CN103669480B - Solar water-taking device - Google Patents

Abstract

The invention discloses a solar water-taking device. The solar water-taking device is characterized by comprising an air sucking round pipe device, a cooling water-taking device, a distiller and a solar power supply device, wherein the air sucking round pipe device is used for being inserted into the ground, primarily cooling the sucked air and transmitting the air to the cooling water-taking device, the cooling water-taking device is used for cooling the sucked air, enabling the air to release water and guiding the water into a rectifier, the distiller is used for distilling the guided-in water, and the solar power supply device is in electric connection with the air sucking round pipe device, the cooling water-taking device and the distiller respectively. The cooling water-taking device adopts a compressor, two rotors of the compressor rotate oppositely, and the compressor is not provided with a sliding part and is simple in structure, convenient to repair and high in compression efficiency. The solar water-taking device is compact in structure, is high in maintainability, uses multi-layer heat circulation, and can take water from the air as much as possible.

Description

A kind of solar energy water fetching device

Technical field

The present invention relates to air cooling field, particularly relate to a kind of solar energy water fetching device.

Background technology

Desert day temperature is very high, and the saturation ratio of air is very low, and evening, temperature was very low, the saturation ratio of air is very large, utilize this principle, on current desert, from air, water fetching device adopts the material water suction using evening water suction strong substantially entirely, is distilled by the moisture in the material of water suction to using solar energy during daytime, this equipment often volume is very large, volume is larger, and storage capacity is stronger, is inconvenient to carry, need whole day as a water intaking circulation in addition, can not fetch water separately by day.Daytime, water intaking was difficult to because daytime water in air saturation ratio very low, needing to fall tens degree of temperature to air could separate out condensed water, and the very strong refrigerating efficiency of these needs, needs more efficient compressor.

Summary of the invention

Technical problem to be solved by this invention is the defect for background technology, provides the solar energy water fetching device that a kind of volume is little, can fetch water in desert daytime.

The present invention is for solving the problems of the technologies described above by the following technical solutions:

A kind of solar energy water fetching device, comprises air-breathing pipe device, cooling water fetching device, distiller and solar power supply apparatus, wherein:

Described air-breathing pipe device for insert ground in the face of suck air tentatively lower the temperature after by transfer of air give cooling water fetching device;

Described cooling water fetching device is used for lowering the temperature further to air making its bleed and importing in distiller by water;

The water that described distiller is used for importing distills;

Described solar power supply apparatus is electrically connected with air-breathing pipe device, water fetching device of lowering the temperature respectively.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described air-breathing pipe device comprises channel body, inhale filter net, conducting element and two ducted fans, described channel body is that lower end is provided with inverted cone body, the hollow cylinder of heat conduction, described inhale filter net is arranged on the upper end open place of described channel body, described two ducted fans for air-breathing are arranged in series at described inhale filter off the net, under described conducting element is arranged on two ducted fans, described conducting element upper end is closed with air-breathing pipe device inwall and is connected, lower end pendency is on described inverted cone body, the sidewall of described channel body is provided with the gas outlet for making air flow out from the space that conducting element is isolated.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described cooling water fetching device comprises compressor, radiator, expansion valve, air cooler and air heat exchanger, and described compressor, radiator, expansion valve, air cooler are in turn connected to form refrigerant-cycle systems by coolant conduits;

Described air cooler comprises air cooler refrigerant import, air cooler refrigerant outlet, air cooler air intlet and air cooler air outlet slit, described air cooler refrigerant import is connected with expansion valve, described air cooler refrigerant outlet is connected with compressor, and the water be provided with between described air cooler air intlet and air cooler air outlet slit for separating out imports the passage in distiller;

Described air heat exchanger comprises the import of air heat exchanger cold air, air heat exchanger cold air outlet, air heat exchanger hot air intake and air heat exchanger heat outlet, described air heat exchanger hot air intake is connected with the gas outlet of described air-breathing pipe device, described air heat exchanger heat outlet is connected with described air cooler air intlet, and the import of described air heat exchanger cold air is connected with described air cooler air outlet slit;

Described radiator comprises heat rejector refrigerant import, heat rejector refrigerant outlet, radiator air import and radiator air outlet, described heat rejector refrigerant import is connected with compressor, described heat rejector refrigerant outlet is connected with expansion valve, described radiator air import is connected with air heat exchanger cold air outlet, and air is led in described radiator air outlet.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described compressor comprises permanent magnetic brushless, the first rotor, the second rotor, the first gear, the second gear, major axis, minor axis and compressor case, described compressor case comprises cover plate and housing, and the inwall of described cover plate is provided with the bearing be connected with minor axis;

Described the first rotor is installed on major axis by key, described second rotor is installed on minor axis by key, gear square hole is equipped with in the middle of described first gear and the second gear, described major axis one end is connected with permanent magnetic brushless, the other end is connected with the first gear by the square hole of the first gear, described minor axis one end is connected with the second gear by the square hole of the second gear, and the other end is connected with described bearing, and described first gear is engaged mutually with the second gear;

Described the first rotor periphery is provided with at least one compression end, described second rotor periphery be correspondingly provided with mutually to be engaged for the compression end with the first rotor and then and described cover plate, described housing bottom surface form the compression end of compression chamber or expansion chamber, the bottom surface of described housing is correspondingly provided with suction hole, steam vent, admission pipe and stack, described admission pipe, stack are connected with described suction hole, steam vent respectively, be provided with the first pressure valve in described admission pipe, in described stack, be provided with the second pressure valve;

Described stack is connected with described heat rejector refrigerant import, and described admission pipe exports with described air cooler refrigerant and is connected.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described distiller comprises cooling water aqua storage tank, transparent membrane, distilled water aqua storage tank and distilled water delivery port, described cooling water aqua storage tank is connected with air cooler by described passage, described transparent membrane is inclined at the upper end of cooling water aqua storage tank, the lower end that described transparent membrane tilts is connected to distilled water aqua storage tank, the movable switch of described distilled water delivery port, is arranged on distilled water aqua storage tank.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described radiator, air cooler, air heat exchanger all adopt shell-and-tube heat exchanger.

As the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described channel body adopts metal foam to make.

The present invention adopts above technical scheme compared with prior art, has following technique effect:

1. volume is little, is convenient for carrying;

2. compressor does not have sliding part, and structure is simple, and be convenient to maintenance, compression efficiency is higher;

3. through three coolings, can water intaking on daytime in desert.

Accompanying drawing explanation

Fig. 1 is the structural representation of solar energy water fetching device;

Fig. 2 is cooling water fetching device lateral view;

Fig. 3 is cooling water fetching device critical component figure;

Fig. 4 is compressor overall diagram;

Fig. 5 is compressor interior view;

Fig. 6 is compressor core component figure;

Fig. 7 is the bottom surface upward view of compressor case;

Fig. 8 is the bottom surface top view of compressor case;

Fig. 9 is the structural representation of cover plate;

Figure 10 is the structural representation of the rotor with a compression end;

Figure 11 is the structural representation of minor axis;

Figure 12 is the structural representation of major axis;

Figure 13 is the structural representation of gear;

Figure 14 is the structural representation of bearing;

Figure 15 is compression end masticatory movement schematic diagram;

Figure 16 is the structural representation of the rotor with two compression end;

Figure 17 is the structural representation of the rotor with four compression end;

Figure 18 is the structural representation of the rotor with six compression end;

Figure 19 is the structural representation of expansion valve;

Figure 20 is fractionator side view;

Figure 21 is distiller schematic diagram;

Figure 22 is radiator integral figure;

Figure 23 is radiator interior view;

Figure 24 is the connection diagram of heat exchange fin in radiator;

Figure 25 is air-breathing pipe schematic diagram of device;

Figure 26 is the recuperated cycle schematic diagram of solar energy water fetching device.

Number in the figure title: 1, permanent magnetic brushless, 2, admission pipe, 3, stack, 4, cover plate, 5, first gear, 6, housing, 7, major axis, 7-1, first major axis end face, 7-2, second major axis end face, 7-3, 3rd major axis end face, 7-4, 4th major axis end face, 8, minor axis, 8-1, first short shaft end face, 8-2, second short shaft end face, 8-3, 3rd short shaft end face, 8-4, 4th short shaft end face, 9, the first rotor, 10, gear square hole, 11, steam vent, 12, suction hole, 13, housing bearing groove, 14, cover plate bearing groove, 15, compression end, 16, air-breathing pipe device, 17, cooling water fetching device, 18, distiller, 19, air-breathing pipe venthole, 20, compressor, 21, coolant conduits, 22, electric wire, 23, radiator, 23-1, radiator air import, 23-2, radiator air exports, 23-3, heat rejector refrigerant outlet, 23-4, heat rejector refrigerant import, 24, heat radiation conduit, 25, compressor case, 26, expansion valve, 27, second rotor, 28, wireway, 29, air cooler, 29-1, air cooler air outlet slit, 29-2, air cooler air intlet, 29-3, air cooler refrigerant import, 29-4, air cooler refrigerant exports, and 30, second travelling gear, 31, first pressure valve, 32, dividing plate, 33, second pressure valve, 34, air heat exchanger, 34-1, air heat exchanger hot air intake, 34-2, air heat exchanger heat outlet, 34-3, the import of air heat exchanger cold air, 34-4, air heat exchanger cold air outlet, 35 solar power supply apparatus, 36, cooling water fetching device housing, 37, heat exchange fin, 38, expansion valve air inlet, 39, expansion valve venthole, 40, distilled water delivery port, 41, distilled water aqua storage tank, 42, cooling water aqua storage tank, 43, conducting element, 44, transparent membrane, 45, ducted fan, 46, inhale filter net, 47, the air inlet of air-breathing pipe device, 48, foam metal heat exchanger, 49, compression chamber, 50, bearing, 51, radiator shell, 52, air cooler shell.

Detailed description of the invention

Below in conjunction with accompanying drawing, technical scheme of the present invention is described in further detail:

As shown in Figure 1 to Figure 3, the invention discloses a kind of solar energy water fetching device, comprise air-breathing pipe device, cooling water fetching device, distiller and solar power supply apparatus, wherein:

Described air-breathing pipe device for insert ground in the face of suck air tentatively lower the temperature after by transfer of air give cooling water fetching device;

Described cooling water fetching device is used for lowering the temperature further to air making its bleed and importing in distiller by water;

The water that described distiller is used for importing distills;

Described solar power supply apparatus is electrically connected with air-breathing pipe device, water fetching device of lowering the temperature respectively.

Cooling water fetching device is fixedly installed on air-breathing pipe device, and distiller is arranged on cooling water fetching device, and solar power supply apparatus is powered to whole device by electric wire independent of whole device side.Utilize in the very strong advantage of desert solar energy, make full use of solar energy as the device energy.

As shown in figure 25, described air-breathing pipe device comprises channel body, inhale filter net, conducting element and two ducted fans, described channel body is that lower end is provided with inverted cone body, the hollow cylinder of heat conduction, described inhale filter net is arranged on the upper end open place of described channel body, described two ducted fans for air-breathing are arranged in series at described inhale filter off the net, under described conducting element is arranged on two ducted fans, described conducting element upper end is closed with air-breathing pipe device inwall and is connected, lower end pendency is on described inverted cone body, the sidewall of described channel body is provided with the gas outlet for making air flow out from the space that conducting element is isolated.

Described channel body adopts metal foam to make, and insert in desert by conical lower portion during use, desert sand bed is tentatively cooled air by metal foam.Use this heat exchanger that air can be allowed first in the sand bed of desert, to cool certain degree.

Described cooling water fetching device comprises compressor, radiator, expansion valve, air cooler and air heat exchanger, all separate with dividing plate between described compressor, radiator, expansion valve, air cooler, and be in turn connected to form refrigerant-cycle systems by coolant conduits.

As shown in Figure 22-Figure 24, described air cooler comprises air cooler refrigerant import, air cooler refrigerant outlet, air cooler air intlet and air cooler air outlet slit, described air cooler refrigerant import is connected with expansion valve, described air cooler refrigerant outlet is connected with compressor, and the water be provided with between described air cooler air intlet and air cooler air outlet slit for separating out imports the passage in distiller;

Described air heat exchanger comprises the import of air heat exchanger cold air, air heat exchanger cold air outlet, air heat exchanger hot air intake and air heat exchanger heat outlet, described air heat exchanger hot air intake is connected with the gas outlet of described air-breathing pipe device, described air heat exchanger heat outlet is connected with described air cooler air intlet, and the import of described air heat exchanger cold air is connected with described air cooler air outlet slit;

Described radiator comprises heat rejector refrigerant import, heat rejector refrigerant outlet, radiator air import and radiator air outlet, described heat rejector refrigerant import is connected with compressor, described heat rejector refrigerant outlet is connected with expansion valve, described radiator air import is connected with air heat exchanger cold air outlet, and air is led in described radiator air outlet.

As shown in Fig. 4-Figure 15, described compressor comprises permanent magnetic brushless, the first rotor, the second rotor, the first gear, the second gear, major axis, minor axis and compressor case, described compressor case comprises cover plate and housing, and the inwall of described cover plate is provided with the bearing be connected with minor axis;

Described the first rotor is installed on major axis by key, described second rotor is installed on minor axis by key, gear square hole is equipped with in the middle of described first gear and the second gear, described major axis one end is connected with permanent magnetic brushless, the other end is connected with the first gear by the square hole of the first gear, described minor axis one end is connected with the second gear by the square hole of the second gear, and the other end is connected with described bearing, and described first gear is engaged mutually with the second gear;

Described the first rotor periphery is provided with at least one compression end, described second rotor periphery be correspondingly provided with mutually to be engaged for the compression end with the first rotor and then and described cover plate, described housing bottom surface form the compression end of compression chamber or expansion chamber, the bottom surface of described housing is correspondingly provided with suction hole, steam vent, admission pipe and stack, described admission pipe, stack are connected with described suction hole, steam vent respectively, be provided with the first pressure valve in described admission pipe, in described stack, be provided with the second pressure valve;

Described stack is connected with described heat rejector refrigerant import, and described admission pipe exports with described air cooler refrigerant and is connected.

Described the first rotor and the second rotor have identical geometry, and two rotor opposite direction rotatings need meet often pair of compression end and mutually be engaged one_to_one corresponding.

When the compression end of described the first rotor and bitrochanteric compression end occlusion, form a compression chamber and expansion chamber with cover plate, housing, two chamber cumulative volumes are certain, separated by two rotor compression ends, rotate with compression end, and two chamber sizes mutually change and mutually transform; The lower end of described housing is provided with suction hole, steam vent, admission pipe, stack, the first pressure valve and the second pressure valve, described admission pipe is connected with the suction hole being positioned at new expansion chamber and increasing initial position by the first pressure valve, and described stack is connected with the steam vent being positioned at compression chamber and reducing ultimate position place by the second pressure valve.

Described major axis is made up of four end faces, gear is fixed on the first major axis end face, second major axis end face contacts with the inner hole surface of the bearing be installed on housing bearing groove, 3rd major axis end face contacts with the rotor bore face of the first rotor with bearing outer ring, play the effect of fixing major axis and the first rotor, 4th major axis end face stretches out the brearing bore on cover plate bearing groove, stretch out the central axis of end face as motor, described housing bearing groove is positioned at each round center of housing, and uses corresponding flute profile according to used bearing type.

Described minor axis is made up of four end faces, gear is fixed on the first short shaft end face, second short shaft end face contacts with the brearing bore face be installed on housing bearing groove, 3rd major and minor axis end face contacts with the second rotor bore face with bearing outer ring, play fixing minor axis and bitrochanteric effect, the 4th short shaft end face contacts with the brearing bore face on cover plate bearing groove.

Major axis one end is as the rotating shaft of motor, and electric machine rotation drives major axis, and major axis is by key rotor driven, and major axis is by square end surface band nutating gear, and gear drive drives minor axis to rotate, thus rotor driven rotates.

As shown in figure 15, two rotors rotate in opposite directions, and epitrochanterian compression end, in rotor turns process, forms variable volume with shell.Cold-producing medium in compressor in Figure 15 is separated by the compression end of rotor, volume compression on one side, volume enlargement on one side, discharged by steam vent when compression ratio reaches setting range, other end pressure in the process that volume becomes large reduces, cold-producing medium outside chamber enters in chamber by suction hole under pressure, and real is breathing process.Cold-producing medium in a-b is while compression, and air-breathing, b-c is that d-e is the overclosure process of rotor compression end, continues to rotate to a process that reaches in f figure, so repeatedly rotates, and reaches the compression process to cold-producing medium while enter exhaust process.

As in Figure 16-18, rotor compression terminal number order is more than one, can select the number of compression end, select number few, otherwise select number many when requiring compression ratio large according to actual requirement of engineering.In addition, along with compression end number increases, steam vent outlet refrigerant flow continuity is good, otherwise continuity is bad.

As shown in Figure 20 and Figure 21, as the further prioritization scheme of a kind of solar energy of the present invention water fetching device, described distiller comprises cooling water aqua storage tank, transparent membrane, distilled water aqua storage tank and distilled water delivery port, described cooling water aqua storage tank is connected with air cooler by described passage, described transparent membrane is inclined at the upper end of cooling water aqua storage tank, the lower end that described transparent membrane tilts is connected to distilled water aqua storage tank, the movable switch of described distilled water delivery port, is arranged on distilled water aqua storage tank.

Cooling water totally, as drinking water, may not can not can obtain drinkable water by distillation.

Described radiator comprises radiator shell, heat exchange fin and heat exchange catheter, heat exchange fin is arranged on heat exchange catheter, heat exchange fin and heat exchange catheter are arranged in radiator shell, heat exchange shell is provided with an import and an outlet, heat exchange catheter one end is connected with import, and the other end is connected with outlet.

Air heat exchanger is identical with heat spreader structures.

As shown in figure 19, described expansion valve is the cone that circular section becomes large, and expansion valve air inlet is positioned at less side, circular section, and expansion valve venthole is positioned at larger side, circular section.

As shown in Figure 1, be device overall structure figure, during use, device wedge angle inserted in sand bed, utilize this characteristic that the temperature of sand bed is lower than air themperature, first preliminary cooling is carried out to air.

Air circulation: as shown in Fig. 1,2 and 26, Fig. 2 is the arrangement diagram of each parts and pipeline, Figure 26 be cooling water fetching device in cold-producing medium and air circulation heat exchange figure, air enters from the import of air-breathing pipe device, by carrying out preliminary heat exchange cooling in channel body after entering, its low-temperature receiver is desert sand bed.

Enter through the air of cooling and enter air heat exchanger heat exchange from air-breathing pipe venthole by wireway and lower the temperature further, the low-temperature receiver of heat exchanger is through the cooled air of air cooler;

Air through lowering the temperature is entered in air cooler by coolant conduits through air heat exchanger hole lowers the temperature further, and the low-temperature receiver of air cooler is the low-temperature low-pressure refrigerant through expansion valve;

Air through cooling is entered air heat exchanger as low-temperature receiver from air cooler hole by wireway, the air heated up through heat exchange arrives radiator from air heat exchanger hole by wireway, to refrigerant loses heat refrigerant loses heat, blown in air by radiator hole afterwards.

Refrigerant circulation: as shown in Fig. 1,2 and 26, cold-producing medium becomes high temperature high pressure liquid by the compression of compressor, afterwards from steam vent by coolant conduits enter radiator by temperature lower air heat radiation become high pressure low temperature liquid, afterwards, cold-producing medium is expanded into low-pressure low-temperature gas from radiator hole by coolant conduits is real for capillary tube enters expansion valve, enter air cooler cooling-air by coolant conduits again, cold-producing medium enters compressor air suction hole from air cooler hole by coolant conduits afterwards.

The mechanism that above-mentioned air themperature is minimum is air cooler, cooling water is also separate out from this mechanism, the water of separating out enters in distiller by cooling water aqua storage tank, sunshine adds hot cooling water by transparent membrane, flow in distilled water aqua storage tank along film after cooling water evaporation, reserved by distilled water outlet afterwards.

Claims (7)

1. a solar energy water fetching device, is characterized in that, comprises air-breathing pipe device, cooling water fetching device, distiller and solar power supply apparatus, wherein:

Described air-breathing pipe device for insert ground in the face of suck air tentatively lower the temperature after by transfer of air give cooling water fetching device;

Described cooling water fetching device is used for lowering the temperature further to air making its bleed and importing in distiller by water;

The water that described distiller is used for importing distills;

Described solar power supply apparatus is electrically connected with air-breathing pipe device, water fetching device of lowering the temperature respectively.

2. solar energy water fetching device according to claim 1, it is characterized in that, described air-breathing pipe device comprises channel body, inhale filter net, conducting element and two ducted fans, described channel body is that lower end is provided with inverted cone body, the hollow cylinder of heat conduction, described inhale filter net is arranged on the upper end open place of described channel body, described two ducted fans for air-breathing are arranged in series at described inhale filter off the net, under described conducting element is arranged on two ducted fans, described conducting element upper end is closed with air-breathing pipe device inwall and is connected, lower end pendency is on described inverted cone body, the sidewall of described channel body is provided with the gas outlet for making air flow out from the space that conducting element is isolated.

3. solar energy water fetching device according to claim 1, it is characterized in that, described cooling water fetching device comprises compressor, radiator, expansion valve, air cooler and air heat exchanger, and described compressor, radiator, expansion valve, air cooler are in turn connected to form refrigerant-cycle systems by coolant conduits;

Described air cooler comprises air cooler refrigerant import, air cooler refrigerant outlet, air cooler air intlet and air cooler air outlet slit, described air cooler refrigerant import is connected with expansion valve, described air cooler refrigerant outlet is connected with compressor, and the water be provided with between described air cooler air intlet and air cooler air outlet slit for separating out imports the passage in distiller;

Described air heat exchanger comprises the import of air heat exchanger cold air, air heat exchanger cold air outlet, air heat exchanger hot air intake and air heat exchanger heat outlet, described air heat exchanger hot air intake is connected with the gas outlet of described air-breathing pipe device, described air heat exchanger heat outlet is connected with described air cooler air intlet, and the import of described air heat exchanger cold air is connected with described air cooler air outlet slit;

Described radiator comprises heat rejector refrigerant import, heat rejector refrigerant outlet, radiator air import and radiator air outlet, described heat rejector refrigerant import is connected with compressor, described heat rejector refrigerant outlet is connected with expansion valve, described radiator air import is connected with air heat exchanger cold air outlet, and air is led in described radiator air outlet.

4. solar energy water fetching device according to claim 3, it is characterized in that, described compressor comprises permanent magnetic brushless, the first rotor, the second rotor, the first gear, the second gear, major axis, minor axis and compressor case, described compressor case comprises cover plate and housing, and the inwall of described cover plate is provided with the bearing be connected with minor axis;

Described the first rotor is installed on major axis by key, described second rotor is installed on minor axis by key, gear square hole is equipped with in the middle of described first gear and the second gear, described major axis one end is connected with permanent magnetic brushless, the other end is connected with the first gear by the square hole of the first gear, described minor axis one end is connected with the second gear by the square hole of the second gear, and the other end is connected with described bearing, and described first gear is engaged mutually with the second gear;

Described the first rotor periphery is provided with at least one compression end, described second rotor periphery be correspondingly provided with mutually to be engaged for the compression end with the first rotor and then and described cover plate, described housing bottom surface form the compression end of compression chamber or expansion chamber, the bottom surface of described housing is correspondingly provided with suction hole, steam vent, admission pipe and stack, described admission pipe, stack are connected with described suction hole, steam vent respectively, be provided with the first pressure valve in described admission pipe, in described stack, be provided with the second pressure valve;

Described stack is connected with described heat rejector refrigerant import, and described admission pipe exports with described air cooler refrigerant and is connected.

5. solar energy water fetching device according to claim 3, it is characterized in that, described distiller comprises cooling water aqua storage tank, transparent membrane, distilled water aqua storage tank and distilled water delivery port, described cooling water aqua storage tank is connected with air cooler by described passage, described transparent membrane is inclined at the upper end of cooling water aqua storage tank, the lower end that described transparent membrane tilts is connected to distilled water aqua storage tank, the movable switch of described distilled water delivery port, is arranged on distilled water aqua storage tank.

6. solar energy water fetching device according to claim 3, is characterized in that, described radiator, air cooler, air heat exchanger all adopt shell-and-tube heat exchanger.

7. solar energy water fetching device according to claim 2, is characterized in that, described channel body adopts metal foam to make.