer (9) is vertically filled, and the adhesion layer (9) is a quartz sand adhesion agent layer.

Images