CN105484320A - Efficient condensation dew type system for taking water from air - Google Patents

Abstract

The invention relates to an efficient condensation dew type system for taking water from air. The system comprises a bottom plate, a heating device, a first liquefying device, a second liquefying device, a filtering device, a third liquefying device and a material collecting device. A first supporting rod, a first inclined rod, a second inclined rod, a first support, a second support, a first positioning block, a second supporting rod, a third supporting rod and a third support are arranged on the bottom plate. The heating device comprises a first frame, an air inlet pipe, a first cooling frame, a first heating rod, a partition plate, a first transverse rod, a closing plate, a second frame, a first stopping rod and a first spring. The first liquefying device comprises a third frame, a closing ring, a cooling box, a cooling pipe, a fourth supporting rod, a three cross rod, an ejecting block, a positioning frame, a movable block and a first pipeline. The second liquefying device comprises a second pipeline, a fourth frame and a liquefying rod. Water in air is effectively liquefied into liquid water, and an effective liquid fresh-water obtaining path is provided for solving the water resource problem.

Description

A kind of high efficiency condensation dew formula air water-intaking system

Technical field

The present invention relates to air water technical field, especially relate to a kind of high efficiency condensation dew formula air water-intaking system.

Background technology

China's water resource spatial and temporal distributions is uneven, water pollutions is serious, fresh water imbalance between supply and demand increasingly sharpens, especially the nervous problem of the water supply in some islands, high mountain, lamp area, frontier sentry is very outstanding, the traditional approach solving above-mentioned regional water supply problem comprises strange land fresh water transport, desalinization, exploiting groundwater etc., but aforesaid way is all subject to the restriction of geographical environment, and then cannot effectively apply.Owing to being rich in fresh water in air, and do not limit by region, especially on island, coastal, alpine region, air humidity is larger, from air, obtaining liquid fresh water providing new approaches for solving the problem, existing air water fetching device has larger practical value lacking the special area of fresh water, however present stage air water fetching device still there is the low problem of efficiency of producing drinking water, and energy utilization rate is low, cause the waste of resource.

Therefore, be necessary to provide a kind of new technical scheme to overcome above-mentioned defect.

Summary of the invention

The object of the present invention is to provide a kind of high efficiency condensation dew formula air water-intaking system that can effectively solve the problems of the technologies described above.

For reaching the object of the present invention, adopt following technical scheme:

A kind of high efficiency condensation dew formula air water-intaking system, described high efficiency condensation dew formula air water-intaking system comprises base plate, be positioned at the heater above described base plate, be positioned at the first liquefying plant on the right side of described heater, be positioned at the second liquefying plant below described first liquefying plant, be positioned at the filter on the left of described second liquefying plant, the material collecting device being positioned at the 3rd liquefying plant on the left of described filter and being positioned at below described 3rd liquefying plant, described base plate is provided with the first support bar, be positioned at the first brace on the right side of described first support bar, be positioned at the second brace above described first brace, be positioned at the first support on the left of described first support bar, be positioned at the second support above described first support bar, be positioned at the first locating piece on the left of described first support bar, be positioned at second support bar in left side, the 3rd support being positioned at the 3rd support bar on the left of described second support bar and being positioned on the left of described 3rd support bar, described heater comprises the first framework, be positioned at the air inlet pipe below described first framework, be positioned at the first heat radiation frame of described first framework, be positioned at the first heating rod of described first heat radiation frame, be positioned at the demarcation strip above described first heat radiation frame, be positioned at the first cross bar above described demarcation strip, be positioned at the shut above described first cross bar, be positioned at the second framework above described shut, the first spring being positioned at the first lever on the right side of described first framework and being positioned on the left of described first lever, described first liquefying plant comprises the 3rd framework, be positioned at the closed-loop of described 3rd framework inside, be positioned at the cooler bin outside described 3rd framework, be positioned at the cooling tube of described cooler bin, be positioned at the 4th support bar above described 3rd framework, be positioned at the 3rd cross bar above described 4th support bar, be positioned at and lean block above described 3rd cross bar, the locating rack on the right side of block is leaned described in being positioned at, the movable block being positioned at described locating rack inside and the first pipeline be positioned on the right side of described 3rd framework, described second liquefying plant comprises second pipe, be positioned at the 4th framework below described second pipe, be positioned at the liquefaction bar of described 4th framework inside, be positioned at the second lever on the left of described 4th framework, be positioned at the 4th support above described second lever, be positioned at the first catch bar on the left of described second lever, described filter comprises the 5th framework, be positioned at the 5th support on the left of described 5th framework, be positioned at the first screen pack of described 5th framework, be positioned at the first montant above described first screen pack, be positioned at the 6th support on the right side of described first montant, be positioned at the cylinder below described 6th support, be positioned at the first gripper shoe below described cylinder and be positioned at the 4th spring below described first gripper shoe, described 3rd liquefying plant comprises the 6th framework, be positioned at the heat-conducting plate of described 6th framework, be positioned at the 3rd pipeline on the right side of described 6th framework, be arranged at the first water pump on described 3rd pipeline, be arranged at the first fixed bar in described 6th framework, be positioned at the 4th pipeline on the left of described 6th framework, be arranged at the second water pump on described 4th pipeline, be positioned at the first fixed mount above described 6th framework, be positioned at the 5th pipeline on the left of described 6th framework and be arranged at the spin of described 5th pipeline, described material collecting device comprises rewinding case, be positioned at the first square on the left of described rewinding case, be positioned at the 7th spring on the right side of described first square, be positioned at the second fixed mount on the left of described first square, be positioned at the aggregate bin above described second fixed mount, be positioned at the outlet pipe below described aggregate bin, be positioned at the rotating frame below described outlet pipe and be positioned at the second square below described rotating frame.

Described first support bar is cuboid, described first support bar is vertically placed, the lower end of described first support bar is fixedly connected with the upper surface of described base plate, described first brace is skewed, the lower end of described first brace is fixedly connected with the upper surface of described base plate, the upper end of described first brace is fixedly connected with the right surface of described first support bar, described second brace is skewed, the lower end of described second brace is fixedly connected with the right surface of described first support bar, described first support is L-type, one end of described first support is fixedly connected with the left surface of described first support bar, the other end of described first support is L-type, described second support is L-type, one end of described second support is horizontal, the other end of described second support is vertical shape, the upper end of described first support bar is fixedly connected with the soffit of described second support, the cross section of described first locating piece is at right angles trapezoidal, the soffit of described first locating piece is fixedly connected with the upper surface of described base plate, the right surface of described first locating piece is fixedly connected with the left surface of described first support bar, described second support bar is cuboid, described second support bar is vertically placed, the lower end of described second support bar is fixedly connected with the upper surface of described base plate, described 3rd support bar is cuboid, described 3rd support bar is vertically placed, the lower end of described 3rd support bar is fixedly connected with the upper surface of described base plate, described 3rd support is in the concave shape of being sidelong, one end of described 3rd support is fixedly connected with the left surface of described 3rd support bar, the other end of described 3rd support is horizontal, described 3rd support is provided with the first fixed block, described first fixed block is cuboid, the left surface of described first fixed block is fixedly connected with described 3rd support.

Described first framework is hollow shape, described first framework is provided with the first through hole being positioned at soffit, described first through hole communicates with the inside of described first framework, described air inlet pipe is vertical shape, the upper end of described air inlet pipe is aimed at described first through hole and is fixedly connected with the soffit of described first framework, described air inlet pipe is provided with the first valve, described first heat radiation frame is provided with two and lays respectively at the left and right sides, described first heat radiation frame is inverted concave shape, the soffit of described first heat radiation frame is fixedly connected with the inner surface of described first framework, described first heating rod is provided with two and lays respectively at the left and right sides, described demarcation strip is horizontal, the side of described demarcation strip is fixedly connected with the inner surface of described first framework, described demarcation strip is provided with some the second through holes running through its upper and lower surface, described first cross bar is horizontal, the right-hand member of described first cross bar is fixedly connected with the inner surface of described first framework, described first cross bar is provided with the second heat radiation frame being positioned at below and the second heating rod being positioned at described second heat radiation frame inside, described second heat radiation frame cross section is concave shape, the upper surface of described second heat radiation frame is fixedly connected with the soffit of described first cross bar, described first cross bar adopts heat-barrier material to make, described second heat radiation frame adopts Heat Conduction Material to make, described shut is that lower left upper right side tilts, the lower end of described shut is fixedly connected with the upper surface of described first framework, described shut is provided with the first joint ring, described first joint ring in the form of a ring, described first joint ring is fixedly connected with described shut, described second framework is concave shape, the soffit of described second framework is fixedly connected with the upper surface of described shut, described second framework adopts heat-barrier material to make, described shut adopts Heat Conduction Material to make, be provided with in described second framework the 3rd heat radiation frame and be positioned at described 3rd heat radiation frame the 3rd heating rod, described 3rd heat radiation frame is concave shape, the upper surface of described 3rd heat radiation frame is fixedly connected with the inner surface of described second framework, described 3rd heat radiation frame adopts Heat Conduction Material to make, the cross section of described first lever is L-type, the lower end of described first lever is horizontal, the upper end of described first lever is vertical shape, described first lever is provided with the first sealing block and is positioned at the briquetting of upper end.Described first sealing block is cuboid, the right surface of described first sealing block is fixedly connected with the lower end of described first lever, the left surface of described first sealing block and the right surface contact of described first framework, described briquetting is cuboid, described briquetting horizontal positioned, the upper end of described first lever is fixedly connected with the soffit of described briquetting, described first lever is through described first joint ring, the inner surface of described first joint ring is connected with the side slip of described first lever, described first spring is vertical shape, the upper end of described first spring is fixedly connected with the soffit of described briquetting, described first spring is provided with the second cross bar being positioned at below, described second cross bar is horizontal, the left end of described second cross bar is fixedly connected with the right surface of described second framework, the right-hand member of described second cross bar to lean on the left surface of described first lever and is slidably connected with it, the lower end of described first spring is fixedly connected with the upper surface of described second cross bar.

Described 3rd framework is provided with the third through-hole being positioned at right surface and the corner block being positioned at inside, described third through-hole communicates with the inside of described 3rd framework, the cross section of described corner block is triangular in shape, the soffit of described corner block is fixedly connected with the inner surface of described 3rd framework, the left surface of described corner block is fixedly connected with the right surface of described second framework, the upper surface of described corner block is skewed, described closed-loop is semi-annular shape, described closed-loop adopts Heat Conduction Material to make, described 3rd framework adopts Heat Conduction Material to make, the cross section of described cooler bin is concave shape, the left surface of described cooler bin is fixedly connected with the right surface of described 3rd framework, described cooler bin adopts heat-barrier material to make, described cooling tube is provided with several and is evenly distributed in described cooler bin, water is connected with in described cooling tube, described 4th support bar is vertical shape, the lower end of described 4th support bar is fixedly connected with the upper surface of described 3rd framework, the upper end of described 4th support bar is fixedly connected with the soffit of described 3rd cross bar, described 3rd cross bar is horizontal, the left end of described 3rd cross bar is fixedly connected with described 3rd framework, the described cross section leaning block is at right angles trapezoidal, the described soffit leaning block is connected with the upper surface slide of described 3rd cross bar, the described upper surface leaning block is skewed, the described right side leaning block is provided with holding rod, described holding rod is L-type, one end of described holding rod is fixedly connected with the described right surface leaning block, the other end of described holding rod is vertical shape, described locating rack is L-type, one end of described locating rack is fixedly connected with the upper surface of described 3rd cross bar, the other end of described locating rack is horizontal, described locating rack is provided with the first projection, described first projection is cuboid, the soffit of described first projection is fixedly connected with the upper surface of described locating rack, the upper surface of described first projection and the soffit of described holding rod are slidably connected, described movable block is cuboid, described movable block is vertically placed, the upper surface of described movable block and the inner surface of described locating rack are slidably connected, the soffit of described movable block is connected with the upper surface slide of described 3rd cross bar, described movable block is provided with the second spring, described second spring horizontal is placed, the left end of described second spring is fixedly connected with the described right surface leaning block, the right-hand member of described second spring is fixedly connected with the left surface of described movable block, described first pipeline is horizontal, the left end of described first pipeline is aimed at described third through-hole and is fixedly connected with the right surface of described 3rd framework, the right-hand member of described first pipeline is closed, the soffit of described first pipeline is provided with fourth hole, described fourth hole communicates with the inside of described first pipeline.

Described second pipe is vertical shape, the upper end of described second pipe is aimed at described fourth hole and is fixedly connected with described first pipeline, the upper end of described 4th framework is fixedly connected with described second pipe, described 4th framework is provided with and is positioned at inner refluence block, be positioned at the fifth hole of left surface and be positioned at the second projection of described 4th framework left surface, the cross section of described refluence block is triangular in shape, the upper surface of described refluence block is skewed, the side of described refluence block is fixedly connected with the inner surface of described 4th framework, described fourth hole communicates with the inside of described 4th framework, described second projection is cuboid, the right surface of described second projection is fixedly connected with the left surface of described 4th framework, described liquefaction bar is bending, described liquefaction bar adopts thermal conductive metallic material to make, the upper end of described liquefaction bar is fixedly connected with the inner surface of described 4th framework, described second lever is cuboid, described second lever is vertically placed, the lower end of described second lever is provided with the second sealing block, described second sealing block is cuboid, the upper surface of described second sealing block is fixedly connected with the soffit of described second lever, described 4th support is L-type, one end of described 4th support is fixedly connected with the left surface of described 4th framework, the other end of described 4th support is vertical shape, the left surface of described second lever is connected with described 4th bracket slide, the right surface of described second lever and the left surface of described second framework are slidably connected, described 4th support is provided with the 3rd spring, described 3rd spring is vertical shape, the upper end of described 3rd spring is fixedly connected with described 4th support, the lower end of described 3rd spring is fixedly connected with described second lever, described first catch bar is L-type, one end of described first pushing block is fixedly connected with the left surface of described second lever, the other end of described first catch bar is vertical shape, the upper end of described second brace is fixedly connected with the soffit of described 4th framework.

The right-hand member of described 5th framework leans on the left surface of described second projection, the left surface of described 5th framework is provided with the 6th through hole, described 6th through hole communicates with the inside of described 5th framework, described 5th support is concave shape, one end of described 5th support is fixedly connected with the left surface of described 5th framework, the other end of described 5th support is horizontal and be provided with the first magnet, described first magnet is cuboid, described first magnet is fixedly connected with described 5th support, described first screen pack is vertical shape, the soffit of described first screen pack and the inner surface of described 5th framework are slidably connected, described first screen pack is provided with the first plugging block being positioned at left side and the 5th spring be positioned at above described first plugging block, described first plugging block is cylinder, described first plugging block is horizontal, the right surface of described first plugging block is fixedly connected with the left surface of described first screen pack, described 5th spring is provided with two and lays respectively at upper and lower both sides, described 5th spring is horizontal, the left end of described 5th spring is fixedly connected with the inner surface of described 5th framework, the other end of described 5th spring is fixedly connected with the left surface of described first screen pack, described first montant is vertical shape, the lower end of described first montant is fixedly connected with the upper surface of described first screen pack, the left surface of described first montant is provided with the second magnet, described second magnet is cuboid, the right surface of described second magnet is fixedly connected with the left surface of described first montant, described 6th support is L-type, one end of described 6th support is fixedly connected with the soffit of described 3rd framework, the other end of described 6th support is fixedly connected with the left surface of described 4th framework, described 6th support is provided with the 6th spring, described 6th spring is horizontal, the left end of described 6th spring is fixedly connected with the right surface of described first montant, the right-hand member of described 6th spring is fixedly connected with described 6th support, the upper surface of described cylinder is fixedly connected with described 6th support, described cylinder is provided with the head rod being positioned at right side and the second catch bar being positioned at left side, described head rod is cuboid, described head rod horizontal positioned, the left end of described head rod is fixedly connected with the right surface of described cylinder, the right-hand member of described head rod is fixedly connected with the left surface of described 4th framework, described second catch bar is cuboid, described second catch bar horizontal device, the right-hand member of described second catch bar is connected with described cylinder, the left end of described second catch bar is fixedly connected with the right surface of described first montant, described first gripper shoe is cuboid, described first gripper shoe horizontal positioned, the right-hand member of described first gripper shoe is fixedly connected with the left surface of described 4th framework, the soffit of described cylinder is fixedly connected with the upper surface of described first gripper shoe, the below of described first gripper shoe is provided with the 7th support, described 7th support is L-type, one end of described 7th support is fixedly connected with the soffit of described first gripper shoe, the other end of described 7th support is fixedly connected with the left surface of described 4th support, described 4th spring is horizontal, the left end of described 4th spring is fixedly connected with the right surface of described first montant, the right-hand member of described 4th spring is fixedly connected with described 7th support, the upper end of described first support is fixedly connected with the soffit of described 5th framework, one end of described second support is fixedly connected with the soffit of described 4th framework, the other end of described second support is fixedly connected with described 5th framework.

So the 6th framework cross section is hollow right-angled trapezium, described 6th framework is vertically placed, described 6th framework adopts heat-barrier material to make, described 6th framework is provided with the first circular hole being positioned at left surface, be positioned at second circular hole on right surface, be positioned at the 3rd circular hole of left surface and be positioned at the 4th circular hole of soffit, described first circular hole, second circular hole, 3rd circular hole and the 4th circular hole communicate with the inside of described 6th framework, one end of described 3rd support is fixedly connected with the left surface of described 6th framework, described heat-conducting plate is skewed, the side of described heat-conducting plate is fixedly connected with the inner surface of described 6th framework, described heat-conducting plate adopts Heat Conduction Material to make, described 3rd pipeline is zigzag, one end of described 3rd pipeline is aimed at described 6th through hole and is fixedly connected with the left surface of described 5th framework, the other end of described 3rd pipeline is aimed at described second circular hole and is fixedly connected with the right surface of described 6th framework, described first fixed bar is cuboid, described first fixed bar horizontal positioned, the left end of described first fixed bar is fixedly connected with the right surface of described 6th framework, described 3rd pipeline runs through the upper and lower surface of described first fixed bar and is fixedly connected with it, one end of described 4th pipeline is aimed at described first circular hole and is fixedly connected with the left surface of described 6th framework, the other end of described 4th pipeline is aimed at described 4th circular hole and is fixedly connected with the soffit of described 6th framework, described first fixed mount is L-type, one end of described first fixed mount is fixedly connected with the upper surface of described 6th framework, the other end of described first fixed mount is fixedly connected with the left surface of described first framework, one end of described 5th pipeline is aimed at described 3rd circular hole and is fixedly connected with the left surface of described 6th framework, described first fixed block is fixedly connected with described 5th pipeline, described spin is spherical, described spin is contained in described 5th pipeline, described spin is provided with some bristles, the upper end of described second support bar is fixedly connected with described 5th pipeline.

Described rewinding case is hollow cuboid, the soffit of described rewinding case contacts with the upper surface of described base plate, described first square is in being cuboid, the soffit of described first square is fixedly connected with the upper surface of described base plate, described 7th spring is vertical shape, the lower end of described 7th spring is fixedly connected with the upper surface of described base plate, the upper end of described 7th spring is fixedly connected with the soffit of described rotating frame, described second fixed mount is L-type, one end of described second fixed mount is fixedly connected with the upper surface of described base plate, the other end of described second fixed mount is horizontal and be fixedly connected with described aggregate bin, described aggregate bin is hollow cone, the water side of described 5th pipeline is positioned at directly over described aggregate bin, the lower end of described aggregate bin is provided with open-work, described open-work communicates with the inside of described aggregate bin, described outlet pipe is vertical shape, the upper end of described outlet pipe is aimed at described open-work and is fixedly connected with the lower end of described aggregate bin, the lower end of described outlet pipe is provided with the second joint ring, described second joint ring in the form of a ring, the upper surface of described second joint ring is fixedly connected with the soffit of described outlet pipe, described rotating frame is L-type, one end of described rotating frame is vertical shape, the other end of described rotating frame is horizontal, described second joint ring leans on described rotating frame, the right-hand member of described rotating frame is positioned at the top of described rewinding case, described second square is cuboid, the upper surface of described second square is fixedly connected with the soffit of described rotating frame, described second square turns with described first square axle and is connected.

Compared with prior art, the present invention has following beneficial effect: high efficiency condensation dew formula air water-intaking system architecture of the present invention is simple, easy to use, water effective in air can be liquefied as aqueous water, the approach of the liquid fresh water of a kind of effective acquisition is provided for solving existing water resources problems, and liquefaction efficiency is high, greatly can improve the ability obtaining liquid fresh water, and filtration, purification can be carried out to the liquid fresh water obtained, good purification, prevent from wherein mixing some impurity, improve the quality of water, the liquid fresh water of post liquefaction can also be utilized to liquefy to the steam being about to liquefy simultaneously, reduce the use of external cooling device, not only effectively raise the efficiency of liquefaction, the cost of cooling device can also be saved, alleviate the burden of enterprise, the present invention is simultaneously through multiple operation, make to produce liquid fresh water more comprehensive, reduce the waste of natural resources and energy resources.

Accompanying drawing explanation

Fig. 1 is the structural representation of high efficiency of the present invention condensation dew formula air water-intaking system;

Fig. 2 is the partial enlarged drawing at the A position of high efficiency condensation dew formula air water-intaking system of the present invention shown in Fig. 1.

Detailed description of the invention

Below in conjunction with accompanying drawing, clear complete explanation is made to high efficiency condensation dew formula air water-intaking system of the present invention.

As shown in Figures 1 and 2, the high efficiency of the present invention condensation dew formula air water-intaking system material collecting device 7 that comprises base plate 1, be positioned at heater 2 above described base plate 1, be positioned at the first liquefying plant 3 on the right side of described heater 2, be positioned at the second liquefying plant 4 below described first liquefying plant 3, be positioned at filter 5 on the left of described second liquefying plant 4, be positioned at the 3rd liquefying plant 6 on the left of described filter 5 and be positioned at below described 3rd liquefying plant 6.

As shown in Figures 1 and 2, described base plate 1 is in cuboid, described base plate 1 horizontal positioned, described base plate 1 is provided with the first support bar 11, be positioned at the first brace 12 on the right side of described first support bar 11, be positioned at the second brace 13 above described first brace 12, be positioned at the first support 14 on the left of described first support bar 11, be positioned at the second support 15 above described first support bar 11, be positioned at the first locating piece 16 on the left of described first support bar 11, be positioned at second support bar 17 in left side, the 3rd support 19 being positioned at the 3rd support bar 18 on the left of described second support bar 17 and being positioned on the left of described 3rd support bar 18.Described first support bar 11 is in cuboid, and described first support bar 11 is vertically placed, and the lower end of described first support bar 11 is fixedly connected with the upper surface of described base plate 1.Described first brace 12 is in skewed, and the lower end of described first brace 12 is fixedly connected with the upper surface of described base plate 1, and the upper end of described first brace 12 is fixedly connected with the right surface of described first support bar 11.Described second brace 13 is in skewed, and the lower end of described second brace 13 is fixedly connected with the right surface of described first support bar 11.Described first support 14 is in L-type, and one end of described first support 14 is fixedly connected with the left surface of described first support bar 11, and the other end of described first support 14 is L-type.Described second support 15 is in L-type, and one end of described second support 15 is horizontal, and the other end of described second support 15 is vertical shape, and the upper end of described first support bar 11 is fixedly connected with the soffit of described second support 15.The cross section of described first locating piece 16 is at right angles trapezoidal, and the soffit of described first locating piece 16 is fixedly connected with the upper surface of described base plate 1, and the right surface of described first locating piece 16 is fixedly connected with the left surface of described first support bar 11.Described second support bar 17 is in cuboid, and described second support bar 17 is vertically placed, and the lower end of described second support bar 17 is fixedly connected with the upper surface of described base plate 1.Described 3rd support bar 18 is in cuboid, and described 3rd support bar 18 is vertically placed, and the lower end of described 3rd support bar 18 is fixedly connected with the upper surface of described base plate 1.Described 3rd support 19 is in the concave shape of being sidelong, one end of described 3rd support 19 is fixedly connected with the left surface of described 3rd support bar 18, the other end of described 3rd support 19 is horizontal, described 3rd support 19 is provided with the first fixed block 191, described first fixed block 191 is in cuboid, and the left surface of described first fixed block 191 is fixedly connected with described 3rd support 19.

As shown in Figures 1 and 2, described heater 2 comprises the first framework 21, be positioned at the air inlet pipe 22 below described first framework 21, be positioned at the first heat radiation frame 23 of described first framework 21, be positioned at the first heating rod 24 of described first heat radiation frame 23, be positioned at the demarcation strip 25 above described first heat radiation frame 23, be positioned at the first cross bar 26 above described demarcation strip 25, be positioned at the shut 27 above described first cross bar 26, be positioned at the second framework 28 above described shut 27, the first spring 20 being positioned at the first lever 29 on the right side of described first framework 21 and being positioned on the left of described first lever 29.Described first framework 21 is in hollow shape, and described first framework 21 is provided with the first through hole 211 being positioned at soffit, and described first through hole 211 is in cylindrical shape, and described first through hole 211 communicates with the inside of described first framework 21.Described air inlet pipe 22 is in vertical shape, the upper end of described air inlet pipe 22 is aimed at described first through hole 211 and is fixedly connected with the soffit of described first framework 21, the inside of described air inlet pipe 22 is communicated with the inside of described first framework 21, described air inlet pipe 22 is provided with the first valve 221, and described first valve 221 is for controlling the flow of gas in described air inlet pipe 22.Described first heat radiation frame 23 is provided with two and lays respectively at the left and right sides, described first heat radiation frame 23 is in inverted concave shape, the soffit of described first heat radiation frame 23 is fixedly connected with the inner surface of described first framework 21, and described first heat radiation frame 23 adopts Heat Conduction Material to make.Described first heating rod 24 is provided with two and lays respectively at the left and right sides, and described first heating rod 24 is positioned at described first heat radiation frame 23.Described demarcation strip 25 is horizontal, and the side of described demarcation strip 25 is fixedly connected with the inner surface of described first framework 21, and described demarcation strip 25 is provided with some the second through holes 251 running through its upper and lower surface, and described second through hole 251 is in cylindrical shape.Described first cross bar 26 is horizontal, the right-hand member of described first cross bar 26 is fixedly connected with the inner surface of described first framework 21, described first cross bar 26 is provided with the second heat radiation frame 261 being positioned at below and the second heating rod 262 being positioned at described second heat radiation frame 261 inside, described second heat radiation frame 261 cross section is concave shape, the upper surface of described second heat radiation frame 261 is fixedly connected with the soffit of described first cross bar 26, described first cross bar 26 adopts heat-barrier material to make, described second heat radiation frame 261 adopts Heat Conduction Material to make, thus heating can be proceeded to the gas come up below described demarcation strip 25, moisture in air is evaporated fully.Described shut 27 tilts in lower left upper right side, the lower end of described shut 27 is fixedly connected with the upper surface of described first framework 21, described shut 27 is provided with the first joint ring 271, in the form of a ring, described first joint ring 271 is fixedly connected with described shut 27 described first joint ring 271.Described second framework 28 is in concave shape, the soffit of described second framework 28 is fixedly connected with the upper surface of described shut 27, described second framework 28 adopts heat-barrier material to make, thus the heat in the second framework 28 can not be distributed, described shut 27 adopts Heat Conduction Material to make, be provided with in described second framework 28 the 3rd heat radiation frame 281 and be positioned at described 3rd heat radiation frame 281 the 3rd heating rod 282, described 3rd heat radiation frame 281 is in concave shape, the upper surface of described 3rd heat radiation frame 281 is fixedly connected with the inner surface of described second framework 28, described 3rd heat radiation frame 281 adopts Heat Conduction Material to make, it is inner that described 3rd heating rod 282 is positioned at described 3rd heat radiation frame 281.The cross section of described first lever 29 is L-type, and the lower end of described first lever 29 is horizontal, and the upper end of described first lever 29 is vertical shape, and described first lever 29 is provided with the first sealing block 291 and is positioned at the briquetting 292 of upper end.Described first sealing block 291 is in cuboid, the right surface of described first sealing block 291 is fixedly connected with the lower end of described first lever 29, the left surface of described first sealing block 291 and the right surface contact of described first framework 21, described briquetting 292 is in cuboid, described briquetting 292 horizontal positioned, the upper end of described first lever 29 is fixedly connected with the soffit of described briquetting 292, described first lever 29 is through described first joint ring 271, the inner surface of described first joint ring 271 is connected with the side slip of described first lever 29, described first lever 29 can be moved up and down.Described first spring 20 is in vertical shape, the upper end of described first spring 20 is fixedly connected with the soffit of described briquetting 292, described first spring 20 is provided with the second cross bar 201 being positioned at below, described second cross bar 201 is horizontal, the left end of described second cross bar 201 is fixedly connected with the right surface of described second framework 28, the right-hand member of described second cross bar 201 to lean on the left surface of described first lever 29 and is slidably connected with it, and the lower end of described first spring 20 is fixedly connected with the upper surface of described second cross bar 201.

As shown in Figure 1, described first liquefying plant 3 comprises the 3rd framework 31, be positioned at the closed-loop 32 of described 3rd framework 31 inside, be positioned at the cooler bin 33 outside described 3rd framework 31, be positioned at the cooling tube 34 of described cooler bin 33, be positioned at the 4th support bar 35 above described 3rd framework 31, be positioned at the 3rd cross bar 36 above described 4th support bar 35, be positioned at and lean block 37 above described 3rd cross bar 36, the locating rack 38 on the right side of block 37 is leaned described in being positioned at, the movable block 39 being positioned at described locating rack 38 inside and the first pipeline 30 be positioned on the right side of described 3rd framework 31.Described 3rd framework 31 forms with described second framework 21 space closed, described 3rd framework 31 is provided with the third through-hole 311 being positioned at right surface and the corner block 312 being positioned at inside, described third through-hole 311 is in cylindrical shape, described third through-hole 311 communicates with the inside of described 3rd framework 31, the cross section of described corner block 312 is triangular in shape, the soffit of described corner block 312 is fixedly connected with the inner surface of described 3rd framework 31, the left surface of described corner block 312 is fixedly connected with the right surface of described second framework 21, the upper surface of described corner block 312 is skewed, thus make the water of post liquefaction can concentrate on right side.Described closed-loop 32 is in semi-annular shape, described closed-loop 32 forms closed space with the inner surface of described 3rd framework 31, thus water can be placed in closed-loop 32, described closed-loop 32 adopts Heat Conduction Material to make, and described 3rd framework 31 adopts Heat Conduction Material to make, and can place water in described closed-loop 32, also water can not be placed, can determining as required, when wherein placing water, cooling effect can be made better.The cross section of described cooler bin 33 is concave shape, and the left surface of described cooler bin 33 is fixedly connected with the right surface of described 3rd framework 31, and described cooler bin 33 adopts heat-barrier material to make.Described cooling tube 34 is provided with several and is evenly distributed in described cooler bin 33, is connected with water, thus can plays good cooling effect in described cooling tube 34.Described 4th support bar 35 is in vertical shape, and the lower end of described 4th support bar 35 is fixedly connected with the upper surface of described 3rd framework 31, and the upper end of described 4th support bar 35 is fixedly connected with the soffit of described 3rd cross bar 36.Described 3rd cross bar 36 is horizontal, and the left end of described 3rd cross bar 36 is fixedly connected with described 3rd framework 31.The described cross section leaning block 37 is at right angles trapezoidal, the described soffit leaning block 37 is connected with the upper surface slide of described 3rd cross bar 36, the described upper surface leaning block 37 is skewed, the described right side leaning block 37 is provided with holding rod 371, described holding rod 371 is in L-type, one end of described holding rod 371 is fixedly connected with the described right surface leaning block 37, and the other end of described holding rod 371 is vertical shape.Described locating rack 38 is in L-type, one end of described locating rack 38 is fixedly connected with the upper surface of described 3rd cross bar 36, the other end of described locating rack 38 is horizontal, described locating rack 38 is provided with the first projection 381, described first projection 381 is in cuboid, the soffit of described first projection 381 is fixedly connected with the upper surface of described locating rack 38, and the described upper surface of the first projection 381 and the soffit of described holding rod 371 are slidably connected.Described movable block 39 is in cuboid, described movable block 39 is vertically placed, the upper surface of described movable block 39 and the inner surface of described locating rack 38 are slidably connected, the soffit of described movable block 39 is connected with the upper surface slide of described 3rd cross bar 36, described movable block 39 is provided with the second spring 391, described second spring 391 horizontal positioned, the left end of described second spring 391 is fixedly connected with the described right surface leaning block 37, and the right-hand member of described second spring 391 is fixedly connected with the left surface of described movable block 39.Described first pipeline 30 is horizontal, the left end of described first pipeline 30 is aimed at described third through-hole 311 and is fixedly connected with the right surface of described 3rd framework 31, the inside of described first pipeline 30 is communicated with the inside of described 3rd framework 31, the right-hand member of described first pipeline 30 is closed, the soffit of described first pipeline 30 is provided with fourth hole 301, described fourth hole 301 is in cylindrical shape, and described fourth hole 301 communicates with the inside of described first pipeline 30.

As shown in Figures 1 and 2, described second liquefying plant 4 comprises second pipe 41, is positioned at the 4th framework 42 below described second pipe 41, is positioned at the liquefaction bar 43 of described 4th framework 42 inside, is positioned at the second lever 44 on the left of described 4th framework 42, is positioned at the 4th support 45 above described second lever 44, is positioned at the first catch bar 46 on the left of described second lever 44.Described second pipe 41 is in vertical shape, and the upper end of described second pipe 41 is aimed at described fourth hole 301 and is fixedly connected with described first pipeline 30, and the inside of described second pipe 41 is communicated with the inside of described first pipeline 30.The upper end of described 4th framework 42 is fixedly connected with described second pipe 41, the inside of described second pipe 41 is communicated with the inside of described 4th framework 42, and described 4th framework 42 is provided with and is positioned at inner drawbar refluence block 421, is positioned at the fifth hole 422 of left surface and is positioned at the second projection 423 of described 4th framework 41 left surface.The cross section of described refluence block 421 is triangular in shape, and the upper surface of described refluence block 421 is skewed, and the side of described refluence block 421 is fixedly connected with the inner surface of described 4th framework 42.Described fifth hole 422 is in cylindrical shape, and described fourth hole 422 communicates with the inside of described 4th framework 42.Described second projection 423 is in cuboid, and the right surface of described second projection 423 is fixedly connected with the left surface of described 4th framework 42.Described liquefaction bar 43 is in bending, and described liquefaction bar 43 adopts thermal conductive metallic material to make, and the upper end of described liquefaction bar 43 is fixedly connected with the inner surface of described 4th framework 42.Described second lever 44 is in cuboid, described second lever 44 is vertically placed, the lower end of described second lever 44 is provided with the second sealing block 441, and described second sealing block 441 is in cuboid, and the upper surface of described second sealing block 441 is fixedly connected with the soffit of described second lever 44.Described 4th support 45 is in L-type, one end of described 4th support 45 is fixedly connected with the left surface of described 4th framework 42, the other end of described 4th support 45 is vertical shape, left surface and described 4th support 45 of described second lever 44 are slidably connected, the right surface of described second lever 44 and the left surface of described second framework 4 are slidably connected, described 4th support 45 is provided with the 3rd spring 451, described 3rd spring 451 is in vertical shape, the upper end of described 3rd spring 451 is fixedly connected with described 4th support 45, the lower end of described 3rd spring 451 is fixedly connected with described second lever 44.Described first catch bar 46 is in L-type, and one end of described first pushing block 46 is fixedly connected with the left surface of described second lever 44, and the other end of described first catch bar 46 is vertical shape.The upper end of described second brace 13 is fixedly connected with the soffit of described 4th framework 42.

As shown in Figure 1, described filter 5 the 4th spring 58 that comprises the 5th framework 51, be positioned at the 5th support 52 on the left of described 5th framework 51, be positioned at the first screen pack 53 of described 5th framework 51, be positioned at the first montant 54 above described first screen pack 53, be positioned at the 6th support 55 on the right side of described first montant 54, be positioned at cylinder 56 below described 6th support 55, be positioned at the first gripper shoe 57 below described cylinder 56 and be positioned at below described first gripper shoe 57.The right-hand member of described 5th framework 51 leans on the left surface of described second projection 423, make the aqueous water flowed out from described fifth hole 422 can enter in the 5th framework 51, the left surface of described 5th framework 51 is provided with the 6th through hole 511, described 6th through hole 511 is in cylindrical shape, and described 6th through hole 511 communicates with the inside of described 5th framework 51.Described 5th support 52 is in concave shape, one end of described 5th support 52 is fixedly connected with the left surface of described 5th framework 51, the other end of described 5th support 52 is horizontal and be provided with the first magnet 521, described first magnet 521 is in cuboid, and described first magnet 421 is fixedly connected with described 5th support 52.Described first screen pack 53 is in dendroid, the soffit of described first screen pack 53 and the inner surface of described 5th framework 51 are slidably connected, described first screen pack 53 is provided with the first plugging block 531 being positioned at left side and the 5th spring 532 be positioned at above described first plugging block 531, described first plugging block 531 is in cylinder, described first plugging block 531 is horizontal, and the right surface of described first plugging block 531 is fixedly connected with the left surface of described first screen pack 53.Described 5th spring 532 is provided with two and lays respectively at upper and lower both sides, described 5th spring 532 is horizontal, the left end of described 5th spring 532 is fixedly connected with the inner surface of described 5th framework 51, and the other end of described 5th spring 532 is fixedly connected with the left surface of described first screen pack 53.Described first montant 54 is in vertical shape, the lower end of described first montant 54 is fixedly connected with the upper surface of described first screen pack 53, the left surface of described first montant 54 is provided with the second magnet 541, described second magnet 541 is in cuboid, the right surface of described second magnet 541 is fixedly connected with the left surface of described first montant 54, and described second magnet 541 can attract each other with described first magnet 521.Described 6th support 55 is in L-type, one section of described 6th support 55 is fixedly connected with the soffit of described 3rd framework 31, the other end of described 6th support 55 is fixedly connected with the left surface of described 4th framework 42, described 6th support 55 is provided with the 6th spring 551, described 6th spring 551 is horizontal, the left end of described 6th spring 551 is fixedly connected with the right surface of described first montant 54, and the right-hand member of described 6th spring 551 is fixedly connected with described 6th support 55.The upper surface of described cylinder 56 is fixedly connected with described 6th support 55, described cylinder 56 is provided with the head rod 561 being positioned at right side and the second catch bar being positioned at left side, described head rod 561 is in cuboid, described head rod 561 horizontal positioned, the left end of described head rod 561 is fixedly connected with the right surface of described cylinder 56, the right-hand member of described head rod 561 is fixedly connected with the left surface of described 4th framework 42, described second catch bar is cuboid, described second catch bar horizontal device, the right-hand member of described second catch bar is connected with described cylinder 56, the left end of described second catch bar is fixedly connected with the right surface of described first montant 54.Described first gripper shoe 57 is in cuboid, described first gripper shoe 57 horizontal positioned, the right-hand member of described first gripper shoe 57 is fixedly connected with the left surface of described 4th framework 42, the soffit of described cylinder 56 is fixedly connected with the upper surface of described first gripper shoe 57, the below of described first gripper shoe 57 is provided with the 7th support, described 7th support is L-type, one end of described 7th support is fixedly connected with the soffit of described first gripper shoe 57, and the other end of described 7th support is fixedly connected with the left surface of described 4th support 45.Described 4th spring 58 is horizontal, and the left end of described 4th spring 58 is fixedly connected with the right surface of described first montant 54, and the right-hand member of described 4th spring 58 is fixedly connected with described 7th support.The upper end of described first support 14 is fixedly connected with the soffit of described 5th framework 51, and one end of described second support 15 is fixedly connected with the soffit of described 4th framework 42, and the other end of described second support 15 is fixedly connected with described 5th framework 51.

As shown in Figure 1, described 3rd liquefying plant 6 comprises the 6th framework 61, be positioned at the heat-conducting plate 62 of described 6th framework 61, be positioned at the 3rd pipeline 63 on the right side of described 6th framework 61, be arranged at the first water pump 64 on described 3rd pipeline 63, be arranged at the first fixed bar 65 in described 6th framework 61, be positioned at the 4th pipeline 66 on the left of described 6th framework 61, be arranged at the second water pump 67 on described 4th pipeline 66, be positioned at the first fixed mount 68 above described 6th framework 61, be positioned at the 5th pipeline 69 on the left of described 6th framework 61 and be arranged at the spin 60 of described 5th pipeline 69.So the 6th framework 61 cross section is hollow right-angled trapezium, described 6th framework 61 is vertically placed, described 6th framework 61 adopts heat-barrier material to make, described 6th framework 61 is provided with the first circular hole 611 being positioned at left surface, the second circular hole 612 being positioned at right surface, is positioned at the 3rd circular hole 613 of left surface and is positioned at the 4th circular hole 614 of soffit, and described first circular hole 611, second circular hole 612, the 3rd circular hole 613 and the 4th circular hole 614 are cylindrical shape and communicate with the inside of described 6th framework 61.One end of described 3rd support 19 is fixedly connected with the left surface of described 6th framework 61.Described heat-conducting plate 62 is in skewed, and the side of described heat-conducting plate 62 is fixedly connected with the inner surface of described 6th framework 61, thus the space of described 6th framework 61 inside is divided into upper and lower two parts, and described heat-conducting plate 62 adopts Heat Conduction Material to make.Described 3rd pipeline 63 is in zigzag, one end of described 3rd pipeline 63 is aimed at described 6th through hole 511 and is fixedly connected with the left surface of described 5th framework 51, the inside of described 3rd pipeline 63 is communicated with the inside of described 5th framework 51, the other end of described 3rd pipeline 63 is aimed at described second circular hole 612 and is fixedly connected with the right surface of described 6th framework 61, and the inside of described 3rd pipeline 63 is communicated with the inside of described 6th framework 61.Described first water pump 64 is arranged on described 3rd pipeline 63, for the aqueous water in the 5th framework 51 and steam being drawn in the 3rd pipeline 63.Described first fixed bar 65 is in cuboid, described first fixed bar 65 horizontal positioned, the left end of described first fixed bar 65 is fixedly connected with the right surface of described 6th framework 61, described 3rd pipeline 63 runs through the upper and lower surface of described first fixed bar 65 and is fixedly connected with it, thus plays fixation to described 3rd pipeline 63.One end of described 4th pipeline 66 is aimed at described first circular hole 611 and is fixedly connected with the left surface of described 6th framework 61, the other end of described 4th pipeline 66 is aimed at described 4th circular hole 614 and is fixedly connected with the soffit of described 6th framework 61, and the inside of described 4th pipeline 66 is communicated with the inside of described 6th framework 61.Described second water pump 67 is arranged on described 4th pipeline 66, for the aqueous water above heat-conducting plate 62 being drawn into the below of heat-conducting plate 62.Described first fixed mount 68 is in L-type, and one end of described first fixed mount 68 is fixedly connected with the upper surface of described 6th framework 61, and the other end of described first fixed mount 68 is fixedly connected with the left surface of described first framework 21.One end of described 5th pipeline 69 is aimed at described 3rd circular hole 613 and is fixedly connected with the left surface of described 6th framework 61, the inside of described 5th pipeline 69 is communicated with the inside of described 6th framework 61, and described first fixed block 191 is fixedly connected with described 5th pipeline 69.Described spin 60 is in spherical, and described spin 60 is contained in described 5th pipeline 69, and described spin 60 is provided with some bristles 601, thus can filter the aqueous water entered in the 5th pipeline 69.The upper end of described second support bar 17 is fixedly connected with described 5th pipeline 69.

As shown in Figures 1 and 2, described material collecting device 7 comprises rewinding case 71, is positioned at the first square 72 on the left of described rewinding case 71, is positioned at the 7th spring 73 on the right side of described first square 72, is positioned at the second fixed mount 74 on the left of described first square 72, is positioned at aggregate bin 75 above described second fixed mount 74, is positioned at outlet pipe 76 below described aggregate bin 75, is positioned at the rotating frame 77 below described outlet pipe 76 and is positioned at the second square 78 below described rotating frame 77.Described rewinding case 71 is in hollow cuboid, and the soffit of described rewinding case 71 contacts with the upper surface of described base plate 1.Described first square 72 is in being cuboid, and the soffit of described first square 72 is fixedly connected with the upper surface of described base plate 1.Described 7th spring 73 is in vertical shape, and the lower end of described 7th spring 73 is fixedly connected with the upper surface of described base plate 1, and the upper end of described 7th spring 73 is fixedly connected with the soffit of described rotating frame 77.Described second fixed mount 74 is in L-type, and one end of described second fixed mount 74 is fixedly connected with the upper surface of described base plate 1, and the other end of described second fixed mount 74 is horizontal and be fixedly connected with described aggregate bin 75.Described aggregate bin 75 is in hollow cone, and the water side of described 5th pipeline 69 is positioned at directly over described aggregate bin 75, and the lower end of described aggregate bin 75 is provided with open-work 751, and described open-work 751 communicates with the inside of described aggregate bin 75.Described outlet pipe 76 is in vertical shape, the upper end of described outlet pipe 76 is aimed at described open-work 751 and is fixedly connected with the lower end of described aggregate bin 75, the inside of described outlet pipe 76 is communicated with the inside of described aggregate bin 75, the lower end of described outlet pipe 76 is provided with the second joint ring 761, in the form of a ring, the upper surface of described second joint ring 761 is fixedly connected with the soffit of described outlet pipe 76 described second joint ring 761.Described rotating frame 77 is in L-type, one end of described rotating frame 77 is vertical shape, the other end of described rotating frame 77 is horizontal, described second joint ring 761 leans on described rotating frame 77, thus temporarily can play the effect of sealing, the right-hand member of described rotating frame 77 is positioned at the top of described rewinding case 71, described second square 78 is in cuboid, the upper surface of described second square 78 is fixedly connected with the soffit of described rotating frame 77, described second square 78 turns with described first square 72 axle and is connected, described second square 78 can be rotated relatively with described first square 72.

As shown in Figures 1 and 2, when described high efficiency condensation dew formula air water-intaking system of the present invention uses, first air inlet pipe 22 is connect the larger gas outlet of humidity ratio, the air making humidity ratio larger enters in the first framework 21, air at ordinary times can certainly be drawn in the first framework 21, just humidity more arrives, and water intaking effect is better.Then the first heating rod 24 is started, second heating rod 262 and the 3rd heating rod 282, the gas in the first framework 21 is made to start to heat up, just enter into gas in the first framework 21 first through the heating of the first heating rod 24, heat distributes through the first heat radiation frame 23, preheating can be carried out to gas, then gas enters into the top of demarcation strip 25 through the second through hole 251, then through the heating of the second heating rod 262 and the 3rd heating rod 282, temperature is made further to increase, the setting of the 3rd heating rod 282, not only can heat gas, can also prevent gas from liquefying on the inner surface of shut 27, prevent the water droplet of post liquefaction from staying in the first framework 21 always and cannot effectively discharge, the effect of impact water intaking.When the temperature of the gas in the first framework 21 reach necessarily require time, move up briquetting 292, first lever 29 is moved up, gas is made to enter in the 3rd framework 31 from the top of the first framework 21, now be moved to the left holding rod 371, make to lean block 37 to be moved to the left, and then drive movable block 39 to be moved to the left, until the upper surface of pushing block 37 leans in briquetting 292, upper surface due to pushing block 37 is skewed, thus briquetting 292 can be remained on any height, simultaneously when movable block 39 moves to left side, due to the rubbing action of locating rack 38 and the 3rd cross bar 36, described movable block 39 can not be moved right easily, thus played a supporting role by the second spring 391 pairs of pushing blocks 39, the first lever 29 is made to be in a height always and can not to fall down, alleviate the labour intensity of workman.Enter into gas in the 3rd framework 31 due to the temperature difference primary liquefaction, make to there is a small amount of aqueous water in the 3rd framework 31, water can be placed by closed-loop 32 as required simultaneously, because closed-loop 32 adopts Heat Conduction Material to make, thus good cooling effect can be played when placing water in closed-loop 32, make the steam of the liquefaction in the 3rd framework 31 more, be placed with water in cooling tube 34 simultaneously, the rising that in the 3rd framework 31, temperature is too fast can be prevented, make the gas in the 3rd framework 31 can carry out preliminary liquefaction all the time.Primary liquefaction is carried out in described 3rd framework 31, not only can alleviate the pressure liquefied below, the temperature in the 3rd framework 31 can also be made to remain on certain level, and the further liquefaction be conducive to steam, the heat absorption capacity of aqueous water is comparatively strong, makes it possible to effectively control the temperature of steam.Due to the setting of corner block 312, the aqueous water of the steam in the 3rd framework 31 and primary liquefaction is made to enter in the first pipeline 30, then enter in the 4th framework 42, because the temperature of the 4th framework 42 is lower, the steam entered in the 4th framework 42 is made to start to liquefy, simultaneously due to the setting of the bar 43 that liquefies, make the liquefaction of steam more quick, and due to the curved design of the bar 43 that liquefies, liquefaction bar 43 is increased with the contact area of steam, liquefaction effect is better, simultaneously due to the setting of refluence block 421, steam can be prevented to be gathered on the inner surface of the 4th framework 42 always, steam is made to drop after refluence block 421 on the inner surface of the 4th framework 4, simultaneously due to the setting of refluence block 421, the area that the aqueous water of post liquefaction is contacted with steam increases, more be conducive to the further liquefaction of steam, after steam liquefies a period of time in the 4th framework 42, move up the first catch bar 46, second lever 44 is moved up, 3rd spring 451 is compressed, then steam and aqueous water enter in the 5th framework 51 through fourth hole 422, then the first catch bar 46 is unclamped, the second lever 44 is made to return to original state.Then cylinder 56 is started, first montant 54 is moved right, and then the first screen pack 53 is moved right, thus can the aqueous water in the 5th framework 51 be filtered, first plugging block 531 no longer gets lodged in the 6th through hole 511 simultaneously, then the aqueous water after the first screen pack 53 filters enters in the 3rd pipeline 63, then the first water pump 64 is started, the water in the 3rd pipeline 63 is made to enter in the 6th framework 61, then on heat-conducting plate 65, then enter in the 4th pipeline 66, then the second water pump 67 is started, the aqueous water in the 4th pipeline 66 is made again to enter in the 6th framework 61, and be in the below of heat-conducting plate 62, because heat-conducting plate 62 adopts Heat Conduction Material to make, thus heat conduction can be carried out to the liquid above heat-conducting plate 62, then the water below heat-conducting plate 62 enters in the 5th pipeline 69, then enter into after the filtration of bristle 601 in deserted and lonely bucket 75, then enter in outlet pipe 76 through open-work 751, due to the setting of the second joint ring 761, water can not be discharged, when dilutional hyponatremia in outlet pipe 76, described 7th spring 73 is compressed, and then rotating frame 77 is rotated counterclockwise, water in outlet pipe 76 is entered in rewinding case 71.So far, high efficiency condensation dew formula air water-intaking system of the present invention use procedure is described.

The above; be only the specific embodiment of the present invention, but protection scope of the present invention is not limited thereto, any those skilled in the art are in the technical scope that the present invention discloses; change can be expected easily or replace, all should be encompassed within protection scope of the present invention.Therefore, protection scope of the present invention should be as the criterion with the protection domain of described claim.

Claims (8)

1. a high efficiency condensation dew formula air water-intaking system, is characterized in that: described high efficiency condensation dew formula air water-intaking system comprises base plate, be positioned at the heater above described base plate, be positioned at the first liquefying plant on the right side of described heater, be positioned at the second liquefying plant below described first liquefying plant, be positioned at the filter on the left of described second liquefying plant, the material collecting device being positioned at the 3rd liquefying plant on the left of described filter and being positioned at below described 3rd liquefying plant, described base plate is provided with the first support bar, be positioned at the first brace on the right side of described first support bar, be positioned at the second brace above described first brace, be positioned at the first support on the left of described first support bar, be positioned at the second support above described first support bar, be positioned at the first locating piece on the left of described first support bar, be positioned at second support bar in left side, the 3rd support being positioned at the 3rd support bar on the left of described second support bar and being positioned on the left of described 3rd support bar, described heater comprises the first framework, be positioned at the air inlet pipe below described first framework, be positioned at the first heat radiation frame of described first framework, be positioned at the first heating rod of described first heat radiation frame, be positioned at the demarcation strip above described first heat radiation frame, be positioned at the first cross bar above described demarcation strip, be positioned at the shut above described first cross bar, be positioned at the second framework above described shut, the first spring being positioned at the first lever on the right side of described first framework and being positioned on the left of described first lever, described first liquefying plant comprises the 3rd framework, be positioned at the closed-loop of described 3rd framework inside, be positioned at the cooler bin outside described 3rd framework, be positioned at the cooling tube of described cooler bin, be positioned at the 4th support bar above described 3rd framework, be positioned at the 3rd cross bar above described 4th support bar, be positioned at and lean block above described 3rd cross bar, the locating rack on the right side of block is leaned described in being positioned at, the movable block being positioned at described locating rack inside and the first pipeline be positioned on the right side of described 3rd framework, described second liquefying plant comprises second pipe, be positioned at the 4th framework below described second pipe, be positioned at the liquefaction bar of described 4th framework inside, be positioned at the second lever on the left of described 4th framework, be positioned at the 4th support above described second lever, be positioned at the first catch bar on the left of described second lever, described filter comprises the 5th framework, be positioned at the 5th support on the left of described 5th framework, be positioned at the first screen pack of described 5th framework, be positioned at the first montant above described first screen pack, be positioned at the 6th support on the right side of described first montant, be positioned at the cylinder below described 6th support, be positioned at the first gripper shoe below described cylinder and be positioned at the 4th spring below described first gripper shoe, described 3rd liquefying plant comprises the 6th framework, be positioned at the heat-conducting plate of described 6th framework, be positioned at the 3rd pipeline on the right side of described 6th framework, be arranged at the first water pump on described 3rd pipeline, be arranged at the first fixed bar in described 6th framework, be positioned at the 4th pipeline on the left of described 6th framework, be arranged at the second water pump on described 4th pipeline, be positioned at the first fixed mount above described 6th framework, be positioned at the 5th pipeline on the left of described 6th framework and be arranged at the spin of described 5th pipeline, described material collecting device comprises rewinding case, be positioned at the first square on the left of described rewinding case, be positioned at the 7th spring on the right side of described first square, be positioned at the second fixed mount on the left of described first square, be positioned at the aggregate bin above described second fixed mount, be positioned at the outlet pipe below described aggregate bin, be positioned at the rotating frame below described outlet pipe and be positioned at the second square below described rotating frame.

2. high efficiency condensation dew formula air water-intaking system as claimed in claim 1, it is characterized in that: described first support bar is cuboid, described first support bar is vertically placed, the lower end of described first support bar is fixedly connected with the upper surface of described base plate, described first brace is skewed, the lower end of described first brace is fixedly connected with the upper surface of described base plate, the upper end of described first brace is fixedly connected with the right surface of described first support bar, described second brace is skewed, the lower end of described second brace is fixedly connected with the right surface of described first support bar, described first support is L-type, one end of described first support is fixedly connected with the left surface of described first support bar, the other end of described first support is L-type, described second support is L-type, one end of described second support is horizontal, the other end of described second support is vertical shape, the upper end of described first support bar is fixedly connected with the soffit of described second support, the cross section of described first locating piece is at right angles trapezoidal, the soffit of described first locating piece is fixedly connected with the upper surface of described base plate, the right surface of described first locating piece is fixedly connected with the left surface of described first support bar, described second support bar is cuboid, described second support bar is vertically placed, the lower end of described second support bar is fixedly connected with the upper surface of described base plate, described 3rd support bar is cuboid, described 3rd support bar is vertically placed, the lower end of described 3rd support bar is fixedly connected with the upper surface of described base plate, described 3rd support is in the concave shape of being sidelong, one end of described 3rd support is fixedly connected with the left surface of described 3rd support bar, the other end of described 3rd support is horizontal, described 3rd support is provided with the first fixed block, described first fixed block is cuboid, the left surface of described first fixed block is fixedly connected with described 3rd support.

3. high efficiency condensation dew formula air water-intaking system as claimed in claim 2, it is characterized in that: described first framework is hollow shape, described first framework is provided with the first through hole being positioned at soffit, described first through hole communicates with the inside of described first framework, described air inlet pipe is vertical shape, the upper end of described air inlet pipe is aimed at described first through hole and is fixedly connected with the soffit of described first framework, described air inlet pipe is provided with the first valve, described first heat radiation frame is provided with two and lays respectively at the left and right sides, described first heat radiation frame is inverted concave shape, the soffit of described first heat radiation frame is fixedly connected with the inner surface of described first framework, described first heating rod is provided with two and lays respectively at the left and right sides, described demarcation strip is horizontal, the side of described demarcation strip is fixedly connected with the inner surface of described first framework, described demarcation strip is provided with some the second through holes running through its upper and lower surface, described first cross bar is horizontal, the right-hand member of described first cross bar is fixedly connected with the inner surface of described first framework, described first cross bar is provided with the second heat radiation frame being positioned at below and the second heating rod being positioned at described second heat radiation frame inside, described second heat radiation frame cross section is concave shape, the upper surface of described second heat radiation frame is fixedly connected with the soffit of described first cross bar, described first cross bar adopts heat-barrier material to make, described second heat radiation frame adopts Heat Conduction Material to make, described shut is that lower left upper right side tilts, the lower end of described shut is fixedly connected with the upper surface of described first framework, described shut is provided with the first joint ring, described first joint ring in the form of a ring, described first joint ring is fixedly connected with described shut, described second framework is concave shape, the soffit of described second framework is fixedly connected with the upper surface of described shut, described second framework adopts heat-barrier material to make, described shut adopts Heat Conduction Material to make, be provided with in described second framework the 3rd heat radiation frame and be positioned at described 3rd heat radiation frame the 3rd heating rod, described 3rd heat radiation frame is concave shape, the upper surface of described 3rd heat radiation frame is fixedly connected with the inner surface of described second framework, described 3rd heat radiation frame adopts Heat Conduction Material to make, the cross section of described first lever is L-type, the lower end of described first lever is horizontal, the upper end of described first lever is vertical shape, described first lever is provided with the first sealing block and is positioned at the briquetting of upper end.Described first sealing block is cuboid, the right surface of described first sealing block is fixedly connected with the lower end of described first lever, the left surface of described first sealing block and the right surface contact of described first framework, described briquetting is cuboid, described briquetting horizontal positioned, the upper end of described first lever is fixedly connected with the soffit of described briquetting, described first lever is through described first joint ring, the inner surface of described first joint ring is connected with the side slip of described first lever, described first spring is vertical shape, the upper end of described first spring is fixedly connected with the soffit of described briquetting, described first spring is provided with the second cross bar being positioned at below, described second cross bar is horizontal, the left end of described second cross bar is fixedly connected with the right surface of described second framework, the right-hand member of described second cross bar to lean on the left surface of described first lever and is slidably connected with it, the lower end of described first spring is fixedly connected with the upper surface of described second cross bar.

4. high efficiency condensation dew formula air water-intaking system as claimed in claim 3, it is characterized in that: described 3rd framework is provided with the third through-hole being positioned at right surface and the corner block being positioned at inside, described third through-hole communicates with the inside of described 3rd framework, the cross section of described corner block is triangular in shape, the soffit of described corner block is fixedly connected with the inner surface of described 3rd framework, the left surface of described corner block is fixedly connected with the right surface of described second framework, the upper surface of described corner block is skewed, described closed-loop is semi-annular shape, described closed-loop adopts Heat Conduction Material to make, described 3rd framework adopts Heat Conduction Material to make, the cross section of described cooler bin is concave shape, the left surface of described cooler bin is fixedly connected with the right surface of described 3rd framework, described cooler bin adopts heat-barrier material to make, described cooling tube is provided with several and is evenly distributed in described cooler bin, water is connected with in described cooling tube, described 4th support bar is vertical shape, the lower end of described 4th support bar is fixedly connected with the upper surface of described 3rd framework, the upper end of described 4th support bar is fixedly connected with the soffit of described 3rd cross bar, described 3rd cross bar is horizontal, the left end of described 3rd cross bar is fixedly connected with described 3rd framework, the described cross section leaning block is at right angles trapezoidal, the described soffit leaning block is connected with the upper surface slide of described 3rd cross bar, the described upper surface leaning block is skewed, the described right side leaning block is provided with holding rod, described holding rod is L-type, one end of described holding rod is fixedly connected with the described right surface leaning block, the other end of described holding rod is vertical shape, described locating rack is L-type, one end of described locating rack is fixedly connected with the upper surface of described 3rd cross bar, the other end of described locating rack is horizontal, described locating rack is provided with the first projection, described first projection is cuboid, the soffit of described first projection is fixedly connected with the upper surface of described locating rack, the upper surface of described first projection and the soffit of described holding rod are slidably connected, described movable block is cuboid, described movable block is vertically placed, the upper surface of described movable block and the inner surface of described locating rack are slidably connected, the soffit of described movable block is connected with the upper surface slide of described 3rd cross bar, described movable block is provided with the second spring, described second spring horizontal is placed, the left end of described second spring is fixedly connected with the described right surface leaning block, the right-hand member of described second spring is fixedly connected with the left surface of described movable block, described first pipeline is horizontal, the left end of described first pipeline is aimed at described third through-hole and is fixedly connected with the right surface of described 3rd framework, the right-hand member of described first pipeline is closed, the soffit of described first pipeline is provided with fourth hole, described fourth hole communicates with the inside of described first pipeline.

5. high efficiency condensation dew formula air water-intaking system as claimed in claim 4, it is characterized in that: described second pipe is vertical shape, the upper end of described second pipe is aimed at described fourth hole and is fixedly connected with described first pipeline, the upper end of described 4th framework is fixedly connected with described second pipe, described 4th framework is provided with and is positioned at inner refluence block, be positioned at the fifth hole of left surface and be positioned at the second projection of described 4th framework left surface, the cross section of described refluence block is triangular in shape, the upper surface of described refluence block is skewed, the side of described refluence block is fixedly connected with the inner surface of described 4th framework, described fourth hole communicates with the inside of described 4th framework, described second projection is cuboid, the right surface of described second projection is fixedly connected with the left surface of described 4th framework, described liquefaction bar is bending, described liquefaction bar adopts thermal conductive metallic material to make, the upper end of described liquefaction bar is fixedly connected with the inner surface of described 4th framework, described second lever is cuboid, described second lever is vertically placed, the lower end of described second lever is provided with the second sealing block, described second sealing block is cuboid, the upper surface of described second sealing block is fixedly connected with the soffit of described second lever, described 4th support is L-type, one end of described 4th support is fixedly connected with the left surface of described 4th framework, the other end of described 4th support is vertical shape, the left surface of described second lever is connected with described 4th bracket slide, the right surface of described second lever and the left surface of described second framework are slidably connected, described 4th support is provided with the 3rd spring, described 3rd spring is vertical shape, the upper end of described 3rd spring is fixedly connected with described 4th support, the lower end of described 3rd spring is fixedly connected with described second lever, described first catch bar is L-type, one end of described first pushing block is fixedly connected with the left surface of described second lever, the other end of described first catch bar is vertical shape, the upper end of described second brace is fixedly connected with the soffit of described 4th framework.

6. high efficiency condensation dew formula air water-intaking system as claimed in claim 5, it is characterized in that: the right-hand member of described 5th framework leans on the left surface of described second projection, the left surface of described 5th framework is provided with the 6th through hole, described 6th through hole communicates with the inside of described 5th framework, described 5th support is concave shape, one end of described 5th support is fixedly connected with the left surface of described 5th framework, the other end of described 5th support is horizontal and be provided with the first magnet, described first magnet is cuboid, described first magnet is fixedly connected with described 5th support, described first screen pack is vertical shape, the soffit of described first screen pack and the inner surface of described 5th framework are slidably connected, described first screen pack is provided with the first plugging block being positioned at left side and the 5th spring be positioned at above described first plugging block, described first plugging block is cylinder, described first plugging block is horizontal, the right surface of described first plugging block is fixedly connected with the left surface of described first screen pack, described 5th spring is provided with two and lays respectively at upper and lower both sides, described 5th spring is horizontal, the left end of described 5th spring is fixedly connected with the inner surface of described 5th framework, the other end of described 5th spring is fixedly connected with the left surface of described first screen pack, described first montant is vertical shape, the lower end of described first montant is fixedly connected with the upper surface of described first screen pack, the left surface of described first montant is provided with the second magnet, described second magnet is cuboid, the right surface of described second magnet is fixedly connected with the left surface of described first montant, described 6th support is L-type, one end of described 6th support is fixedly connected with the soffit of described 3rd framework, the other end of described 6th support is fixedly connected with the left surface of described 4th framework, described 6th support is provided with the 6th spring, described 6th spring is horizontal, the left end of described 6th spring is fixedly connected with the right surface of described first montant, the right-hand member of described 6th spring is fixedly connected with described 6th support, the upper surface of described cylinder is fixedly connected with described 6th support, described cylinder is provided with the head rod being positioned at right side and the second catch bar being positioned at left side, described head rod is cuboid, described head rod horizontal positioned, the left end of described head rod is fixedly connected with the right surface of described cylinder, the right-hand member of described head rod is fixedly connected with the left surface of described 4th framework, described second catch bar is cuboid, described second catch bar horizontal device, the right-hand member of described second catch bar is connected with described cylinder, the left end of described second catch bar is fixedly connected with the right surface of described first montant, described first gripper shoe is cuboid, described first gripper shoe horizontal positioned, the right-hand member of described first gripper shoe is fixedly connected with the left surface of described 4th framework, the soffit of described cylinder is fixedly connected with the upper surface of described first gripper shoe, the below of described first gripper shoe is provided with the 7th support, described 7th support is L-type, one end of described 7th support is fixedly connected with the soffit of described first gripper shoe, the other end of described 7th support is fixedly connected with the left surface of described 4th support, described 4th spring is horizontal, the left end of described 4th spring is fixedly connected with the right surface of described first montant, the right-hand member of described 4th spring is fixedly connected with described 7th support, the upper end of described first support is fixedly connected with the soffit of described 5th framework, one end of described second support is fixedly connected with the soffit of described 4th framework, the other end of described second support is fixedly connected with described 5th framework.

7. high efficiency condensation dew formula air water-intaking system as claimed in claim 6, it is characterized in that: so the 6th framework cross section is hollow right-angled trapezium, described 6th framework is vertically placed, described 6th framework adopts heat-barrier material to make, described 6th framework is provided with the first circular hole being positioned at left surface, be positioned at second circular hole on right surface, be positioned at the 3rd circular hole of left surface and be positioned at the 4th circular hole of soffit, described first circular hole, second circular hole, 3rd circular hole and the 4th circular hole communicate with the inside of described 6th framework, one end of described 3rd support is fixedly connected with the left surface of described 6th framework, described heat-conducting plate is skewed, the side of described heat-conducting plate is fixedly connected with the inner surface of described 6th framework, described heat-conducting plate adopts Heat Conduction Material to make, described 3rd pipeline is zigzag, one end of described 3rd pipeline is aimed at described 6th through hole and is fixedly connected with the left surface of described 5th framework, the other end of described 3rd pipeline is aimed at described second circular hole and is fixedly connected with the right surface of described 6th framework, described first fixed bar is cuboid, described first fixed bar horizontal positioned, the left end of described first fixed bar is fixedly connected with the right surface of described 6th framework, described 3rd pipeline runs through the upper and lower surface of described first fixed bar and is fixedly connected with it, one end of described 4th pipeline is aimed at described first circular hole and is fixedly connected with the left surface of described 6th framework, the other end of described 4th pipeline is aimed at described 4th circular hole and is fixedly connected with the soffit of described 6th framework, described first fixed mount is L-type, one end of described first fixed mount is fixedly connected with the upper surface of described 6th framework, the other end of described first fixed mount is fixedly connected with the left surface of described first framework, one end of described 5th pipeline is aimed at described 3rd circular hole and is fixedly connected with the left surface of described 6th framework, described first fixed block is fixedly connected with described 5th pipeline, described spin is spherical, described spin is contained in described 5th pipeline, described spin is provided with some bristles, the upper end of described second support bar is fixedly connected with described 5th pipeline.

8. high efficiency condensation dew formula air water-intaking system as claimed in claim 7, it is characterized in that: described rewinding case is hollow cuboid, the soffit of described rewinding case contacts with the upper surface of described base plate, described first square is in being cuboid, the soffit of described first square is fixedly connected with the upper surface of described base plate, described 7th spring is vertical shape, the lower end of described 7th spring is fixedly connected with the upper surface of described base plate, the upper end of described 7th spring is fixedly connected with the soffit of described rotating frame, described second fixed mount is L-type, one end of described second fixed mount is fixedly connected with the upper surface of described base plate, the other end of described second fixed mount is horizontal and be fixedly connected with described aggregate bin, described aggregate bin is hollow cone, the water side of described 5th pipeline is positioned at directly over described aggregate bin, the lower end of described aggregate bin is provided with open-work, described open-work communicates with the inside of described aggregate bin, described outlet pipe is vertical shape, the upper end of described outlet pipe is aimed at described open-work and is fixedly connected with the lower end of described aggregate bin, the lower end of described outlet pipe is provided with the second joint ring, described second joint ring in the form of a ring, the upper surface of described second joint ring is fixedly connected with the soffit of described outlet pipe, described rotating frame is L-type, one end of described rotating frame is vertical shape, the other end of described rotating frame is horizontal, described second joint ring leans on described rotating frame, the right-hand member of described rotating frame is positioned at the top of described rewinding case, described second square is cuboid, the upper surface of described second square is fixedly connected with the soffit of described rotating frame, described second square turns with described first square axle and is connected.