CN111962780B - Water receiving structure - Google Patents

Water receiving structure Download PDF

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Publication number
CN111962780B
CN111962780B CN202010851695.XA CN202010851695A CN111962780B CN 111962780 B CN111962780 B CN 111962780B CN 202010851695 A CN202010851695 A CN 202010851695A CN 111962780 B CN111962780 B CN 111962780B
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China
Prior art keywords
water receiving
water
side wall
plate
guide plate
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CN202010851695.XA
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CN111962780A (en
Inventor
陈煜�
谢新文
荣德锋
龙开方
杨金涛
冯志永
关显赫
李波
张弛
郑劲松
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First Construction Engineering Co Ltd of China Construction Second Engineering Bureau Co Ltd
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First Construction Engineering Co Ltd of China Construction Second Engineering Bureau Co Ltd
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Priority to CN202010851695.XA priority Critical patent/CN111962780B/en
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    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage; Sky-lights
    • E04D13/04Roof drainage; Drainage fittings in flat roofs, balconies or the like
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage; Sky-lights
    • E04D13/008Provisions for reducing rain noise
    • EFIXED CONSTRUCTIONS
    • E04BUILDING
    • E04DROOF COVERINGS; SKY-LIGHTS; GUTTERS; ROOF-WORKING TOOLS
    • E04D13/00Special arrangements or devices in connection with roof coverings; Protection against birds; Roof drainage; Sky-lights
    • E04D13/04Roof drainage; Drainage fittings in flat roofs, balconies or the like
    • E04D13/0404Drainage on the roof surface
    • E04D13/0459Drainage borders, e.g. dripping edges, gravel stops or dispersers

Abstract

The application relates to the technical field of buildings in general, and particularly relates to a water receiving structure, which comprises a water receiving tank and a water receiving plate arranged at the top of the water receiving tank, wherein the water receiving tank is of an open-slot structure so that water flows out from the end part of the water receiving tank, the water receiving plate is provided with a plurality of water receiving holes for dripping water into the water receiving tank, the water receiving holes can reduce the noise when the water drips, the water receiving tank comprises a first side wall, a second side wall and a bottom wall, the height of the first side wall is greater than that of the second side wall, the water receiving plate is connected with the first side wall and the second side wall and is downwards inclined from the first side wall to the second side wall, the water receiving plate comprises a bulge part and a lower concave part, the bulge part is positioned between the lower concave part and the second side wall, when the water receiving structure is used, the water drips fall on the water receiving plate, part of the gravity of the water drips is converted into downwards inclined force, and the component force can enable most of the water drips to move along the curved surface structure of the water receiving plate, effectively reducing the splashing of water drops.

Description

Water receiving structure
Technical Field
This application relates to the building technology field generally, particularly, relates to a water receiving structure.
Background
At present, most buildings in China are designed with an eave structure, rainwater can fall along the eave in rainy days, and can splash around by taking a dripping point as a center after the rainwater drips from the eave, so that the ground in the peripheral area of the eave is inconvenient to walk, and certain noise is generated by the dripping of the rainwater, so that people have a rest.
Disclosure of Invention
In this summary, concepts in a simplified form are introduced that are further described in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used as an aid in determining the scope of the claimed subject matter.
In order to solve the technical problem that rainwater drips and splashes and noise, the main aim at of this application provides a water receiving structure.
In order to achieve the purpose of the invention, the following technical scheme is adopted in the application:
a water receiving structure is used for receiving water dripped from high altitude and comprises a water receiving tank and a water receiving plate arranged at the top of the water receiving tank, wherein the water receiving tank is of an open slot structure so that water flows out of the end part of the water receiving tank, and the water receiving plate is provided with a plurality of water receiving holes for water to drip into the water receiving tank;
the water receiving tank comprises a first side wall, a second side wall and a bottom wall, the height of the first side wall is greater than that of the second side wall, the water receiving plate is respectively connected with the first side wall and the second side wall, the water receiving plate is arranged from the first side wall to the second side wall in a downward inclined mode, the water receiving plate comprises a protruding portion and a lower concave portion, the bulge is positioned between the lower concave part and the second side wall, a flow guide structure is arranged in the water receiving tank, the flow guide structure is used for guiding the water dropping from the water receiving hole to flow and comprises a first flow guide plate and a second flow guide plate, the first guide plate and the second guide plate are oppositely arranged at two sides of the length direction of the water receiving tank, and the first guide plate and the second guide plate are respectively arranged towards the middle position of the water receiving tank in a downward inclined mode so as to form inclined plane structures inclining downwards on two sides of the length direction of the water receiving tank.
Further, in some embodiments of the present application, a rectangular coordinate system is established on a plane perpendicular to the extending direction of the water receiving tank, and a point where the molded line of the water receiving plate is connected to the second side wall is used as an origin, where the molded line of the water receiving plate satisfies:
y=∑Bi*xi(i=1,2,3,4,5,6,7,8,9),0≤x≤-42.5;
B1=-0.34276;
B2=0.41895;
B3=0.12182;
B4=0.01654;
B5=0.00129;
B6=0.000058515;
B7=0.00000150607;
B8=0.0000000203365;
B9=0.000000000111971。
further, in some embodiments of the present application, the protrusion height of the protrusion is smaller than the height of the first sidewall.
Further, in some embodiments of the present application, the height of the lower recess is smaller than the height of the second sidewall.
Further, in some embodiments of the present application, the first guide plate and the second guide plate are respectively provided with a plurality of guide grooves arranged along the extending direction of the water receiving tank.
Further, in some embodiments of the present application, the diversion trench of the first diversion plate and the diversion trench of the second diversion plate are respectively disposed toward the same end of the water receiving tank in the length direction in an inclined manner, so as to guide water to flow out of the water receiving tank. So as to guide the water to flow out of the water receiving tank.
Further, in some embodiments of the present application, the water receiving tank is provided with a first chute and a second chute;
the first guide plate is provided with a first sliding block matched with the first sliding groove, the first guide plate is located on two sides of the first sliding block and symmetrically arranged, the second guide plate is provided with a second sliding block matched with the second sliding groove, the second guide plate is located on two sides of the second sliding block and symmetrically arranged, and the first guide plate and the second guide plate are arranged in a mirror image mode.
Further, in some embodiments of the present application, the water receiving plate includes a metal mesh layer, a sponge layer, and a concrete layer, the metal mesh layer is located between the sponge layer and the concrete layer, and the sponge layer is located on an outer surface of the water receiving plate.
According to the technical scheme, the advantage and the positive effect of the water receiving structure of this application lie in:
the water receiving structure is used for receiving water dripping from the high altitude, prevents water drops from splashing backward, avoids influencing the use of the ground on the inner side of an eave, facilitates pedestrians to walk around the water drop, reduces noise when water drops, and ensures a quiet working and living environment.
The water receiving structure comprises a water receiving tank and a water receiving plate arranged at the top of the water receiving tank, the water receiving tank is of an open slot structure so that water flows out from the end part of the water receiving tank, the water receiving plate is provided with a plurality of water receiving holes for water to drip into the water receiving tank, the water receiving holes can reduce the noise when the water drips, the water receiving tank comprises a first side wall, a second side wall and a bottom wall, the height of the first side wall is larger than that of the second side wall, the water receiving plate is connected with the first side wall and the second side wall, the water receiving plate is downwards inclined from the first side wall to the second side wall and comprises a bulge part and a lower concave part, the bulge part is arranged between the lower concave part and the second side wall, when the water receiving structure is used, the first side wall faces a building, the lower concave part is aligned with the water dripping position, water drops dripping on the lower concave part enter the water receiving tank through the water receiving holes, when the water drops fall on one side of the bulge part facing the first side wall, part of the water drops sputtering towards the first side wall, because the water receiving plate is arranged in an inclined mode, the height of the first side wall is larger than that of the second side wall, the water receiving plate blocks splashed water drops from the lower concave portion to the first side wall, water is prevented from splashing to the ground on the inner side of the eave, when the water drops contact the water receiving plate, one part of gravity of the water drops is converted into downward inclined force, the force enables most of the water drops to move along the curved surface structure of the water receiving plate, and splashing of the water drops is effectively reduced.
Drawings
The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the invention and together with the description, serve to explain the principles of the invention.
In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.
Fig. 1 is a perspective view of a water receiving structure according to an exemplary embodiment.
Fig. 2 is a side view of a water receiving structure according to an exemplary embodiment.
Fig. 3 is a schematic view illustrating a flow guide structure of a water receiving structure according to an exemplary embodiment.
Fig. 4 is a schematic cross-sectional view of a water receiving plate of a water receiving structure according to an exemplary embodiment.
Wherein the reference numerals are as follows:
100-a water receiving tank; 200-a water receiving plate; 300-a flow guide structure; 400-a mount;
110-a first side wall; 120-a second sidewall; 130-a bottom wall;
210-a boss; 220-lower recess; 230-a first curved surface segment; 240-a second curved surface segment; 250-a third curved surface segment; 260-a metal mesh layer; 270-sponge layer; 280-concrete layer; 290-water receiving hole;
310-a first baffle; 311-a first slider; 320-a second baffle; 321-second slider.
Detailed Description
In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present application.
This scheme provides a water receiving structure for connect the water droplet of high altitude drippage, avoid the water droplet to drip backward and sputter, influence the use of peripheral bottom surface, reduce the noise of water droplet simultaneously. The water receiving structure comprises a water receiving tank 100 and a water receiving plate 200 arranged at the top of the water receiving tank 100, the water receiving tank 100 is an open-slot structure so that water flows out from the end part of the water receiving tank 100, the water receiving plate 200 is provided with a plurality of water receiving holes 290 for water to drip into the water receiving tank 100, the water receiving tank 100 comprises a first side wall 110, a second side wall 120 and a bottom wall 130, the height of the first side wall 110 is greater than that of the second side wall 120, the water receiving plate 200 is connected with the first side wall 110 and the second side wall 120, the water receiving plate 200 is obliquely downwards arranged from the first side wall 110 to the second side wall 120, according to the condition of water dripping, the water receiving plate 200 comprises a convex part 210 and a lower concave part 220, the convex part 210 is positioned between the lower concave part 220 and the second side wall 120, when the water receiving structure is used, the first side wall is positioned at one side close to a building, the lower concave part 220 is aligned to the water dripping position, water dripping drops into the water receiving tank 100 through the water receiving holes 290 after dropping into the lower concave part 220, when the water droplet falls in one side of bellying 210 orientation first lateral wall 110, partial water droplet takes place to sputter towards first lateral wall 110, because water receiving plate 200 slope sets up, and first lateral wall 110 highly is greater than second lateral wall 120, water receiving plate 200 will block the water droplet that splashes from the part of depressed part 220 to first lateral wall 110, thereby prevent that water from splashing to the inboard ground of eave, avoid influencing the use on the inboard ground of eave, make things convenient for the pedestrian to walk in the periphery of water droplet whereabouts department, noise when reducing the water droplet, guarantee quiet work living environment.
Referring to fig. 1 to 4, in this embodiment, the water receiving structure includes a water receiving tank 100, a water receiving plate 200, a flow guide structure 300, and a mounting member 400, the water receiving tank 100 is an open-slot structure, the water receiving tank 100 includes a first side wall 110, a second side wall 120, and a bottom wall 130, a height of the first side wall 110 is greater than a height of the second side wall 120, the water receiving plate 200 is connected to the first side wall 110 and the second side wall 120, the water receiving plate 200 is inclined downward from the first side wall 110 to the second side wall 120, the mounting member 400 is fixedly connected to the first side wall 110, the mounting member 400 is provided with a mounting hole, and a pin or a screw penetrates through the mounting hole to fix the water receiving structure.
Referring to fig. 2, on a plane perpendicular to the extending direction of the water receiving tank 100, a rectangular coordinate system is established counterclockwise with a connection point between the surface profile of the water receiving plate 200 and the second sidewall 120 as an origin, as shown in fig. 2, the upper right quadrant of the origin is the first quadrant, and the profile of the water receiving plate 200 satisfies:
y=∑Bi*xi(i=1,2,3,4,5,6,7,8,9),0≤x≤-42.5;
B1=-0.34276;
B2=0.41895;
B3=0.12182;
B4=0.01654;
B5=0.00129;
B6=0.000058515;
B7=0.00000150607;
B8=0.0000000203365;
B9=0.000000000111971。
in this scheme, the curved surface structural design of water collector 200 has better effect of preventing splashing for the flat board that the slope set up, and when the water droplet contacted water collector 200, the gravity partly turned into the decurrent power of slope, and this part power makes the most of water droplet can move along water collector 200's curved surface structure, effectively reduces splashing of water droplet.
Referring to fig. 1 and fig. 2, according to the protruding portion 210 and the lower concave portion 220, the outer surface of the water receiving plate 200 is divided into a first curved section 230, a second curved section 240 and a third curved section 250, the protruding portion 210 of the water receiving plate 200 is formed between the first curved section 230 and the second curved section 240, and the lower concave portion 220 of the water receiving plate 200 is formed between the second curved section 240 and the third curved section 250. When the water receiving structure is horizontally placed for use, the height of the first side wall 110 is greater than or equal to twice the height of the second side wall 120, the length of the bottom wall 130 is the same as the height of the first side wall 110, the height of the protrusion 210 is greater than the height of the second side wall 120 and smaller than the height of the first side wall 110, and the height of the lower recess 220 is smaller than the height of the second side wall 120. The water receiving structure is placed under an eave, the first side wall 110 is located on one side, facing the building, of the water receiving structure, the lower concave portion 220 is aligned to the dropping position of water drops, when the water drops drop on the second curved surface section 240, the water drop part enters the water receiving groove 100 from the water receiving hole 290 of the second curved surface section 240, the other part of the water drops spatters towards the third curved surface section 250, the third curved surface section 250 blocks the water drops to continuously spatter, therefore, rainwater is prevented from splashing to the inner side of the eave, and pedestrians can conveniently walk around the rainwater dropping position.
When the top of second lateral wall 120 and the bottom surface flush the setting, the water receiving hole 290 of the water accessible first curved surface that flows out from the eave inboard flows into water receiving tank 100, because first curved surface section 230 and second curved surface section 240 have bellying 210 between, under a certain extent, water can't flow through bellying 210, avoids forming ponding on the second curved surface section 240, avoids the condition of water droplet drippage at the surface of water, prevents to appear more rainwater splash.
As shown in fig. 4, in this scheme, the water receiving plate 200 includes a metal mesh layer 260, a sponge layer 270, and a concrete layer 280, the metal mesh layer 260 is located between the sponge layer 270 and the concrete layer 280, the sponge layer 270 is located on the outer surface of the water receiving plate 200, splashing and noise generated when water drops are further reduced through the sponge layer 270, the metal mesh layer 260 can effectively improve the structural strength of the water receiving plate 200, the concrete layer 280 increases the weight of the water receiving plate 200, improves the stability of the water receiving plate 200, reduces the vibration of the water receiving plate 200, and reduces the noise generated when water drops due to the vibration of the water receiving plate 200.
Referring to fig. 2 and 3, in order to prevent rainwater from depositing in the water receiving tank 100 and accelerate the flow rate of rainwater in the water receiving tank 100, in the present embodiment, a flow guiding structure 300 is disposed in the water receiving tank 100, the flow guiding structure 300 includes a first flow guiding plate 310 and a second flow guiding plate 320, the first flow guiding plate 310 and the second flow guiding plate 320 are disposed on two sides of the length direction of the water receiving tank 100 in a mirror image manner, and the first flow guiding plate 310 and the second flow guiding plate 320 are respectively disposed in a downward-inclined manner toward the middle of the water receiving tank 100 to form a downward-inclined plane structure on two sides of the length direction of the water receiving tank 100, as shown in fig. 2, the first flow guiding plate 310 leans against the first side wall 110, the second flow guiding plate 320 leans against the second side wall 120, one side of the first flow guiding plate 310 contacting the bottom wall 130 and one side of the second flow guiding plate 320 contacting the bottom wall 130 are respectively inclined toward the middle of the water receiving tank 100, the flow guiding surface of the first flow guiding plate 310 and the flow guiding surface of the second flow guiding plate 320 form a downward-inclined plane structure, the rainwater dropping on the first and second guide plates 310 and 320 flows to the middle part of the water receiving tank 100, thereby accelerating the flow of the water in the water receiving tank 100. With reference to fig. 3, in this scheme, the first guide plate 310 and the second guide plate 320 are respectively provided with a plurality of guide grooves along the extending direction of the water receiving tank 100, the guide grooves of the first guide plate 310 and the guide grooves of the second guide plate 320 are respectively inclined toward the same end of the water receiving tank in the length direction, so as to ensure the consistency of the outflow direction of water from the first guide plate 310 and the second guide plate 320, and accelerate the outflow of water from the guide grooves.
On the basis that does not change water receiving structure mounting means, in order to realize the control of the rivers direction in the butt joint basin 100, in this scheme, first spout and second spout have been seted up in the water receiving basin 100, first guide plate 310 has and is used for the first slider 311 with first spout complex, first guide plate 310 is located the structure symmetry setting of first slider 311 both sides, second guide plate 320 has and is used for the second slider 321 with second spout complex, second guide plate 320 is located the structure symmetry setting of second slider 321 both sides, and first guide plate 310 and the mirror image setting of second guide plate 320, first guide plate 310 and the installation of second water receiving guide plate 320 can change the interior water flow direction of basin 100. On the basis of the above structure, it can be further understood that the water receiving tank 100 has two openings in the length direction, in this embodiment, one of the openings is defined as a first outlet end, and the other opening is defined as a second outlet end, the diversion trench of the first diversion plate 310 and the diversion trench of the second diversion plate 320 are respectively arranged in an inclined manner toward the first outlet end, rainwater on the first diversion plate 310 and rainwater on the second diversion plate 320 flow toward the first outlet end, and most of water in the water receiving tank 100 flows out from the first outlet end; the first guide plate 310 and the second guide plate 320 are installed in an interchangeable manner, the guide grooves of the first guide plate 310 and the second guide plate 320 are respectively inclined towards the second outlet end, rainwater on the first guide plate 310 and rainwater on the second guide plate 320 respectively flow towards the second outlet end, and most of water in the water receiving tank 100 flows out from the second outlet end.
To sum up, this scheme provides a water receiving structure, and water receiving structure has water receiving tank 100, water receiving plate 200 and water conservancy diversion structure 300, and water receiving plate 200's molded lines satisfy: y ═ Σ Bi × xi(i ═ 1,2,3,4,5,6,7,8,9) where x is 0. ltoreq. x.ltoreq.42.5, B1=-0.34276,B2=0.41895,B3=0.12182,B4=0.01654,B5=0.00129,B6=0.000058515,B7=0.00000150607,B8=0.0000000203365,B90.000000000111971, so that the outer surface of the water receiving plate 200 is divided into a first curved section 230, a second curved section 240 and a third curved section 250, a convex part 210 of the water receiving plate 200 is formed between the first curved section 230 and the second curved section 240, a concave part 220 of the water receiving plate 200 is formed between the second curved section 240 and the third curved section 250, the curved structure design of the water receiving plate 200 has better anti-splashing effect relative to an obliquely arranged flat plate, when a water drop contacts the water receiving plate 200, a part of the gravity of the water drop is converted into an obliquely downward force, the force enables most of the water drop to move along the curved structure of the water receiving plate 200, and the splashing of the water drop is effectively reduced, and the flow guiding structure 300 comprises a first flow guiding plate 310 and a second flow guiding plate 320, the first flow guiding plate 310 and the second flow guiding plate 320 are respectively provided with a plurality of flow guiding grooves arranged along the extending direction of the water receiving groove 100 to guide and accelerate the flow of the water in the water receiving groove 100, the first guide plate 310 and the second guide plate 320 are arranged in an interchangeable manner, so that the flowing direction of water in the guide groove can be changed, the requirement of changing the drainage direction is met, and the practicability of the water receiving structure is improved.
It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.
The foregoing are merely exemplary embodiments of the present invention, which enable those skilled in the art to understand or practice the present invention. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (8)

1. A water receiving structure is used for receiving water dropping from high altitude and is characterized by comprising a water receiving tank and a water receiving plate arranged at the top of the water receiving tank, wherein the water receiving tank is of an open slot structure so that water flows out of the end part of the water receiving tank, and the water receiving plate is provided with a plurality of water receiving holes for water dropping into the water receiving tank;
the water receiving tank comprises a first side wall, a second side wall and a bottom wall, the height of the first side wall is greater than that of the second side wall, the water receiving plate is respectively connected with the first side wall and the second side wall, the water receiving plate is arranged from the first side wall to the second side wall in a downward inclined mode, the water receiving plate comprises a protruding portion and a lower concave portion, the bulge is positioned between the lower concave part and the second side wall, a flow guide structure is arranged in the water receiving tank, the flow guide structure is used for guiding the water dropping from the water receiving hole to flow and comprises a first flow guide plate and a second flow guide plate, the first guide plate and the second guide plate are oppositely arranged at two sides of the length direction of the water receiving tank, and the first guide plate and the second guide plate are respectively arranged towards the middle position of the water receiving tank in a downward inclined mode so as to form inclined plane structures inclining downwards on two sides of the length direction of the water receiving tank.
2. A water receiving structure as claimed in claim 1, wherein a rectangular coordinate system is established on a plane perpendicular to the extending direction of the water receiving tank, and with a point where the shaped line of the water receiving plate is connected to the second side wall as an origin, the shaped line of the water receiving plate satisfies:
y=∑Bi*xi(i=1,2,3,4,5,6,7,8,9),0≤x≤-42.5;
B1=-0.34276;
B2=0.41895;
B3=0.12182;
B4=0.01654;
B5=0.00129;
B6=0.000058515;
B7=0.00000150607;
B8=0.0000000203365;
B9=0.000000000111971。
3. the water receiving structure of claim 1, wherein a projection height of the projection is less than a height of the first side wall.
4. The water receiving structure of claim 1, wherein the height of the lower recess is less than the height of the second side wall.
5. The water receiving structure of claim 1, wherein the first flow guide plate and the second flow guide plate are respectively provided with a plurality of flow guide grooves arranged along the extending direction of the water receiving groove.
6. The water receiving structure of claim 5, wherein the diversion trench of the first diversion plate and the diversion trench of the second diversion plate are respectively disposed obliquely toward the same end of the water receiving trench in the length direction so as to guide water to flow out of the water receiving trench.
7. The water receiving structure of claim 6, wherein the water receiving trough is provided with a first chute and a second chute;
the first guide plate is provided with a first sliding block matched with the first sliding groove, the first guide plate is located on two sides of the first sliding block and symmetrically arranged, the second guide plate is provided with a second sliding block matched with the second sliding groove, the second guide plate is located on two sides of the second sliding block and symmetrically arranged, and the first guide plate and the second guide plate are arranged in a mirror image mode.
8. The water receiving structure of claim 1, wherein the water receiving plate comprises a metal mesh layer, a sponge layer and a concrete layer, the metal mesh layer is located between the sponge layer and the concrete layer, and the sponge layer is located on the outer surface of the water receiving plate.
CN202010851695.XA 2020-08-21 2020-08-21 Water receiving structure Active CN111962780B (en)

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CN211200670U (en) * 2019-09-28 2020-08-07 沈阳公路工程监理有限责任公司 Highway engineering is managed and is used drainage structures

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