CN104982254A - System, method and device for irrigating and planting fresh-water plants with self-sucking water tank - Google Patents

Abstract

The invention relates to the technical field of irrigating and planting fresh-water plants, and discloses a system, method and device for irrigating and planting fresh-water plants with a self-sucking water tank. Compared with a trace irrigating and planting technology, more water is saved; fresh water for irrigating and planting is completely used for being absorbed by plants through the system, the method and the device, deep leakage loss of the fresh water for irrigating and planting to soil does not exist, evaporation loss of the fresh water for irrigating and planting to air does not exist, and fresh water resources contained in the underground soil can be effectively utilized; the device is simple in structure, convenient to process and manufacture, low in cost and liable to produce in batches in a standardized manner, materials used by the device are diversified in textures, the device can be applied to cities, railways, roads, streets, squares, enterprise greening, sea island planting, parks, planting decoration, flowerpots and bonsai, the application range is wide and comprises unwatered regions, semi-drought regions, drought regions, severe drought regions and desert regions; types and kinds of corresponding plants are tabulated by a plant professor, so that a general planting household only needs to plant plants according to the kinds on a table and manage and ensure the water level in the water tank; the system, the method and the device are less in investment and liable to realize large-area popularization.

Description

Fresh plant self-priming water tank irrigation planting system method and device

Technical field

The present invention relates to a kind of fresh plant self-priming water tank irrigation planting system method for fresh plant irrigation cultivation technology field and device.

Background technology

China is the country of a fresh water average resource per capita and scarcity thereof, only have world occupancy volume per person's 1/4th, the water-saving irrigation planting technology raising of China makes rapid progress, drip irrigation planting technology is economized on water than broad irrigation planting technology, slight irrigation planting technology is economized on water than drip irrigation planting technology, trace irrigation cultivation technology is economized on water than slight irrigation planting technology, but all do not solve fresh water irrigation plantation water to lose to soil deep percolation, do not solve fresh water irrigation plantation water to lose to air evaporation, do not solve and effectively utilize contained freshwater resources problem in underground.

Summary of the invention

The object of this invention is to provide one to economize on water than trace irrigation cultivation technology, irrigate plantation with fresh water all for plant absorption, irrigate plantation fresh water not lose to soil deep percolation, irrigate plantation fresh water not to air evaporation loss, effectively can utilize fresh plant self-priming water tank irrigation planting system method and the device of contained freshwater resources in underground

For solving above-mentioned task, this fresh plant self-priming water tank is irrigated planting unit solution and is:

Be connected in outer container 10 the anti-dirty patch 18 of infiltration, infiltration space 11 is had in outer container 10, the anti-dirty patch 18 that seeps water has been connected interior case 14, be water space 15 between interior case 14 and outer container 10, filler pipe 8 there is priming valve 1, add water column 12, adding water column 12 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, emptying tracheae 9 there is emptying valve 2, emptying gas column 13, emptying gas column 13 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, water-level gauge 6 there is water level magnitude device 4, sealing cap 5, aqueduct 16, aqueduct 16 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, blow-off pipe 7 there is blowoff valve 3, blowdown post 17, blowdown post 17 enters water space 15 through the anti-dirty patch 18 of infiltration and interior case 14.

For solving above-mentioned task, the solution that implantation methods irrigated by this fresh plant self-priming water tank is:

1, water-deficient area solution: planting unit 26 irrigated by water-supply-pipe 30 entirety and the fresh plant self-priming water tank that has been connected, fresh plant self-priming water tank is irrigated planting unit 26 to be directly embedded in soil 27, irrigating from fresh plant self-priming water tank the cistern water supply 28 oozed out planting unit 26 can make soil 27 increase capillary force, the soil water-containing 31 of soil 27 depths is inhaled to surface, soil 29, soil water-containing 31 in last soil 27 is raised to 29 positions, surface, soil, plant water sources 32 major part absorbs the soil water-containing 31 risen, fraction absorbs cistern water supply 28, not only water saving tank supplies water 28, also add soil water-containing 31, now surface, soil 29 is the part water yield of soil water-containing 31 to the air evaporation water yield 33, do not lose cistern water supply 28 water yield.

2, semiarid zone solution: semiarid zone subterranean water level is greater than water-deficient area, underground 27 capillary force provides soil water-containing 31 water yield to be less than water-deficient area, surface, soil 29 consumes soil water-containing 31 again to the air evaporation water yield 33, soil water-containing 31 cannot provide most of output to plant water sources 32 in a large number, the output of cistern water supply 28 to plant water sources 32 can be increased, for saving evaporated water 33, surface, soil 29 adds one deck vaporization prevention interlayer 34, prevent soil water-containing 31 from forming evaporated water 33 to air evaporation, increase the output of soil water-containing 31 to plant water sources 32, reduce the output of cistern water supply 28 to plant water sources 32, the implantation hole 25 that vaporization prevention interlayer 34 stays is very little, soil water-containing 31 quantity to air evaporation is very little, can not count.Now plant water sources 32 major part is soil water-containing 31, and fraction is cistern water supply 28.

3, arid area solution: in arid area, subterranean water level is greater than semiarid zone, the capillary force of soil 27 provides soil water-containing 31 water yield to be less than semiarid zone, plant water sources 32 major part is cistern water supply 28, fraction is soil water-containing 31, for preventing cistern water supply 28 to underground deep layer seepage loss, vaporization prevention interlayer 34 entirety and the lateral leakage protection interlayer 35 that has been connected, cistern water supply 28 can only descend soil water-containing 31 seepage bashfully at lateral leakage protection interlayer 35, to increase soil capillary power in lateral leakage protection interlayer 35, soil water-containing 31 is moved to 29 directions, surface, soil in lateral leakage protection interlayer 35, after soil water-containing 31 contacts with cistern water supply 28, soil water-containing 31 can push cistern water supply 28 and move to surface, soil 29 in lateral leakage protection interlayer 35, now, plant water sources 32 major part is cistern water supply 28, fraction is soil water-containing 31.

4, severe drought and desert area solution: severe drought and desert area subterranean water level are greater than arid area, underground 27 capillary force, gravity cannot be overcome, soil water-containing 31 is raised to surface, soil 27 or plant root position, cannot utilize soil water-containing 31, for water saving tank supplies water 28, lateral leakage protection interlayer 35 entirety and the preventing leakage from bottom interlayer 36 that has been connected, cistern water supply 28 is enclosed in the space of vaporization prevention interlayer 34, lateral leakage protection interlayer 35, preventing leakage from bottom interlayer 36 composition, plant water sources 32 can only be supplied to.

For solving above-mentioned task, this fresh plant self-priming water tank irrigation planting system solution is: fresh plant self-priming water tank irrigates planting unit 37 entirety and the feed pipe 39 that has been connected, feed pipe 39 has been connected water level controller 38, filter 40, supply-water pump 41, and supply-water pump 41 has been connected water source tube 42.

Beneficial effect of the present invention:

1, planting unit beneficial effect irrigated by fresh plant self-priming water tank: structure is simple, convenient processing and manufacture, cost is low modest, easy standard batch is produced, material therefor material is various, the water proof materials such as outer container 10 metal, plastics, rubber, fiberglass, cement are all right, interior case 14 water proof material and water proof material is not all right, and city, railway, highway, street, square, enterprise's greening, Hai Yu plantation, gardens, plant decoration, flowerpot, potted landscape can be applied.

2, implantation methods beneficial effect irrigated by fresh plant self-priming water tank: applied range, include water-deficient area, semiarid zone, arid area, severe drought and desert area, require low to personnel's know-how in enforcement, general common plant personnel is easily grasped, and city, railway, highway, street, square, enterprise's greening, Hai Yu plantation, desert planting, gardens, plant decoration, flowerpot, potted landscape can be applied.

3, fresh plant self-priming water tank irrigation planting system beneficial effect: require high to research and development and producer, plant expert makes table the kind of model and corresponding plantation, as long as common plantation family is by the upper kind plantation of table, management ensures that in water tank, water level just, small investment, easily realizes spread.

Accompanying drawing explanation

Fig. 1 is that planting unit structural representation irrigated by fresh plant self-priming water tank.

Fig. 2 does not irrigate planting unit overall structure schematic diagram through the anti-dirty patch 18 fresh plant self-priming water tank of infiltration.

Fig. 3 is that Fig. 1 device uses overall structure schematic diagram within the scope of the present invention.

Fig. 4 is that Fig. 2 device uses overall structure schematic diagram within the scope of the present invention.

Fig. 5 is that Fig. 1 device lengthens outer container 10, increases vaporization prevention lid 24 and plantation mouth 25, within the scope of the present invention overall structure schematic diagram.

Fig. 6 is that Fig. 2 device lengthens outer container 10, increases vaporization prevention lid 24 and plantation mouth 25, within the scope of the present invention overall structure schematic diagram.

Fig. 7 is that implantation methods overall structure schematic diagram irrigated by water-deficient area fresh plant self-priming water tank.

Fig. 8 is that implantation methods overall structure schematic diagram irrigated by semiarid zone fresh plant self-priming water tank.

Fig. 9 is that implantation methods overall structure schematic diagram irrigated by arid area fresh plant self-priming water tank.

Figure 10 is that implantation methods overall structure schematic diagram irrigated by severe drought and desert area fresh plant self-priming water tank.

Figure 11 is fresh plant self-priming water tank irrigation planting system overall structure schematic diagram.

Embodiment

Below in conjunction with accompanying drawing embodiment, the present invention is described in further details.

As Fig. 1 fresh plant self-priming water tank is irrigated shown in planting unit structural representation: be connected in outer container 10 the anti-dirty patch 18 of infiltration, infiltration space 11 is had in outer container 10, the anti-dirty patch 18 that seeps water has been connected interior case 14, be water space 15 between interior case 14 and outer container 10, filler pipe 8 there is priming valve 1, add water column 12, adding water column 12 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, emptying tracheae 9 there is emptying valve 2, emptying gas column 13, emptying gas column 13 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, water-level gauge 6 there is water level magnitude device 4, sealing cap 5, aqueduct 16, aqueduct 16 enters in water space 15 through the anti-dirty patch 18 of infiltration and interior case 14, blow-off pipe 7 there is blowoff valve 3, blowdown post 17, blowdown post 17 enters water space 15 through the anti-dirty patch 18 of infiltration and interior case 14.

As Fig. 2 does not irrigate shown in planting unit overall structure schematic diagram through the anti-dirty patch 18 fresh plant self-priming water tank of infiltration: add water column 12, emptying gas column 13, aqueduct 16, blowdown post 17 not through the anti-dirty patch 18 of infiltration, within the scope of the present invention.

As Fig. 3 for Fig. 1 device uses shown in overall structure schematic diagram within the scope of the present invention: device as described in Fig. 1 can directly be imbedded in various container 20, water conservation space 19 and plantation space 21 is formed in container 20, container 20 has been connected water interception cover 23, water interception cover 23 there is plantation mouth 22, outer container 10 water interception cover 23 of can getting along well contacts, and outer container 10 also can be overall and be connected with water interception cover 23, and plant root is in plantation space 21, plant grows from plantation mouth 22, within the scope of the present invention.

As Fig. 4 for Fig. 2 device uses shown in overall structure schematic diagram within the scope of the present invention: device as described in Fig. 2 can directly be imbedded in various container 20, water conservation space 19 and plantation space 21 is formed in container 20, container 20 has been connected water interception cover 23, water interception cover 23 there is plantation mouth 22, outer container 10 water interception cover 23 of can getting along well contacts, and outer container 10 also can be overall and be connected with water interception cover 23, and plant root is in plantation space 21, plant grows from plantation mouth 22, within the scope of the present invention.

If Fig. 5 is that Fig. 1 device lengthens outer container 10, increase vaporization prevention lid 24 and plantation mouth 25, within the scope of the present invention shown in overall structure schematic diagram: as lengthened Fig. 1 device outer container 10, an infiltration space 11 lengthened can be formed at interior case 14 top, as planting space, just form a planting unit having fresh plant self-priming water tank to irrigate planting unit, can add as required and also can not add vaporization prevention lid 24, vaporization prevention lid 24 there is plantation mouth 25, can be used for city, railway, highway, street, square, enterprise afforests, Hai Yu plants, desert planting, gardens, plant decoration, flowerpot, potted landscape within the scope of the present invention.

If Fig. 6 is that Fig. 2 device lengthens outer container 10, increase vaporization prevention lid 24 and plantation mouth 25, within the scope of the present invention shown in overall structure schematic diagram: lengthen Fig. 2 device outer container 10, an infiltration space 11 lengthened can be formed at interior case 14 top, as planting space, just form a planting unit having fresh plant self-priming water tank to irrigate planting unit, can add as required and also can not add vaporization prevention lid 24, vaporization prevention lid 24 there is plantation mouth 25, can be used for city, railway, highway, street, square, enterprise afforests, Hai Yu plants, desert planting, gardens, plant decoration, flowerpot, potted landscape within the scope of the present invention.

As Fig. 7 water-deficient area fresh plant self-priming water tank is irrigated shown in implantation methods overall structure schematic diagram: planting unit 26 irrigated by water-supply-pipe 30 entirety and the fresh plant self-priming water tank that has been connected, fresh plant self-priming water tank is irrigated planting unit 26 to be directly embedded in soil 27, irrigating from fresh plant self-priming water tank the cistern water supply 28 oozed out planting unit 26 can make soil 27 increase capillary force, the soil water-containing 31 of soil 27 depths is inhaled to surface, soil 29, soil water-containing 31 in last soil 27 is raised to 29 positions, surface, soil, plant water sources 32 major part absorbs the soil water-containing 31 risen, fraction absorbs cistern water supply 28, not only water saving tank supplies water 28, also add soil water-containing 31, now surface, soil 29 is the part water yield of soil water-containing 31 to the air evaporation water yield 33, do not lose cistern water supply 28 water yield.

As Fig. 8 for semiarid zone fresh plant self-priming water tank is irrigated shown in implantation methods overall structure schematic diagram: semiarid zone subterranean water level is greater than water-deficient area, underground 27 capillary force provides soil water-containing 31 water yield to be less than water-deficient area, surface, soil 29 consumes soil water-containing 31 again to the air evaporation water yield 33, soil water-containing 31 cannot provide most of output to plant water sources 32 in a large number, the output of cistern water supply 28 to plant water sources 32 can be increased, for saving evaporated water 33, surface, soil 29 adds one deck vaporization prevention interlayer 34, prevent soil water-containing 31 from forming evaporated water 33 to air evaporation, increase the output of soil water-containing 31 to plant water sources 32, reduce the output of cistern water supply 28 to plant water sources 32, the implantation hole 25 that vaporization prevention interlayer 34 stays is very little, soil water-containing 31 quantity to air evaporation is very little, can not count.Now plant water sources 32 major part is soil water-containing 31, and fraction is cistern water supply 28.

As Fig. 9 for arid area fresh plant self-priming water tank is irrigated shown in implantation methods overall structure schematic diagram: in arid area, subterranean water level is greater than semiarid zone, the capillary force of soil 27 provides soil water-containing 31 water yield to be less than semiarid zone, plant water sources 32 major part is cistern water supply 28, fraction is soil water-containing 31, for preventing cistern water supply 28 to underground deep layer seepage loss, vaporization prevention interlayer 34 entirety and the lateral leakage protection interlayer 35 that has been connected, cistern water supply 28 can only descend soil water-containing 31 seepage bashfully at lateral leakage protection interlayer 35, to increase soil capillary power in lateral leakage protection interlayer 35, soil water-containing 31 is moved to 29 directions, surface, soil in lateral leakage protection interlayer 35, after soil water-containing 31 contacts with cistern water supply 28, soil water-containing 31 can push cistern water supply 28 and move to surface, soil 29 in lateral leakage protection interlayer 35, now, plant water sources 32 major part is cistern water supply 28, fraction is soil water-containing 31.

As Figure 10 for severe drought and desert area fresh plant self-priming water tank are irrigated shown in implantation methods overall structure schematic diagram: severe drought and desert area subterranean water level are greater than arid area, underground 27 capillary force, gravity cannot be overcome, soil water-containing 31 is raised to surface, soil 27 or plant root position, cannot utilize soil water-containing 31, for water saving tank supplies water 28, lateral leakage protection interlayer 35 entirety and the preventing leakage from bottom interlayer 36 that has been connected, cistern water supply 28 is made to be enclosed in vaporization prevention interlayer 34, lateral leakage protection interlayer 35, in the space that preventing leakage from bottom interlayer 36 forms, plant water sources 32 can only be supplied to.

If Figure 11 is for shown in fresh plant self-priming water tank irrigation planting system overall structure schematic diagram: fresh plant self-priming water tank irrigates planting unit 37 entirety and the feed pipe 39 that has been connected, feed pipe 39 has been connected water level controller 38, filter 40, supply-water pump 41, and supply-water pump 41 has been connected water source tube 42.

Claims (3)

1. the present invention relates to a kind of fresh plant self-priming water tank and irrigate planting unit, be made up of outer container (10), it is characterized in that: be connected in outer container (10) the anti-dirty patch of infiltration (18), infiltration space (11) is had in outer container (10), the anti-dirty patch (18) that seeps water has been connected interior case (14), be water space (15) between interior case (14) and outer container (10), filler pipe (8) there is priming valve (1), add water column (12), adding water column (12) enters in water space (15) through the anti-dirty patch of infiltration (18) and interior case (14), emptying tracheae (9) there is emptying valve (2), emptying gas column (13), emptying gas column (13) enters in water space (15) through the anti-dirty patch of infiltration (18) and interior case (14), water-level gauge (6) there is water level magnitude device (4), sealing cap (5), aqueduct (16), aqueduct (16) enters in water space (15) through the anti-dirty patch of infiltration (18) and interior case (14), blow-off pipe (7) there is blowoff valve (3), blowdown post (17), blowdown post (17) through infiltration anti-dirty patch (18 and interior case (14) enter water space (15).

2. the invention still further relates to a kind of fresh plant self-priming water tank irrigation implantation methods of irrigating planting unit for fresh plant self-priming water tank described in claim 1, be made up of water-supply-pipe (30), it is characterized in that:

Water-deficient area solution: planting unit (26) irrigated by water-supply-pipe (30) entirety and the fresh plant self-priming water tank that has been connected, fresh plant self-priming water tank is irrigated planting unit (26) to be directly embedded in soil (27), irrigating from fresh plant self-priming water tank the cistern water supply (28) oozed out planting unit (26) can make soil (27) increase capillary force, the soil water-containing (31) of soil (27) depths is inhaled to surface, soil (29), soil water-containing (31) in last soil (27) is raised to surface, soil (29) position, plant water sources (32) major part absorbs the soil water-containing (31) risen, fraction absorbs cistern water supply (28), not only water saving tank supplies water (28), also add soil water-containing (31), now surface, soil (29) are to the part water yield of the air evaporation water yield (33) for soil water-containing (31), do not lose cistern water supply (28) water yield.

Semiarid zone solution: semiarid zone subterranean water level is greater than water-deficient area, underground (27) capillary force provides soil water-containing (31) water yield to be less than water-deficient area, surface, soil (29) consumes soil water-containing (31) again to the air evaporation water yield (33), soil water-containing (31) cannot provide most of output to plant water sources (32) in a large number, the output of cistern water supply (28) to plant water sources (32) can be increased, for saving evaporated water (33), surface, soil (29) add one deck vaporization prevention interlayer (34), prevent soil water-containing (31) from forming evaporated water (33) to air evaporation, increase the output of soil water-containing (31) to plant water sources (32), reduce the output of cistern water supply (28) to plant water sources (32), the implantation hole (25) that vaporization prevention interlayer (34) stays is very little, soil water-containing (31) quantity to air evaporation is very little, can not count.Now plant water sources (32) major part is soil water-containing (31), and fraction is cistern water supply (28).

Arid area solution: in arid area, subterranean water level is greater than semiarid zone, the capillary force of soil (27) provides soil water-containing (31) water yield to be less than semiarid zone, plant water sources (32) major part is cistern water supply (28), fraction is soil water-containing (31), for preventing cistern water supply (28) to underground deep layer seepage loss, vaporization prevention interlayer (34) entirety and the lateral leakage protection interlayer (35) that has been connected, cistern water supply (28) can only descend soil water-containing (31) seepage bashfully in lateral leakage protection interlayer (35), to increase the interior soil capillary power of lateral leakage protection interlayer (35), soil water-containing (31) is moved to surface, soil (29) direction in lateral leakage protection interlayer (35), after soil water-containing (31) contacts with cistern water supply (28), it is mobile to surface, soil (29) in lateral leakage protection interlayer (35) that soil water-containing (31) can push cistern water supply (28), now, plant water sources (32) major part is cistern water supply (28), fraction is soil water-containing (31).

Severe drought and desert area solution: severe drought and desert area subterranean water level are greater than arid area, underground (27) capillary force, gravity cannot be overcome, soil water-containing (31) is raised to surface, soil (27) or plant root position, cannot utilize soil water-containing (31), for water saving tank supplies water (28), lateral leakage protection interlayer (35) entirety and the preventing leakage from bottom interlayer (36) that has been connected, cistern water supply (28) is made to be enclosed in vaporization prevention interlayer (34), lateral leakage protection interlayer (35), in the space that preventing leakage from bottom interlayer (36) forms, plant water sources (32) can only be supplied to.

3. the invention still further relates to a kind of fresh plant self-priming water tank irrigation planting system of irrigating planting unit for fresh plant self-priming water tank described in claim 1, be made up of water-supply-pipe (30), supply-water pump (41), water source tube (42), it is characterized in that: fresh plant self-priming water tank irrigates planting unit 37 entirety and the feed pipe 39 that has been connected, feed pipe 39 has been connected water level controller 38, filter 40, supply-water pump 41, and supply-water pump 41 has been connected water source tube 42.