CN214459353U - Landscape garden pavement structure - Google Patents

Abstract

The utility model belongs to the technical field of the afforestation technique and specifically relates to a view gardens road surface structure of mating formation relates to, from the bottom up has set gradually plain soil tamp layer, rubble bed course and bearing layer, be provided with the drainage blanket on the bearing layer, the drainage blanket includes a plurality of bricks body, and is a plurality of drainage tank has been seted up to the internal portion of brick, and is a plurality of the wash port with the drainage tank intercommunication is seted up to brick body upper surface, and is a plurality of the drainage tank forms drainage channel. This application can improve the drainage effect of road surface pavement structure.

Description

Landscape garden pavement structure

Technical Field

The application relates to the technical field of landscaping, in particular to a landscape garden pavement paving structure.

Background

In modern garden landscapes, paving of garden roads is designed according to landscape requirements, roads are created as a part of the landscape, the artistic effect of the road surfaces is enhanced, and the landscape is decorated according to different requirements of patterns, colors, textures, dimensions, styles and times, so that the garden roads are integrated into the garden landscape and are coordinated with the garden landscape. The surface layer pavement should be coordinated with the surrounding environment.

Patent document with an authorization publication number of CN205591074U discloses a landscape paving structure, includes plain soil tamped layer, graded broken stone bed course, concrete layer and the layer of mating formation that sets gradually from bottom to top, the layer of mating formation is by inlaying glass stone on the concrete layer constitutes.

In view of the above-mentioned related art, the inventor believes that water on a landscape road surface is difficult to be discharged when raining, and thus walking of passers-by is affected.

SUMMERY OF THE UTILITY MODEL

In order to improve the drainage effect of road surface pavement structure, this application provides a view gardens road surface pavement structure.

The application provides a view gardens road surface pavement structure adopts following technical scheme:

the utility model provides a view gardens road surface pavement structure, from the bottom up sets gradually plain soil tamp layer, rubble bed course and bearing layer, be provided with the drainage blanket on the bearing layer, the drainage blanket includes a plurality of bricks body, and is a plurality of drainage tank has been seted up to the internal portion of brick, and is a plurality of the wash port with the drainage tank intercommunication is seted up to the brick body upper surface, and is a plurality of the drainage tank forms drainage channel.

Through adopting the above-mentioned technical scheme, among the correlation technique, thereby set up the plain soil tamp layer on the road surface pavement, the rubble bed course, thereby the bearing layer increases the durable degree on road surface, in the time of raining, the water infiltration on road surface tamp layer, thereby influence the solidity on road surface, in this application, set up the drainage blanket on the bearing layer, thereby discharge the water on road surface, prevent that the water on road surface permeates the plain soil tamp layer, thereby influence the use on road surface, the drainage blanket is formed by the concatenation of a plurality of bricks, the water drainage tank has been seted up in the bricks, a plurality of bricks concatenation makes the water drainage tank form a drainage channel, thereby arrange the water on the road surface away, thereby improve the drainage effect of road surface pavement structure.

Preferably, a plurality of water seepage grooves are formed in the upper surfaces of the brick bodies and are communicated with the water drainage holes.

Through adopting above-mentioned technical scheme, rivers on the brick body collect the water on the brick body in to the infiltration groove, be convenient for better to make water on the brick body flow to the drainage downthehole through the infiltration groove, and then flow to the water drainage tank in.

Preferably, the plurality of water seepage grooves comprise transverse grooves and longitudinal grooves, the drain holes are located at the intersection of the transverse grooves and the longitudinal grooves, and the drain holes are hourglass-shaped.

Through adopting above-mentioned technical scheme, water on the brick body flows to in the drain hole along horizontal groove, vertical groove, flows into the drain tank from the drain hole in to reduce the water on the bearing layer, the drain hole is hourglass type, carries out a preliminary filtration to the water on the brick body.

Preferably, the two sides of the brick body are provided with flow guide surfaces, flow guide holes are formed in the flow guide surfaces, and the flow guide holes are communicated with the drainage channel.

Through adopting above-mentioned technical scheme, brick body both sides set up the water conservancy diversion face, and the water conservancy diversion face becomes the groove after the concatenation of adjacent brick body, and the rivers of brick body upper surface flow to the inslot through the water conservancy diversion hole in to the drainage tank, and then reduce the water on the brick body.

Preferably, a flow guide pipe is arranged between the flow guide hole and the water drainage groove and is respectively communicated with the flow guide hole and the water drainage groove.

Through adopting above-mentioned technical scheme, the setting of honeycomb duct is convenient for will flow to the downthehole row of water to the water drainage tank in to reduce the gathering of brick body upper surface water, and then influence the pedestrian and walk.

Preferably, the brick body one end is provided with connecting portion one, connecting portion one and the integral forming of the brick body, the brick body opposite side seted up with connecting portion one mutually support, connecting portion one and water drainage tank concentric setting.

Through adopting above-mentioned technical scheme, connecting portion one and water drainage tank concentric setting are convenient for insert connecting portion one in the spread groove to splice the brick body, and then make water drainage tank form a drainage channel, thereby arrange the water on the brick body to discharge in the drainage channel.

Preferably, the brick body is provided with a second connecting part, the brick body and the second connecting part are integrally formed, and the brick body is provided with a second connecting groove matched with the second connecting part.

Through adopting above-mentioned technical scheme, when a plurality of brick bodies are connected, insert connecting portion two in the spread groove two to get up the better connection of the brick body, thereby increase the closely knit degree on drainage blanket.

Preferably, the brick body and bearing layer sliding connection, be provided with a plurality of reinforcements between the brick body and the bearing layer, a plurality of the reinforcement is used for strengthening the joint strength between the brick body and the bearing layer.

Through adopting above-mentioned technical scheme, set up a plurality of reinforcements between the brick body and the bearing layer, be convenient for increase the joint strength between the brick body and the bearing layer to prevent that the brick body that has installed from sliding on the bearing layer, thereby influence the drainage effect on drainage layer.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present application;

FIG. 2 is a cross-sectional view of a drainage layer of an embodiment of the present application;

FIG. 3 is a schematic structural view of the reinforcement member of portion A of FIG. 2;

FIG. 4 is a schematic view of the flow guide holes in the portion B of FIG. 2;

fig. 5 is a schematic structural diagram of a first connection portion according to an embodiment of the present application.

Description of reference numerals: 1. a plain soil ramming layer; 2. a gravel cushion layer; 3. a bearing layer; 4. a drainage layer; 41. a brick body; 42. a water discharge tank; 43. a drain hole; 44. a water seepage tank; 441. a transverse slot; 442. a longitudinal slot; 45. a slider; 46. a chute; 47. a reinforcement; 471. an elastic member; 472. an abutting member; 5. a first connecting part; 51. connecting a first connecting groove; 6. a second connecting part; 61. connecting groove two; 7. a flow guide surface; 71. a flow guide hole; 72. and a flow guide pipe.

Detailed Description

The present application is described in further detail below with reference to figures 1-5.

The embodiment of the application discloses view gardens road surface pavement structure.

Referring to fig. 1 and 2, a landscape garden pavement structure, from bottom to top has rammed earth layer 1, rubble bedding layer 2, bearing layer 3 and drainage layer 4 sequentially, rammed earth layer 1 and rubble bedding layer 2 are used for laying the solid foundation for the structure of mating formation, bearing layer 3 is used for protecting rammed earth layer 1 and rubble bedding layer 2, drainage layer 4 includes a plurality of bricks 41, drainage layer 4 is laid by a plurality of bricks 41 along length, width direction, brick 41 cross section is the rectangle, brick 41 has run through along length direction and has seted up water drainage tank 42, the upper surface of a plurality of bricks 41 has seted up the communicating wash port 43 with water drainage tank 42, a plurality of bricks 41 have laid along length direction, a plurality of water drainage tank 42 form the drainage channel, when raining, water flows into the drainage channel from wash port 43, thus discharge the water on road surface.

Referring to fig. 2 and 3, the plurality of brick bodies 41 are slidably connected with the bearing layer 3 along the drainage channel direction, the bottom of each brick body 41 is provided with a sliding block 45 and is bonded with the sliding block 45 through cement mortar, the cross section of each sliding block 45 is rectangular, the bearing layer 3 is provided with sliding grooves 46 which are matched with the sliding blocks 45, the sliding grooves 46 are arranged along the length direction of the bearing layer 3, a plurality of groups of reinforcing members 47 used for reinforcing the connection strength of the brick bodies 41 and the bearing layer 3 are arranged in the sliding grooves 46, a plurality of groups of reinforcing members 47 are arranged along the length direction of the sliding blocks 45, each group of reinforcing members 47 comprises two reinforcing members 47, the two reinforcing members 47 are positioned on two sides of the sliding blocks 45 along the width direction, each reinforcing member 47 comprises an abutting part 472 and an elastic part 471, one end of each elastic part 471 is welded with the corresponding sliding groove 46, the other end of each elastic part is welded with the abutting part 472, in the embodiment, each abutting part 472 is a spring, and is used for abutting against the sliding block 45, when the brick bodies 41 are installed on the bearing layer 3, the sliding block 45 is inserted into the sliding groove 46, the elastic member 471 is compressed, and then under the action of the restoring force of the elastic member 471, the two abutting members 472 tightly clamp the sliding block 45, so that the connection strength between the brick body 41 and the bearing layer 3 is increased, and further the connection strength between the drainage layer 4 and the bearing layer 3 is increased.

Referring to fig. 2 and 4, in order to enable water to flow from the brick body 41 to the drainage hole 43 better and thus to drain the water to the drainage groove 42, each brick body 41 is provided with a plurality of water seepage grooves 44, each water seepage groove 44 comprises a plurality of transverse grooves 441 and a plurality of longitudinal grooves 442, the plurality of transverse grooves 441 are arranged along the width direction of the brick body 41, the plurality of longitudinal grooves 442 are arranged along the length direction of the brick body 41, two adjacent transverse grooves 441 are parallel to each other, two adjacent longitudinal grooves 442 are parallel to each other, the plurality of transverse grooves 441 and the plurality of longitudinal grooves 442 are arranged in a crossing manner, the drainage hole 43 is located at the crossing position of the transverse grooves 441 and the longitudinal grooves 442, and in order to prevent the drainage hole 43 from being blocked in drainage, the hourglass shape of the drainage hole 43 is formed, and the cross section of the drainage hole 43 is circular. The water on the brick body 41 flows into the water seepage groove 44 to be collected, and then flows into the drainage groove 42 along the drainage hole 43, and then is drained from the drainage channel.

Referring to fig. 2 and 5, in order to facilitate splicing of the brick bodies 41 in the length direction to form a drainage channel, a first connecting portion 5 is arranged on one side of the brick bodies 41 in the length direction, the first connecting portion 5 is bonded with the brick bodies 41, the first connecting portion 5 is distributed in the width direction of the brick bodies 41, the first connecting portion 5 and the drainage channel 42 are concentrically arranged, the cross section of the first connecting portion 5 is quadrilateral, the cross section of the first connecting portion 5 in the embodiment is trapezoidal, the width of the first connecting portion 5 is 4-5cm, a first connecting groove 51 matched with the first connecting portion 5 is arranged on the other side of the brick bodies 41, when the brick bodies 41 are laid in the length direction, the first connecting portion 5 is firstly inserted into the first connecting groove 51, the lower surface of the inner wall of the first connecting portion 5 is flush with the lower surface of the drainage channel 42, and therefore the two brick bodies 41 can be conveniently connected together to form the drainage channel.

Referring to fig. 2, in order to enable the brick body 41 to be connected more tightly along the width direction, one side of the brick body 41 along the width direction is provided with a second connecting portion 6, the other side of the brick body is provided with a second connecting groove 61 matched with the second connecting portion 6, the second connecting portion 6 is arranged along the length direction of the brick body 41 and is bonded with the brick body 41, the cross section of the second connecting portion 6 is quadrilateral, and the second connecting portion 6 is trapezoidal in the embodiment.

Referring to fig. 2 and 4, in order to further reduce the influence of water on the bearing layer 3, two sides of the brick body 41 in the width direction are provided with flow guide surfaces 7, the flow guide surfaces 7 are arranged in the length direction of the brick body 41, the height of the lower part of the flow guide surface 7 is greater than the height of the upper surface of the connecting part two 6, the two flow guide surfaces 7 are distributed in a mirror image manner with the center of the brick body 41, one of the flow guide surfaces 7 is provided with a flow guide hole 71, the cross section of the flow guide hole 71 is semicircular, one side of the flow guide hole 71 close to the bottom of the flow guide surface 7 is parallel to the bottom of the flow guide surface 7, the flow guide hole 71 is vertically arranged in the height direction of the brick body 41, the cross section of the flow guide hole 71 is communicated with the drainage groove 42, a flow guide pipe 72 is arranged between the flow guide hole 71 and the drainage groove 42, the flow guide pipe 72 is respectively communicated with the flow guide hole 71 and the drainage groove 42, the flow guide pipe 72 is horizontally arranged in the width direction of the brick body 41, when the adjacent brick body 41 is laid in the width direction, a water storage tank is formed between the two diversion surfaces 7, and water in the water storage tank is drained into the drainage tank 42 through the diversion holes 71 and then drained.

The implementation principle of landscape garden pavement structure of the embodiment of this application is: from up laying plain soil tamp layer 1, rubble bed course 2, bearing layer 3 down in proper order on the road surface to increase the compressive strength on road surface, lay drainage blanket 4 on bearing layer 3 for go away the road surface upper water, thereby damage the road surface with water infiltration bearing layer 3, rubble bed course 2.

The brick body 41 is laid along the length direction, so that a drainage channel is formed, when raining, water seeps into the drainage channel from the drainage groove 42 through the drainage hole 43 and is discharged, the brick body 41 is laid along the width direction, a plurality of flow guide holes 71 are formed in the flow guide surface 7 of the brick body 41, and the flow guide holes 71 are communicated with the drainage channel, so that the water in the gap of the brick body 41 is discharged.

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 view gardens road surface pavement structure, from the bottom up sets gradually plain soil tamp layer (1), rubble bed course (2) and bearing layer (3), its characterized in that: the water drainage layer (4) is arranged on the bearing layer (3), the water drainage layer (4) comprises a plurality of brick bodies (41), a plurality of water drainage grooves (42) are formed in the brick bodies (41), a plurality of water drainage holes (43) communicated with the water drainage grooves (42) are formed in the upper surface of the brick bodies (41), and a plurality of water drainage channels (42) form a water drainage channel.

2. The landscape architecture road paving structure of claim 1, which is characterized in that: a plurality of water seepage grooves (44) are formed in the upper surfaces of the brick bodies (41), and the water seepage grooves (44) are communicated with the drainage holes (43).

3. The landscape architecture road paving structure of claim 2, which is characterized in that: the plurality of water seepage grooves (44) comprise transverse grooves (441) and longitudinal grooves (442), the drainage holes (43) are positioned at the intersection of the transverse grooves (441) and the longitudinal grooves (442), and the drainage holes (43) are hourglass-shaped.

4. The landscape architecture road paving structure of claim 3, which is characterized in that: the brick body (41) both sides are provided with water conservancy diversion face (7), seted up water conservancy diversion hole (71) on water conservancy diversion face (7), water conservancy diversion hole (71) and water drainage tank (42) intercommunication.

5. The landscape architecture road paving structure of claim 4, which is characterized in that: a guide pipe (72) is arranged between the guide hole (71) and the drainage groove (42), and the guide pipe (72) is respectively communicated with the guide hole (71) and the drainage groove (42).

6. The landscape architecture road paving structure of claim 5, which is characterized in that: brick body (41) one end is provided with connecting portion (5), connecting portion (5) and brick body (41) integrated into one piece, brick body (41) opposite side seted up with connecting portion (5) mutually support, connecting portion (5) and water drainage tank (42) concentric setting.

7. The landscape architecture road paving structure of claim 6, which is characterized in that: the brick is characterized in that a second connecting part (6) is arranged on the brick body (41), the brick body (41) and the second connecting part (6) are integrally formed, and a second connecting groove (61) matched with the second connecting part (6) is formed in the brick body (41).

8. The landscape architecture road paving structure of claim 1, which is characterized in that: the brick body (41) and bearing layer (3) sliding connection, be provided with a plurality of reinforcement (47) between the brick body (41) and bearing layer (3), a plurality of reinforcement (47) are used for strengthening the joint strength between the brick body (41) and bearing layer (3).

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