CN105660246A - Automatic micro embellish irrigation and aerobic cultivation system achieving circulating water supply in stereoscopic planting - Google Patents

Abstract

The invention provides an automatic micro embellish irrigation and aerobic cultivation system achieving circulating water supply in stereoscopic planting. The system is composed of a support structure (27), impounded water direct draining modules (01), impounded water recycling modules (29), planting modules (17), inner angle nipples (24), inner angle nipple plugs (23), a water collecting tank (25), a water pump and a water supply pipe (26). By continuously supplying water to the impounded water direct draining modules arranged on the top layer of the support structure, equivalent distribution of perpendicular water collecting port water supply of every two adjacent impounded water direct draining modules or impounded water recycling modules (02) in the horizontal direction on the basis of gravity and mutual water supply and drainage water collection in the perpendicular direction from high to low are achieved; accumulated water of the water collecting tank is connected to the impounded water direct draining modules arranged on the top layer through the water pump, and therefore cycle utilization is achieved; the differentiated water supply requirements are met by regulating the water level height of water accumulation tanks (11); the planting modules are placed on the impounded water direct draining modules and the impounded water recycling modules, and water and oxygen are continuously supplied to plants through micro embellish irrigation holes (19) covered by the water level of the water accumulation tanks and aerobic ventilation holes (20) located above the water level.

Description

The automatic micro-profit of stereo planting periodical feeding is irrigated aerobic and is cultivated system

Technical field

The present invention relates to plant tridimensional planting field, be specially the automatic micro-profit of a kind of stereo planting periodical feeding and irrigate aerobic cultivation system and using method.

Background technology

Based on the stereo planting in greenhouse or indoor, because floor space is little, can increase exponentially effective cultivated area and crop yield, and do not limited by region and season, it is possible to the advantage realizing full season vegetable supply; It will be the Main way of plant husbandry future development; But, owing to not being applicable to the technology of stereo planting spread, become the key factor of restriction stereo planting development at present.

Summary of the invention

The present invention is that the automatic micro-profit of a kind of stereo planting periodical feeding designed for solving the problems referred to above irrigates aerobic cultivating apparatus and methods for using them.

The automatic micro-profit of stereo planting periodical feeding of the present invention is irrigated aerobic and is cultivated system; (27) supporting construction, the in line module of (01) water-retention, (17) plantation module, (25) header tank, water pump, (26) upper hose, (24) interior angle, silk, (23) interior angle plug, (29) water-retention recycling module are made up of; Silk and (23) interior angle plug are modularized design by (01) therein in line module of water-retention, (29) water-retention recycling module, (17) plantation module, (24) interior angle, it is possible to according to the random assembling combination of the size in space.

(27) supporting construction is that described system provides the structure of vertical direction to support, and is made up of Horizontal load-bearing structure no less than two-layer in same vertical direction.

(01) the in line module of water-retention is high-quality resistance to oxidation plastics integrated injection molding, is used for being placed on the non-bottom of (27) supporting construction; By the function compartmentalized design of mould, the in line module of (01) water-retention is made to have following functions;

A. it is used for and catchments and be connected port and (09) draining is connected port in (08) of horizontal direction adjacent (01) water-retention in line module docking;

B. be used for realizing (17) plantation module and the in line intermodule of (01) water-retention lift or drawing and pulling type location is fit and (07) importing stopper slot of separating;

C. there is water storage function, can be that (17) plantation module provides (11) water storage box continuing to supply water;

D. it is that (11) water storage box provides structural strengthening and (17) plantation module to provide and pinpoint (06) the water-retention guiding groove supplied water;

E. (11) water storage box can be carried out to (03) storage tank feed water inlet of water management and (12) water storage box to water management rubber closure;

F. can to (14) water storage box discharge outlet of (11) water storage box water-retention Altitude control and (13) water-retention height adjusting valve;

G. for (28) drainage collection pipe of (11) water storage box drainage collection;

H. vertically can catchment port to (02) that the draining in vertical direction upper strata (01) water-retention in line module (10) vertical row water hole is collected;

I. it is positioned at below (28) drainage collection pipe, it is possible to (10) vertical row water hole that the in line module of vertical direction lower floor (01) water-retention or (29) water-retention recycling module supply water.

(29) water-retention recycling module is high-quality resistance to oxidation plastics integrated injection molding. For being placed on the bottom of (27) supporting construction. It is in that there is no (10) vertical row water hole with the difference of the in line module of (01) water-retention.

(24) interior angle is to silk, the connection of catchment for (08) of the adjacent in line module of (01) water-retention or (29) water-retention recycling module connectivity port or (09) draining connectivity port.

(23) interior angle plug, the closing of catchment for (08) of the adjacent in line module of (01) water-retention or (29) water-retention recycling module connectivity port and (09) draining connectivity port.

(27) the in line module of (01) water-retention that in supporting construction, (non-bottom) same level direction is adjacent is by connecing in (24) the connection connecing plug in silk and (23), forms the in line block combiner of water-retention; The in line module of (01) water-retention in combination can realize (02) and vertically catchment the mean allocation of water-retention in port, and the unnecessary water yield beyond (11) water storage box water level is passed to (02) of lower module by (10) vertical row mouth of a river and vertically catchments port by the in line module of (01) water-retention on vertical direction upper strata.

(27) (29) water-retention recycling module that in supporting construction, (bottom) same level direction is adjacent is by connecing the connection to silk He (23) interior angle plug in (24), composition water-retention recycling module combination; (29) water-retention recycling module in combination can realize (02) and vertically catchment the mean allocation of water-retention in port; The in line module of (01) water-retention on vertical direction upper strata will pass to (02) of (29) water-retention recycling module by (10) vertical row mouth of a river and vertically catchment port beyond the water yield; (29) water yield that exceeds in water-retention recycling module is recycled to (25) header tank by (28) drainage collection pipe of (29) water-retention recycling module.

Centralized collection is moisture in (25) header tank, is connected to (08) of the in line module of (01) water-retention of top by water pump through (26) upper hose and catchments the port that is connected.

Catchment via top water storage module (08) the uninterrupted water supply that port accesses that is connected, distribute to (02) of the in line module of (01) water-retention that same level direction is connected together uniformly vertically to catchment port, enter back into (11) water storage box of each water storage module, (10) vertical row mouth of a river through (29) drain pipe, the water yield beyond water storage level passes to (02) of the in line module of vertical lower (01) water-retention vertically catchment port, until circulating (29) the water-retention recycling module to the bottom, (25) header tank is accessed through (28) drain pipe, realize the centralized recovery of unnecessary duty,By the adjustment of (13) water-retention height adjusting valve in each in line module of (01) water-retention and (29) water-retention recycling module, the lasting water level of differentiation realizing each water storage module continues to supply.

(17) plantation module is high-quality resistance to oxidation plastics integrated injection molding, and main body is the rectangle planting soil casing of upper end open, by the functional design of mould, makes (17) plantation module have following functions;

A. can be that (18) V-shaped arrangement that (17) plantation module provides bottom support and polycrystalline substance to reinforce supports;

B. it is positioned at (18) V-shaped arrangement support bottom and submerges under (11) water storage box water storage level, provide for plant (19) micro-profit of root irrigation to irrigate to water hole;

C. it is positioned at the arrangement of (18) V-shaped and supports more than bottom and (11) water storage box water storage level, (20) cultivated soil aerobic air vent of oxygen is provided for plant root;

D. it is positioned at (17) plantation module two bottom sides, imports stopper slot with (07) of the in line module of (01) water-retention and (29) water-retention recycling module and match; Be used for realizing (17) plantation intermodule and in line module of (01) water-retention and (29) water-retention recycling module lift or drawing and pulling type positions zoarium importing track spacing with (21) that separate;

E. it is positioned at the side of (17) plantation module, has and can plant, with placing, (22) the note screens recorded.

Place and (17) plantation module on water storage module, submerge micro-profit irrigation hole, (19) under (11) water storage box water level for the moisture needed for the plant offer growth in module by bottom, by (20) the aerobic passage on water storage box water level, provide growth required oxygen for root system of plant.

Accompanying drawing explanation

The in line module flat of accompanying drawing 1 water-retention and elevational schematic view.

Accompanying drawing 2 water-retention in line module axle side schematic diagram 01.

Accompanying drawing 3 water-retention in line module axle side schematic diagram 02.

Accompanying drawing 4 water-retention in line module bottom axle side schematic diagram.

The in line module level connection diagram of accompanying drawing 5 water-retention.

Accompanying drawing 6 vertical direction water storage module drainage collection operation principle schematic diagram.

Module floor map planted by 7 kinds of accompanying drawing.

8 kinds of accompanying drawing plants module a to elevational schematic view.

9 kinds of accompanying drawing plants module b to elevational schematic view.

Module axle side schematic diagram planted by 10 kinds of accompanying drawing.

The in line module of accompanying drawing 11 water-retention and plantation block combiner schematic diagram.

The in line module coupling elements structural representation of accompanying drawing 12 water-retention.

Accompanying drawing 13 circulates plumbing operation principle schematic diagram.

The automatic micro-profit of accompanying drawing 14 stereo planting periodical feeding is irrigated aerobic and is cultivated system schematic.

In figure: in line piece of (01) water-retention, (02) vertically catchment port, (03) water storage box feed water inlet, (04) water-retention height adjusting valve screens, (05) the in line mouth of surcharge water level, (06) water-retention guiding groove, (07) stopper slot is imported, (08) catchment connectivity port, (09) draining connectivity port, (10) the vertical row mouth of a river, (11) water storage box, (12) water storage box water supply control valve, (13) water-retention height adjusting valve, (14) water storage box discharge outlet, (15) water storage box service water outlet, (16) fixing screens, (17) plantation module, (18) V-type support arrangements, (19) micro-profit irrigates hole, (20) aerobic air vent, (21) limit track is imported, (22) note screens, (23) interior angle plug, (24) interior angle is to silk, (25) header tank, (26) upper hose, (27) supporting construction, (28) drainage collection pipe, (29) the in line module of water-retention.

Detailed description of the invention

For the explanation technical scheme become apparent from, below in conjunction with accompanying drawing, the present invention is described in detail; It should be appreciated that this explanation is only capable of for explaining and illustrate technical scheme, and the restriction to technical solution of the present invention can not be construed to.

The present invention is that the automatic micro-profit of a kind of stereo planting periodical feeding based on greenhouse and indoor field of planting irrigates aerobic cultivation system.

(27) supporting construction is the Horizontal load-bearing supporting construction in same vertical space no less than two-layer.

(27) the in line module of (01) water-retention that in supporting construction, (non-bottom) same level direction is adjacent is by connecing in (24) the connection connecing plug in silk and (23), forms the in line block combiner of water-retention; In combination, the in line module of (01) water-retention realizes (02) based on gravity and vertically catchments the mean allocation of connection and output of supplying water in port, and (02) vertically catchments port for the unnecessary water yield beyond (11) water storage box water level that the in line module of (01) water-retention collecting vertical direction upper strata is discharged by (10) vertical row mouth of a river.

(27) (29) water-retention recycling module that in supporting construction, (bottom) same level direction is adjacent is by connecing the connection connecing plug in silk and (23), composition water-retention recycling module combination in (24); (02) can be realized between (29) water-retention recycling module in combination vertically catchment the mean allocation of water-retention in port; The in line module of (01) water-retention on vertical direction upper strata will pass to (02) of (29) water-retention recycling module by (10) vertical row mouth of a river and vertically catchment port beyond the water yield, (29) in water-retention recycling module beyond the water yield, be recovered in (25) header tank through (28) drainage collection pipe of (29) water-retention recycling module.

(25) the storage water in header tank is vertically catchmented in port through (02) of (26) upper hose recirculation supply to the in line module of (01) water-retention of top layer by water pump, it is achieved recycling of draining.

Achieve (02) of the adjacent in line module of (01) water-retention of the horizontal direction based on gravity or (29) water-retention recycling module in same (27) supporting construction vertically to catchment the equivalent distribution that port supplies water, and intercommunication water supply between the in line module of (01) water-retention or (29) water-retention recycling module that vertical direction is from high to low and draining centralized collection.

Independently controlled (11) the water storage box height of water level in each (01) in line module of water-retention or (29) water-retention recycling module by (13) water-retention height adjusting valve, meet the different plant differentiation water requirements in different growing stages; Whole water cycle process does not have water and spills the space beyond the in line module of (01) water-retention, (29) water-retention recycling module and header tank.

(17) (18) V-shaped arrangement at the bottom of dependences (17) plantation module of planting in plantation module supports (19) that are submerged under (11) water storage box water level micro-profit of bottom and irrigates that relate to the water tariff collection taken up from (11) water storage box to water hole moistening, there is provided the moisture content needed for growth for plant, plant module bottom (18) V-shaped by (17) and arrange the oxygen needed for (20) the aerobic air vent supporting upper horizontal direction perforate comes for root system of plant offer growth.

Apparatus as discussed above and using method, to provide the temperature needed for growth and sunlight for plant based on greenhouse and indoor plantation space; Utilized by the expansion of solid space, increase exponentially effective cultivated area, achieve (02) of the adjacent in line module of (01) water-retention of the horizontal direction based on gravity or (29) water-retention recycling module vertically to catchment the equivalent distribution that port supplies water, and intercommunication water supply between the in line module of (01) water-retention or (29) water-retention recycling module that vertical direction is from high to low and draining centralized collection;Can according to the different requirements to output of the crop different growth periods, continual is that plant in (17) plantation module provides moisture and oxygen; Reduce the management in crop growth period and maintenance cost, simple in construction, easy to operate, increase irrigation efficiency, saving water resource, make long-term cropping no longer by the restriction of natural climate, farming area and region and environment. Meet the vegetable supply demand in full season.

Claims (10)

1. the automatic micro-profit of stereo planting periodical feeding is irrigated aerobic and is cultivated system, it is characterised in that: silk, (23) interior angle plug, (25) header tank, water pump and (26) upper hose are made up of by described system (27) supporting construction and the in line module of (01) water-retention, (29) water-retention recycling module, (17) plantation module, (24) interior angle; Silk and (23) interior angle plug are modularized design by (01) therein in line module of water-retention, (29) water-retention recycling module, (17) plantation module, (24) interior angle; Silk and (23) interior angle plug can be linked together by the in line module of (01) water-retention and (29) water-retention recycling module that same level direction is adjacent by (24) interior angle, are placed on the horizontal support of (27) supporting construction; By the in line module of top (01) water-retention is uninterruptedly supplied water, realize (02) of the in line module of (01) water-retention adjacent based on the horizontal direction of gravity in same (27) supporting construction or (29) water-retention recycling module vertically to catchment the equivalent distribution that port supplies water, and intercommunication water supply between the in line module of (01) water-retention or (29) water-retention recycling module that vertical direction is from high to low and drainage collection; (25) draining collected in header tank, then be delivered to (08) of the in line module of top (01) water-retention by water pump through (26) water pipe and catchment the port that is connected, it is achieved what whole tridimensional planting system supplied water recycles; By the adjustment of (13) water-retention height adjusting valve being realized the differentiation water requirements of each in line module of (01) water-retention or (29) water-retention recycling module, making the plant in (17) plantation module on each in line module of (01) water-retention or (29) water-retention recycling module, submerge the continual moisture automatically obtained needed for growth of aerobic air vent on micro-profit irrigation hole, (19) under (11) water storage box water level and (11) water storage box water level and oxygen such as through (17) plantation module bottom.

2. (27) supporting construction according to claim 1, is characterized by: no less than the Horizontal load-bearing structure of two-layer in same vertical direction.

3. the in line module of (01) water-retention according to claim 1, it is characterized by: integrated injection molding module, the in line module of (01) water-retention is concentrated and devises (02) vertically catchment port, (08) and catchment connectivity port, (09) draining connectivity port, (11) water storage box, (28) drainage collection pipe, (16) fixing screens and plant module with (17) and be capable of separating or (07) importing stopper slot of fit location of horizontal or vertical direction.

4. the in line module of (01) water-retention according to claim 1, is characterized by: silk and (23) interior angle plug can be linked together by the in line module of (01) water-retention that horizontal direction is adjacent by (24) interior angle.

5. the in line module of (01) water-retention according to claim 1, is characterized by: the unnecessary water yield in (11) water storage box can pass to the in line module of (01) water-retention directly vertically below or (29) water-retention recycling module.

6. the in line module of (01) water-retention according to claim 1, is characterized by: can collect the discharge water yield of the in line module of vertical direction (01) water-retention.

7. the in line module of (01) water-retention according to claim 1, is characterized by: each in line module of (01) water-retention can individually adjust the water-retention height of (11) water storage box and the Water supply switch valve of (11) water storage box.

8. (29) water-retention recycling module according to claim 1, is characterized by: with the difference of the in line module of (01) water-retention, being in that bottom (28) drainage collection pipe of (29) water-retention recycling module does not have (11) vertical row water hole.

9. plantation module according to claim 1 to (17), it is characterized by: the rectangular box of the upper end open of integrated injection molding, bottom portion has the arrangement of (18) V-shaped to support, the V-shaped arrangement strong point submerges, and the position under (11) water storage box water storage level has (19) that are evenly distributed micro-profit to irrigate hole, and the arrangement of (07) V-shaped supports the position of more than (11) water storage box water storage level (20) the aerobic air vent being evenly distributed.

10. plantation module according to claim 1 to (17), is characterized by: can realize fit with the location of horizontal or vertical direction between the in line module of (01) water-retention or (29) water-retention recycling module with separate.