CN109866906B

CN109866906B - Solar seawater desalination overwater platform capable of automatically feeding water and using method thereof

Info

Publication number: CN109866906B
Application number: CN201910283286.1A
Authority: CN
Inventors: 潘卓阳
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-04-10
Filing date: 2019-04-10
Publication date: 2020-10-16
Anticipated expiration: 2039-04-10
Also published as: CN109866906A

Abstract

The invention discloses an automatic water inlet solar seawater desalination overwater platform and a using method thereof, wherein the platform comprises a placing box, a water containing tank, a stirring mechanism, an oscillating mechanism, a rotary motor, a water suction pump and an energy supply device, the placing box is internally provided with a water containing cavity, the stirring mechanism and the oscillating mechanism are arranged at the lower part of the water containing cavity, the rotary motor is arranged on the outer wall of the placing box, an output shaft of the rotary motor is connected with the stirring mechanism, a transmission mechanism is arranged between the stirring mechanism and the oscillating mechanism, the water suction pump is directly or indirectly arranged on the side wall of the placing box, a water outlet of the water suction pump is communicated with the upper space of the water containing cavity, and the water containing tank is communicated with the upper space; a heating plate is arranged on the inner wall of the top of a water containing cavity in the placing box, a condensing plate is arranged on the inner wall of the top of the water containing box, and a plurality of liquid level sensors are arranged in the water containing cavity. The invention has high practicability, can automatically feed water and discharge water, has high intelligent degree, simple operation and high efficiency and convenience in water storage.

Description

Solar seawater desalination overwater platform capable of automatically feeding water and using method thereof

Technical Field

The invention relates to the technical field of seawater desalination equipment, in particular to an automatic water inlet solar seawater desalination overwater platform.

Background

The solar seawater desalination device is large in occupied area, particularly the island is limited on land, the sea surface is not limited, many ocean transportation and ocean fleet in China need to transport and patrol for several months on the sea, the fresh water supplement cost is high, the time is long, and the real-time fresh water guarantee is very important.

Disclosure of Invention

Based on the technical problems in the background art, the invention provides the solar seawater desalination overwater platform capable of automatically feeding water and the use method thereof, the structure is ingenious, the use is convenient, and the problems in the background art can be effectively solved.

An automatic water inlet solar seawater desalination overwater platform comprises a placing box, a water containing tank, a stirring mechanism, an oscillating mechanism, a rotating motor, a water suction pump and an energy supply device, wherein the placing box is internally provided with a water containing cavity, the stirring mechanism and the oscillating mechanism are arranged at the lower part of the water containing cavity, the rotating motor is arranged on the outer wall of the placing box, an output shaft of the rotating motor is connected to the stirring mechanism, a transmission mechanism is arranged between the stirring mechanism and the oscillating mechanism, the water suction pump is directly or indirectly arranged on the side wall of the placing box, a water outlet of the water suction pump is communicated with the upper space of the water containing cavity, and the water containing tank is communicated with the upper space of the water containing cavity; place and be provided with the hot plate on the top inner wall in incasement flourishing water cavity, be provided with the condenser plate on the top inner wall of flourishing water tank, energy supply device install place on the case and with rotating electrical machines, suction pump, hot plate and condenser plate electric connection, flourishing water intracavity is provided with a plurality of level sensor.

Through adopting above-mentioned technical scheme, place the seawater in the case after the hot plate heating, volatile vapor is drinkable fresh water, and fresh water can get into and store in water containing tank after condenser treatment in water containing tank, and ingenious convenience is convenient for take, and level sensor's setting can make and place the case and can be automatic water supply under the effect of water suction pump, guarantees the continuation supply of seawater and the processing and the storage of fresh water. The stirring mechanism and the oscillating mechanism can prevent seawater from separating out crystals, and are convenient for cleaning the placing box.

As a preferred technical scheme of the invention, the stirring mechanism comprises a rotating shaft and stirring shafts, the rotating shaft is rotatably arranged in the placing box, one end of the rotating shaft is fixedly connected with an output shaft of a rotating motor, and a plurality of groups of stirring shafts are fixedly connected on the outer wall of the rotating shaft. Through adopting above-mentioned technical scheme, rabbling mechanism's concrete structure, it is compact reasonable, can prevent that the sea water from separating out the crystallization.

According to a preferable technical scheme of the invention, the bottom of the side surface of the placing box is provided with a water outlet hole, one end, close to the water outlet hole, of the part, in the placing box, of the rotating shaft is fixedly sleeved with a gear, a moving plate is slidably mounted on the inner wall of the side, close to the water outlet hole, of the placing box, a vertical plate is fixedly mounted at the bottom of the moving plate, one side, close to the rotating shaft, of the vertical plate is fixedly provided with a rack, the gear is meshed with the rack, and one side, close to the water outlet hole. Through adopting above-mentioned technical scheme, the setting that the closing plate will remove realizes the linkage with the rotation of rotation axis, and is ingenious swift, and when sea water concentration is great, when rabbling mechanism rotated, the play water of staggering of drive closing plate, the sea water of being convenient for is discharged to the new sea water of suction.

As a preferred technical scheme of the invention, the oscillating mechanism comprises two fixed plates, a cross column, two sleeve plates and two push plates, wherein the fixed plates are fixedly arranged at the bottom of the water containing cavity, the cross column is arranged between the two fixed plates, the middle part of the cross column is fixedly connected with a baffle plate, the two sleeve plates are slidably and non-rotatably sleeved on the outer wall of the cross column, the baffle plate is positioned between the two sleeve plates, the cross column is further sleeved with two first springs, one end of each first spring is connected with one sleeve plate, and the other end of each first spring is connected with the baffle plate or the fixed plate; each push plate is directly or indirectly arranged on each sleeve plate and is positioned on one side close to the sleeve plate. Through adopting above-mentioned technical scheme, oscillating mechanism is favorable to pushing away the bat to the sea water, prevents the crystallization, is favorable to placing the cleanness of incasement.

As a preferable technical solution of the present invention, the transmission mechanism includes a connecting column, a first connecting ball and a second connecting ball, one end of the connecting column is fixedly connected to the rotating shaft, the other end of the connecting column is fixedly connected to the first connecting ball, and the second connecting ball is fixedly connected to the race plate and is located at a position where the second connecting ball can contact one side of the first connecting ball. Through adopting above-mentioned technical scheme, the ingenious linkage of rabbling mechanism with the oscillating mechanism has been guaranteed to drive mechanism's concrete structure, and first connecting ball and second connecting ball intermittent type nature contact regularly and act for oscillating mechanism's oscillation is orderly controllable.

As a preferred technical scheme of the invention, the water containing tank is directly arranged on or arranged on one side of the placing tank through a transverse plate, a traction column is slidably arranged on the inner wall of one side of the water containing tank, which is far away from the placing tank, one end of the traction column, which is positioned in the water containing tank, is connected with a column plate, a second spring is sleeved on the outer wall of the traction column, one end of the second spring is connected with the column plate, the other end of the second spring is connected with the inner wall of the water containing tank, and an L-shaped opening is formed in the traction; the other end of the traction column is connected with a handle. Through adopting above-mentioned technical scheme, the setting of traction column is favorable to following the interior water intaking of holding the water tank, and L type mouth is the passageway that rivers go out for ingenious convenience.

As a preferred technical scheme of the invention, the inner wall of the water containing cavity of the placing box is provided with three liquid level sensors, namely a high liquid level sensor, a middle liquid level sensor and a low liquid level sensor. By adopting the technical scheme, each liquid level sensor is favorable for controlling the water level in the water containing cavity, so that each mechanism and each component can operate in order, and of course, each liquid level sensor can be connected with an external controller to be matched with the actions of the water suction pump, the rotating motor and the like.

As a preferred technical scheme of the invention, the number of the stirring shafts in the same group is four to six, and the four to six stirring shafts in the same group are annularly arranged by taking the rotating shaft as the center. Through adopting above-mentioned technical scheme, the position and the quantity setting of (mixing) shaft are favorable to fully stirring the sea water and are handled.

As a preferred technical scheme of the invention, the energy supply device comprises a storage battery and a solar panel, the storage battery is electrically connected with the solar panel, and the solar panel is arranged at the top of the placing box. Through adopting above-mentioned technical scheme, energy supply device adopts solar panel and battery, environmental protection safety, durable.

The use method of the solar seawater desalination overwater platform capable of automatically feeding water comprises the steps that when the solar seawater desalination overwater platform capable of automatically feeding water is adopted in any one of the technical schemes, in use,

the energy supply device supplies energy to the heating plate, the heating plate heats seawater in a water containing cavity of the placing box, water vapor enters the water containing box, and a condensing plate in the water containing box condenses the water vapor, so that formed fresh water is stored in the water containing box;

when the water level in the placing box is at or below the position of the preset lowest liquid level sensor, the water suction pump sucks seawater into the placing box until the seawater in the placing box is at the position of the preset highest liquid level sensor, and the water suction pump stops pumping water;

when the water level in the placing box is at or lower than the liquid level sensor at the preset middle position, the rotary motor drives the stirring mechanism to stir the seawater in the placing box, the stirring mechanism drives the oscillating mechanism through the transmission mechanism, and the oscillating mechanism oscillates the seawater in the placing box. By adopting the technical scheme, the operation is simple, the use is convenient, and the seawater can be durably and efficiently converted into the fresh water.

Compared with the prior art, the invention has the following beneficial effects:

(1) through ingenious setting and connection of each mechanism, the seawater can be timely treated into fresh water, the seawater in the placing box can be prevented from crystallizing and separating out, new seawater is timely sucked in to continuously desalt, and the seawater desalination device is ingenious, quick, efficient and durable in treatment and convenient to popularize and apply.

(2) When fresh water is required to be taken, the handle is pushed, the handle drives the traction column to move, the traction column drives the baffle column to move, the baffle column stretches the second spring, the L-shaped opening moves into the water containing tank, the fresh water flows out through the water containing tank at the moment, and after water taking is completed, the handle is loosened, so that the water taking device is simple in operation and convenient to take water.

The invention has high practicability, can automatically feed and discharge water, has high intelligent degree, simple operation and convenient water taking.

Drawings

FIG. 1 is a schematic structural view of an automatic water inlet solar seawater desalination overwater platform provided by the invention;

FIG. 2 is a schematic structural view of part A of an automatic water inlet solar seawater desalination overwater platform provided by the invention;

FIG. 3 is a schematic structural view of part B of an automatic water inlet solar seawater desalination overwater platform provided by the invention;

FIG. 4 is a schematic structural view of a portion C of an automatic water intake solar desalination water platform according to the present invention;

fig. 5 is a schematic structural diagram of a portion D of the solar seawater desalination overwater platform capable of automatically feeding water according to the invention.

In the figure: the device comprises a placing box 1, a water inlet 2, a water suction pump 3, a first pipe 4, a second pipe 5, a rotating motor 6, a rotating hole 7, a rotating shaft 8, a moving plate 9, a vertical plate 10, a gear 11, a rack 12, a sealing plate 13, a water outlet 14, a stirring shaft 15, a connecting column 16, a connecting column 17, a sleeve plate 18, a cross column 19, a baffle 20, a first spring 21, a connecting ball 22, a push plate 23, a transverse plate 24, a water containing tank 25, a traction opening 26, a traction column 27, a second spring 28 and an L-shaped opening 29.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, an automatic water inlet solar seawater desalination overwater platform comprises a placing box 1, a water containing box 25, a stirring mechanism, an oscillating mechanism, a rotary motor 6, a water suction pump 3 and an energy supply device, wherein the placing box 1 is internally provided with a water containing cavity, the lower part of the water containing cavity is provided with the stirring mechanism and the oscillating mechanism, the rotary motor 6 is arranged on the outer wall of the placing box 1, an output shaft of the rotary motor 6 is connected with the stirring mechanism, a transmission mechanism is arranged between the stirring mechanism and the oscillating mechanism, the water suction pump 3 is directly or indirectly arranged on the side wall of the placing box 1, a water outlet of the water suction pump 3 is communicated with the upper space of the water containing cavity, and the water containing box 25 is communicated with the upper; place and be provided with the hot plate on the top inner wall of flourishing water cavity in the case 1, be provided with the condenser plate on the top inner wall of flourishing water tank 25, energy supply device install place on the case 1 and with rotating electrical machines 6, suction pump 3, hot plate and condenser plate electric connection, flourishing water intracavity is provided with a plurality of level sensor.

Referring to fig. 1 and 2, the stirring mechanism includes a rotating shaft 8 and a stirring shaft 15, the rotating shaft 8 is rotatably installed in the placing box 1, one end of the rotating shaft 8 is fixedly connected to an output shaft of the rotating motor 6, and a plurality of groups of stirring shafts 15 are fixedly connected to an outer wall of the rotating shaft 8.

Referring to fig. 1 and 2, a water outlet 14 is formed in the bottom of the side surface of the placing box 1, a gear 11 is fixedly sleeved at one end, close to the water outlet 14, of the rotating shaft 8, a moving plate 9 is slidably installed on the inner wall of one side, close to the water outlet 14, of the placing box 1, a vertical plate 10 is fixedly installed at the bottom of the moving plate 9, a rack 12 is fixedly installed at one side, close to the rotating shaft 8, of the vertical plate 10, the gear 11 is meshed with the rack 12, and a sealing plate 13 capable of covering the water outlet 14 is fixedly installed at one side.

Referring to fig. 1 and 3, the oscillating mechanism includes two fixing plates, a cross-post 19, two sleeve plates 18 and two push plates 23, the fixing plates are fixedly mounted at the bottom of the water containing cavity, the cross-post 19 is mounted between the two fixing plates, a baffle 20 is fixedly connected to the middle of the cross-post 19, the two sleeve plates 18 are slidably and non-rotatably sleeved on the outer wall of the cross-post 19, the baffle 20 is located between the two sleeve plates 18, two first springs 21 are further sleeved on the cross-post 19, one end of each first spring 21 is connected with one sleeve plate 18, and the other end of each first spring 21 is connected with the baffle 20 or the fixing plate; each push plate 23 is mounted directly or indirectly to each nest plate 18 on the side of the nest plate adjacent thereto.

Referring to fig. 1 and 4, the transmission mechanism includes a connecting column 16, a first connecting ball 17 and a second connecting ball 22, one end of the connecting column 16 is fixedly connected to the rotating shaft 8, the other end of the connecting column 16 is fixedly connected to the first connecting ball 17, and the second connecting ball 22 is fixedly connected to the strap 18 and is located at a position where it can contact one side of the first connecting ball 17.

Referring to fig. 1 and 5, the water containing tank 25 is directly mounted on or mounted on one side of the water containing tank 25 through a transverse plate 24, a traction column 27 is slidably mounted on the inner wall of one side of the water containing tank 25 away from the water containing tank 1, one end of the traction column 27 located in the water containing tank is connected with a column plate, a second spring 28 is sleeved on the outer wall of the traction column 27, one end of the second spring 28 is connected with the column plate, the other end of the second spring is connected with the inner wall of the water containing tank 25, and an L-shaped opening 29 is formed in the traction column 27; the other end of the traction column 27 is connected with a handle.

The inner wall of the water containing cavity of the placing box 1 is provided with a high liquid level sensor, a middle liquid level sensor and a low liquid level sensor. The number of the stirring shafts 15 in the same group is four to six, and the four to six stirring shafts 15 in the same group are annularly arranged with the rotating shaft 8 as the center. Energy supply device includes battery and solar panel, battery and solar panel electric connection, and solar panel sets up in the top of placing case 1.

More specifically, referring to fig. 1 to 5, from another perspective, a water inlet 2 is formed on an inner wall of one side of a placing box 1, a pump plate is fixedly mounted on one side of the placing box 1, a water suction pump 3 is fixedly mounted on one side of the pump plate away from the placing box 1, a second pipe 5 is connected to a water inlet of the water suction pump 3, a first pipe 4 is connected to a water outlet of the water suction pump 3, a rotating motor 6 is fixedly mounted on one side of the placing box 1, rotating holes 7 and rotating grooves are respectively formed on inner walls of two sides of the placing box 1, a rotating shaft 8 is welded on an output shaft of the rotating motor 6, the rotating shaft 8 is rotatably mounted in the rotating holes 7 and the rotating grooves, a vertical plate 9 is slidably mounted on the inner wall of one side of the placing box 1, a vertical plate 10 is fixedly mounted at the bottom of the moving plate 9, a gear 11 is fixedly sleeved on an outer, gear 11 and rack 12 mesh mutually, and one side fixed mounting that riser 10 is close to second pipe 5 has closing plate 13, has seted up apopore 14 on placing the one side inner wall of case 1, and closing plate 13 covers apopore 14, and the welding of the outside of rotation axis 8 has multiunit (mixing) shaft 15.

The outside welding of rotation axis 8 has two even posts 16, the one end welding that rotation axis 8 was kept away from to even post 16 has first connecting ball 17, the welding has two fixed plates on placing case 1's the bottom inner wall, the welding has same spreader 19 in one side that two fixed plates are close to each other, the outside slip cover of spreader 19 is equipped with two lagging 18, the outside welding of spreader 19 has baffle 20, the first spring 21 that the 19 outside of spreader was located to the cover has all been welded to one side that two lagging 18 are close to each other, the one end that two first springs 21 are close to each other welds respectively in the both sides of baffle 20, the second connecting ball 22 has all been welded at one side top that two lagging 18 were kept away from each other.

In the embodiment, the supporting plates are welded on one side of each of the two sleeve plates 18 close to each other, the push plate 23 is welded on one side of each of the two supporting plates close to each other, the transverse plate 24 is welded on the top of one side of the placing box 1, the water containing tank 25 is fixedly installed at the bottom of the transverse plate 24, the inner wall of one side of the water containing tank 25 far away from the placing box 1 is provided with the traction port 26, the traction port 26 is internally provided with the traction column 27 in a sliding manner, one end of the traction column 27 is welded with the column plate, the outer wall of the traction column 27 is sleeved with the second spring 28, two ends of the second spring 28 are respectively welded on the column plate and the inner wall of one side of the water containing tank 25, the traction column 27 is provided with the two L-shaped ports 29, the top of the placing box 1 is provided with the solar panel, the inner wall of the top, place and seted up first hole and second hole on case 1 and the flourishing water tank 25 respectively, first hole and the downthehole same violently pipe of installing of second, first connecting ball 17 is the same with the specification of second connecting ball 22, and the quantity that is located same group's (mixing) shaft 15 is four to six, and is located same group's four to six (mixing) shaft 15 and is the annular and arranges, and the outside welding of pulling post 27 has the handle, and the handle is L type structure.

Through placing case 1, the inlet opening 2, the suction pump 3, first pipe 4, second pipe 5, rotating electrical machines 6, rotatory hole 7, rotation axis 8, movable plate 9, riser 10, gear 11, rack 12, closing plate 13, apopore 14, (mixing) shaft 15, even post 16, first connecting ball 17, lagging 18, spreader 19, baffle 20, first spring 21, second connecting ball 22, push pedal 23, diaphragm 24, flourishing water tank 25, draw mouthful 26, draw post 27, second spring 28 and L type mouth 29 and cooperate, the practicality is high, can intake automatically and go out water, intelligent degree is high, and easy operation, the water intaking is convenient.

In the embodiment, in use, the storage battery is arranged on the placing box 1 and electrically connected with the solar panel to store electric energy in the storage battery, the storage battery provides electric energy for the heating plate, the condensation plate water suction pump 3 and the rotating motor 6, the water suction pump 3 and the rotating motor 6 are controlled by combining the external controller with the three liquid level sensors, firstly, the heating plate heats seawater in the placing box 1, heated vapor enters the water containing tank 25 through the transverse pipe, the condensation plate in the water containing tank 25 condenses the vapor to form fresh water to be stored in the water containing tank 25, in the process that the heating plate heats the seawater in the placing box, the seawater salt concentration between the liquid level sensor at the highest position and the liquid level sensor at the middle position is small, the seawater can be heated and evaporated through the heating plate, and the seawater is separated out by using solar energy as a power source, until the seawater level in the placing box drops to the middle liquid level sensor.

When the liquid level in the placing box 1 moves to the middle liquid level sensor, the salt concentration in seawater is higher at this time, the controller controls the rotating motor 6 to drive, the output shaft of the rotating motor 6 drives the rotating shaft 8 to rotate, the gear 11 on the rotating shaft 8 is meshed with the rack 12 on the vertical plate 10 to drive the vertical plate 10 to move, the vertical plate 10 drives the sealing plate 13 to move, so that the sealing plate 13 is separated from the water outlet hole 14, at this time, the seawater flows out through the water outlet hole 14, the rotating shaft 8 drives the stirring shaft 15 to rotate, the stirring shaft 15 stirs the seawater, the rotating shaft 8 drives the connecting column 16 to rotate at the same time, the connecting column 16 drives the first connecting balls 17 to rotate, the first connecting balls 17 extrude the second connecting balls 22, the two second connecting balls 22 are located at positions slightly close to the inner sides of the two first connecting balls 17, the second connecting balls 22 drive the sleeve plate 18 to, the first spring 21 of mantle board 18 extrusion, the mantle board 18 drives push pedal 23 through the backup pad and moves for push pedal 23 round trip movement about, thereby make the great sea water of salinity stir repeatedly, prevent that salinity concentration from excessively appearing, inconvenient clearance.

When placing case 1 water level and being located the liquid level sensor of below and contacting, the sea water level is about to be less than the liquid level sensor of below promptly, rotating electrical machines 6 reverse rotation this moment, make the bottom of riser 10 and the bottom inner wall of placing case 1 contact, the delivery port is sealed to the closing plate, rotating electrical machines stall, suction pump 3 starts this moment, suction pump 3 inhales the sea water in placing case 1 this moment, until contacting with the liquid level sensor of the top, suction pump 3 stop work this moment, when needing to get fresh water, promote the handle, handle drive pulls post 27 and removes, it removes to pull post 27 drive bumping post, bumping post stretches second spring 28, make L type mouth 29 move to in the flourishing water tank 25, fresh water flows out through flourishing water tank 25 this moment, after the water intaking is accomplished, it can to loosen the handle, and easy operation, it is convenient to get water.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims

1. The solar seawater desalination overwater platform capable of automatically feeding water is characterized by comprising a placing box (1), a water containing box (25), a stirring mechanism, an oscillating mechanism, a rotary motor (6), a water suction pump (3) and an energy supply device, wherein the placing box (1) is internally provided with a water containing cavity, the stirring mechanism and the oscillating mechanism are arranged at the lower part of the water containing cavity, the rotary motor (6) is arranged on the outer wall of the placing box (1), an output shaft of the rotary motor (6) is connected to the stirring mechanism, a transmission mechanism is arranged between the stirring mechanism and the oscillating mechanism, the water suction pump (3) is directly or indirectly arranged on the side wall of the placing box (1), a water outlet of the water suction pump (3) is communicated with the upper space of the water containing cavity, and the water containing box (25) is communicated with the upper space of the water containing cavity; place and be provided with the hot plate on the top inner wall in flourishing water cavity in case (1), be provided with the condenser plate on the top inner wall of flourishing water tank (25), energy supply unit install place on case (1) and with rotating electrical machines (6), suction pump (3), hot plate and condenser plate electric connection, flourishing water intracavity is provided with a plurality of level sensor.

2. The automatic-water-feeding solar seawater desalination overwater platform as claimed in claim 1, wherein the stirring mechanism comprises a rotating shaft (8) and stirring shafts (15), the rotating shaft (8) is rotatably mounted in the placing box (1), one end of the rotating shaft (8) is fixedly connected with an output shaft of the rotating motor (6), and a plurality of groups of stirring shafts (15) are fixedly connected to the outer wall of the rotating shaft (8).

3. The automatic water inlet solar seawater desalination water platform as claimed in claim 2, wherein the bottom of the side surface of the placing box (1) is provided with a water outlet hole (14), one end of the rotating shaft (8) close to the water outlet hole (14) is fixedly provided with a gear (11), the inner wall of the side of the placing box (1) where the water outlet hole (14) is located is slidably provided with a moving plate (9), the bottom of the moving plate (9) is fixedly provided with a vertical plate (10), one side of the vertical plate (10) close to the rotating shaft (8) is fixedly provided with a rack (12), the gear (11) is engaged with the rack (12), and one side of the vertical plate (10) close to the water outlet hole (14) is fixedly provided with a sealing plate (13) capable of covering the water outlet hole (.

4. The automatic water feeding solar seawater desalination overwater platform as claimed in claim 2, wherein the oscillation mechanism comprises two fixing plates, a cross column (19), two sleeve plates (18) and two push plates (23), the fixing plates are fixedly arranged at the bottoms of the water containing cavities, the cross column (19) is arranged between the two fixing plates, a baffle plate (20) is fixedly connected to the middle of the cross column (19), the two sleeve plates (18) are slidably and non-rotatably sleeved on the outer wall of the cross column (19), the baffle plate (20) is positioned between the two sleeve plates (18), two first springs (21) are further sleeved on the cross column (19), one end of each first spring (21) is connected with one sleeve plate (18), and the other end of each first spring is connected with the baffle plate (20); each push plate (23) is directly or indirectly arranged on each sleeve plate (18) and is positioned on one side close to the sleeve plate (18).

5. The automatic-water-feeding solar seawater desalination overwater platform as claimed in claim 4, wherein the transmission mechanism comprises a connecting column (16), a first connecting ball (17) and a second connecting ball (22), one end of the connecting column (16) is fixedly connected to the rotating shaft (8), the other end of the connecting column (16) is fixedly connected to the first connecting ball (17), and the second connecting ball (22) is fixedly connected to the sleeve plate (18) and is located at a position where the second connecting ball (22) can contact with one side of the first connecting ball (17).

6. The automatic water inlet solar seawater desalination overwater platform as claimed in any one of claims 1 to 5, wherein the water containing tank (25) is directly mounted on or mounted on one side of the placing tank (1) through a transverse plate (24), a traction column (27) is slidably mounted on the inner wall of one side of the water containing tank (25) far away from the placing tank (1), one end of the traction column (27) located in the water containing tank is connected with a column plate, a second spring (28) is sleeved on the outer wall of the traction column (27), one end of the second spring (28) is connected with the column plate, the other end of the second spring (28) is connected to the inner wall of the water containing tank (25), and an L-shaped opening (29) is formed in the traction column (27); the other end of the traction column (27) is connected with a handle.

7. The automatic water inlet solar seawater desalination water platform as claimed in any one of claims 1 to 5, wherein the inner wall of the water containing cavity of the placing box (1) is provided with three liquid level sensors, namely a high liquid level sensor, a middle liquid level sensor and a low liquid level sensor.

8. The solar seawater desalination automatic water intake platform according to any one of claims 2 to 5, wherein the number of the stirring shafts (15) in the same group is four to six, and the four to six stirring shafts (15) in the same group are annularly arranged around the rotating shaft (8).

9. The automatic water feeding solar seawater desalination overwater platform as claimed in any one of claims 1 to 5, wherein the energy supply device comprises a storage battery and a solar panel, the storage battery is electrically connected with the solar panel, and the solar panel is arranged at the top of the placing box (1).

10. The use method of the solar seawater desalination overwater platform capable of automatically feeding water adopts the solar seawater desalination overwater platform capable of automatically feeding water according to claim 1, and is characterized in that when in use,

the energy supply device supplies energy to the heating plate, the heating plate heats seawater in a water containing cavity of the placing box (1), water vapor enters the water containing tank (25), and a condensing plate in the water containing tank condenses the water vapor, so that formed fresh water is stored in the water containing tank;

when the water level in the placing box (1) is at or below the position of a preset lowest liquid level sensor, the water suction pump (3) pumps seawater into the placing box (1) until the seawater in the placing box (1) is at the position of the preset highest liquid level sensor, and the water suction pump (3) stops pumping water;

when the water level in the placing box (1) is at or lower than the liquid level sensor at the preset middle position, the rotating motor (6) drives the stirring mechanism to stir the seawater in the placing box (1), the stirring mechanism drives the oscillating mechanism through the transmission mechanism, and the oscillating mechanism oscillates the seawater in the placing box (1).