CN214853307U - Elevated water diversion gravity type water-saving irrigation system for pitchfork landscape gallery - Google Patents

Abstract

The utility model discloses an elevated diversion gravity type water-saving irrigation system for a racking landscape corridor, which comprises a green road on the ground and a plurality of branches on the green road, wherein the longitudinal sections of all branches are in the shape of an X, the top of the branch is provided with a plurality of galleries, all the galleries are connected in sequence to form a gallery body, one side of the gallery body along the length direction is provided with a city wall crenelation port, the other side of the gallery body along the length direction is provided with a landscape wall, a plurality of water drainage holes are formed at the bottom of the city wall crenels, a water diversion channel is further formed at one end of the corridor body close to the city wall crenels along the length direction, all the water drainage holes are respectively communicated with the water diversion channel, the water intake device is connected at the water inlet at the foremost end of the diversion canal, the lateral wall of the crossbeam is provided with a water delivery pipeline, one end of the water conveying pipeline is communicated with the water diversion channel, and the other end of the water conveying pipeline extends to the outer side of the green channel.

Description

Elevated water diversion gravity type water-saving irrigation system for pitchfork landscape gallery

Technical Field

The utility model relates to an irrigation technical field especially relates to a tall garden landscape corridor elevated diversion gravity type water-saving irrigation system.

Background

Irrigation is to utilize artificial facilities to deliver water meeting quality standards to farmlands, greenbelts and other places to supplement soil moisture so as to improve the growth and development conditions of plants. The world is increasingly short of fresh water resources, and the demand of human beings on food is continuously increased, so that the fresh water resources become the security threats for agricultural development and world food supply. The method aims to solve the problems of limited cultivated land area, shortage of fresh water resources and rising of world grain demands, and the development of water-saving irrigation becomes a key point;

common branches are tripods for retaining water, are arranged in rows in a plurality of when using, establish the platform in every, and the bench is put the stone, adds system horizontal timber and perpendicular wood on the upstream face, external bamboo mat to add and cultivate clay, can play the manger plate effect, water-saving irrigation obtains the biggest output or income with minimum water consumption, the irrigation measure of the crops output and the output value that also furthest improves the unit irrigation water yield. The main measures of water-saving irrigation in various countries in the world currently comprise channel seepage prevention, low-pressure pipe irrigation, sprinkling irrigation, micro-irrigation and the like. Besides being used for supplementing soil moisture to meet the growth needs of plants, the fertilizer and pesticide can be dissolved in water to realize the integration of water, fertilizer and pesticide, and the integrated operation of watering, fertilizing and pesticide spraying is carried out on crops.

The existing irrigation canal system has single function, only plays the role of irrigation, and cannot be suitable under the large background of country lively, beautiful China and national ecological civilization construction.

SUMMERY OF THE UTILITY MODEL

The utility model provides a tall raft landscape corridor elevated diversion gravity type water-saving irrigation system combines many functional mode such as view, irrigation integratively, suitable more watershed ecological remediation of visitor, beautiful country, ecological agriculture or green economic industry garden.

The technical scheme of the utility model is that:

an elevated water diversion gravity type water-saving irrigation system of a duct with a duct, comprising a green road on the ground and a plurality of branches on the green road, wherein the longitudinal sections of all the branches are in the shape of 'X', the top of the branch is provided with a plurality of galleries, all the galleries are connected in sequence to form a gallery body, one side of the gallery body along the length direction is provided with a city wall crenelation port, the other side of the gallery body along the length direction is provided with a landscape wall, a plurality of water drainage holes are formed at the bottom of the city wall crenels, a water diversion channel is further formed at one end of the corridor body close to the city wall crenels along the length direction, all the water drainage holes are respectively communicated with the water diversion channel, the water intake device is connected at the water inlet at the foremost end of the diversion canal, the lateral wall of the crossbeam is provided with a water delivery pipeline, one end of the water conveying pipeline is communicated with the water diversion channel, and the other end of the water conveying pipeline extends to the outer side of the green channel.

The working principle of the technical scheme is as follows:

the water taking device extracts irrigation water into the water diversion channel, and the irrigation water is drained to water-saving irrigation pipes for sprinkling irrigation, micro-spraying (hanging micro-spraying, ground-inserting micro-spraying), drip irrigation and the like through a water conveying pipeline connected with the water diversion channel by means of gravitational potential energy, and finally the irrigation water is directly conveyed to a green economic industry park or field irrigation, wherein drain holes are formed in the lower side of the gallery body at a certain distance, rainwater collected by the gallery body is drained into the water diversion channel, and finally the rainwater is drained into the green economic industry park or field irrigation through the water conveying pipeline, the water-saving irrigation pipes and the like, so that the rainwater is collected and reused. Meanwhile, tourists can walk on the green channel and the corridor body to watch, and the landscape wall can be carved into patterns which are in accordance with local culture.

The utility model discloses an above-mentioned technical scheme, it is integrative to see multi-functional modes such as view, irrigation, the more beautiful village of suitable visitor, watershed ecological remediation, ecological agriculture or green economic industry garden still has advantages such as water delivery is rapid, water conservation, province ground, increase production, be favorable to agricultural production to rush season, save advantages such as land, the high efficiency water, crops obtain timely irrigation, the irrigation assurance rate has been improved, can effectively promote grain increase production and income, realize the benefit such as water conservation, festival ground, energy-conservation.

In a further technical scheme, retaining walls are arranged on two opposite sides of the bottom of the green channel along the length direction.

Set up the barricade, the barricade is closed adjacent crossbeam, delimits the width on green road, avoids simultaneously that the narrow space of crossbeam triangle gives pedestrian's safety and causes unchangeably, blocks simultaneously that outside surface runoff collects green road, forms a corridor that supplies the pedestrian to vwatch and play.

In a further technical scheme, the green channel is at least provided with a sewage interception diversion channel along the length direction.

The sewage interception diversion canal is arranged, surface runoff sewage or rainwater can be conveniently discharged, and organized drainage is realized.

In a further technical scheme, the inner side walls of the branches are connected with baffles along the length direction.

Set up the baffle, the baffle seals adjacent branch, avoids overflow flows such as upper gallery, overhead ditch to advance the green road of lower floor, forms a wind-sheltering and rain-sheltering corridor that supplies the pedestrian to pass. So that tourists on the green passage can be prevented from being blown by wind, exposed to the sun and drenched.

In a further technical scheme, the baffle is composed of a plurality of solid wood breast boards and acrylic glass boards which are arranged in a staggered mode.

The baffle comprises an acrylic glass plate, so that the inside daylighting of the racking is convenient, and visitors can view the scenery outside the racking in the green road.

In a further technical scheme, a plurality of landscape lamp belts are arranged on the corridor body.

Set up view lamp area, increase the sight and admire effect of visitor when playing evening.

In a further technical scheme, a valve and a flowmeter are arranged on the water pipeline.

Set up the valve, the convenient control is to the irrigation time in industry garden, sets up the flowmeter simultaneously, conveniently observes and takes notes the water yield of industry garden irrigation demand.

In a further technical scheme, the water guide channel is provided with an anti-blocking filter cover.

The anti-blocking filter cover is arranged to prevent coarse particle impurities from dropping into the water channel to cause blockage.

In a further technical scheme, one end of the water conveying pipeline, which is far away from the gallery body, is a water-saving irrigation pipe.

By using water-saving irrigation pipes such as spray irrigation, micro-spray (hanging micro-spray, ground-inserting micro-spray), drip irrigation and the like, irrigation water is directly delivered to a green economic industrial park or field irrigation, so that the leakage loss of the water in the conveying process is reduced, and the irrigation to the industrial park is uniform.

In a further technical scheme, a plurality of water retaining weirs are arranged in the water diversion channel.

The diversion canal is internally provided with a water retaining weir which slows down the flow velocity, accumulates partial irrigation water or collected rainwater, locally blocks the irrigation water in the elevated diversion canal from rapidly flowing away, and ensures that the irrigation water flows into a water delivery pipeline connected with the elevated diversion canal.

The utility model has the advantages that:

1. the utility model combines the viewing mode, the irrigation mode and other multifunctional modes into a whole, is suitable for beautiful villages, watershed ecological restoration, ecological agriculture or green economic industrial parks with more tourists, also has the advantages of rapid water delivery, water saving, land saving, yield increase and the like, is beneficial to the season rush of agricultural production, the land saving and the like, uses water with high efficiency, irrigates crops in time, improves the irrigation guarantee rate, can effectively promote the yield increase of grains, and realizes the benefits of water saving, land saving, energy saving and the like;

2. arranging a retaining wall, sealing adjacent branches, delimiting the width of a green channel, avoiding the unchanged safety of pedestrians caused by the narrow space of the branch triangle, and simultaneously blocking external surface runoff from converging to the green channel to form a corridor for the pedestrians to watch and play;

3. the sewage interception diversion canal is arranged, so that surface runoff sewage or rainwater can be conveniently discharged, and organized drainage is realized;

4. set up the baffle, the baffle seals adjacent branch, avoids overflow flows such as upper gallery, overhead ditch to advance the green road of lower floor, forms a corridor that supplies pedestrian current to hide wind and take shelter from rain. The tourists on the green channel are prevented from being blown by wind, exposed to the sun and drenched;

5. the baffle comprises an acrylic glass plate, so that the interior of the branch can be conveniently daylighted, and visitors can view the scenery outside the branch in the green road;

6. the landscape lamp strip is arranged, so that the ornamental effect of the tourists during playing at night is improved;

7. the valve is arranged, so that the irrigation of the industrial park is conveniently controlled, and the flowmeter is arranged, so that the water quantity required by the irrigation of the industrial park is conveniently observed and recorded;

8. the anti-blocking filter cover is arranged to prevent coarse particle impurities from falling into the water diversion channel to block the water diversion channel;

9. irrigation water is directly sent to a green economic industrial park or field irrigation by using water-saving irrigation pipes such as sprinkling irrigation, micro-spraying (hanging micro-spraying, ground-inserting micro-spraying), drip irrigation and the like, so that the leakage loss of the water in the conveying process is reduced, and the irrigation to the industrial park is uniform;

10. the diversion canal is internally provided with a water retaining weir which slows down the flow velocity, accumulates partial irrigation water or collected rainwater, locally blocks the irrigation water in the elevated diversion canal from rapidly flowing away, and ensures that the irrigation water flows into a water delivery pipeline connected with the elevated diversion canal.

Drawings

Fig. 1 is the embodiment of the utility model provides a tall tree view corridor elevated diversion gravity type water-saving irrigation system's overall structure schematic diagram.

Fig. 2 is a front view of the elevated diversion gravity type water-saving irrigation system of the horizontal duct corridor according to the embodiment of the present invention;

fig. 3 is a side view of the elevated diversion gravity type water-saving irrigation system of the horizontal duct corridor according to the embodiment of the present invention;

fig. 4 is an enlarged view at a in fig. 3.

Description of reference numerals:

10. green channel; 11. a disposable water intake device; 12. retaining walls; 13. a sewage intercepting diversion channel; 20. common branches; 21. a water delivery pipeline; 22. a solid wood breast board; 23. an acrylic glass plate; 24. valves and flow meters; 25. a water-saving irrigation pipe; 30. a gallery body; 31. a city wall crenelation; 32. a culture relief artistic wall; 33. a drain hole; 34. a water diversion canal; 35. a landscape lamp belt; 36. an anti-blocking filter cover; 37. a water retaining weir.

Detailed Description

The embodiments of the present invention will be further explained with reference to the drawings.

Example (b):

as shown in fig. 1-4, a high-elevated diversion gravity type water-saving irrigation system with a landscape corridor comprises a green corridor 10 located on the ground and a plurality of branches 20 located on the green corridor 10, all the longitudinal sections of the branches 20 are all in an "X" shape, the top of the branches 20 is provided with a plurality of corridors, all the corridors are sequentially connected to form a corridor body 30, one side of the corridor body 30 along the length direction is provided with a city wall buttress opening 31, the other side of the corridor body 30 along the length direction is provided with a landscape wall, the landscape wall is a culture relief art wall 32, the width of the corridor body 30 is greater than the width of a limiting space formed by the city wall buttress opening 31 and the culture relief art wall 32, the city wall buttress opening 31 is provided with a plurality of drainage holes 33, one end of the corridor body 30 along the length direction, far away from the relief art wall 32, is also provided with a diversion channel 34, the diversion channel 34 is located at one end of the top of the corridor body 30, all the drainage holes 33 are respectively communicated with the diversion canal 34, a disposable water taking device 11 is connected to the water inlet of the diversion canal 34, a water conveying pipeline 21 is arranged on the side wall of the branch duct 20, one end of the water conveying pipeline 21 is communicated with the diversion canal 34, the other end of the water conveying pipeline 21 is parallel to the green channel 10 and extends to the outer side of the green channel 10, and the water conveying pipeline 21 in the horizontal direction is fixed through a bracket 20 arranged on the ground.

The working principle of the technical scheme is as follows:

the disposable water taking device 11 extracts irrigation water into the water diversion canal 34, and the irrigation water is guided to a water-saving irrigation pipe 25 such as spray irrigation, micro-spray (hanging micro-spray, ground-inserting micro-spray), drip irrigation and the like through a water conveying pipeline 21 connected with the water diversion canal 34 by means of gravitational potential energy, and finally the irrigation water is directly conveyed to a green economic industry park or field irrigation, wherein drain holes 33 are arranged at a certain distance below the gallery body 30, rainwater collected by the gallery body 30 is discharged into the water diversion canal 34, and finally the rainwater is discharged into the green economic industry park or field irrigation through the water conveying pipeline 21, the water-saving irrigation pipe 25 and the like, so that the rainwater is collected and reused. Meanwhile, tourists can walk on the green channel 10 and the gallery body 30 to enjoy the sight, and the culture relief artistic wall 32 can be carved into patterns which are in accordance with local culture.

In the embodiment, by adopting the technical scheme, the landscape mode and the irrigation mode are combined into a whole, so that the ecological landscape irrigation system is suitable for beautiful villages, watershed ecological restoration, ecological agriculture or green economic industrial parks with more tourists.

In another embodiment, as shown in fig. 1-3, retaining walls 12 are provided on opposite sides of the bottom of the green track 10 along the length direction.

In this embodiment, set up barricade 12, barricade 12 closes adjacent crossbeam 20, delimits the width of green road 10, avoids simultaneously that the narrow space of crossbeam 20 triangle-shaped causes for pedestrian's safety unchangeably, blocks simultaneously that outside earth's surface runoff collects green road 10, forms a corridor that supplies the pedestrian to vwatch and play.

In another embodiment, as shown in fig. 1 and 3, the green duct 10 is provided with a sewage intercepting flow guide channel 13 along the length direction, and the sewage intercepting flow guide channel 13 is located in the space between the baffle and the crossbeam 20.

In this embodiment, set up and cut dirty diversion canal 13, conveniently discharge surface runoff sewage or rainwater, realize organized drainage.

In another embodiment, as shown in fig. 2 to fig. 3, all the inner side walls of the crossbeam 20 are connected with baffles, and the baffles are formed by three solid wood sideboard 22 and two acrylic glass plates 23 arranged in a staggered manner.

In this embodiment, set up the baffle, the baffle seals adjacent crossbeam 20, avoids overflow such as upper gallery body 30, diversion canal 34 to flow into lower floor's green road 10, forms a corridor that hides wind and rain that supplies the pedestrian to pass. Make the visitor on the green road 10 avoid blowing, insolate, drenching with the rain, the baffle includes acrylic glass board 23 simultaneously, makes things convenient for the inside daylighting of branch 20 for the visitor can view and admire the external scenery of branch 20 in the green road.

In another embodiment, as shown in fig. 1, 3 and 4, a landscape lamp strip 35 is respectively arranged on the gallery body 30, the city wall crenels 31 and the cultural relief artistic walls 32.

In this embodiment, set up view lamp area 35, increase the sight enjoying effect of visitor when playing evening.

In another embodiment, as shown in fig. 1, a valve and a flow meter 24 are provided at the end of the water pipe 21.

In this embodiment, set up the valve, the convenient control sets up the flowmeter to the irrigation time in industrial park, conveniently observes and takes notes the water yield of the irrigation demand in industrial park simultaneously.

In another embodiment, as shown in fig. 4, the penstock 34 is provided with an anti-clogging filter 36.

In this embodiment, an anti-clogging filter 36 is provided to prevent coarse impurities from falling into the penstock 34 and clogging the penstock 34 and the water saving irrigation pipe 25.

In another embodiment, as shown in fig. 3, the water pipe 21 is provided with a water-saving irrigation pipe 25 at the end far away from the gallery body 30.

In this embodiment, by using the water-saving irrigation pipe 25, irrigation water is directly delivered to the green economic industry park or field irrigation through the water-saving irrigation pipes such as sprinkling irrigation, micro-spraying (hanging micro-spraying, ground-inserting micro-spraying), drip irrigation and the like, so as to reduce leakage loss of water in the delivery process and ensure uniform irrigation of the industry park.

In another embodiment, as shown in fig. 2, the penstock 34 has water dams 37 disposed therein.

In this embodiment, the water retaining weir 37 is disposed in the penstock 34 to slow down the flow rate, accumulate a part of the irrigation water or collected rainwater, locally block the irrigation water in the penstock 34 from flowing away rapidly, and ensure that the irrigation water flows into the water conduit 21 connected to the penstock 34.

The Dujiang dam not only makes a state of the world, but also breeds the Shu civilization, the Dujiang dam hydraulic engineering is the soul of river engineering technology, wherein the crossbeam triangular stable structure is used as an intercepting hydraulic structure of the Dujiang dam hydraulic engineering, so far, ancient interception is carried out, pollution is intercepted by the modern method, and the essence of the technology of the Sichuan main plum ice water engineering is inherited to the present; utilize stable mechanical structure of branch tree triangle, construct a branch landscape corridor elevated diversion gravity type water-saving irrigation system through three constructional columns, utilize branch high diversion canal with the disposable hoisting device water intaking water conservancy diversion in ditch upper reaches, through the gravity type conduit duct of being connected with elevated diversion canal, drainage to sprinkling irrigation, spout a little (hang spout a little, insert spout a little), drip irrigation etc. water-saving irrigation pipe, directly deliver to green economic industry garden or field irrigation at last, with the leakage loss of reduction water in the transportation process. The elevated water diversion canal is combined with field water-saving irrigation equipment such as spraying and drip irrigation equipment, and a set of low-energy-consumption water-saving irrigation system is combined through the action of gravity, so that the water utilization coefficient of the canal system can be increased to 0.6-0.85, and the water utilization coefficient is increased by 50-70% compared with that of the original soil canal. The irrigation system has the advantages that through local moistening irrigation, such as sprinkling irrigation, micro-spraying (hanging micro-spraying, ground inserting micro-spraying), drip irrigation and the like, organic fertilizers such as soluble humic acid and the like, plant growth regulators, systemic insecticides and the like can be dripped along with water, the soil in the field can be loosened and has good air permeability, the granular structure of the soil is improved, the organic matter content of the soil is improved, the ecological environment restoration of the soil such as fertile soil carbon fixation, soil fertile field cultivation, green prevention and control and the like is realized, the operation times and labor input of intertillage, fertilization, pesticide spraying, weeding and the like can be reduced, the labor allocation in the irrigation process can be reduced after water-saving irrigation engineering is carried out, and a large amount of manpower and material resources are saved.

Utilize the stable mechanical structure of branch 20 triangle, the construction of branch view corridor overhead diversion gravity type water-saving irrigation canal is when considering the stable mechanical structural characteristic of branch 20 triangle, still need fully consider basic design's rationality, ensures the stability of irrigation canal, guarantees that its positive effect can obtain the performance. In the design process of the pitchfork landscape corridor elevated water diversion gravity type water-saving irrigation canal, the actual geological conditions in the project area of the project are surveyed, and the construction of the canal can be carried out by utilizing local natural conditions or partial roads under the condition that the conditions permit. During design, the stability and the safety of the elevated diversion irrigation ditch must be ensured, and the construction of basic facilities are well carried out.

The above-mentioned embodiments only express the specific embodiments of the present invention, and the description thereof is specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for those skilled in the art, without departing from the spirit of the present invention, several variations and modifications can be made, which are within the scope of the present invention.

Claims (10)

1. An elevated water diversion gravity type water-saving irrigation system of a porthole landscape corridor is characterized by comprising a green road on the ground and a plurality of branches on the green road, wherein the longitudinal sections of all the branches are in an X shape, the top of the branch is provided with a plurality of galleries, all the galleries are connected in sequence to form a gallery body, one side of the gallery body along the length direction is provided with a city wall crenelation port, the other side of the gallery body along the length direction is provided with a landscape wall, a plurality of water drainage holes are formed at the bottom of the city wall crenels, a water diversion channel is further formed at one end of the corridor body close to the city wall crenels along the length direction, all the water drainage holes are respectively communicated with the water diversion channel, the water intake device is connected at the water inlet at the foremost end of the diversion canal, the lateral wall of the crossbeam is provided with a water delivery pipeline, one end of the water conveying pipeline is communicated with the water diversion channel, and the other end of the water conveying pipeline extends to the outer side of the green channel.

2. The elevated diversion gravity type water-saving irrigation system as shown in claim 1, characterized in that retaining walls are arranged on two opposite sides of the green branch along the length direction.

3. The elevated water diversion gravity type water-saving irrigation system as claimed in claim 1, wherein the green branch is provided with at least one sewage interception diversion canal along the length direction.

4. The elevated water diversion gravity type water-saving irrigation system as shown in claim 1, characterized in that the inner side walls of all the branches are connected with baffles along the length direction.

5. The elevated diversion gravity type water-saving irrigation system as shown in claim 4, wherein the baffle is composed of a plurality of staggered solid wood breast boards and acrylic glass boards.

6. The elevated diversion gravity type water-saving irrigation system as shown in claim 1, characterized in that a plurality of landscape lamp strips are arranged on the gallery body.

7. The elevated water diversion gravity type water-saving irrigation system as shown in claim 1, characterized in that a valve and a flowmeter are arranged on the water conveying pipeline.

8. The elevated water diversion gravity type water-saving irrigation system as shown in claim 1, characterized in that the diversion canal is provided with an anti-blocking filter cover.

9. The elevated diversion gravity type water-saving irrigation system as claimed in claim 1, characterized in that one end of the water conveying pipeline, which is far away from the gallery body, is an irrigation pipe.

10. The elevated water diversion gravity type water-saving irrigation system as claimed in claim 1, characterized in that a plurality of water-retaining weirs are arranged in the diversion canal.

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