CN113501558A

CN113501558A - Sea floating device for sea water desalination

Info

Publication number: CN113501558A
Application number: CN202110968236.4A
Authority: CN
Inventors: 冯学杰
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-08-23
Filing date: 2021-08-23
Publication date: 2021-10-15

Abstract

The invention discloses a sea floating device for seawater desalination, and relates to the technical field of seawater desalination treatment. The sea floating device for sea water desalination comprises a sea floating mechanism for floating on the sea, an extrusion impact mechanism for extruding to impact and a water flow entering mechanism for enabling water flow to enter, wherein a spherical shell is arranged inside the sea floating mechanism, the sea floating mechanism is fixedly connected with the extrusion impact mechanism through the outer wall of the spherical shell, and the outer wall of the spherical shell is fixedly connected with the water flow entering mechanism. This sea floating device of sea water desalination floats on the sea through spherical shell, collects salt in the sea water under continuous drift to the people that makes to pick up can use, and spherical shell receives constantly upset under the drive of sea wind and wave, makes the continuous extrusion that receives of spherical gasbag, when the inflation of spherical gasbag, filters the sea water that picks up.

Description

Sea floating device for sea water desalination

Technical Field

The invention relates to the technical field of seawater desalination treatment, in particular to a seawater desalination offshore floating device.

Background

In the world, a plurality of scientific research institutions of more than ten countries are researching sea water desalination, hundreds of sea water desalination facilities with different structures and different capacities work, a modern large-scale sea water desalination plant can produce thousands, tens of thousands or even nearly millions of tons of fresh water every day, the cost of water is continuously reduced, some countries are reduced to be almost the same as the price of tap water, and the amount of desalinated water in some areas reaches the water supply scale of the countries and cities; sea water desalination, i.e. the desalination of sea water to produce fresh water, is usually carried out by a machine at present, and a lot of salt is produced in the process of desalinating sea water.

Some seawater desalination aims to produce salt, and the seawater desalination is carried out by a machine, so that the desalination efficiency is high, certain energy loss is caused, and continuous manual operation is required.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the sea floating device for seawater desalination, which reduces the energy consumption by placing the floating objects on the sea and continuously separating the salt in the seawater, and can be used for sharing when floating to any place.

In order to achieve the purpose, the invention is realized by the following technical scheme: a sea floating device for desalinating sea water includes such steps as detecting the wind direction on sea, putting the floating mechanism on sea when the wind direction is flowing in sea, and moving the floating mechanism by airflow.

The utility model provides a sea flotation device of sea water desalination, is used for marine floating mechanism, the extrusion impact mechanism that is used for the extrusion to carry out the impact and the rivers entering mechanism that is used for making rivers get into that carry out showy marine, marine floating mechanism's inside is provided with spherical shell, marine floating mechanism is through the spherical shell outer wall fixedly connected with extrusion impact mechanism that sets up, the spherical shell outer wall is located the position fixedly connected with rivers entering mechanism that extrudes impact mechanism.

Preferably, the marine floating mechanism comprises a spherical shell, a glass surface and a cotton pad, wherein the outer wall of the spherical shell is provided with a plurality of holes A, the position of the outer wall of the spherical shell in the holes A is fixedly connected with the glass surface, the position of the inner wall of the spherical shell in the holes A is fixedly connected with the cotton pad, and the spherical shell is made of a floating material.

Preferably, the extrusion impact mechanism includes globular gasbag and striking ball, porose B is seted up with the adjacent position in hole A to the spherical shell outer wall, the spherical shell outer wall is located the folding pipe of position fixedly connected with in hole B, the spherical shell is through the globular gasbag of folding pipe fixedly connected with that sets up, the inside of spherical shell is provided with the striking ball.

Preferably, the spherical shell inner wall is located the position fixedly connected with second arc pole of hole B, the first arc pole of outer wall fixedly connected with of second arc pole, the position fixedly connected with clutch blocks that spherical shell inner wall and second arc pole close on, the terminal fixedly connected with ball of first arc pole, ball and the clutch blocks movable contact of first arc pole through setting up.

Preferably, rivers entering mechanism includes rubber circle and arc tube, spherical shell outer wall is located the position that closes on of hole B and sets up porose C, the movable groove has been seted up through the inner wall of the hole C that sets up to spherical shell, be provided with the arc tube in the movable groove of spherical shell, fixedly connected with spring A between arc tube and the movable groove, the position fixedly connected with rubber circle that spherical shell inner wall is located hole C.

Preferably, the outer wall of the arc-shaped pipe is provided with a water inlet, one end of the outer wall of the arc-shaped pipe, which is far away from the water inlet, is fixedly connected with an impact plate, a water blocking plate is arranged between the arc-shaped pipe and the impact plate, and a spring B is fixedly connected between the arc-shaped pipe and the water blocking plate.

The invention provides a sea floating device for seawater desalination. The method has the following beneficial effects:

1. this sea floating device of sea water desalination floats on the sea through spherical shell, collects the salt in the sea water under continuous drift to the people that makes the pick up can use, thereby has reduced the waste of resource.

2. This sea floating device of sea water desalination, constantly overturn under the drive of sea wind and wave through spherical shell, make the continuous extrusion that receives of globular gasbag, when globular gasbag inflation, to the sea water filtration that draws, ensured that the filtration of salt comes out.

3. This sea floating device of sea water desalination through blowing out of air current in the spherical gasbag, makes the second arc pole take place to rock constantly, makes ball and the friction block on the first arc pole take place the friction to make the inside temperature of spherical shell rise, sunshine sees through the glass face and shines inside spherical shell, has accelerateed the inside salt that separates of spherical shell.

4. This sea floating device of sea water desalination receives the water pressure of sea water through the arc pipe, makes the arc pipe jack-up sea water get into, and when entering into a certain amount, the water pressure of spherical shell inside counterbalances with the water pressure of spherical shell outer wall mutually to make the arc pipe reset under the elasticity of spring, prevent rivers and get into.

Drawings

FIG. 1 is a schematic axial side perspective view of the present invention;

FIG. 2 is a schematic cross-sectional view of FIG. 1 according to the present invention;

FIG. 3 is an enlarged view of portion A of FIG. 2 according to the present invention;

FIG. 4 is a right side perspective view of the present invention;

FIG. 5 is a schematic cross-sectional view of FIG. 4 in accordance with the present invention;

FIG. 6 is an enlarged view of the portion B of FIG. 5 according to the present invention.

In the figure: 1. a marine floatation mechanism; 11. a spherical shell; 12. a glass surface; 13. a cotton pad; 2. an extrusion impact mechanism; 21. a spherical air bag; 22. a friction block; 23. a first arcuate bar; 24. a second arcuate bar; 25. striking a ball; 3. water flow enters the mechanism; 31. a rubber ring; 32. an arc tube; 33. a water-blocking plate; 34. an impact plate; 35. a water inlet.

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.

Examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are illustrative and intended to be illustrative of the invention and are not to be construed as limiting the invention.

Referring to fig. 1-6, the present invention provides a technical solution: a sea floating device for sea water desalination comprises the steps of firstly detecting the wind direction on the sea, putting a sea floating mechanism 1 on the sea when the wind direction flows into the sea, and driving the sea floating mechanism 1 to float and move by airflow.

The utility model provides a sea flotation device of sea water desalination, is including being used for carrying out showy sea flotation mechanism 1 on the sea, be used for the extrusion to carry out the extrusion impact mechanism 2 that strikes and the rivers that are used for making rivers get into mechanism 3, the inside of sea flotation mechanism 1 is provided with spherical shell 11, and sea flotation mechanism 1 is through the 11 outer wall fixedly connected with extrusion impact mechanism 2 of spherical shell that set up, and 11 outer walls of spherical shell are located the position fixedly connected with rivers that extrude impact mechanism 2 and get into mechanism 3.

In this embodiment, when the floating structure 1 drifts to the seaside, the salt in the floating structure can be taken out for use.

Specifically, marine floating mechanism 1 includes spherical shell 11, glass face 12 and cotton pad 13, and a plurality of holes A have been seted up to the outer wall of spherical shell 11, and the position fixedly connected with glass face 12 that spherical shell 11 outer wall is located hole A, and the position fixedly connected with cotton pad 13 that spherical shell 11 inner wall is located hole A.

In this embodiment, the floating mechanism 1 is placed on the sea surface, the air flow drives the floating mechanism 1 to float, and the spherical shell 11 is made of floating material.

Specifically, extrusion impact mechanism 2 includes globular gasbag 21 and striking ball 25, and porose B is seted up with the hole A adjacent position to spherical shell 11 outer wall, and spherical shell 11 outer wall is located the folding pipe of the position fixedly connected with in hole B, and spherical shell 11 is provided with striking ball 25 through the folding pipe fixedly connected with globular gasbag 21 that sets up through the folding pipe that sets up, spherical shell 11's inside.

In this embodiment, half of the spherical shell 11 is in water and half is on the water surface, and the arced tube 32 and the impact plate 34 in the water are pressed by water pressure, so that the arced tube 32 moves upward after being pressed.

Specifically, 11 inner walls of spherical shell are located the position fixedly connected with second arc pole 24 of hole B, the first arc pole 23 of outer wall fixedly connected with of

second arc pole

24, and 11 inner walls of spherical shell and the position fixedly connected with clutch blocks 22 that second arc pole 24 closes on, the terminal fixedly connected with ball of first arc pole 23, first arc pole 23 is through the ball and the clutch blocks 22 movable contact who sets up.

In this embodiment, when seawater entering the spherical shell 11 passes through the rubber ring 31, the water pressure in the spherical shell 11 is opposite to the water pressure outside the spherical shell 11, and the arc tube 32 is restored under the action of the spring.

Specifically, rivers enter into mechanism 3 and include rubber circle 31 and arc tube 32, and spherical shell 11 outer wall is located the position that closes on of hole B and sets up porose C, and spherical shell 11 has seted up the activity groove through the inner wall of the hole C that sets up, is provided with arc tube 32 in spherical shell 11's the activity groove, fixedly connected with spring A between arc tube 32 and the activity groove, and spherical shell 11 inner wall is located hole C's fixedly connected with rubber circle 31.

In this embodiment, the spherical air bag 21 located in the water is contracted by the water pressure, so that the air in the spherical air bag 21 enters the spherical shell 11, and the impact of the air flow makes the second arc-shaped rod 24 move, so that the first arc-shaped rod 23 moves along with the air flow.

Specifically, a water inlet 35 is formed in the outer wall of the arc pipe 32, an impact plate 34 is fixedly connected to one end, far away from the water inlet 35, of the outer wall of the arc pipe 32, a water blocking plate 33 is arranged between the arc pipe 32 and the impact plate 34, and a spring B is fixedly connected between the arc pipe 32 and the water blocking plate 33.

In this embodiment, after the spherical shell 11 is inverted, the spherical bladder 21 is inflated by its own elasticity, and the air flow and water are introduced into the spherical bladder 21.

When the device is used, firstly, the wind direction on the sea is detected, when the wind direction flows to the sea, the sea floating mechanism 1 is placed on the sea surface, the air flow drives the sea floating mechanism 1 to float and move, the spherical shell 11 is made of floating materials, half of the spherical shell 11 is in the water, half of the spherical shell 11 is on the water surface, the arc-shaped pipe 32 and the impact plate 34 which are positioned in the water are subjected to water pressure, the arc-shaped pipe 32 can move upwards after being extruded, after the spherical shell moves through the rubber ring 31, the water blocking plate 33 on the arc-shaped pipe 32 is pushed open by seawater, the seawater can enter the spherical shell 11 through the water inlet 35, when the seawater entering the spherical shell 11 does not pass through the rubber ring 31, the water pressure in the spherical shell 11 is in phase with the water pressure outside the spherical shell 11, the arc-shaped pipe 32 is reset under the action of the spring, the water blocking plate 33 is clamped on the impact plate 34 to prevent the seawater from flowing out, and the spherical air bag 21 which is positioned in the water can shrink under the water pressure, the gas in the spherical air bag 21 enters the spherical shell 11, the second arc rod 24 moves due to the impact of the airflow, so that the first arc rod 23 moves along with the first arc rod 23, the ball on the first arc rod 23 and the friction block 22 generate heat due to friction, the impact ball 25 continuously shakes along with the spherical shell 11 to increase the friction between the ball and the friction block 22, so that the interior of the spherical shell 11 is heated, after the spherical shell 11 is turned over, the spherical air bag 21 swells under the elasticity of the spherical air bag 21, so that the airflow and the water enter the spherical air bag 21, the second arc rod 24 is arc-shaped, the garbage in the seawater conveniently enters the spherical air bag 21 and is not convenient to flow out under the interception of the second arc rod 24, the seawater in the spherical shell 11 is heated up under the high temperature of the sun, the sun can irradiate the interior of the spherical shell 11 through the glass surface 12, the salt in the seawater can adhere to the inner wall of the spherical shell 11 and the cotton pad 13, and the cotton pad 13 is provided with a plurality of holes, the salt can be stored, and when the floating mechanism 1 at sea drifts to the seaside, the salt in the floating mechanism can be taken out for use.

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. A sea floating device for sea water desalination is characterized in that: the method comprises the steps of firstly detecting the wind direction on the sea, putting the offshore floating mechanism (1) on the sea surface when the wind direction flows to the sea, and driving the offshore floating mechanism (1) to float and move by airflow.

2. A sea floating device for sea water desalination according to claim 1, comprising sea floating means (1) for sea floating, crushing impact means (2) for crushing impact and water flow inlet means (3) for water flow inlet, characterized in that: the marine floating mechanism is characterized in that a spherical shell (11) is arranged inside the marine floating mechanism (1), the marine floating mechanism (1) is fixedly connected with an extrusion impact mechanism (2) through the outer wall of the spherical shell (11), and the outer wall of the spherical shell (11) is fixedly connected with a water flow inlet mechanism (3) at the position of the extrusion impact mechanism (2).

3. A seawater desalination offshore floating device as claimed in claim 2, wherein: the marine floating mechanism (1) comprises a spherical shell (11), a glass surface (12) and a cotton pad (13), wherein the outer wall of the spherical shell (11) is provided with a plurality of holes A, the outer wall of the spherical shell (11) is located at the position of the holes A and fixedly connected with the glass surface (12), and the inner wall of the spherical shell (11) is located at the position of the holes A and fixedly connected with the cotton pad (13).

4. A seawater desalination offshore floating device as claimed in claim 3, wherein: extrusion impact mechanism (2) are including globular gasbag (21) and striking ball (25), porose B is seted up with the adjacent position in hole A to spherical shell (11) outer wall, spherical shell (11) outer wall is located the folding pipe of the position fixedly connected with in hole B, spherical shell (11) are through the folding pipe fixedly connected with globular gasbag (21) that sets up, the inside of spherical shell (11) is provided with striking ball (25).

5. A seawater desalination offshore floating device as claimed in claim 4, wherein: spherical shell (11) inner wall is located hole B's position fixedly connected with second arc pole (24), the first arc pole of outer wall fixedly connected with (23) of second arc pole (24), position fixedly connected with clutch blocks (22) that spherical shell (11) inner wall and second arc pole (24) close on, the terminal fixedly connected with ball of first arc pole (23), ball and clutch blocks (22) movable contact through the setting of first arc pole (23).

6. A seawater desalination offshore floating device as claimed in claim 5, wherein: rivers enter into mechanism (3) and include rubber circle (31) and arc tube (32), porose C has been seted up to the position that closes on that spherical shell (11) outer wall is located hole B, the activity groove has been seted up through the inner wall of the hole C that sets up in spherical shell (11), be provided with arc tube (32) in the activity groove of spherical shell (11), fixedly connected with spring A between arc tube (32) and the activity groove, spherical shell (11) inner wall is located hole C's position fixedly connected with rubber circle (31).

7. A seawater desalination offshore floating device as claimed in claim 6, wherein: the water inlet (35) has been seted up to the outer wall of arc pipe (32), one end fixedly connected with impingement plate (34) that water inlet (35) were kept away from to arc pipe (32) outer wall, be provided with between arc pipe (32) and impingement plate (34) and hinder water board (33), fixedly connected with spring B between arc pipe (32) and the board that hinders water (33).