CN204634567U - Air water source plant irrigating device - Google Patents

Abstract

A kind of air water source plant irrigating device, this device comprises solar energy vacuum tube, inner core, condenser, tailstock, tail-holder rack and shelf, air is sent in condenser or interior pipe by blower fan, packing material absorbs the moisture in air, solar energy vacuum tube absorbs solar energy heating inner core makes packing material evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser and flows down, water flows into plant root by outlet pipe, discharge pipe, bonnet and casing form a space outerpace, this space outerpace has an air outlet and second delivery port, second delivery port is at the lowest part of this space outerpace, air outlet and air inlet are respectively in the both sides of casing.

Description

Air water source plant irrigating device

Art the present invention relates to a kind of irrigation rig, especially a kind of for air water source plant irrigating device that is arid and desertificated area.

Background technology is according to the United Nations's data, and current desertification has had influence on the population in the world 1/5 and the land in the whole world 1/3, relate to more than 100 country, and desertification is just with the speed expanded of annual 50000 ~ 70,000 km2.China is one of the most serious country of desertification, and ccd area has accounted for 27.46% of area, and with the VELOCITY DIFFUSION of annual more than 2000 square kilometres.Desertification causes the deterioration of environment, and vegetation degeneration exacerbates the generation of sandstorm, and the silt flowing into river increases.

The odjective cause of desertization is that rainfall and carrying capacity are far smaller than evaporation discharge, and the subjective reason of desertization is the excessive exploitation of the mankind, so the method solving desertization is conceded the land to forestry and grass exactly.Vegetative sand control controls the most basic and cost-effective measure of desertization, because sand-fixation plant Neng Weisha district people and animals provide fuel and feed, meanwhile, can recover and improve the ecological environment again, grafting rare medicinal herbs saline cistanche on sacsaoul, then can also solve the income of husky district peasant.Conventional sand-fixation plant has shrub and the magaphanerophytes such as sacsaoul, Chinese tamarisk, white thorn, diversiform-leaved poplar, arrow-leaved oleaster, caragana microphylla, sand sagebrush (Artemisia filifolia), bluish dogbane, husky honey raisin tree, salix monogolica, shrub lespedeza.

No matter be which kind of desertification control method, finally all be summed up as the minimum water requirement problem whether water can continue to maintain plant, current global desertization aggravation, also mainly because the rainfall of desert and arid area and carrying capacity can not meet the demand of these regional plants far away, water delivery because of apart from remote and be difficult to realize, groundwater abstraction irrigates a desert plant then method of sacrificing future gains to satisfy present needs especially, the subterranean water level balance formed over the past thousands of years is broken, moisture is in desert surface rapid evaporation, subterranean water level declines rapidly, the originally plant of self-sow on desert, because root system no longer can get at water stratification, and suffer misfortune, which forms local to administer, overall deterioration, short-term response, the unfavorable situation of long-term degradation.

In order to reduce desertization, reduce drought, conventional method has: plant drought-enduring plant, by remote water conveyance irrigation, the plant of desert and arid area is grown, water-loss reducer is utilized to make plant tide over the dry season, no matter be which kind of method, finally all be summed up as the minimum water requirement whether water can continue to maintain plant, current global desertization aggravation, also mainly because the rainfall of desert and arid area and carrying capacity can not meet the demand of these regional plants far away, water delivery because of apart from remote and be difficult to realize, water-loss reducer has been a Water storage in short-term and has been difficult to solve long plant arid, for the drinking water problem of water-deficient area, the main means of transport that leans on solves from place far away fortune water, at present, the water shortage problem of arid area there is no effective solution.

Summary of the invention the utility model collects the moisture in air, moisture liquefy water, provides a kind of simple air water source plant irrigating device, provides irrigation to the plant of arid and desertificated area.

The utility model solves the technical scheme that its technical problem adopts: a kind of air water source plant irrigating device, this device comprises solar energy vacuum tube, inner core, condenser, tailstock, tail-holder rack and shelf, tailstock is arranged on tail-holder rack, tail-holder rack is fixing on the top of the shelf, condenser there is support plate, support plate is fixed on shelf, inner core comprises net, interior pipe and packing material, packing material can absorb moisture, packing material is placed in net, net, interior pipe and condenser are made up of corrosion protection metal or nonmetallic materials, use during wide arc gap packing material and can not want net, condenser comprises casing and blower fan, casing there is air inlet, discharge pipe, outlet pipe, screen pack and bonnet, air inlet is in the upside of discharge pipe, inner core puts into solar energy vacuum tube, the air outlet of interior pipe by pipe connect box in inner core or the air outlet of connecting fan, the openend of solar energy vacuum tube is inserted in condenser, tailstock is inserted in the bottom of solar energy vacuum tube, the air outlet of blower fan connects the air inlet of casing or interior pipe, screen pack installed by the air inlet of blower fan, outlet pipe is at the lowest part of housing interior volume, air is sent in condenser or interior pipe by blower fan, packing material absorbs the moisture in air, solar energy vacuum tube absorbs solar energy heating inner core makes packing material evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser and flows down, water flows into plant root by outlet pipe, discharge pipe, bonnet and casing form a space outerpace, this space outerpace has an air outlet and second delivery port, second delivery port is at the lowest part of this space outerpace, air outlet and air inlet are respectively in the both sides of casing.

The beneficial effects of the utility model are to provide and a kind ofly utilize the moisture in air to provide the device of irrigation to plant, and the technical measures taked due to this utility model are all mature and feasible, so can realize.

Accompanying drawing illustrates below in conjunction with drawings and Examples, further illustrates the utility model.

Fig. 1 is first embodiment of the present utility model.

Fig. 2 is second embodiment of the present utility model.

Fig. 3 is the 3rd embodiment of the present utility model.

Fig. 4 is the 4th embodiment of the present utility model.

Fig. 5 is the 5th embodiment of the present utility model.

Fig. 6 is the 6th embodiment of the present utility model.

Fig. 7 is the 7th embodiment of the present utility model.

Fig. 8 is the 8th embodiment that the utility model is made up of four groups of solar energy vacuum tubes.

1. solar energy vacuum tubes, 2. packing material, 3. blower fan, 4. condenser in figure, 5. outlet pipe, 6. net, pipe 7., 8. air outlet, 9. air inlet, 10. discharge pipe, 11. screen packs, 12. second delivery ports, 13. bonnets, 14. shelfs, 15. tailstocks, 16. tail-holder racks, 17. support plates, 18. plants, 19. blast pipes.

Embodiment in FIG, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, packing material 2 is fiber, packing material 2 is placed in net 6, net 6, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, air inlet 9, discharge pipe 10, outlet pipe 5, screen pack 11, air inlet 9 is in the upside of discharge pipe 10, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects discharge pipe 10, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into air port 9, screen pack 11 installed by the air inlet of blower fan 3, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in condenser 4 by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, the air inlet of discharge pipe 10 and blower fan 3 is respectively in the both sides of casing.

In fig. 2, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, packing material 2 is cellular kaolin, packing material 2 is placed in net 6, net 6, interior pipe 7 and condenser 4 are made up of copper product, condenser 4 comprises blower fan 3, blast pipe 19, discharge pipe 10, outlet pipe 5, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects blast pipe 19, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into airduct 19, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in inner core by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, the air inlet of discharge pipe 10 and blower fan 3 is respectively in the both sides of casing.

In figure 3, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, interior pipe 7 is positioned at net 6, packing material 2 is active carbon, packing material 2 is placed in net 6, net 6, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, air inlet 9, discharge pipe 10, bonnet 13, outlet pipe 5, screen pack 11, air inlet 9 is in the upside of discharge pipe 10, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects discharge pipe 10, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into air port 9, screen pack 11 installed by the air inlet of blower fan 3, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in condenser 4 by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, discharge pipe 10, bonnet 13 and casing form a space outerpace, this space outerpace has an air outlet 8 and the second delivery port 12, second delivery port 12 is at the lowest part of this space outerpace, air outlet 8 and blower fan 3 air inlet are respectively in the both sides of casing.

In the diagram, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, packing material 2 is spherical silica-gel, packing material 2 is placed in net 6, interior pipe 7 is positioned at outside net 6, net 6, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, air inlet 9, bonnet 13, discharge pipe 10, outlet pipe 5, screen pack 11, air inlet 9 is in the upside of discharge pipe 10, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects discharge pipe 10, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into air port 9, screen pack 11 installed by the air inlet of blower fan 3, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in condenser 4 by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, discharge pipe 10, bonnet 13 and casing form a space outerpace, this space outerpace has an air outlet 8 and the second delivery port 12, second delivery port 12 is at the lowest part of this space outerpace, air outlet 8 and blower fan 3 air inlet are respectively in the both sides of casing.

In Figure 5, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, packing material 2 is molecular sieve, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, air inlet 9, discharge pipe 10, bonnet 13, outlet pipe 5, screen pack 11, air inlet 9 is in the upside of discharge pipe 10, interior pipe 7 connects blast pipe 19, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into airduct 19, screen pack 11 installed by the air inlet of blower fan 3, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in interior pipe 7 by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, discharge pipe 10, bonnet 13 and casing form a space outerpace, this space outerpace has an air outlet 8 and the second delivery port 12, second delivery port 12 is at the lowest part of this space outerpace, air outlet 8 and blower fan 3 air inlet are respectively in the both sides of casing.

In figure 6, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, packing material 2 is the compound of band water of crystallization, packing material 2 is placed in net 6, net 6, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, blast pipe 19, discharge pipe 10, air outlet 8, bonnet 13, outlet pipe 5, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects blast pipe 19, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into airduct 19, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in inner core by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, discharge pipe 10, bonnet 13 and casing form a space outerpace, this space outerpace has an air outlet 8 and the second delivery port 12, second delivery port 12 is at the lowest part of this space outerpace, the air inlet of air outlet 8 and blower fan 3 is respectively in the both sides of casing.

In the figure 7, tailstock 15 is arranged on tail-holder rack 16, tail-holder rack 16 is fixed on shelf 14, condenser 4 there is support plate 17, support plate 17 is fixed on shelf 14, inner core comprises net 6, interior pipe 7 and packing material 2, packing material 2 is hydrogel, packing material 2 is placed in net 6, net 6, interior pipe 7 and condenser 4 are made up of stainless steel material, condenser 4 comprises blower fan 3, air inlet 9, air outlet, bonnet 13, discharge pipe 10, outlet pipe 5, screen pack 11, air inlet 9 is in the upside of discharge pipe 10, inner core puts into solar energy vacuum tube 1, interior pipe 7 in inner core connects discharge pipe 10, the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, the air outlet of blower fan 3 taps into air port 9, screen pack 11 installed by the air inlet of blower fan 3, outlet pipe 5 is at the lowest part of housing interior volume, air is sent in condenser 4 by blower fan 3, packing material 2 absorbs the moisture in air, solar energy vacuum tube 1 absorbs solar energy heating inner core makes packing material 2 evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser 4 and flows down, water flows into the root of plant 18 by outlet pipe 5, discharge pipe 10, bonnet 13 and casing form a space outerpace, this space outerpace has an air outlet 8 and the second delivery port 12, second delivery port 12 is at the lowest part of this space outerpace, the air inlet of air outlet 8 and blower fan 3 is respectively in the both sides of casing.

In fig. 8, tailstock 15 is arranged on tail-holder rack 16, and tail-holder rack 16 is fixed on shelf 14, condenser 4 has support plate 17, support plate 17 is fixed on shelf 14, condenser 4 is made up of stainless steel material, and solar energy vacuum tube 1 is four groups, and the openend of solar energy vacuum tube 1 is inserted in condenser 4, tailstock 15 is inserted in the bottom of solar energy vacuum tube 1, outlet pipe 5 is at the lowest part of housing interior volume, and water is flowed out by outlet pipe 5, and air outlet 8 is in the front side of casing.

Those of ordinary skill in the art should be realized that, although be described previously 8 embodiments, but they are form of ownership of the present invention not, it should be understood that, many amendments can be made when not deviating from the spirit and scope of the present invention, as used the packing material of other material, change position and the quantity of solar energy vacuum tube, change the materials and structures of condenser, change exhaust and the intake method of solar energy vacuum tube and condenser, change shape and the material of net, change position and the connected mode of each several part, change the mode of air circulation, remove screen pack, change title or the shape of packing material, etc., obviously, those skilled in the art does not depart from design of the present invention can implement the present invention in other forms, thus, other embodiment is also in the scope of the claims in the present invention.

Claims (1)

1. an air water source plant irrigating device, this device comprises solar energy vacuum tube, inner core, condenser, tailstock, tail-holder rack and shelf, tailstock is arranged on tail-holder rack, tail-holder rack is fixing on the top of the shelf, condenser there is support plate, support plate is fixed on shelf, inner core comprises net, interior pipe and packing material, it is characterized in that: packing material can absorb moisture, packing material is placed in net, net, interior pipe and condenser are made up of corrosion protection metal or nonmetallic materials, use during wide arc gap packing material and can not want net, condenser comprises casing and blower fan, casing there is air inlet, discharge pipe, outlet pipe, screen pack and bonnet, air inlet is in the upside of discharge pipe, inner core puts into solar energy vacuum tube, the air outlet of interior pipe by pipe connect box in inner core or the air outlet of connecting fan, the openend of solar energy vacuum tube is inserted in condenser, tailstock is inserted in the bottom of solar energy vacuum tube, the air outlet of blower fan connects the air inlet of casing or interior pipe, screen pack installed by the air inlet of blower fan, outlet pipe is at the lowest part of housing interior volume, air is sent in condenser or interior pipe by blower fan, packing material absorbs the moisture in air, solar energy vacuum tube absorbs solar energy heating inner core makes packing material evaporate aqueous vapor, aqueous vapor condenses into the globule through condenser and flows down, water flows into plant root by outlet pipe, discharge pipe, bonnet and casing form a space outerpace, this space outerpace has an air outlet and second delivery port, second delivery port is at the lowest part of this space outerpace, air outlet and air inlet are respectively in the both sides of casing.