CN207619784U - Garden road drainage system - Google Patents
Garden road drainage system Download PDFInfo
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- CN207619784U CN207619784U CN201721718948.6U CN201721718948U CN207619784U CN 207619784 U CN207619784 U CN 207619784U CN 201721718948 U CN201721718948 U CN 201721718948U CN 207619784 U CN207619784 U CN 207619784U
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- surface layer
- layer
- water accepting
- heat
- drainage system
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A30/00—Adapting or protecting infrastructure or their operation
- Y02A30/60—Planning or developing urban green infrastructure
Abstract
The utility model leads to the problem of ponding for floor abrasion, provides a kind of garden road drainage system, can rainwater infiltration be reduced hollow ponding, the technical solution is as follows:A kind of garden road drainage system, it is characterized in that:Including several floors being laid on the road surface being obliquely installed, floor includes surface layer and base, surface layer is run through along its thickness direction is equipped with several micropores, base is equipped with the water accepting layer being close to surface layer, and water accepting layer is connected with the heat-conducting piece for extending to surface layer upper surface, and base is equipped with the diversion trench being located at below water accepting layer, diversion trench is connected to water accepting layer, the diversion trench on adjacent floor is connected to, and further includes the drainpipe being connected to diversion trench, and drainpipe is connected to underdrainage system.When raining, rainwater is flowed by dead weight along floor surface to collect discharge, and part floor produces the hollow of recess due to abrasion, rainwater is accumulated on hollow, it is penetrated by micropore, reduces the case where ponding and visitor's trample are to splash ponding, improve the comfort of visitor's walking.
Description
Technical field
The utility model is related to field of garden technology, more specifically, it relates to a kind of garden road drainage system.
Background technology
Currently, in park or scenic spot, due to garden road measurement and cal rolling when, will produce local absolute altitude height not
One the problem of, while garden road so as to cause garden road surfaces by using also will appear abrasion, being easy to form hollow, rainy day for a long time
When, rainwater accumulates in hollow, and visitor walks when on the road of garden, steps down at hollow and is easy to splash rainwater to get clothing wet, to trip
People's walking is made troubles, and space is also improved.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of garden road drainage system, have
The advantages of reducing surface gathered water.
To achieve the above object, the utility model provides following technical solution:
A kind of garden road drainage system, including several floors being laid on the road surface being obliquely installed, the floor include table
Layer and base, the surface layer is run through along its thickness direction is equipped with several micropores, and the base is equipped with the water suction being close to surface layer
Layer, the water accepting layer are connected with the heat-conducting piece for extending to surface layer upper surface, and the base is equipped with the water conservancy diversion being located at below water accepting layer
Slot, the diversion trench are connected to water accepting layer, and the diversion trench connection on the adjacent floor, further includes the draining being connected to diversion trench
Pipe, the drainpipe are connected to underdrainage system.
Using above-mentioned technical proposal, when raining, rainwater is fallen on surface layer, since inclination is arranged so that floor is also in
It is obliquely installed, rainwater is flowed by dead weight along floor surface to collect discharge, and part floor produces recess due to abrasion
Hollow, rainwater are accumulated on hollow, are penetrated by micropore, are reduced the ponding after the abrasion of surface layer and are trampleed on reducing visitor to splash product
The case where water, improves the comfort of visitor's walking, is adsorbed by water accepting layer, to accelerate the rate that rainwater is penetrated by micropore, protects
It is unimpeded to demonstrate,prove micropore, after water storage capacity is fully loaded in water accepting layer, rainwater leaves water accepting layer by dead weight and enters diversion trench to be discharged, most
It is discharged eventually by underdrainage system, in fine day, by heat-conducting piece by sunshine steady heat conduction to water accepting layer to accelerate water accepting layer
Middle moisture evaporation causes mosquito to grow to avoid rainwater long time integration in water accepting layer, and prepares for rainfall next time, simultaneously
Surface layer can be soaked by water vapour, reduce surface layer cracking.
Preferably, several micropores are evenly distributed on surface layer.
Using above-mentioned technical proposal, it is evenly distributed on surface layer by micropore to ensure the water penetration on surface layer so that surface layer
Many places abrasion can reduce surface layer ponding by micropore permeation.
Preferably, the micropore is equipped with the guide surface of taper towards extraneous end, and the guide surface is along far from micropore
The direction radius of the heart gradually increases.
Using above-mentioned technical proposal, by the guide surface of taper the inlet calibre of micropore is increased so that rainwater is more preferable
Penetrated by micropore, ensure infiltration effect.
Preferably, the upper surface on the surface layer is equipped with non-slip texture, the non-slip texture and microporous connectivity.
It is anti-skidding by the non-slip texture on surface layer using above-mentioned technical proposal so that visitor is safer when walking, simultaneously
Since non-slip texture is connected to micropore to form guiding role so that rainwater preferably reaches at micropore to penetrate into.
Preferably, the base is equipped with fixing groove, and the notch of the fixing groove is downward to surface layer, and the water accepting layer is embedded in solid
Determine in slot.
Using above-mentioned technical proposal, surface layer is supported by base, and water accepting layer is embedded in fixing groove, when visitor being avoided to walk
Water accepting layer is squeezed so that moisture is overflowed from micropore.
Preferably, the heat-conducting piece includes the heat-conducting plate extended along the inner wall of fixing groove, and the heat-conducting plate, which is connected with, to be run through
Surface layer extends to the heat conductive rod of the upper surface on surface layer.
Using above-mentioned technical proposal, the contact area with water accepting layer is increased to improve the heating to water accepting layer by heat-conducting plate
Effect absorbs heat to conduct to heat-conducting plate by heat conductive rod, reduces the damage to surface layer when heat-conducting piece runs through surface layer.
Preferably, end of the heat conductive rod far from heat-conducting plate is connected with the thermally conductive sheet positioned at the upper surface on surface layer.
Using above-mentioned technical proposal, the area that heat-conducting piece is located at surface layer upper surface is improved by thermally conductive sheet, it is heated to improve
Area, and then improve heat-transfer effect.
Preferably, the diversion trench on the length direction on surface layer center line setting and it is parallel with surface layer.
Using above-mentioned technical proposal, since diversion trench is parallel with surface layer and center line setting along surface layer so that be adjacent to
When plate splices, the lucky face of diversion trench ensures the effect of diversion trench draining to be connected to.
In conclusion the utility model has the advantages that:By micropore permeation rainwater, so that shape after the abrasion of surface layer
At hollow ponding by micropore penetrate into surface layer below, avoid visitor trample on spray is splash on ponding, absorbed water by water accepting layer
To improve water velocity in micropore, ensure that micropore is unimpeded, improves infiltration effect, all faces of micropore infiltration are improved by guide surface
Product improves the safety of visitor's walking by non-slip texture, and by non-slip texture water conservancy diversion so that rainwater preferably passes through micropore
Infiltration is accelerated water accepting layer rate of drying and is avoided by heat-conducting piece heat conduction to promote moisture evaporation in water accepting layer using sunshine high temperature
Mosquito grows while preparing for rainfall next time.
Description of the drawings
Fig. 1 is the overall structure diagram of the roads the utility model Zhong Yuan drainage system;
Fig. 2 is the schematic diagram for illustrating floor panel structure in the utility model;
Fig. 3 is the enlarged diagram in the portions A in Fig. 2;
Fig. 4 is the schematic diagram for schematically intralamellar part structure in the utility model.
In figure:1, road surface;2, drainpipe;3, floor;31, surface layer;311, micropore;312, guide surface;313, non-slip texture;
32, base;321, water accepting layer;322, fixing groove;323, diversion trench;4, heat-conducting piece;41, heat-conducting plate;42, heat conductive rod;43, heat conduction
Piece.
Specific implementation mode
With reference to the accompanying drawings and embodiments, the utility model is described in detail.
A kind of garden road drainage system includes several floors 3 being laid on the road surface 1 being obliquely installed referring to Fig.1, with reference to figure
2 and Fig. 3, floor 3 include surface layer 31 and base 32, and surface layer 31, which is run through, is equipped with several micropores 311, and base 32 is equipped with and surface layer
31 water accepting layers 321 being close to and the diversion trench 323 below water accepting layer 321, further include the draining being connected to diversion trench 323
Pipe 2, drainpipe 2 are connected to underdrainage system.
With reference to Fig. 2 and Fig. 3, micropore 311 vertically runs through surface layer 31, and multiple micropores 311 are distributed on surface layer 31,
The upper end of micropore 311 is the guide surface 312 of taper, and the diameter of guide surface 312 gradually increases along the direction far from micropore 311, table
The upper surface of layer 31 is provided with crisscross non-slip texture 313, and non-slip texture 313 is connected to micropore 311.
With reference to Fig. 4, base 32 is provided with fixing groove 322, and the notch of fixing groove 322 is towards surface layer 31, the slot bottom of fixing groove 322
Towards the centroclinal downward of fixing groove 322, water accepting layer 321 is fixed in fixing groove 322, and diversion trench 323 is located at fixing groove 322
Lower section, diversion trench 323 along the length direction on surface layer 31 center line be extended, diversion trench 323 is parallel with surface layer 31, water conservancy diversion
Slot 323 is connected to fixing groove 322, and when adjacent floor 3 is spliced, adjacent guide slot 323 is connected to form flow-guiding channel, flow-guiding channel
End be connected to drainpipe 2.
With reference to Fig. 3 and Fig. 4, water accepting layer 321 is connected with the heat-conducting piece 4 for extending to 31 upper surface of surface layer, and heat-conducting piece 4 includes
The heat-conducting plate 41 being laid with along the slot bottom and side wall of fixing groove 322, water accepting layer 321 be located above heat-conducting plate 41 and with heat-conducting plate 41
Fitting pushes against, and heat-conducting plate 41 is connected with the vertical heat conductive rod 42 for running through surface layer 31, and heat conductive rod 42 stretches out 31 upper surface of surface layer
End be connected with thermally conductive sheet 43, thermally conductive sheet 43 is embedded in the bottom of non-slip texture 313.
The operating mode and principle of the present embodiment are as follows:
When raining, since road surface 1 is obliquely installed so that floor 3 is inclined to set, and rainwater is flowed along the surface layer 31 on floor 3
It moves to flow and be discharged towards drainage system, the abrasion of surface layer 31 or the recess hollow because of height error generation when being laid with will build up on part
Rainwater, and the part rainwater is difficult to flow to form ponding along surface layer 31, ponding under micropore 311 by oozing, into water accepting layer
In 321, the surface on floor 3 is rested on always to avoid ponding.
During being oozed under ponding, since 311 aperture of micropore is less, flowing velocity is slower, and water is adsorbed by water accepting layer 321
Stream, accelerates the flow velocity of flow, is formed simultaneously siphonage, ponding is quickly sucked water accepting layer 321 by micropore 311, into
And backplate surface ponding is reduced, after rainwater enters water accepting layer 321, since rainwater dead weight will be moved down slowly so that in water accepting layer 321
Moisture is distributed as gradually increasing from top to bottom, when the lower layer space water of water accepting layer 321 is more, suction of the part to moisture
Attached power declines, and rainwater is detached from water accepting layer 321 by dead weight, and glides along heat-conducting plate 41, eventually enters into diversion trench 323, and
Drainpipe 2 is flowed to be discharged by diversion trench 323.
When fine day, sunshine is radiated on floor 3, is transferred heat on water accepting layer 321 by heat-conducting piece 4, and raising is passed through
To improve the rate of moisture evaporation in water accepting layer 321, vapor is distributed by micropore 311 to external empty the temperature of water accepting layer 321
Between with discharge, avoid long-term ponding in water accepting layer 321 that mosquito is caused to grow, at the same pass through vapor moisten floor 3, reduction floor
3 crackings.
Since water accepting layer 321 is arranged in fixing groove 322, and fixing groove 322 is opened in base 32, is given by base 32
Give the support of surface layer 31 so that visitor tramples when on surface layer 31, and water accepting layer is squeezed using the rigid restriction surface layer 31 of base 32
321, avoid rainwater in water accepting layer 321 from being expelled to 31 upper surface of surface layer from micropore 311 due to being squeezed, to spatter pedestrian with water.
By heat conductive rod 42 by the heat transfer of thermally conductive sheet 43 to heat-conducting plate 41, when reducing heat-conducting piece 4 through surface layer 31
Through area, reduces and the structure on surface layer 31 is destroyed, keep the stability on surface layer 31.
The heating surface area that heat-conducting piece 4 is located at 31 upper surface of surface layer is improved by thermally conductive sheet 43, improves endothermic effect, in turn
The heat of water accepting layer 321 can be transferred to by increasing, and improve the effect to 321 heat drying of water accepting layer.
Prevent visitor from walking because moisture film causes to skid on floor 3 by non-slip texture 313, simultaneously because non-slip texture 313
Connection micropore 311 improves the working area of rainwater infiltration, together to enter in micropore 311 using 313 water conservancy diversion rainwater of non-slip texture
The guide surface 312 of Shi Liyong micropores 311 further increases the inlet calibre of micropore 311 so that rainwater is easier to enter micropore 311
It oozes below.
Due to diversion trench 323 along the length direction on surface layer 31 center line setting and it is parallel with surface layer 31 so that be adjacent to
When plate 3 splices, 323 lucky face of adjacent guide slot improves the effect that diversion trench 323 drains.
The above is only the preferred embodiment of the utility model, and the scope of protection of the utility model is not limited merely to
Above-described embodiment, technical solution belonging to the idea of the present invention belong to the scope of protection of the utility model.It should refer to
Go out, for those skilled in the art, it is without departing from the principle of the utility model it is several improvement and
Retouching, these improvements and modifications also should be regarded as the scope of protection of the utility model.
Claims (8)
1. a kind of garden road drainage system, it is characterized in that:Including several floors (3) being laid on the road surface being obliquely installed (1), institute
It includes surface layer (31) and base (32) to state floor (3), and the surface layer (31) is run through along its thickness direction is equipped with several micropores
(311), the base (32) is equipped with the water accepting layer (321) being close to surface layer (31), and the water accepting layer (321), which is connected with, to be extended to
The heat-conducting piece (4) of surface layer (31) upper surface, the base (32) are equipped with the diversion trench (323) being located at below water accepting layer (321), institute
It states diversion trench (323) to be connected to water accepting layer (321), the connection of the diversion trench (323) of the adjacent floor (3), further includes and water conservancy diversion
The drainpipe (2) of slot (323) connection, the drainpipe (2) are connected to underdrainage system.
2. garden road according to claim 1 drainage system, it is characterized in that:Several micropores (311) are evenly distributed on table
On layer (31).
3. garden road according to claim 2 drainage system, it is characterized in that:The micropore (311) sets towards extraneous end
There are the guide surface (312) of taper, the guide surface (312) gradually to increase along the direction radius far from micropore (311) center.
4. garden road according to claim 3 drainage system, it is characterized in that:The upper surface of the surface layer (31) is equipped with anti-skid chequer
Road (313), the non-slip texture (313) are connected to micropore (311).
5. garden road according to claim 1 drainage system, it is characterized in that:The base (32) is equipped with fixing groove (322), institute
The notch of fixing groove (322) is stated towards surface layer (31), the water accepting layer (321) is in fixing groove (322).
6. garden road according to claim 5 drainage system, it is characterized in that:The heat-conducting piece (4) includes along fixing groove (322)
The heat-conducting plate (41) that extends of inner wall, the heat-conducting plate (41) is connected with the upper surface that surface layer (31) are extended to through surface layer (31)
Heat conductive rod (42).
7. garden road according to claim 6 drainage system, it is characterized in that:The separate heat-conducting plate (41) of the heat conductive rod (42)
End is connected with the thermally conductive sheet (43) positioned at the upper surface of surface layer (31).
8. garden road according to claim 1 drainage system, it is characterized in that:Length of the diversion trench (323) along surface layer (31)
Spend direction on center line setting and it is parallel with surface layer (31).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721718948.6U CN207619784U (en) | 2017-12-08 | 2017-12-08 | Garden road drainage system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721718948.6U CN207619784U (en) | 2017-12-08 | 2017-12-08 | Garden road drainage system |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207619784U true CN207619784U (en) | 2018-07-17 |
Family
ID=62823262
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721718948.6U Active CN207619784U (en) | 2017-12-08 | 2017-12-08 | Garden road drainage system |
Country Status (1)
Country | Link |
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CN (1) | CN207619784U (en) |
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2017
- 2017-12-08 CN CN201721718948.6U patent/CN207619784U/en active Active
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