CN113906980A

CN113906980A - Municipal afforestation view system of circulation water conservation

Info

Publication number: CN113906980A
Application number: CN202111151026.2A
Authority: CN
Inventors: 李永山; 孙永全; 杨彪; 戎泽华; 李昶男; 张宗宗
Original assignee: Sinohydro Bureau 5 Co Ltd
Current assignee: Sinohydro Bureau 5 Co Ltd
Priority date: 2021-09-29
Filing date: 2021-09-29
Publication date: 2022-01-11
Anticipated expiration: 2041-09-29
Also published as: CN113906980B

Abstract

The invention discloses a municipal greening landscape system capable of circularly saving water, which comprises a substrate, wherein a drainage ditch in the middle of the substrate divides the substrate into bilaterally symmetrical planting bases, and a planting soil layer and a spraying water supplementing mechanism are arranged on the planting bases; a plurality of groups of bearing fences vertical to the side wall of the drainage ditch are arranged in the drainage ditch along the length direction, and the filter box is detachably placed on the bearing fences; the filter box divides the drainage ditch into an upper filter layer and a lower water storage layer, and the spraying water supplementing mechanism is communicated with the water storage layer; the rainwater and snow water and the redundant spray water are collected in a backflow mode through the water collecting grooves dug in the drainage ditches, the rainwater and snow water collecting cost is reduced, and meanwhile land resources cannot be additionally occupied. When the plant on cultivating the soil layer need water, the pond water in the collecting vat sprays at cultivating the soil layer through spraying moisturizing mechanism, and unnecessary shower water flows back once more, effectively reduces the water waste, reduces to occuping of soil resource, reduces the reliance to municipal water supply.

Description

Municipal afforestation view system of circulation water conservation

Technical Field

The invention relates to the field of municipal greening engineering, in particular to a municipal greening landscape system capable of circularly saving water.

Background

With the development of economy in China, vehicles on roads are continuously increased, and the demand on municipal roads is continuously increased. The construction of municipal roads not only relates to the road surface construction, but also considers the arrangement of various pipelines such as electric power, communication, drainage and the like, and places higher requirements on cities with higher environmental requirements and greening of two sides of the roads. The side of town road is provided with the curb, and the curb is inboard towards one side of road, is the outside towards outside greenbelt one side, and traditional town road construction, the inlet for stom water sets up the inboard at the road curb, and the inlet for stom water top sets up the rainwater grate, and the rainwater grate is made for materials such as concrete, cast iron, and the rainwater pipe that is used for the drainage is connected to the inlet for stom water lower extreme. In order to prevent surface ponding, the rainwater on municipal road surface directly gets into the downspout through the inlet for stom water after collecting and discharges, and on the other hand, the greenbelt of road both sides needs to be irrigated, needs additional municipal water supply again to satisfy the irrigation demand, and the rainwater on unable direct utilization road surface not only causes the water waste, but also has increased the human cost of afforestation maintenance. Some researchers have proposed the concept of sponge city to collect rainwater on road surface and irrigate the road surface.

The "sponge city" means a city which has good elasticity in adaptation to environmental changes, coping with natural disasters, and the like, like a sponge, absorbs, stores, permeates and purifies water in the rainy season, and "releases" and utilizes the stored water when necessary. When collecting the rainwater and utilizing, prior art need excavate a sump pit specially as the rainwater cistern, or utilize finished product catch bucket to collect the rainwater after and carry out the rainwater and utilize again, this not only increases the rainwater and collects the cost of purifying, still occupies a large amount of lands, causes the land wasting of resources, and the result of use is relatively poor.

Therefore, a greening landscape system capable of effectively recovering and storing the redundant water and the rain and snow water during irrigation and saving the water in a circulating manner without excessively occupying land resources is needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a municipal greening landscape system capable of saving water circularly, and the existing greening landscape system depends on municipal water too much in the irrigation process, so that the utilization rate of rain and snow water is low, and simultaneously, a water storage tank is additionally arranged by occupying land resources.

In order to solve the technical problems, the technical scheme adopted by the invention is as follows: a municipal greening landscape system capable of saving water circularly comprises a substrate, wherein the substrate is divided into planting bases which are symmetrical left and right by drainage ditches in the middle of the substrate, and a planting soil layer and a spraying water supplementing mechanism are arranged on the planting bases; a plurality of groups of bearing fences vertical to the side wall of the drainage ditch are arranged in the drainage ditch along the length direction, and the filter box is detachably placed on the bearing fences; the filter box divides the drainage ditch into an upper filter layer and a lower water storage layer, and the spraying water supplementing mechanism is communicated with the water storage layer;

the cross section of the cultivation soil layer is trapezoidal, and greening landscape plants are planted at the top of the cultivation soil layer;

the spraying and water supplementing mechanism comprises a protective box arranged in the cultivated soil layer, a small water pump is arranged in the protective box, a spraying pipe and a spraying head are further arranged at the top of the protective box, a water supplementing pipe is arranged at the bottom of the protective box, and the small water pump pumps water in the water storage layer into the spraying pipe through the water supplementing pipe;

the bearing fence comprises two cross fences perpendicular to the left side wall and the right side wall of the drainage ditch, the tail end of each cross fence is provided with a limiting rod inclining towards the center of the bottom of the drainage ditch, and the left limiting rod and the right limiting rod form a limiting bucket with a trapezoidal cross section;

the filter box comprises a lower-layer collecting tank and an upper-layer horizontal grid plate, the collecting tank is placed in a space formed by the bearing fence and the drainage ditch wall, the top of the side wall of the collecting tank is provided with an installation recess, and the grid plate is detachably clamped at the top of the collecting tank through an installation bulge matched with the installation recess; the device also comprises a hollow pipe penetrating through the grid plate and the bottom surface of the collecting groove, and a plurality of water permeable holes are arranged on the side wall of the hollow pipe.

Particularly, the filter plate further comprises a pore plate which is arranged between the limiting rods and used for assisting bearing and supplementing filtering, and the end faces of the left side and the right side of the pore plate are attached to and tightly abutted against the limiting rods.

Particularly, the protection box outside still is equipped with humidity transducer, and the PLC controller is fixed in on the protection box inner wall, humidity transducer and small-size water pump are connected with the PLC controller electricity.

Particularly, the top end of the hollow tube exceeds a cultivation soil layer, a hemispherical transparent protective cover is further arranged at the top of the hollow tube, and a colored light source is arranged in the transparent protective cover.

Particularly, a concrete layer for water retention and shaping is further poured on the cultivation soil layer, and an opening for plant growth and water seepage spraying is reserved on the upper surface of the concrete layer; the concrete layer is fixed on the planting base through the diagonal draw bars.

Furthermore, concrete layer is located the left and right sides of cultivating the soil layer upper surface to along cultivating soil layer slope downwardly extending, and reserve the rectangular form opening that supplies vegetation and spray the infiltration at the top surface.

Particularly, a plurality of water collecting grooves which are sunken downwards are uniformly dug on the bottom surface of the water storage layer along the length direction of the drainage ditch.

Furthermore, the tail end of the water replenishing pipe is arranged in the water collecting tank, and a filter screen is arranged at the end head.

Particularly, the pore diameter of the water permeable holes is gradually increased from bottom to top.

Compared with the prior art, the invention has the following advantages and beneficial effects: the rainwater and snow water and the redundant spray water are collected in a backflow mode through the water collecting grooves dug in the drainage ditches, the rainwater and snow water collecting cost is reduced, and meanwhile land resources cannot be additionally occupied. When the plant on cultivating the soil layer need water, the pond water in the collecting vat sprays at cultivating the soil layer through spraying moisturizing mechanism, and unnecessary shower water flows back once more, effectively reduces the water waste, reduces to occuping of soil resource, reduces the reliance to municipal water supply.

Drawings

FIG. 1 is a schematic sectional view of the municipal greening landscape system with water circulation and saving.

Fig. 2 is an enlarged schematic view of a portion a in fig. 1.

Fig. 3 is an enlarged schematic view of B in fig. 1.

The explanation of each reference number in the figure is: a drainage ditch-1; a water collection tank-11; a filter screen-12; a planting base-2; cultivating a soil layer-21; a concrete layer-22; a diagonal brace-23; a spraying water supplementing mechanism-3; a protective box-31; a small water pump-32; a shower-33; a shower head-34; a water replenishing pipe-35; a humidity sensor-36; PLC controller-37; a load-bearing rail-4; rail-41; a limiting rod-42; an orifice plate-43; a filter box-5; a collection tank-51; a grid plate-52; a mounting recess-53; a mounting boss-54; a hollow tube-6; water permeable holes-61; a transparent shield-62.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, so as to further understand the concept, the technical problems solved, the technical features constituting the technical solutions, and the technical effects brought by the technical solutions.

As shown in figure 1, the municipal greening landscape system capable of circularly saving water comprises a substrate, a drainage ditch 1 in the middle of the substrate divides the substrate into a planting base 2 which is symmetrical left and right, a planting soil layer 21 and a spraying water supplementing mechanism 3 are arranged on the planting base 2; a plurality of groups of bearing fences 4 vertical to the side wall of the drainage ditch are arranged in the drainage ditch 1 along the length direction, and a filter box 5 is detachably placed on the bearing fences 4; the drainage ditch 1 is divided into an upper filtering layer and a lower water storage layer by the filter box 5, and the spraying water supplementing mechanism 3 is communicated with the water storage layer;

rain and snow water and redundant spray water flow back into the drainage ditch 1 after soaking the cultivation soil layer 21, are filtered by the filter box 5 above the bearing fence 4 and enter the water storage layer below the filter box 5, and when rainfall and snowfall occur, redundant water flows in the drainage ditch 1 and is discharged.

The cross section of the cultivation soil layer 21 is trapezoidal, and greening landscape plants are planted at the top of the cultivation soil layer 21;

as shown in fig. 2, the spraying and water supplementing mechanism 3 comprises a protective box 31 arranged in the cultivation soil layer 21, a small water pump 32 is arranged in the protective box 31, a spray pipe 33 and a spray head 34 are further arranged at the top of the protective box 31, a water supplementing pipe 35 is arranged at the bottom of the protective box, and water in the water storage layer is pumped into the spray pipe 33 through the water supplementing pipe 35 by the small water pump 32;

the spraying and water-replenishing mechanism 3 is used for communicating the spray pipe 33 and the spray header 34 above the cultivated soil layer 21 with the water storage layer through the miniature water pump 32 and the water replenishing pipe 35, so that redundant backflow water can be pumped out again from the water storage layer of the drainage ditch 1 for spraying and watering.

The bearing fence 4 comprises two cross bars 41 vertical to the left side wall and the right side wall of the drainage ditch 1, the tail end of each cross bar 41 is provided with a limiting rod 42 inclined towards the center of the bottom of the drainage ditch 1, and the left limiting rod 42 and the right limiting rod 42 form a limiting bucket with a trapezoidal cross section;

the bearing fences 4 are provided with a plurality of groups in the drainage ditch 1 along the length direction, and two adjacent groups of bearing fences 4 are respectively positioned at the front end and the rear end of the same filter box 5 to play a role in bearing. Bearing fence 4 pours the shaping with escape canal 1 an organic whole, and inside is equipped with the main muscle that is fixed in 1 templates in escape canal, guarantees intensity.

As shown in fig. 3, the filter box 5 includes a lower layer of collecting tank 51 and an upper layer of horizontal grid plate 52, the collecting tank 51 is placed in a space formed by the walls of the bearing fence 4 and the drainage ditch 1, a mounting recess 53 is formed at the top of the side wall of the collecting tank 51, and the grid plate 52 is detachably clamped at the top of the collecting tank 51 through a mounting protrusion 54 matched with the mounting recess 53; the device also comprises a hollow pipe 6 penetrating through the grid plate 52 and the bottom surface of the collecting tank 51, and a plurality of water permeable holes 61 are arranged on the side wall of the hollow pipe 6.

The grid plate 52 on the upper layer of the filter box 5 is used for removing sundries such as large-particle-size soil particles and leaves in return water and avoiding blockage, the mounting recess 53 is located on the side close to the center of the top of the side wall of the collecting tank 51, the thickness of the mounting recess is half of the thickness of the side wall of the collecting tank 51, the mounting protrusion is located on the lower surface of the grid plate 52, the thickness of the mounting protrusion is matched with that of the mounting recess 53, and the mounting recess 53 and the mounting protrusion 54 are matched with each other, so that the grid plate 52 can be detachably fixed on the top of the collecting tank 51 in a bolt mode. After the grid plate 52 is used for a period of time, the grid plate needs to be cleaned, so that sundries above the grid plate are prevented from being accumulated to influence the impurity removal effect and the backflow efficiency of spray water and sleet water.

The vertical bottom surface that runs through grid plate 52 and collecting vat 51 of hollow tube 6 to carry out the secondary edulcoration through the backward flow water after preliminary edulcoration through the hole 61 of permeating water on the lateral wall, the soil grain deposit of some medium and small particle diameter is on the diaphragm of collecting vat 51, and the soil grain of another part medium and small particle diameter gets into spacing the fill along with the backward flow water in, and gets into the water storage layer of below after filtering via the hole 61 of permeating water, prevents that the intraformational water of water storage from forming the deposit. After the grid plate 52 is cleaned, the grid plate 52 is lifted, the collecting groove 51 can be cleaned quickly and conveniently, and soil particles caused by long-term use are prevented from being accumulated to block the lower water permeable holes.

As a preferred embodiment, the filter further comprises an orifice plate 43 arranged between the limiting rods 42 for assisting in bearing and supplementing filtering, and the end surfaces of the left side and the right side of the orifice plate 43 are attached to and abutted against the limiting rods 42. The effect of orifice plate 43 lies in letting the top can carry out the auxiliary stay to collecting vat 51 when the backward flow water after twice edulcoration passes through, also can carry out the last filtration to the backward flow water after twice edulcoration simultaneously. Because the cross-sectional shape of orifice plate 43 is also trapezoidal, and orifice plate 43 directly places in spacing fill promptly, only need during the clearance mention behind grid plate 52 and collecting vat 51 collude orifice plate 43 and can convenient clearance.

In a preferred embodiment, a humidity sensor 36 is further disposed outside the protective box 31, a PLC controller 37 is fixed to an inner wall of the protective box 31, and the humidity sensor 36 and the small water pump 32 are electrically connected to the PLC controller 37.

PLC controller 37's effect lies in passing through humidity transducer 36 perception cultivation soil layer 21 bottom humidity, passes through PLC controller 37 when humidity is low and starts small-size water pump 32 to water and spray landscape plant.

As a preferred embodiment, the top height of the hollow tube 6 exceeds the height of the cultivated soil layer 21, a hemispherical transparent shield 62 is further arranged at the top of the hollow tube 6, and a color light source is arranged in the transparent shield 62. As the landscape plant, the transparent protective cover 62 and the color light source are arranged at the top of the hollow tube 6, so that the landscape plant can well play a role in decoration at night. The colored light source can adopt LED lamp pearl, and the cooperation sets up the effect that can break away from outside power supply at the small-size solar energy accumulator plate at 6 tops of hollow tube, avoids still needing the trouble of extra wiring.

As a preferred embodiment, a concrete layer 22 for water retention and shaping is further poured on the cultivation soil layer 21, and openings for plant growth and water seepage are reserved on the upper surface of the concrete layer 22; the concrete layer 22 is fixed on the planting base 2 through the diagonal braces 23.

Cultivate the mode through the whitewashing after soil layer 21 finishes the plastic and construct one deck concrete layer 22 on cultivating soil layer 21, play the effect that prevents soil erosion and water loss, simultaneously, cultivate soil layer 21 and backfill construction in planting pre-buried diagonal reinforcement 23 on base 2, and cultivate soil layer 21 and backfill the mode through the whitewashing and be connected concrete layer 22 and diagonal reinforcement 23 and planting base 2 as a whole and can effectively play and slow down cultivation soil layer 21 inside moisture evaporation after finishing, reduce and cultivate the soil layer 21 and blow the soil erosion and water loss condition under the rain for a long time.

As a further embodiment, the concrete layers 22 are located on the left and right sides of the upper surface of the cultivation soil layer 21, extend obliquely downward along the cultivation soil layer 21, and leave strip-shaped openings on the top surface for plant growth and water seepage spraying.

Because the cross section of the cultivation soil layer 21 is trapezoidal, the left side part and the right side part of the trapezoidal top surface and the upper half part of the inclined plane are covered by the concrete layer 22, and a water seepage channel and a backflow channel are reserved for rain and snow water. The top of concrete layer 22 is in a V shape with two high sides and a low middle, and an opening is close to 180 degrees, so that the backflow of rain and snow water and spray water can be facilitated.

As a preferred embodiment, a plurality of water collecting grooves 11 which are concave downwards are uniformly dug on the bottom surface of the aquifer along the length direction of the drainage ditch 1; the water collecting tank 11 is used for intercepting and storing water flow in the drainage ditch 1 when the rainfall and the precipitation are less, so that the dependence of the device on the weather can be reduced.

As a further embodiment, the water replenishing pipe 35 is disposed at the end of the water collecting tank 11 and is provided with a filter 12 at the end.

As a preferred embodiment, the pore diameter of the water permeable holes 61 is gradually increased from bottom to top; in the filter layer, part of the soil and stone particles with small and medium particle sizes are also contained in the return water subjected to primary impurity removal, the soil and stone particles with larger particle sizes sink to the bottom, and meanwhile, the water permeable holes 61 cannot be completely blocked, and the water permeable holes 61 can normally permeate water or are slightly influenced. Along with the increase of length of time of using, the bottom is constantly piled up the soil and stone grain of great particle diameter, and the whole height that piles up great particle diameter soil and stone grain in the spacing fill of collecting vat 51 rises, and the soil and stone grain of less particle diameter also can sink the end and probably cause the jam of the hole 61 of permeating water, and the aperture along with the hole 61 of permeating water is from lower to upper increase this moment, and the hole 61 of permeating water in the great aperture that can also pass through the top continues to accomplish and filters and the effect of permeating water to the orifice plate 43 of cooperation below accomplishes the effect of established filtration edulcoration.

The terms "connected" and "fixed" in the description of the present invention may be fixed, formed, welded, or mechanically connected, and the specific meaning of the above terms in the present invention is understood.

In the description of the present invention, the terms "center", "upper", "lower", "horizontal", "inner", "outer", etc. are used in the orientation or positional relationship indicated only for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element referred to must have a particular orientation and therefore should not be construed as limiting the present invention.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solution of the present invention, and not for limiting the same; while the invention has been described in detail and with reference to the foregoing embodiments, those skilled in the art will appreciate that; the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present invention.

Claims

1. A municipal greening landscape system capable of saving water circularly comprises a substrate, wherein a drainage ditch (1) in the middle of the substrate divides the substrate into planting bases (2) which are symmetrical left and right; it is characterized in that a cultivation soil layer (21) and a spraying and water supplementing mechanism (3) are arranged on the planting base (2); a plurality of groups of bearing fences (4) vertical to the side wall of the drainage ditch are arranged in the drainage ditch (1) along the length direction, and a filter box (5) is detachably placed on the bearing fences (4); the drainage ditch (1) is divided into an upper filtering layer and a lower water storage layer by the filter box (5), and the spraying water supplementing mechanism (3) is communicated with the water storage layer;

the cross section of the cultivation soil layer (21) is trapezoidal, and greening landscape plants are planted at the top of the cultivation soil layer (21);

the spraying and water supplementing mechanism (3) comprises a protective box (31) arranged in a cultivation soil layer (21), a small water pump (32) is arranged in the protective box (31), a spraying pipe (33) and a spraying head (34) are further arranged at the top of the protective box (31), a water supplementing pipe (35) is arranged at the bottom of the protective box, and water in a water storage layer is pumped into the spraying pipe (33) through the water supplementing pipe (35) by the small water pump (32);

the bearing fence (4) comprises two cross bars (41) which are vertical to the left side wall and the right side wall of the drainage ditch (1), the tail end of each cross bar (41) is provided with a limiting rod (42) which inclines towards the center of the bottom of the drainage ditch (1), and the left limiting rod and the right limiting rod (42) form a limiting hopper with a trapezoidal cross section;

the filter box (5) comprises a lower-layer collecting tank (51) and an upper-layer horizontal grid plate (52), the collecting tank (51) is placed in a space formed by the walls of the bearing fence (4) and the drainage ditch (1), an installation recess (53) is formed in the top of the side wall of the collecting tank (51), and the grid plate (52) is detachably clamped at the top of the collecting tank (51) through an installation bulge (54) matched with the installation recess (53); the device also comprises a hollow pipe (6) penetrating through the grid plate (52) and the bottom surface of the collecting tank (51), and a plurality of water permeable holes (61) are arranged on the side wall of the hollow pipe (6).

2. The municipal landscaping system with water conservation and recycling function according to claim 1, further comprising a perforated plate (43) disposed between the limiting rods (42) for auxiliary bearing and filtration, wherein the left and right end faces of the perforated plate (43) are attached to and abut against the limiting rods (42).

3. The municipal landscaping system with water conservation and circulation function according to claim 1, wherein a humidity sensor (36) is further arranged outside the protective box (31), the PLC (37) is fixed on the inner wall of the protective box (31), and the humidity sensor (36) and the small water pump (32) are electrically connected with the PLC (37).

4. The municipal landscaping system with water conservation and recycling function of claim 1, wherein the top end of the hollow pipe (6) is beyond the cultivated soil layer (21), a hemispherical transparent shield (62) is further arranged at the top of the hollow pipe (6), and a color light source is arranged in the transparent shield (62).

5. The municipal landscaping system with water conservation and recycling function of claim 1, wherein a concrete layer (22) for water retention and shaping is further poured on the cultivation soil layer (21), and openings for plant growth and water seepage by spraying are reserved on the upper surface of the concrete layer (22); the concrete layer (22) is fixed on the planting base (2) through the inclined stay bars (23).

6. A water-saving municipal landscaping system according to claim 5, wherein the concrete layers (22) are located on the left and right sides of the upper surface of the cultivation soil layer (21), extend obliquely downward along the cultivation soil layer (21), and leave strip-shaped openings on the top surface for plant growth and water seepage by spraying.

7. The municipal landscaping system with water conservation and recycling function of claim 1, wherein the bottom surface of the aquifer is uniformly dug with a plurality of water collecting grooves (11) which are concave downwards along the length direction of the drainage ditch (1).

8. The municipal landscaping system with water conservation by circulation according to claim 7, wherein the water replenishing pipe (35) ends in the water collecting tank (11) and is provided with the filter screen (12) at the end.

9. The municipal landscaping system with water conservation by circulation of claim 1, wherein the water permeable holes (61) have a diameter that gradually increases from bottom to top.