CN212771825U - Garden road surface stone material laying structure - Google Patents

Abstract

The utility model belongs to the technical field of gardens building and specifically relates to a gardens road surface stone material structure of laying is related to, including a plurality of slabstones, be equipped with a plurality of wash ports on the slabstone, wash port one end leads to the slabstone upper surface, the wash port other end leads to the slabstone side, the slabstone upper surface is equipped with the filter screen that covers the wash port, adjacent slabstone encloses into the cavity, be equipped with the leading water pipe in the cavity, the intercommunication has a plurality of water receiving pipes on the leading water pipe, all water receiving pipes all with the wash port switch-on of slabstone side. This application has the effect that can clear away ponding at horizontal road surface.

Description

Garden road surface stone material laying structure

Technical Field

The utility model belongs to the technical field of gardens building and specifically relates to a structure is laid to gardens road surface stone material.

Background

The stone is a natural material, people can make the stone into various building materials due to unique texture and color, the stone brick is one of common materials, and the combination of the stone brick and garden design can improve the integral artistic feeling of the garden.

The utility model discloses a layer structure is laid to gardens road surface stone material is disclosed to utility model patent that bulletin number is CN204753304U, and this kind of gardens road surface stone material is laid layer structure and is utilized the stone material board of slope to lead to the basin discharge with ponding, though can reach the purpose of cleaing away ponding, but the road surface of slope is unfavorable for people's walking.

SUMMERY OF THE UTILITY MODEL

In order to clear away ponding at horizontal road surface, this application provides a structure is laid to gardens road surface stone material.

The application provides a pair of gardens road surface stone material laying structure adopts following technical scheme: the utility model provides a structure is laid to gardens road surface stone material, includes a plurality of slabstones, is equipped with a plurality of wash ports on the slabstone, wash port one end leads to the slabstone upper surface, and the wash port other end leads to the slabstone side, and the slabstone upper surface is equipped with the filter screen that covers the wash port, and adjacent slabstone encloses into the cavity, is equipped with the leading water pipe in the cavity, and the intercommunication has a plurality of water receiving pipes on the leading water pipe, all water receiving pipes all with the wash port switch-on of slabstone side.

By adopting the technical scheme, the accumulated water passes through the drain hole, the water receiving pipe, the water diversion pipe and the drain pipe after being filtered by the filter screen and then is drained into a sewer, so that the accumulated water on the surface of the stone slab can be removed.

Preferably, the axis of the water conduit is wavy, the drain pipe is connected to the trough of the water conduit, and the water receiving pipe is connected to the non-trough of the water conduit.

By adopting the technical scheme, the water inlet of the water conduit is higher than the water outlet, so that the rainwater in the water conduit flows fast, the drainage efficiency is high, and the rainwater quickly scours the pipe wall to avoid the accumulation of sediments.

Preferably, the upper surface of the stone plate is provided with a plurality of grooves, and the top openings of all the drainage holes are positioned at the bottom of the grooves.

Through adopting above-mentioned technical scheme, the recess can make the ponding on slabstone surface flow into the wash port fast to a large amount of ponding on slabstone surface have been avoided.

Preferably, a gasket which can be taken out is embedded in the groove, the gasket covers the inner wall of the groove, and a through hole communicated with the drain hole is formed in the gasket.

Through adopting above-mentioned technical scheme, because silt is stifled can influence the normal flowing water of recess in the recess, so need clear up the silt in the recess, the gasket has then made things convenient for the silt in the clearance recess.

Preferably, all the spacers are connected as a whole.

Through adopting above-mentioned technical scheme, the gasket even can take out clearance silt as an organic whole simultaneously, has improved the efficiency of clearance silt.

Preferably, the top of the side surface of the stone slab is provided with a plane, and planes which are oppositely positioned on the adjacent stone slabs are parallel to each other.

Through adopting above-mentioned technical scheme, make the structural strength of slabstone obtain improving, the slabstone side can bear bigger extrusion force, and the probability that the slabstone side is damaged when the installation reduces, perhaps the probability that slabstone edge was trampled when using reduces.

Preferably, the elastic waterproof part is seamlessly connected between the planes which are opposite to each other on the adjacent stone slabs.

Through adopting above-mentioned technical scheme, when laying slabstone, the space that remains at last often does not accord with the slabstone size, can conform to the size of remaining with the slabstone through extrusion elasticity waterproof part, and elasticity waterproof part can prevent simultaneously that ponding from directly leaking the cavity and influencing the drainage.

Preferably, the radial section of the drain pipe is elliptical, and the major axis of the ellipse is perpendicular to the horizontal plane.

By adopting the technical scheme, when the major axis of the oval drain pipe and the diameter of the round drain pipe are the same, the pit depth of the oval drain pipe and the round drain pipe are the same, but the radial sectional area of the oval drain pipe is smaller than that of the round drain pipe, but the water discharge amount (determined by the amount of water flowing into the stone plate drain hole) in unit time is the same, so that the flow speed of water in the oval drain pipe is higher than that of water in the round drain pipe, and precipitates are not easy to accumulate in the oval drain pipe.

Drawings

Fig. 1 is a perspective view of a landscape architecture pavement stone laying structure according to an embodiment of the present application;

FIG. 2 is a schematic view of the structure of a stone slab and a gasket according to an embodiment of the present application;

FIG. 3 is a schematic view showing the connection of slates, penstock, drains of an embodiment of the present application;

FIG. 4 is a radial cross-sectional view of a drain pipe according to an embodiment of the present application.

Description of reference numerals: 1. a stone slab; 2. a drain hole; 3. a cavity; 4. a water conduit; 5. a water receiving pipe; 6. a drain pipe; 7. a groove; 8. a gasket; 9. a plane; 10. an elastic waterproof member; 11. a filter screen; 12. a sewer; 13. and a through hole.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

The embodiment of the application discloses structure is laid to gardens road surface stone material, refers to fig. 1, including a plurality of slabstones 1, slabstone 1 seamless arrangement is on the road surface, and slabstone 1 is the positive four-edged terrace of invering, and the side of two blocks of adjacent slabstones 1 encloses into cavity 3.

Referring to fig. 2, the upper surface of stone slab 1 is equipped with a plurality of wash port 2, and wash port 2 communicates to the side of stone slab 1, and in order to prevent impurity such as silt from blockking up wash port 2, 2 top openings of wash port are equipped with filter screen 11, and ponding flows into wash port 2 after filter screen 11 filters.

Referring to fig. 2, in order to introduce more accumulated water into the drainage holes 2, the surface of the stone slab 1 is provided with a plurality of grooves 7, and the top openings of all the drainage holes 2 are positioned at the bottoms of the grooves 7. Recess 7 improves the drainage efficiency simultaneously, has a large amount of silt deposits, for the convenience of clearing up silt, imbeds gasket 8 (see fig. 1) in the recess 7, and gasket 8 covers the 7 inner walls of recess, and gasket 8 can take out from recess 7, and gasket 8 is used for holding silt. Because the quantity of recess 7 is numerous, in order to improve the efficiency of cleaning up silt, the gasket 8 in each recess 7 links as an organic whole, conveniently takes out from recess 7 simultaneously to gasket 8 leaves through-hole 13 in wash port 2 department, and through-hole 13 is used for exposing filter screen 11.

Referring to fig. 2, in order to improve the structural strength of the stone slab 1, the top of the side surface of the stone slab 1 is a vertical plane 9, the plane 9 improves the structural strength of the stone slab 1, the side surface of the stone slab 1 can bear larger pressing force, the probability of side damage of the stone slab 1 during installation is reduced, or the probability of the edge of the stone slab 1 being treaded down during use is reduced.

Referring to fig. 1, when laying slates 1, the final margin tends to not match the size of one slate 1, and therefore, an elastic flashing 10 is strongly glued between the flat faces 9 of adjacent slates 1, the remaining size being adjusted to the size of the slate 1 by pressing the elastic flashing 10. The elastic waterproofing member 10 also has a waterproofing function capable of preventing accumulated water from leaking from the gap of the adjacent stone slabs 1, thereby affecting the drainage of the entire system.

Referring to fig. 1 and 3, a water conduit 4 is arranged in the cavity 3, the water conduits 4 are arranged in a grid shape in a criss-cross manner, a water receiving pipe 5 is communicated with the water conduit 4, and the water receiving pipe 5 is communicated with the lateral drain hole 2, so that accumulated water is guided into the water conduit 4. A drain pipe 6 is arranged below the stone plate 1, the drain pipe 6 is communicated with the water diversion pipe 4, accumulated water flows into the drain pipe 6 from the water diversion pipe 4, and the drain pipe 6 drains the water into a sewer 11. In order to improve the drainage speed of the water conduit 4, the axis of the water conduit 4 is designed to be in a wave shape, the drain pipe 6 is connected to the trough of the water conduit 4, and the water receiving pipe 5 is connected to the non-trough of the water conduit 4.

Referring to fig. 1 and 4, when the accumulated water flows into the drain pipe 6, in order to improve the drainage efficiency of the drain pipe 6, the radial (perpendicular to the axial) cross section of the drain pipe 6 is designed to be elliptical, and the major axis of the ellipse is vertical, so that when the major axis of the elliptical drain pipe is the same as the diameter of the circular drain pipe, the depth of the occupied pit of the elliptical drain pipe and the occupied pit of the circular drain pipe are the same, but the radial cross section of the elliptical drain pipe is smaller than that of the circular drain pipe, but the drainage amount (determined by the amount of the drainage hole flowing into the stone slab) per unit time is the same, so that the flow rate of the water in the elliptical drain pipe is faster than that of the water in the circular.

The implementation principle of garden road surface stone material laying structure of the embodiment of the application is: the accumulated water is filtered by the filter screen 11, then passes through the drain hole 2, the water receiving pipe 5, the water diversion pipe 4 and the drain pipe 6 in sequence, and is drained into the sewer 11, so that the accumulated water on the surface of the stone slab 1 can be removed.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a structure is laid to gardens road surface stone material, includes a plurality of slabstones (1), its characterized in that: be equipped with a plurality of wash ports (2) on slabstone (1), wash port (2) one end leads to slabstone (1) upper surface, wash port (2) other end leads to slabstone (1) side, slabstone (1) upper surface is equipped with filter screen (11) that cover wash port (2), adjacent slabstone (1) enclose into cavity (3), be equipped with in cavity (3) leading water pipe (4), the intercommunication has a plurality of water receiving pipe (5) on leading water pipe (4), all water receiving pipe (5) all with wash port (2) the switch-on of slabstone (1) side, slabstone (1) below is equipped with drain pipe (6), drain pipe (6) and leading water pipe (4) switch-on, sewer (12) are connected in drain pipe (.

2. The landscape road-surfacing stone laying structure according to claim 1, wherein: the axis of the water diversion pipe (4) is wavy, the drain pipe (6) is connected to the trough of the water diversion pipe (4), and the water receiving pipe (5) is connected to the non-trough of the water diversion pipe (4).

3. The landscape road-surfacing stone laying structure according to claim 1, wherein: the upper surface of the stone plate (1) is provided with a plurality of grooves (7), and the top openings of all the drain holes (2) are positioned at the bottoms of the grooves (7).

4. The landscape road-surfacing stone laying structure according to claim 3, wherein: a gasket (8) which can be taken out is embedded in the groove (7), the gasket (8) covers the inner wall of the groove (7), and a through hole (13) communicated with the drain hole (2) is formed in the gasket (8).

5. The landscape road-surfacing stone laying structure according to claim 4, wherein: all the gaskets (8) are connected into a whole.

6. The landscape road-surfacing stone laying structure according to claim 1, wherein: the top of the side surface of the stone slab (1) is provided with a plane (9), and planes (9) which are opposite to each other on the adjacent stone slabs (1) are parallel to each other.

7. The landscape road-surfacing stone laying structure according to claim 6, wherein: an elastic waterproof piece (10) is seamlessly connected between the planes (9) which are opposite to each other on the adjacent stone slabs (1).

8. The landscape road-surfacing stone laying structure according to claim 1, wherein: the radial section of the drain pipe (6) is in an ellipse shape, and the long axis of the ellipse is vertical to the horizontal plane.

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