CN112293101A - Independent irrigation type planting shed planting system - Google Patents

Abstract

The invention relates to an independent irrigation type planting shed planting system which comprises a planting shed, land positioned in the planting shed, a water inlet main pipe, a water return main pipe, a water storage tank with a water outlet and a water pump with an inlet end connected with the water outlet, wherein a plurality of strip-shaped planting areas are arranged on the land, pipelines extending along the circumferential direction of the planting areas are arranged in the planting areas, plants planted in the planting areas are positioned in an area defined by the pipelines, nozzles are arranged on one side of the pipeline facing the area defined by the pipelines, one end of each pipeline is connected with the outlet end of the water pump through the water inlet main pipe, the other end of each pipeline is communicated with the water storage tank through the water return main pipe, and a control valve is arranged at one end of each water pipe connected with the water inlet main. The invention provides an independent irrigation type planting shed planting system capable of independently irrigating each planting unit, and solves the problem that the existing planting shed system can only carry out integral irrigation.

Description

Independent irrigation type planting shed planting system

Technical Field

The invention relates to the technical field of ecological agriculture, in particular to an independent irrigation type planting shed planting system.

Background

In the technical process of modern agricultural planting and breeding, a planting greenhouse (such as a film greenhouse, a sunlight planting room and the like) is built for planting plants, the top of the greenhouse is opened by using the existing planting greenhouse planting system, the existing planting greenhouse planting system is irrigated by using rainwater, the irrigation mode is the same as open planting and needs eating every day, a spraying system is designed in the greenhouse for irrigation, and the irrigation mode has the defect of water waste; but also can not name the requirement of differential irrigation for the regional planting of large-scale planting canopy for whole planting canopy carries out bulk irrigation.

Disclosure of Invention

The invention provides an independent irrigation type planting shed planting system capable of independently irrigating each planting unit, and solves the problem that the existing planting shed system can only carry out integral irrigation.

The technical problem is solved by the following technical scheme: the utility model provides an independent irrigation formula is planted canopy and is planted system, includes kind value canopy and the soil that is located kind value canopy, its characterized in that still includes inlet manifold, return water house steward, is equipped with the water storage tank and the entrance point of delivery port and links together with the water pump of delivery port, be equipped with the planting district of a plurality of rectangular shapes on the soil, planting district is equipped with the pipeline that extends along the circumference in planting district, and the plant of planting in planting district is located inside the region that the pipeline encloses, the pipeline is equipped with the spout towards one side in the region that the pipeline encloses, the one end of pipeline is passed through inlet manifold with the exit end of water pump links together, the other end passes through return water house steward with the water storage tank intercommunication, the water pipe is equipped with the control valve with the one end that. During the use, get into water inlet manifold through water pump drive water, open the control valve that needs irrigation unit, flow backward return water manifold after the water pipe of planting the unit that corresponds and flow back to the water storage tank again, thereby water plays the effect to the irrigation of the plant of planting in the planting district in the spout blowout soil. Realized the independent irrigation of each planting unit, set up the water pipe damage and irrigate towards the plant water spray in planting the district subaerial, can the using water wisely.

Preferably, the spout is located in the soil of the planting area, and the opening direction of the spout is horizontal or downward. The nozzle is arranged in the soil and irrigates towards the root system of the plant, and the targeting property is good, so that the water can be further saved; this irrigation method can form the one deck dry layer and prevent that the moisture of irrigation from volatilizing on soil surface to can improve the utilization ratio of water by the plant, play the effect of using water wisely.

Preferably, the opening direction line of the spout faces downwards, the plants planted in the planting area are arranged in only one row, the plants comprise root systems located underground, branches and leaves located on the ground and total stalks located between the branches and leaves and the root systems, and the intersection point of the opening direction line of the spout and a vertical plane passing through a straight line determined by the herbaceous plants in the planting area is located above the root systems of the herbaceous plants. Can more reliably improve the targeting of the water for irrigating the plant root system during irrigation. Water can be saved.

Preferably, the planting area is paved with a leakage-proof layer positioned under soil of the planting area, and plants planted in the planting area are positioned above the leakage-proof layer. The water retention effect of the soil of the part for cultivating the plants in the soil of the planting area can be improved, and the effect of further saving water is achieved.

Preferably, the anti-leakage layer is a heat conduction structure. Can guarantee to plant in the planting district soil that the condition of guarantor's water is planted the partial soil and the heat conduction butt joint of deep soil for the time and energy can be uploaded in winter in order to prevent to plant the plant in the canopy and be frozen out.

Preferably, the periphery of the planting area is provided with an annular hard walking belt which extends along the circumferential direction of the planting area and is used for a person to walk. The walking belt is arranged, so that the cleanness of the planting area during operation is good.

Preferably, a soil retaining ring extending along the circumferential direction of the planting area is arranged between the planting area and the walking belt to prevent soil in the planting area from scattering on the walking belt. Can prevent soil from scattering and changing the buried depth of the nozzle, resulting in the deterioration of water-saving effect.

Preferably, the upper side of the pipeline is exposed outside the soil of the planting area. When the pipeline is damaged, the metal rod is supported on the surface of the pipeline to listen to the water flow sound to find a leakage point. When leakage is received, water flow easily overflows the ground and leaks to the leakage point.

Preferably, the spout is located at a depth of 10 mm to 15 mm in the soil of the growing area. Can effectively prevent the water from volatilizing and can facilitate the construction.

The invention also comprises a whistle, wherein the whistle comprises a whistle shell and a rolling ball positioned in the whistle shell, the whistle shell is provided with a whistle air inlet and a whistle air outlet, the water inlet main pipe is provided with a water inlet pipe section which is hermetically connected with the whistle shell, the whistle air outlet is positioned inside the water inlet pipe section, the whistle air inlet is positioned outside the pipeline, and the whistle air inlet is connected with the outlet end of the water pump. When no water is in the pipeline, the whistle can make a sound to remind a manager to add water into the water storage tank by taking the air as the air.

Preferably, the water inlet pipeline is provided with a sound transmission section made of sound transmission materials, and the water inlet pipeline section is connected with the whistle shell through the sound transmission section. The sound emitted by the whistle can be more easily transmitted out of the pipeline.

The invention also comprises a water pump inlet part three-way valve, wherein the water pump inlet part three-way valve is provided with a water pump inlet part three-way valve outlet, a first inlet of the water pump inlet part three-way valve and a second inlet of the water pump inlet part three-way valve, the first inlet of the water pump inlet part three-way valve is connected with the water outlet, the second inlet of the water pump inlet part three-way valve is vacant, the three inlets are connected with the inlet end of the water pump through outlets, and the water pump is a booster pump. This technical scheme can be through making the air pass through the pipeline and getting into soil and jet-propelled in order to increase the oxygen content of soil in order to carry out the oxygenating when being favorable to the plant oxygen deficiency.

Preferably, a vertical blind groove is formed in the side wall of the outer surface of the water storage tank, an acrylic transparent cover is arranged on the vertical blind groove and seals the acrylic transparent cover to form a liquid storage cavity, transparent liquid is stored in the liquid storage cavity, the liquid level of the liquid in the liquid storage cavity is higher than the inner surface of the top wall of the water storage tank, a pulley installation pit is arranged on one side, facing the water storage tank, of the part, located above the liquid level in the liquid storage cavity, of the liquid storage cavity, a pulley installation pit is communicated with the inside of the water storage tank through a vertical extension section, an upper fixed pulley is arranged in the pulley installation pit, a lower fixed pulley is arranged at the lower end of the liquid storage cavity, a liquid storage cavity part floater is arranged in the liquid storage cavity, a water storage tank part floater is arranged in the water storage tank and is connected with one end of a pull rope, the other end of the pull rope sequentially bypasses the upper fixed pulley and the lower fixed pulley, the pull rope is in a tensioning state, the part of the pull rope, which is positioned between the upper fixed pulley and the float of the water storage tank part, is in a vertical state, the part of the pull rope, which is positioned between the fixed pulley of the liquid storage chamber part and the float of the liquid storage chamber part, is in a vertical state, and the float of the liquid storage chamber part is driven to lift through the pull rope when the float of the water storage tank part lifts. In order to show the water yield in the water storage tank, return to setting up liquid level display controlling means usually, current liquid level display controlling means is the perpendicular glass pipe of a lower extreme with the water storage tank intercommunication, forms the linker between perpendicular glass pipe and the water storage tank and makes the water in the water storage tank get into in the perpendicular glass pipe to the liquid level in the water storage tank is learned in reading from the glass pipe, and this liquid level display device exists following not enoughly: fertilizers such as chemical fertilizers and the like can be added into water in irrigation, so that the water level can not be clearly observed due to poor transparency, and the water level is easily influenced due to the fact that the transparency of the glass tube is reduced due to scale accumulation on the vertical glass tube. The technical scheme can know the water level, and the liquid of the display part is not water in the water storage tank, so that the problem can be overcome. The display mode is still the same direction display (namely when the water level in the water storage tank is high, the floater of the liquid storage cavity part is raised), if the display mode is the reverse direction display, the habit of acquiring the water level is not met, and the error is easy to occur when the water level is acquired.

Preferably, a water storage tank part floater avoiding cavity is formed in the bottom wall of the water storage tank, and when water in the water storage tank is drained, the water storage tank part floater is located in the water storage tank part floater avoiding cavity. If liquid storage tank portion float is shelved on the diapire of water storage tank at last then can not know when the water level in liquid storage tank portion float can not descend the back water storage tank, has a water level to know the blind area. The problem of low water level blind area can be solved to this technical scheme.

Preferably, the water outlet is formed in the bottom wall of the float avoiding cavity of the water storage tank. The manufacturing convenience can be improved.

Preferably, the water outlet is provided with a water outlet valve.

Preferably, the water outlet valve is an electric valve.

Preferably, a water storage tank part vertical guide rod is arranged in the water storage tank, the water storage tank part is sleeved with a floater on the water storage tank part vertical guide rod, the liquid storage cavity is provided with a liquid storage cavity part vertical guide rod, and the liquid storage cavity part is sleeved with the floater on the liquid storage cavity part vertical guide rod. The liquid level number inaccuracy caused by the fact that the liquid storage cavity part floater and/or the liquid storage tank part floater generate translation can be avoided.

Preferably, a pointer is arranged on the floater of the liquid storage cavity part, a graduated scale for displaying the liquid level of the water in the water storage tank is arranged on the acrylic transparent cover, and the scale value of the graduated scale aligned with the pointer is the current liquid level value of the water in the water storage tank. An accurate figure of the water level can be known.

Preferably, the scale is disposed on an inner surface of the transparent cover. The reading error when the digit of the water digit can be read angularly.

The invention has the following advantages: realized the independent irrigation of each planting unit, set up the water pipe damage and irrigate towards the plant water spray in planting the district subaerial, can the using water wisely.

Drawings

FIG. 1 is a schematic top view of a first embodiment of the present invention;

FIG. 2 is a schematic cross-sectional view A-A of the planting unit of FIG. 1;

FIG. 3 is a schematic view of a water storage tank;

FIG. 4 is a schematic top view of a second embodiment of the present invention;

FIG. 5 is a schematic view showing the connection relationship between the whistle and the water inlet main pipe and the water pump outlet three-way valve.

In the figure: a water outlet 1, a water storage tank 2, a water pump 55, a planting area 3, an annular hard walking belt 4, a pipeline 5, plants 6, a spout 8, planting area soil 9, a leakage-proof layer 10, a root system 11, branches and leaves 12, a total stem 13, an opening direction line 14 of the spout, a soil retaining ring 15, a transparent cover 17, a liquid storage cavity 18, a pulley mounting pit 19, a vertical extending section 20, an upper fixed pulley 21, a lower fixed pulley 22, a liquid storage cavity part floater 23, a water storage tank part floater 24, a pull rope 25, a water storage tank part floater avoiding cavity 26, a water storage tank part vertical guide rod 27, a liquid storage cavity part vertical guide rod 28, a pointer 29, a water pump inlet part three-way valve 40, a water pump outlet part three-way valve 41, a whistle 43, a water pump inlet part three-way valve outlet 44, a water pump inlet part three-way valve first inlet 45, a water pump inlet part three-way valve second inlet 46, a whistle shell 47, a whistle, The sound transmission section 50, the water pump outlet three-way valve inlet 51, the water pump outlet three-way valve first outlet 52, the water pump outlet three-way valve second outlet 53, the overflow port 56, the water inlet header pipe 57, the water return header pipe 58, the control valve 59 and the water inlet pipe section 60.

Detailed Description

The invention is further described with reference to the following figures and examples.

In the first embodiment, referring to fig. 1 to 3, an independent irrigation type planting shed planting system comprises a seed value shed and land located in the seed value shed, and further comprises a water inlet main pipe 57, a water return main pipe 58, a water storage tank 2 provided with a water outlet 1, and a water pump 55 with an inlet end connected with the water outlet, wherein a plurality of strip-shaped planting areas 3 are arranged on the land. In this example, 3 planting areas were used. The periphery of planting the district is equipped with the annular stereoplasm walking area 4 that supplies the personnel to walk that extends along planting district circumference, and planting district is equipped with the pipeline 5 that extends along planting district's circumference, and the plant 6 of planting in planting the district is located the regional inside that the pipeline encloses, and the plant of planting in planting the district is only one row. One end of the pipeline is connected with the outlet end of the water pump through a water inlet main pipe, the other end of the pipeline is communicated with the water storage tank through a water return main pipe, and a control valve 59 is arranged at one end of the water pipe connected with the water inlet main pipe. The pipeline is provided with a spout 8 towards one side of the area enclosed by the pipeline, so that both sides of the plants planted in the planting area are watered and irrigated. The planting area is paved with a leakage-proof layer 10 below soil 9 of the planting area, plants planted in the planting area are located above the leakage-proof layer, the nozzle is located in the soil of the planting area, and the opening direction of the nozzle is horizontal or downward and is downward in the embodiment. The plants comprise a root system 11 located underground, branches and leaves 12 located above the ground and a total stem 13 located between the branches and leaves and the root system, and the intersection point of the opening direction line 14 of the nozzle and the vertical plane passing through the straight line defined by the herbaceous plants in the planting area is located above the root system of the herbaceous plants. The leak protection layer is heat conduction structure. A soil retaining ring 15 which extends along the circumferential direction of the planting area and prevents the soil of the planting area from scattering on the walking belt is arranged between the planting area and the walking belt. The upper side of the pipeline is exposed outside the soil of the planting area. The depth of the nozzle in the soil of the planting area is 10 mm-15 mm. The side wall of the outer surface of the water storage tank is provided with a vertical blind groove, and the vertical blind groove is provided with a transparent cover 17. The transparent cover is made of acrylic. The acrylic transparent cover seals the vertical blind groove to form a liquid storage cavity 18, transparent liquid is stored in the liquid storage cavity, the liquid level of the liquid in the liquid storage cavity is higher than the inner surface of the top wall of the water storage tank, a pulley mounting pit 19 is arranged on one side of the part of the liquid storage cavity above the liquid level in the liquid storage cavity, which faces the water storage tank, the pulley mounting pit is communicated with the inside of the water storage tank through a vertical extension section 20, an upper fixed pulley 21 is arranged in the pulley mounting pit, a lower fixed pulley 22 is arranged at the lower end of the liquid storage cavity, a liquid storage cavity part floater 23 is arranged in the liquid storage cavity, a water storage tank part floater 24 is arranged in the water storage tank, the water storage tank part floater is connected with one end of a pull rope 25, the other end of the pull rope is connected with the liquid storage cavity part floater after sequentially bypassing the upper fixed pulley and the lower fixed pulley, the pull, the part of the pull rope between the liquid storage chamber part fixed pulley and the liquid storage chamber part floater is in a vertical state, and the liquid storage chamber part floater is driven to ascend and descend by the pull rope when the water storage tank part floater ascends and descends. A water storage tank part floater avoidance cavity 26 is arranged on the bottom wall of the water storage tank, and when water in the water storage tank is drained, the water storage tank part floater is located in the water storage tank part floater avoidance cavity. The water outlet is arranged on the bottom wall of the float avoiding cavity of the water storage tank part. The water outlet is provided with a water outlet valve. The water outlet valve is an electric valve. A water storage tank part vertical guide rod 27 is arranged in the water storage tank, a water storage tank part floater is sleeved on the water storage tank part vertical guide rod, a liquid storage cavity part vertical guide rod 28 is arranged in the liquid storage cavity, and a liquid storage cavity part floater is sleeved on the liquid storage cavity part vertical guide rod. The float of the liquid storage cavity part is provided with a pointer 29, the transparent cover is provided with a graduated scale for displaying the liquid level of the water in the water storage tank, and the scale value of the graduated scale aligned with the pointer is the current liquid level value of the water in the water storage tank. The graduated scale sets up the water storage tank is equipped with overflow mouth 56 on the internal surface of ya keli transparent cover, and the liquid flows out from the liquid stream mouth and can not get into the stock solution chamber in the water storage tank back of filling.

When the water storage tank is used, water flows out from the nozzle to irrigate plants, and the chemical fertilizer is dissolved in the water storage tank.

The second embodiment is different from the first embodiment in that:

referring to fig. 4 and 5, a water pump inlet portion three-way valve 40, a water pump outlet portion three-way valve 41 and a whistle 43 are further included. The water pump is a booster pump, but is easy to damage when the air pumping is carried out without the booster pump.

The three-way valve of the water pump inlet part is provided with a three-way valve outlet 44 of the water pump inlet part, a first three-way valve inlet 45 of the water pump inlet part and a second three-way valve inlet 46 of the water pump inlet part, the first three-way valve inlet of the water pump inlet part is connected with the water outlet, the second three-way valve inlet of the water pump inlet part is vacant, and the three-way valve outlet of the water pump inlet part is connected with the inlet end of the. The whistle comprises a whistle shell 47 and a rolling ball 57 positioned in the whistle shell, and the whistle shell is provided with a whistle air inlet 48 and a whistle air outlet 49. The water inlet main pipe is provided with a water inlet pipe section 60, the water inlet pipe section is provided with a sound transmission section 50 made of sound transmission materials, the irrigation pipeline is hermetically connected with the whistle shell through the sound transmission section, the whistle air outlet is positioned inside the inlet pipe section, and the whistle air inlet is positioned outside the water inlet pipe section. The water pump outlet three-way valve is provided with a water pump outlet three-way valve inlet 51, a water pump outlet three-way valve first outlet 52 and a water pump outlet three-way valve second outlet 53. The outlet of the water pump is connected with the inlet of the water pump outlet three-way valve, the first outlet of the water pump outlet three-way valve is connected with the air inlet of the whistle, and the second outlet of the water pump outlet three-way valve is connected with the water inlet main pipe. When oxygen is supplemented, the inlet of the three-way valve at the outlet part of the booster pump is communicated with the second outlet of the three-way valve at the outlet part of the booster pump, and the second inlet of the three-way valve at the inlet part of the booster pump is communicated with the outlet of the three-way valve at the inlet part of the booster pump. During irrigation, the inlet of the three-way valve at the outlet part of the booster pump is communicated with the first outlet of the three-way valve at the outlet part of the booster pump, and the first inlet of the three-way valve at the inlet part of the booster pump is communicated with the outlet of the three-way valve at the inlet part of the booster pump.

Claims (10)

1. The utility model provides an independent irrigation formula is planted canopy and is planted system, includes kind value canopy and the soil that is located kind value canopy, its characterized in that still includes inlet manifold, return water house steward, is equipped with the water storage tank and the entrance point of delivery port and links together with the water pump of delivery port, be equipped with the planting district of a plurality of rectangular shapes on the soil, planting district is equipped with the pipeline that extends along the circumference in planting district, and the plant of planting in planting district is located inside the region that the pipeline encloses, the pipeline is equipped with the spout towards one side in the region that the pipeline encloses, the one end of pipeline is passed through inlet manifold with the exit end of water pump links together, the other end passes through return water house steward with the water storage tank intercommunication, the water pipe is equipped with the control valve with the one end that.

2. The standalone irrigation planting shed planting system of claim 1, wherein the spout is located within the soil of the planting area with the opening of the spout oriented horizontally or downwardly.

3. The standalone irrigation planting shed planting system of claim 2, wherein the opening direction line of the nozzle is downward, the planting area has only one row of plants, the plants comprise a root system located underground, branches and leaves located above the ground and a total stem located between the branches and leaves and the heel system, and the intersection point of the opening direction line of the nozzle and a vertical plane passing through a straight line defined by the herbaceous plants in the planting area is located above the root system of the herbaceous plants.

4. The standalone irrigation planting shed planting system of claim 2, wherein the upper side of the conduit is exposed outside the soil of the planting area.

5. The independent irrigation type planting shed planting system according to claim 1, further comprising a whistle, wherein the whistle comprises a whistle shell and a rolling ball located in the whistle shell, a whistle air inlet and a whistle air outlet are formed in the whistle shell, the water inlet main pipe is provided with a water inlet pipe section which is connected with the whistle shell in a sealing mode, the whistle air outlet is located inside the water inlet pipe section, the whistle air inlet is located outside the pipeline, and the whistle air inlet is connected with the outlet end of the water pump.

6. The independent irrigation type planting shed planting system as claimed in claim 5, wherein the water inlet pipe is provided with a sound transmission section made of sound transmission material, and the water inlet pipe section is connected with the whistle shell through the sound transmission section.

7. The independent irrigation type planting shed planting system as claimed in claim 1, further comprising a water pump inlet part three-way valve, wherein the water pump inlet part three-way valve is provided with a water pump inlet part three-way valve outlet, a water pump inlet part three-way valve first inlet and a water pump inlet part three-way valve second inlet, the water pump inlet part three-way valve first inlet is connected with the water outlet, the water pump inlet part three-way valve second inlet is vacant, the water pump inlet part three-way valve outlet is connected with the inlet end of the water pump, and the water pump is a booster pump.

8. The independent irrigation type planting shed planting system as claimed in claim 1, wherein a vertical blind groove is formed on the side wall of the outer surface of the water storage tank, an acrylic transparent cover is arranged on the vertical blind groove to form a liquid storage cavity, transparent liquid is stored in the liquid storage cavity, the liquid level of the liquid in the liquid storage cavity is higher than the inner surface of the top wall of the water storage tank, a pulley mounting pit is arranged on one side of the part of the liquid storage cavity above the liquid level in the liquid storage cavity, which faces the water storage tank, and is communicated with the inside of the water storage tank through a vertical extension section, an upper fixed pulley is arranged in the pulley mounting pit, a lower fixed pulley is arranged at the lower end of the liquid storage cavity, a liquid storage cavity part floater is arranged in the liquid storage cavity, a water storage cavity part floater is arranged in the water storage tank, and the water storage cavity part floater is connected with one end of the pull rope, the other end of stay cord is walked around in proper order go up behind fixed pulley and the lower fixed pulley link together with liquid storage chamber portion float, the stay cord is in the tensioning state, the part that the stay cord is located between fixed pulley and the water storage tank portion float is in vertical state, the part that the stay cord is located between liquid storage chamber portion fixed pulley and the liquid storage chamber portion float is in vertical state, passes through when water storage tank portion float goes up and down the stay cord drive liquid storage chamber portion float goes up and down.

9. The independent irrigation type planting shed planting system as claimed in claim 8, wherein a water storage tank part float avoiding cavity is formed in the bottom wall of the water storage tank, and when water in the water storage tank is drained, the water storage tank part float is located in the water storage tank part float avoiding cavity.

10. The independent irrigation type planting shed planting system according to claim 8, wherein a water storage tank part vertical guide rod is arranged in the water storage tank, a water storage tank part floater is sleeved on the water storage tank part vertical guide rod, the liquid storage cavity is provided with a liquid storage cavity part vertical guide rod, and the liquid storage cavity part floater is sleeved on the liquid storage cavity part vertical guide rod.

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