CN214430850U - High altitude area honeysuckle is planted and is fertilizeed water supplement and irrigate device - Google Patents

Abstract

The utility model provides a fertilization and replenishment device is planted to high altitude area honeysuckle, including cistern, buffer memory pond, mix fertile pond and drip irrigation the pipe, the cistern is buried underground in the soil horizon, cistern and buffer memory pond intercommunication, buffer memory pond and the fertile pond intercommunication of mixing, buffer memory pond and many drip irrigation the pipe intercommunication, drip irrigation the pipe and bury underground between honeysuckle plant roots, set up first water pump in the cistern, first water pump communicates to in the buffer memory through the water lifting pipe, sets up the second water pump in the buffer memory, and the second water pump is mixed fertile pond through the water pipe intercommunication, and buffer memory bottom of the pool portion is through irrigating house steward and drip irrigation the pipe intercommunication, mixes and sets up the third water pump in the fertile pond, and the third water pump is through fertilization pipe intercommunication irrigation house steward, subaerial solar panel that is provided with. The utility model discloses structural design is exquisite reasonable, the fertilization irrigation when the honeysuckle that can be applicable to high altitude area is planted, and is safe practical, and resource utilization is high, and the fertilization irrigation is effectual, can use widely.

Description

High altitude area honeysuckle is planted and is fertilizeed water supplement and irrigate device

Technical Field

The utility model relates to an irrigation equipment, concretely relates to fertilization supplementary irrigation device is planted to high altitude area honeysuckle.

Background

Honeysuckle, it is the perennial semi-evergreen winding woody vine of Caprifoliaceae, honeysuckle is known as the good medicine of clearing away heat and toxic material from ancient times, it is sweet and cold and fragrant in nature, sweet and cold heat clearing but not hurting the stomach, the fragrance is passed through and can dispel the evil, can disperse wind-heat, it is good to clear blood toxin also, used for various heat disease, such as fever, eruption, macula, heat toxin sore carbuncle, swollen sore throat, etc., all effects are apparent.

The honeysuckle has strong adaptability, is fond of yang, resists yin, has strong cold resistance, is drought-resistant and water-wet-resistant, has low requirement on soil, and grows best on wet and fertile deep sandy soil, and the honeysuckle shoots up twice in spring and summer every year. The root system is dense and developed, the tillering property is strong, and the stem and tendril can root after landing. The product is pleasant to sunlight, mild and humid environment, and has strong vitality, wide adaptability, cold resistance, drought resistance and distribution in China.

The honeysuckle has high medicinal value and wide industrial application, is a good environment-friendly plant, can prevent wind and fix sand, beautifies the environment, and is particularly suitable for being planted in arid and semi-arid or high-altitude areas where cultivation is returned to forests and grasses are recovered. Although honeysuckle has strong drought resistance, honeysuckle is sensitive to water shortage in the flowering period, and excessive drought can cause a large amount of buds to fall, so that the yield can be reduced by about 30%. People hope to plant in batches and irrigate automatically, reduce staff irrigation, improve planting output.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that not enough to above-mentioned prior art provides a high altitude area honeysuckle is planted and is fertilized supplementary irrigation device, and the device scientific and reasonable, degree of automation is high, and fertigation is effectual, can show the planting output that improves the honeysuckle in high altitude semi-arid area, and resource utilization is high, can rationally high-efficiently utilize natural precipitation, can use widely.

In order to solve the technical problem, the utility model discloses a technical scheme is: the utility model provides a fertilization after-irrigation device is planted to high altitude area honeysuckle, a serial communication port, include cistern, buffer memory pond, mix fertile pond and drip irrigation the pipe, the cistern sets up in the soil layer, cistern and buffer memory pond intercommunication, buffer memory pond and the fertile pond intercommunication of mixing, buffer memory pond and drip irrigation the pipe intercommunication, mix fertile pond also with drip irrigation the pipe intercommunication, drip irrigation pipe quantity for a plurality of and set up side by side between the root system of honeysuckle plant, the cistern top sets up the water catch bowl, cistern, buffer memory pond, mix fertile pond and drip irrigation and be connected through water pump, water pipe, solenoid valve between the pipe, set up solar panel and electricity storage box subaerially.

Preferably, a first water pump is arranged in the reservoir and communicated with the cache pool through a water lifting pipe, a second water pump is arranged in the cache pool and communicated with the fertilizer mixing pool through a water pipe, the bottom of the cache pool is communicated with the drip irrigation pipe through an irrigation header pipe, a third water pump is arranged in the fertilizer mixing pool and communicated with the irrigation header pipe through a fertilizer application pipe, the irrigation header pipe is provided with a booster pump, the side wall of the reservoir is provided with a water passing port communicated with the side wall of the cache pool, the water passing port is provided with a first electromagnetic valve, the position of the irrigation header pipe communicated with the cache pool is provided with a second electromagnetic valve, the power input end of the power storage box is connected with the solar power generation panel, and the power output end of the power storage box is connected with the first water pump, the second water pump, the third water pump, the booster pump, the first electromagnetic valve and the second electromagnetic valve through a single chip microcomputer controller, by first water pump of single chip microcomputer controller automatic control, second water pump, third water pump, booster pump, first solenoid valve and second solenoid valve open and close, all be provided with in cistern, buffer memory pond and the fertile pond of mixing with the level sensor that single chip microcomputer controller signal acquisition input is connected.

Preferably, crossing the water gap and seting up the middle part position under left at the cistern lateral wall, avoid sending into the silt of cistern bottom the buffer memory pond, can open first solenoid valve when the height of crossing the mouth of a river is surpassed in the water of depositing in the cistern and make the water of depositing in the cistern from flowing into the buffer memory pond, thereby open the second solenoid valve simultaneously and make water slowly pour into through irrigation house steward and supply honeysuckle plant roots to absorb in the inflow soil layer. Set up water pressure sensor in irrigating the house steward, water pressure sensor also is connected with single chip controller's signal input end, opens the booster pump when irrigating the water pressure in the house steward and not enough and improves and send water pressure.

Preferably, open first water pump when the water level in the cistern is less than the mouth of a river and needs the moisturizing to irrigate, take out water to open the second solenoid valve in the buffer memory pond and irrigate through irrigating the house steward. When water and fertilizer need to be supplemented, fertilizer is added into the fertilizer mixing tank, water is injected into the fertilizer mixing tank through the second water pump to form the water and fertilizer, and then the third water pump is opened to pump the water and fertilizer into the irrigation main pipe so as to flow into the drip irrigation pipe to supplement the fertilizer for the root system of the honeysuckle.

Preferably, the top of the water collecting hopper is provided with an outer convex arc-shaped coarse screen, and the bottom of the water collecting hopper is provided with a fine screen. The outer coarse screen cloth can prevent that the great debris of volume from getting into the collecting hopper, and the fine screen cloth can prevent that partly silt from getting into the cistern, and coarse screen cloth and fine screen cloth all can be dismantled and clear up the change.

Preferably, the water inlet port of the water pump used by the device is provided with a fine mesh screen to prevent silt from damaging the water pump and prolong the service life of the water pump.

Preferably, the top in cistern, buffer memory pond and the fertile pond of mixing all sets up movable top cap, sets up the cat ladder on the cistern inner wall. The movable top cover on the impounding reservoir is positioned right above the crawling ladder, enters the impounding reservoir through the crawling ladder to be overhauled and cleaned, and the movable top cover on the fertilizer mixing pool can be overhauled after being opened and can also be used for putting in fertilizer.

Preferably, a plurality of water outlet small holes are formed in the peripheral side of the drip irrigation pipe.

Compared with the prior art, the utility model has the following advantage:

1. the utility model has the advantages of being scientific and reasonable in structural design, degree of automation is high, and fertigation is effectual, effectively reduces the human cost input, and the water economy resource improves water resource utilization ratio.

2. The utility model discloses bury the cistern underground at the below ground, can effectively reduce the evaporation of water, can carry out rational utilization with the natural rainfall that the cistern was collected, accomplish reasonable irrigation and the fertilization to the honeysuckle crop in the less high altitude area of rainfall.

3. The utility model discloses a cistern, buffer memory pond and the cooperation of mixing fertile pond, the sedimentary sewage of avoiding using the cistern bottom irrigates, remains the relatively clean at irrigation water source throughout, and the holistic life of protection device reduces the maintenance cost.

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a partial enlarged view of the present invention.

Description of reference numerals:

1, a water reservoir; 2-a buffer pool; 3-a fertilizer mixing pool;

4, a water collecting hopper; 5, drip irrigation pipes; 6, a solar power generation panel;

7-a first water pump; 8-a second water pump; 9-a third water pump;

10-water extracting pipe; 11-a water pipe; 12-irrigation main;

13-fertilizing tube; 14-a first solenoid valve; 15-a second solenoid valve;

16-climbing a ladder; 17-a movable top cover; 18-soil layer;

19-fine screen mesh; 20-coarse screen mesh; 21-a booster pump.

Detailed Description

As shown in fig. 1 and 2, the utility model discloses a cistern 1, buffer memory pond 2, mix fertile pond 3 and drip irrigation pipe 5, cistern 1 sets up in soil layer 18, cistern 1 and buffer memory pond 2 intercommunication, buffer memory pond 2 and the 3 intercommunication of fertile pond of mixing, buffer memory pond 2 with drip irrigation pipe 5 intercommunication, mix fertile pond 3 also with drip irrigation pipe 5 intercommunication, drip irrigation pipe 5 quantity for a plurality ofly and set up side by side between the root system of honeysuckle plant, cistern 1 top sets up water catch bowl 4, cistern 1, buffer memory pond 2, mix fertile pond 3 and drip irrigation between the pipe 5 through water pump, water pipe, solenoid valve connection, set up solar panel 6 and storage battery box subaerially.

In this embodiment, buffer memory pond 2 and mix fertile pond 3 and all set up two and in proper order closely in the 1 left and right sides of cistern, drip irrigation pipe 5 according to actual need irrigate the area and the range determination quantity that cistern 1 can irrigate, drip irrigation pipe 5 vertical equipartition sets up between honeysuckle plant roots.

In this embodiment, a first water pump 7 is arranged in the reservoir 1, the first water pump 7 is communicated with the cache pool 2 through a water lifting pipe 10, a second water pump 8 is arranged in the cache pool 2, the second water pump 8 is communicated with the fertilizer mixing pool 3 through a water pipe 11, the bottom of the cache pool 2 is communicated with the drip irrigation pipe 5 through an irrigation main pipe 12, a third water pump 9 is arranged in the fertilizer mixing pool 2, the third water pump 9 is communicated with the irrigation main pipe 12 through a fertilizer application pipe 13, the irrigation main pipe 12 is provided with a booster pump 21, the side wall of the reservoir 1 is provided with a water passing port communicated with the side wall of the cache pool 2, the water passing port is provided with a first electromagnetic valve 14, the irrigation main pipe 12 is provided with a second electromagnetic valve 15 communicated with the cache pool 2, the power input end of the power storage box is connected with the solar power generation panel 6, and the power output end of the power storage box is communicated with the first water pump 7, the second water pump 9 and the first water pump 7 through a single chip microcomputer controller, The second water pump 8, the third water pump 9, the booster pump 21, the first electromagnetic valve 14 and the second electromagnetic valve 15 are connected, the first water pump 7, the second water pump 8, the third water pump 9, the booster pump 21, the first electromagnetic valve 14 and the second electromagnetic valve 15 are automatically controlled to be opened and closed by the single chip microcomputer controller, and liquid level sensors connected with a signal acquisition input end of the single chip microcomputer controller are arranged in the water storage tank 1, the buffer tank 2 and the fertilizer mixing tank 3. The irrigation manifold 12 is provided with a plurality of booster pumps depending on the length actually extended.

In this embodiment, the water gap is seted up at the middle part position under the ground of 1 lateral wall of cistern, avoids sending into the silt of 1 bottom of cistern into the buffer memory pond, can open first solenoid valve 14 when the height that the water gap was crossed in the storage water of cistern 1 surpasses makes the storage water in the cistern 1 from flowing into buffer memory pond 2, thereby opens second solenoid valve 15 simultaneously and makes water slowly pour into through irrigation house steward 12 and supply honeysuckle plant roots to absorb in flowing into the soil layer. A water pressure sensor is arranged in the irrigation main pipe 12 and is also connected with a signal input end of the single chip microcomputer controller, and when the water pressure in the irrigation main pipe 12 is insufficient, a booster pump 21 is started to improve the water delivery pressure.

In this embodiment, when the water level in the reservoir 1 is lower than the water passing opening and water is required to be replenished for irrigation, the first water pump 7 is opened, water is pumped into the buffer pool 2, the second electromagnetic valve 15 is opened, and irrigation is performed through the irrigation main pipe 12. When water and fertilizer are needed to be supplemented, fertilizer is added into the fertilizer mixing pool 3, water is injected into the fertilizer mixing pool 3 through the second water pump 8 to form the water and fertilizer, and then the third water pump 9 is started to pump the water and fertilizer into the irrigation header pipe 112 so as to flow into the drip irrigation pipe 5 to supplement the fertilizer for the root system of the honeysuckle.

In this embodiment, the top of the water collecting hopper 4 is provided with an outer convex arc-shaped coarse screen 20, and the bottom of the water collecting hopper 4 is provided with a fine screen 19. Outer coarse screen 20 can prevent that the great debris of volume from getting into water catch bowl 4, and fine screen 19 can prevent that partly silt from getting into cistern 1, and coarse screen 20 and fine screen 19 all can be dismantled and clear up the change.

In this embodiment, the water inlet port of the water pump that this device used all sets up the fine mesh screen and prevents that silt from damaging water pump extension water pump life.

In this embodiment, cistern 1, buffer memory pond 2 and the top of mixing fertile pond 3 all set up activity top cap 17, set up cat ladder 16 on the 1 inner wall of cistern. The movable top cover 17 on the impounding reservoir 1 is positioned right above the crawling ladder 16, enters the impounding reservoir through the crawling ladder 16 to be overhauled and cleaned, and the movable top cover 17 on the fertilizer mixing pool 3 can be overhauled and can also be used for putting in fertilizer after being opened.

In this embodiment, a plurality of small water outlet holes are formed on the periphery of the drip irrigation pipe 5.

In this embodiment, the electricity storage box carries out water repellent treatment, and all connecting wire all carry out water repellent treatment.

In this embodiment, there is 30cm interval, the sediment deposit layer of reservation at the inlet port of first water pump 7 from the bottom surface of cistern 1.

The utility model discloses a working method does: firstly, the water collecting hopper 4 continuously collects natural precipitation into the water storage tank 1.

When irrigation operation is carried out: the single chip microcomputer controller regularly opens the first electromagnetic valve 14 and the second electromagnetic valve 15 according to a preset time interval, water automatically flows into the irrigation main pipe 12 from the reservoir 1 and is pumped to the drip irrigation pipe 5 through the booster pump to irrigate soil; when the liquid level sensor detects that the water level in the reservoir 1 is lower than the water passing port, the first water pump 7 is opened, and the second electromagnetic valve 15 is opened to continue irrigation.

When the fertilizer is applied, the first water pump 7 is firstly opened to close the first electromagnetic valve 14 and the second electromagnetic valve 15, the second water pump 8 is opened after a certain period of time to pump water into the fertilizer mixing pool 3 from the buffer pool 2, fertilizer is put into the fertilizer mixing pool 3 through the movable top cover 17 of the fertilizer mixing pool 3 while the water is injected into the fertilizer mixing pool 3, the putting amount of the fertilizer is determined according to the preset alarm water level in the fertilizer mixing pool 3, the water delivery to the fertilizer mixing pool is stopped after the water level sensor in the fertilizer mixing pool limits the water level capacity, the third water pump 9 is opened after the water fertilizer is manufactured to pump the water fertilizer into the irrigation main pipe 12 through the fertilizer applying pipe 13, at the moment, the second electromagnetic valve 15 is closed, and the water fertilizer is input into the drip irrigation main pipe 12 to apply fertilizer to plant roots and soil nearby.

The water storage tank 1, the buffer tank 2 and the fertilizer mixing tank 3 can be overhauled and cleaned regularly by opening the movable top cover 17.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention in any way. Any simple modifications, changes and equivalent changes made to the above embodiments according to the technical spirit of the present invention all fall within the protection scope of the technical solution of the present invention.

Claims (5)

1. A honeysuckle planting, fertilizing and water-supplementing device in a high-altitude area is characterized by comprising a water storage tank (1), a buffer tank (2), a fertilizer mixing tank (3) and a drip irrigation pipe (5), the water reservoir (1) is arranged in the soil layer (18), the water reservoir (1) is communicated with the buffer pool (2), the buffer pool (2) is communicated with the fertilizer mixing pool (3), the buffer pool (2) is communicated with the drip irrigation pipe (5), the fertilizer mixing pool (3) is also communicated with a plurality of drip irrigation pipes (5), the drip irrigation pipes (5) are arranged among root systems of honeysuckle plants in parallel, cistern (1) top sets up water catch bowl (4), connect through water pump, water pipe, solenoid valve between cistern (1), buffer memory pond (2), mix fertile pond (3) and drip irrigation pipe (5), set up solar panel (6) and electricity storage box subaerially.

2. The honeysuckle planting, fertilizing and irrigating device for the high-altitude areas according to claim 1, wherein a first water pump (7) is arranged in the water storage tank (1), the first water pump (7) is communicated into the cache tank (2) through a water lifting pipe (10), a second water pump (8) is arranged in the cache tank (2), the second water pump (8) is communicated with the fertilizer mixing tank (3) through a water pipe (11), the bottom of the cache tank (2) is communicated with the drip irrigation pipe (5) through an irrigation main pipe (12), a third water pump (9) is arranged in the fertilizer mixing tank (3), the third water pump (9) is communicated with the irrigation main pipe (12) through a fertilizer application pipe (13), a booster pump (21) is arranged on the irrigation main pipe (12), a water passing hole communicated with the side wall of the cache tank (2) is arranged on the side wall of the water storage tank (1), and a first electromagnetic valve (14) is arranged on the water passing hole, irrigation header pipe (12) intercommunication buffer memory pond (2) the position set up second solenoid valve (15), the electric power input end of electricity storage box with solar panel (6) are connected, the electric power output end of electricity storage box pass through single chip microcomputer controller with first water pump (7), second water pump (8), third water pump (9), booster pump (21), first solenoid valve (14) and second solenoid valve (15) are connected, by single chip microcomputer controller automatic control first water pump (7), second water pump (8), third water pump (9), booster pump (21), first solenoid valve (14) and second solenoid valve (15) open and close, all be provided with in cistern (1), buffer memory pond (2) and the fertile pond of mixing (3) with the level sensor that single chip microcomputer controller signal acquisition input is connected.

3. The high-altitude area honeysuckle planting, fertilizing and supplementary irrigation device as claimed in claim 1, characterized in that the top of the water collecting hopper (4) is provided with an outer convex arc-shaped coarse screen (20), and the bottom of the water collecting hopper (4) is provided with a fine screen (19).

4. The honeysuckle planting, fertilizing and irrigating device for the high-altitude areas as claimed in claim 1, wherein the top of the water reservoir (1), the top of the buffer pool (2) and the top of the fertilizer mixing pool (3) are all provided with movable top covers (17), and the inner wall of the water reservoir (1) is provided with a ladder (16).

5. The device for planting, fertilizing and irrigating honeysuckle flowers in high-altitude areas according to claim 1, wherein a plurality of small water outlet holes are formed in the periphery of the drip irrigation pipe (5).

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