CN214423028U - Formula of sinking greenbelt of town road - Google Patents

Abstract

The utility model relates to a formula greenbelt that sinks of town road, it is including setting up the planting district of the formula that sinks on the road, plant the district including the planting face that is located planting district diapire, the planting face includes concave surface and the convex surface that a plurality of interval set up, the peak of concave surface is less than the peak of convex surface, plant the district lateral wall and offer the water conservancy diversion hole corresponding with the concave surface, the road below is provided with the water storage box that is used for storing the rainwater, water storage box and water conservancy diversion hole intercommunication, the road below is provided with can take out the water in the water storage box to the irrigation subassembly of planting the district. This application has the effect that improves rainwater utilization ratio.

Description

Formula of sinking greenbelt of town road

Technical Field

The application relates to the field of municipal afforestation, especially, relate to a formula greenbelt that sinks of town road.

Background

The sunken green belt is a green belt lower than the surrounding ground, and uses an open space to receive and store rainwater so as to reduce runoff discharge.

Chinese patent with publication number CN210507005U discloses a greenbelt structure, including setting up the greenbelt main part in the road surface below, greenbelt main part both sides are provided with the lane, be provided with the curb between lane and the greenbelt, last drainage channel and lower drainage channel have been seted up on the curb, ponding on the road can flow in the greenbelt main part through last drainage channel, when the rainwater is great, rainwater in the greenbelt main part can realize the drainage through lower drainage channel and discharge, wholly can assist the road surface drainage, simultaneously also can discharge the ponding that will permeate at the greenbelt inside, reduce the appearance of greenbelt inside ponding phenomenon.

Aiming at the related technology, when the rainwater is large, the redundant rainwater is drained from the lower drainage channel, and the inventor thinks that the defect of low rainwater utilization rate exists.

SUMMERY OF THE UTILITY MODEL

In order to improve the utilization ratio of rainwater, this application provides a formula greenbelt that sinks of town road.

The application provides a formula greenbelt that sinks of town road adopts following technical scheme:

the utility model provides a formula of sinking greenbelt of town road, is including setting up the planting district of the formula of sinking on the road, plant the district including the planting face that is located planting district diapire, the planting face includes concave surface and the convex surface that a plurality of interval set up, the peak of concave surface is less than the peak of convex surface, plant the district lateral wall and offer the water conservancy diversion hole corresponding with the concave surface, the road below is provided with the water storage box that is used for storing the rainwater, the water storage box with water conservancy diversion hole intercommunication, road below are provided with can take out the water in the water storage box to the irrigation subassembly of planting district.

By adopting the technical scheme, when raining, rainwater in the planting area is collected at the concave surface, a user can plant drought-resistant plants at the convex surface and flood-resistant plants at the concave surface, and when the rainwater is too large and the rainwater in the planting area needs to be discharged, the rainwater is discharged into the water storage tank through the flow guide holes to be stored; when the plants need to be watered, the rainwater in the water storage tank is pumped into the planting area through the irrigation assembly to irrigate the plants; this formula greenbelt that sinks of town road can store unnecessary rainwater to cyclic utilization can improve the utilization ratio of rainwater.

Preferably, the cross section of water conservancy diversion hole reduces along the direction of keeping away from kind district, every the one end that kind district was kept away from to the water conservancy diversion hole all is provided with the honeycomb duct with water conservancy diversion hole intercommunication, and the road below is provided with the collector pipe with a plurality of honeycomb duct intercommunication, be provided with the drain pipe between collector pipe and the water storage box.

Through adopting above-mentioned technical scheme, the water conservancy diversion hole reduces along the direction of keeping away from planting district, can play the effect of collecing the rainwater, makes things convenient for in the rainwater inflow honeycomb duct more, and then flows into in the water storage box.

Preferably, the drain pipe is provided with a drain valve for controlling the on-off of water flow in the drain pipe.

Through adopting above-mentioned technical scheme, when the drain valve was opened, the rainwater in planting the district can loop through water conservancy diversion hole, honeycomb duct, collector pipe and drain pipe and get into in the water storage box.

Preferably, the irrigation assembly comprises a water pump, a water inlet pipe is arranged between a water inlet of the water pump and the water storage tank, a water outlet of the water pump is communicated with a water collecting pipe, and a water inlet valve is arranged at a position, close to the water pump, of the water collecting pipe.

By adopting the technical scheme, when the water inlet valve is in a communicated state, the water pump can pump the water in the water storage tank to the planting area to irrigate the plants.

Preferably, a control assembly capable of controlling the on-off state of the drain valve and the on-off state of the water inlet valve to be opposite is arranged between the drain valve and the water inlet valve.

By adopting the technical scheme, the on-off states of the drain valve and the water inlet valve are always opposite by arranging the control assembly, when rainwater is large, a user rotates the hand wheel forward to enable the drain valve to be in a communicated state, the water inlet valve is in a cut-off state, and then the rainwater in the planting area can enter the water storage tank; when the plants need to be watered, a user rotates the hand wheel reversely to enable the drain valve to be in a cut-off state, the water inlet valve is in a communicated state, the water pump can pump water in the reservoir into the planting area to irrigate the plants, and the control assembly facilitates the user to adjust the drain valve and the water inlet valve.

Preferably, the drain valve and the water inlet valve both comprise valve rods capable of controlling the on-off of the valve body, the control assembly comprises a pair of control bevel gears meshed with each other, one control bevel gear is arranged on the valve rod of the drain valve, and the other control bevel gear is arranged on the valve rod of the water inlet valve.

By adopting the technical scheme, one bevel gear is rotated to simultaneously control the two valve rods to rotate in opposite directions, so that the on-off of the drain valve and the water inlet valve are simultaneously controlled.

Preferably, the control assembly further comprises a pair of transmission bevel gears meshed with each other, one of the transmission bevel gears is arranged on the valve rod, a control rod penetrates through the other transmission bevel gear, and a hand wheel is sleeved on the control rod.

By adopting the technical scheme, a user rotates the hand wheel, so that the transmission bevel gears arranged on the hand wheel rotate, and the valve rod can be driven to rotate by the mutual meshing of the two transmission bevel gears, thereby controlling the on-off of the drain valve and the water inlet valve simultaneously.

Preferably, a filter plate is arranged at the position, corresponding to the diversion hole, of the inner wall of the planting area.

Through adopting above-mentioned technical scheme, the rainwater in planting the district passes through the filter and filters the back and gets into the water storage box in, can improve the purity of rainwater in the water storage box, reduces the possibility of pipeline jam.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when raining, rainwater in the planting area is collected at the concave surface, a user can plant the plants at the convex surface or the concave surface according to drought resistance and waterlogging resistance of the plants, and when the rainwater is too large and the rainwater in the planting area needs to be discharged, the rainwater is discharged into the water storage tank through the flow guide holes and is stored; when the plants need to be watered, the rainwater in the water storage tank is pumped into the planting area through the irrigation assembly to irrigate the plants; the sunken green belt of the municipal road can store and recycle redundant rainwater, and can improve the utilization rate of the rainwater;

2. by arranging the drain valve and the water inlet valve and controlling the on-off of the drain valve and the water inlet valve through the control assembly, a user can drain or irrigate the planting area more conveniently;

3. through setting up the filter, can improve the purity of rainwater in the water storage box, reduce the possibility of pipeline jam.

Drawings

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

Fig. 2 is a schematic cross-sectional view along the width direction of the planting surface in the embodiment of the application.

Fig. 3 is a schematic structural view of the road cut along a plane parallel to the road surface according to the embodiment of the present application.

Fig. 4 is a schematic structural diagram of a road cut away in the embodiment of the present application.

Reference numerals: 01. a road; 1. a planting area; 11. planting surface; 111. a concave surface; 112. a convex surface; 12. a flow guide hole; 21. a flow guide pipe; 22. a water collection pipe; 23. a drain pipe; 3. a water storage tank; 4. an irrigation assembly; 41. a water pump; 42. a water inlet pipe; 51. a drain valve; 52. a water inlet valve; 53. a valve stem; 6. a control component; 61. controlling the bevel gear; 62. a drive bevel gear; 63. a control lever; 7. a hand wheel; 8. a filter plate.

Detailed Description

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

The embodiment of the application discloses formula greenbelt that sinks of town road. Referring to fig. 1 and 2, the sunken green belt of the municipal road comprises a sunken planting area 1 arranged on a road 01, wherein the planting area 1 is formed by digging up and down the road 01 by constructors, the planting area 1 is rectangular, the bottom wall of the planting area 1 is a planting surface 11, the projection of the planting surface 11 on the upper surface of the road 01 is rectangular, and the adjacent two sides of the rectangular shape are not equal; the planting surface 11 comprises a concave surface 111 and a convex surface 112, the concave surface 111 and the convex surface 112 are both in a long strip shape and are arranged along the length direction of the planting surface 11, the cross sections of the concave surface 111 and the convex surface 112 are both in an arc shape, the concave surface 111 and the convex surface 112 are sequentially arranged at intervals along the width direction of the planting surface 11, and the contact positions of the concave surface 111 and the convex surface 112 are tangent to form the planting surface 11 with a wavy line-shaped cross section; in rainy days, rainwater is collected at the concave surface 111, plants with strong drought resistance can be planted on the convex surface 112 according to the characteristics of the plants, and plants with strong waterlogging resistance can be planted on the concave surface 111, so that the survival rate of the plants is improved.

Referring to fig. 3, in order to collect rainwater when rainwater is more, with reference to fig. 1 (hereinafter, the planting area 1 may be combined with fig. 1), a diversion hole 12 is formed in a side wall of the planting area 1, which is in contact with an end portion of the concave surface 111, the diversion hole 12 is in a circular truncated cone shape, a cross section of the diversion hole 12 decreases along a direction away from the planting area 1, a diameter of the diversion hole 12, which is close to the concave surface 111, is equal to a diameter of the cross section of the concave surface 111, and each concave surface 111 is correspondingly provided with one diversion hole 12; the honeycomb duct 21 is arranged at the small end of the diversion hole 12, the honeycomb duct 21 is buried under the road 01, the honeycomb duct 21 is a round pipe, the inner diameter of the honeycomb duct 21 is the same as the diameter of the small end of the diversion hole 12, the water collecting pipe 22 is arranged at the end, far away from the diversion hole 12, of the honeycomb duct 21, the honeycomb ducts 21 are communicated through the water collecting pipe 22, when rainwater is large, redundant rainwater can be collected in the concave surface 111, and the rainwater flows into the water collecting pipe 22 through the honeycomb duct 21.

Referring to fig. 3 and 4, a water storage tank 3 is arranged on one side of the planting area 1, where the diversion holes 12 are arranged, the water storage tank 3 is buried under the road 01, a drain pipe 23 is arranged between the water collection pipe 22 and the water storage tank 3, one end of the drain pipe 23 is communicated with the water collection pipe 22, the drain pipe 23 is perpendicular to the water collection pipe 22, the other end of the drain pipe 23 is communicated with the water storage tank 3, the drain pipe 23 is connected to the upper end of the water storage tank 3, and redundant rainwater is collected in the water collection pipe 22 and then collected in the water storage tank 3 through the drain pipe 23.

Referring to fig. 3 and 4, in order to pump the water in the water storage tank 3 to the planting area 1 for irrigating plants, an irrigation assembly 4 is arranged below the road 01, the irrigation assembly 4 comprises a water pump 41 and a water inlet pipe 42, the water inlet of the water pump 41 is communicated with the water storage tank 3 through the water inlet pipe 42, the connection point of the water inlet pipe 42 and the water storage tank 3 is lower than the connection point of the water outlet pipe 23 and the water storage tank 3, and the water outlet of the water pump 41 is communicated with the water collecting pipe 22; a drain valve 51 is arranged on the drain pipe 23, a water inlet valve 52 is arranged at the position of the water collecting pipe 22 close to the water outlet of the water pump 41, the drain valve 51 and the water inlet valve 52 both adopt ball valves with valve rods 53, and the on-off of the drain valve 51 and the water inlet valve 52 can be controlled by rotating the valve rods 53; when the plants in the planting area 1 need moisture, the drain valve 51 is closed, the water inlet valve 52 is opened, then the water pump 41 is started, water in the water storage tank 3 enters the water collecting pipe 22 under the action of the water pump 41, and then enters the planting area 1 through the diversion hole 12, so that the rainwater can be recycled, and the utilization rate of the rainwater is improved.

Referring to fig. 3 and 4, in order to make the on-off states of the drain valve 51 and the water inlet valve 52 always opposite to each other so as to facilitate drainage or irrigation of a user on the planting area 1, a control assembly 6 is arranged between the drain valve 51 and the water inlet valve 52, the control assembly 6 comprises two control bevel gears 61 meshed at 90 degrees and two transmission bevel gears 62 meshed at 90 degrees, one control bevel gear 61 is coaxially and fixedly connected with a valve rod 53 on the drain valve 51, the other control bevel gear 61 is coaxially and fixedly connected with a valve rod 53 on the water inlet valve 52, and the drain valve 51 and the water inlet valve 52 can be simultaneously rotated by rotating one control bevel gear 61, so that the on-off states of the drain valve 51 and the water inlet valve 52 are always opposite to each other; one transmission bevel gear 62 is coaxially and fixedly connected with a part, far away from the water inlet valve 52, of the valve rod 53 of the water inlet valve 52, a control rod 63 is coaxially and fixedly arranged on the other transmission bevel gear 62 in a penetrating mode, the axial direction of the control rod 63 is perpendicular to the upper surface of the road 01, one end, far away from the transmission bevel gear 62, of the control rod 63 penetrates out of the upper surface of the road 01, the control rod 63 is rotatably supported on the road 01, a hand wheel 7 is arranged on the part, extending out of the upper surface of the road 01, of the control rod 63, and a user can rotate the hand wheel 7 to control the on-off of the water discharge valve 51 and the water inlet valve 52 at the same time.

Referring to fig. 2 and 4, in order to reduce sundries entering the water storage tank 3, the filter plate 8 is arranged at the large end of the diversion hole 12, the filter plate 8 is fixed on the side wall of the planting area 1 through bolts, and the filter plate 8 can filter the water entering the water storage tank 3 from the planting area 1 so as to improve the purity of the rainwater in the water storage tank 3.

The implementation principle of the sunken greenbelt of town road of the embodiment of this application is: when the rainwater is large, a user rotates the hand wheel 7 forward to enable the drain valve 51 to be in a communicated state, the water inlet valve 52 is in a cut-off state, and the redundant rainwater is collected in the concave surface 111, filtered by the filter plate 8, flows into the water collecting pipe 22 through the flow guide hole 12 and the flow guide pipe 21, and is collected in the water storage tank 3 through the drain pipe 23; when the plants need to be watered in dry weather, a user rotates the hand wheel 7 reversely to enable the drain valve 51 to be in a cut-off state, the water inlet valve 52 is in a communicated state, then the water pump 41 is started, water in the water storage tank 3 enters the water collecting pipe 22 under the action of the water pump 41 and then enters the planting area 1 through the flow guide holes 12, the plants are irrigated, and the sunken green belt of the municipal road can realize the cyclic utilization of rainwater so as to improve the utilization rate of the rainwater.

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 formula greenbelt that sinks of town road, is including setting up planting district (1) of formula that sinks on road (01), its characterized in that: plant district (1) including being located planting face (11) of planting district (1) diapire, planting face (11) include concave surface (111) and convex surface (112) that a plurality of interval set up, the peak of concave surface (111) is less than the peak of convex surface (112), plant district (1) lateral wall and seted up water conservancy diversion hole (12) corresponding with concave surface (111), road (01) below is provided with water storage box (3) that are used for storing the rainwater, water storage box (3) with water conservancy diversion hole (12) intercommunication, road (01) below is provided with and takes out irrigation subassembly (4) to planting district (1) with the water in water storage box (3).

2. The sunken green belt of the municipal road of claim 1, wherein: the cross section of water conservancy diversion hole (12) reduces along the direction of keeping away from planting district (1), every the one end that planting district (1) was kept away from in water conservancy diversion hole (12) all is provided with honeycomb duct (21) with water conservancy diversion hole (12) intercommunication, and road (01) below is provided with collector pipe (22) with a plurality of honeycomb duct (21) intercommunication, be provided with between collector pipe (22) and water storage box (3) drain pipe (23).

3. The sunken green belt of the municipal road of claim 2, wherein: the drain pipe (23) is provided with a drain valve (51) for controlling the on-off of water flow in the drain pipe (23).

4. The sunken green belt of the municipal road of claim 3, wherein: the irrigation assembly (4) comprises a water pump (41), a water inlet pipe (42) is arranged between a water inlet of the water pump (41) and the water storage tank (3), a water outlet of the water pump (41) is communicated with a water collecting pipe (22), and a water inlet valve (52) is arranged at the position, close to the water pump (41), of the water collecting pipe (22).

5. The sunken green belt of the municipal road of claim 4, wherein: and a control assembly (6) capable of controlling the on-off states of the drain valve (51) and the water inlet valve (52) to be opposite is arranged between the drain valve (51) and the water inlet valve (52).

6. The sunken green belt of the municipal road of claim 5, wherein: the water discharging valve (51) and the water inlet valve (52) both comprise valve rods (53) capable of controlling the on-off of the valve body, the control assembly (6) comprises a pair of control bevel gears (61) meshed with each other, one control bevel gear (61) is arranged on the valve rod (53) of the water discharging valve (51), and the other control bevel gear (61) is arranged on the valve rod (53) of the water inlet valve (52).

7. The sunken green belt of the municipal road of claim 6, wherein: the control assembly (6) further comprises a pair of transmission bevel gears (62) which are meshed with each other, one transmission bevel gear (62) is arranged on the valve rod (53), a control rod (63) penetrates through the other transmission bevel gear (62), and a hand wheel (7) is sleeved on the control rod (63).

8. The sunken green belt of the municipal road of claim 1, wherein: and a filter plate (8) is arranged at the position, corresponding to the diversion hole (12), of the inner wall of the planting area (1).

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