CN112594121A - Power supply device for ocean monitoring equipment - Google Patents

Abstract

The invention discloses a power supply device for ocean monitoring equipment, which comprises a floating seat, wherein a working box is fixedly connected to the upper end surface of the floating seat, one end of the working box, far away from the floating seat, is fixedly connected with a water collecting tank, a plurality of supporting plates which are arranged at equal intervals are fixedly connected to the inner wall of the working box, the supporting plates are all arranged in an inclined manner, a plurality of positive charge plates are fixedly connected to one side wall, far away from the floating seat, of the supporting plates, a negative charge membrane is fixedly connected to one side wall, far away from the floating seat, of the positive charge plates, and an aluminum electrode is fixedly connected to one side wall, far away from the floating seat, of the negative charge membrane. According to the invention, a user can complete power generation work by means of water in sea waves which are common in the sea, and then complete long-time power supply work of working equipment, so that the requirement of the user on long-time monitoring work is greatly met.

Description

Power supply device for ocean monitoring equipment

Technical Field

The invention relates to the technical field of ocean monitoring, in particular to a power supply supplying device for ocean monitoring equipment.

Background

In modern society, ocean development work is a very important engineering, when carrying out ocean development work to corresponding region, need carry out necessary monitoring operation to appointed region, need use corresponding monitoring facilities for this reason, but monitoring facilities need use the electric energy at the during operation, and it is very inconvenient to carry out frequent supply work in abominable marine environment, therefore current monitoring facilities can only carry out the monitoring operation of short time, very big marine development work that is unfavorable for the user.

To this end, we propose a power supply replenishment device to solve the above-mentioned problems.

Disclosure of Invention

The invention aims to solve the problems in the prior art and provides a power supply replenishing device.

In order to achieve the purpose, the invention adopts the following technical scheme:

a power supply device for ocean monitoring equipment comprises a floating seat, wherein a working box is fixedly connected onto the upper end surface of the floating seat, a water collecting tank is fixedly connected onto one end, away from the floating seat, of the working box, a plurality of supporting plates which are arranged at equal intervals are fixedly connected onto the inner wall of the working box, the supporting plates are all arranged in an inclined mode, a plurality of positive charge plates are fixedly connected onto one side wall, away from the floating seat, of the supporting plates, a plurality of negative charge plates are fixedly connected onto one side wall, away from the floating seat, of the positive charge plates, aluminum electrodes are fixedly connected onto one side wall, away from the floating seat, of the negative charge films, leads are fixedly connected onto the positive charge plates and the aluminum electrodes, grid-connected equipment is fixedly connected onto the outer wall of the working box, the leads are fixedly connected onto the grid-connected equipment and arranged in a penetrating mode, a cavity is arranged in the floating seat, fixedly connected with power equipment in the cavity, be equipped with the charging wire on the equipment of being incorporated into the power networks, the one end that the equipment of being incorporated into the power networks was kept away from to the charging wire runs through to float a fixed connection and sets up on power equipment, float on the seat keep away from fixedly connected with working equipment on the lateral wall of work box, the last power supply line that is equipped with of power equipment, the one end that power equipment was kept away from to the power supply line runs through to float a fixed connection and sets up on the working equipment, the header tank is close to and is equipped with a plurality of holes of falling into water, and is a plurality of the downthehole equal fixedly connected with capillary that falls into water, it is a plurality of.

Preferably, drainage device is including setting up the water drainage tank on the work box inner wall, the water drainage tank is close to and floats the seat setting, the water drainage tank is the setting of L type, the water drainage tank is kept away from and is equipped with out the basin on a lateral wall that floats the seat, the one end that the water drainage tank was kept away from in the basin runs through the work box setting, it has the slip post to go out basin sliding connection, the slip post is close to fixedly connected with work spring on the lateral wall of backup pad, the one end fixed connection that the slip post was kept away from to work spring sets up on a side inner wall that the basin is close to the backup pad, be equipped with the apopore on the slip post, the.

Preferably, a limiting groove is formed in one side wall, away from the floating seat, of the water outlet groove, a limiting block is connected in the limiting groove in a sliding mode, and the limiting block is fixedly connected to the sliding column.

Preferably, the water collecting tank is arranged in a bowl shape, and a protective shell is fixedly connected to the outer wall of the water collecting tank.

Preferably, the inner wall of the working box is provided with a funnel, and the funnel is arranged close to the floating seat.

Preferably, the side wall of the working box close to the floating seat is provided with a cooling hole, one end of the cooling hole far away from the water collecting tank penetrates through the floating seat, a heat conducting block is fixedly connected in the cooling hole, and the heat conducting block is fixedly connected to the power supply equipment.

Preferably, fixedly connected with guard box on the outer wall of work box, equipment of being incorporated into the power networks and charging wire all are located the guard box and set up.

Preferably, each of the plurality of support plates is made of an insulating material, each of the plurality of positive charge plates is made of an indium tin oxide material, and each of the plurality of negative charge films is made of a polytetrafluoroethylene material.

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

according to the invention, sea waves can be collected through the water collecting tank, water in the water collecting tank falls on the negative charge film and the aluminum electrode through the capillary tube, the water is matched with the positive charge plate to generate current, and then the power supply equipment is charged through the lead, the grid-connected equipment and the charging wire, so that the charging work of the power supply equipment is smoothly completed by the sea waves, the power supply equipment can supply power to the working equipment for a long time, frequent supply work of a user is not required, and the long-time monitoring work of the user is greatly facilitated.

Drawings

FIG. 1 is a front sectional view of a power supply device for a marine monitoring device according to the present invention;

FIG. 2 is an enlarged view of the structure A of FIG. 1;

FIG. 3 is an enlarged view of the structure B of FIG. 1;

fig. 4 is a front structural section view of a power supply replenishment device for a marine monitoring device according to the present invention.

In the figure: the device comprises a floating seat 1, a working box 2, a water collecting tank 3, a supporting plate 4, a positive charge plate 5, a negative charge film 6, an aluminum electrode 7, a lead 8, grid-connected equipment 9, a cavity 10, power supply equipment 11, a charging wire 12, working equipment 13, a power supply line 14, a water falling hole 15, a capillary tube 16, a water drainage groove 17, a water outlet groove 18, a sliding column 19, a working spring 20, a water outlet hole 21, a limiting groove 22, a limiting block 23, a protective shell 24, a funnel 25, a cooling hole 26, a heat conducting block 27 and a protective box 28.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are merely for convenience in describing the present invention and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention.

Referring to fig. 1-4, a power supply device for ocean monitoring equipment, which comprises a floating seat 1, wherein the floating seat 1 can be subjected to enough buoyancy when on the surface, so that the whole device can smoothly float on the sea surface to complete monitoring work, a working box 2 is fixedly connected to the upper end surface of the floating seat 1, a water collecting box 3 is fixedly connected to one end of the working box 2 far away from the floating seat 1, the water collecting box 3 is arranged in a bowl shape, the water collecting box 3 can better complete collection work of water in ocean waves, a protective shell 24 is fixedly connected to the outer wall of the water collecting box 3, the arrangement of the protective shell 24 can better enable water in ocean waves to enter the water collecting box 3, and can effectively prevent the ocean waves from contacting a drainage device, so that the ocean waves can not interfere normal work of the device through the drainage device, a plurality of supporting plates 4 which are arranged at equal intervals are fixedly connected to the inner wall of the working box 2, the supporting plates 4 are all obliquely arranged, the falling water can fall on the heavy supporting plates 4 better due to the oblique arrangement, the side walls, far away from the floating seat 1, of the supporting plates 4 are fixedly connected with the positive charge plates 5, the side walls, far away from the floating seat 1, of the positive charge plates 5 are fixedly connected with the negative charge film 6, the supporting plates 4 are made of insulating materials, the supporting plates 4 made of the insulating materials cannot interfere with the normal work of the positive charge plates 5 and the negative charge film 6, the positive charge plates 5 are made of indium tin oxide materials, the negative charge films 6 are made of polytetrafluoroethylene materials, the polytetrafluoroethylene is a permanent electric body material capable of keeping electric charges for a long time, surface electric charges generated by friction electrification after water drops fall on the negative charge film 6 can be continuously accumulated in the negative charge film 6 until saturation, and after continuous impact of the water drops, the negative charge film 6 can store high-density surface charges, and then the positive charge plate 5 made of indium tin oxide material can carry the same amount of positive charges under the action of electrostatic induction, so that current with enough voltage can be generated in subsequent work;

the aluminum electrodes 7 are fixedly connected to one side wall of the negative charge films 6 far away from the floating seat 1, when water drops to the surface of the negative charge films 6 and contacts the aluminum electrodes 7, the water drops are communicated with a passage between the aluminum electrodes 7 and the positive charge plate 5, so that the positive charge of the positive charge plate 5 is transferred to the aluminum electrodes 7, and then current is generated, thus the current generation work is smoothly completed, after the water drops slide, the circuit is disconnected, the positive charge plate 5 continues accumulating the positive charge due to electrostatic induction to wait for the circulation of the next drop of water, the leads 8 are fixedly connected to the positive charge plates 5 and the aluminum electrodes 7, the grid-connected equipment 9 is fixedly connected to the outer wall of the working box 2, the leads 8 are fixedly connected to the grid-connected equipment 9 through the working box 2, and the grid-connected equipment 9 is a device in the prior art, so that the currents can be gathered together to complete the charging work, the arrangement can lead the grid-connected equipment 9 to gather the generated current together through a plurality of leads 8, then the charging work is completed, a cavity 10 is arranged in the floating seat 1, the power supply equipment 11 is fixedly connected in the cavity 10, one side wall of the working box 2 close to the floating seat 1 is provided with a cooling hole 26, one end of the cooling hole 26 far away from the water collecting box 3 is arranged through the floating seat 1, a heat conducting block 27 is fixedly connected in the cooling hole 26, the heat conducting block 27 is fixedly connected on the power supply equipment 11, the temperature of the power supply equipment 11 can rise when the charging work is carried out, the heat conducting block 27 and the power supply equipment 11 can be cooled by water falling into the working box 2, the safety of the power supply equipment 11 is greatly ensured, the grid-connected equipment 9 is provided with a charging wire 12, one end of the charging wire 12 far away from the grid-connected equipment 9 is arranged on the power, therefore, the grid-connected equipment 9 can smoothly charge the power supply equipment 11 through the charging wire 12, frequent replenishment work of a user is not required, the long-time ocean monitoring work of the user is greatly facilitated, the outer wall of the working box 2 is fixedly connected with the protection box 28, the grid-connected equipment 9 and the charging wire 12 are both arranged in the protection box 28, the safety of the grid-connected equipment 9 and the charging wire 12 is greatly guaranteed due to the arrangement of the protection box 28, the safety of the device is greatly improved, the working equipment 13 is fixedly connected to one side wall, away from the working box 2, of the floating seat 1, the power supply equipment 11 is provided with the power supply wire 14, one end, away from the power supply equipment 11, of the power supply wire 14 penetrates through the floating seat 1 and is fixedly connected to the working equipment 13, and the power supply equipment 11 can supply power to the working equipment 13 through the power supply wire 14, so that the working equipment 13 can smoothly complete ocean monitoring work;

a plurality of water falling holes 15 are arranged on one side wall of the water collecting tank 3 close to the floating seat 1, capillaries 16 are fixedly connected in the plurality of water falling holes 15, the calibers of the capillaries 16 are smaller, the arrangement of the capillaries 16 ensures that water in the water collecting tank 3 can smoothly drip along the capillaries 16 and cannot directly flow down, the smooth running of power generation work is greatly ensured, the plurality of capillaries 16 are respectively arranged right opposite to the plurality of negative charge membranes 6, so that water drops can smoothly fall on the negative charge membranes 6 to generate electricity by friction when falling down, the water drops can smoothly fall on the aluminum electrodes 7 to complete the electricity generation work, a funnel 25 is arranged on the inner wall of the work box 2, the funnel 25 is arranged close to the floating seat 1, the funnel 25 ensures that the water falling from the positive charge plate 5 can not splash to the upper part of the supporting plate 4 any more, the smooth running of the power generation work is greatly ensured, and a drainage device is arranged on the work, the drainage device comprises a drainage groove 17 arranged on the inner wall of the working box 2, the drainage groove 17 is arranged close to the floating seat 1, the drainage groove 17 is arranged in an L shape, a water outlet groove 18 is arranged on one side wall of the drainage groove 17 far away from the floating seat 1, one end of the water outlet groove 18 far away from the drainage groove 17 penetrates through the working box 2, so that water in the working box 2 can be smoothly discharged through the drainage groove 17 and the water outlet groove 18 without converging in the normal work of an interference device in the working box 2, a sliding column 19 is connected in the water outlet groove 18 in a sliding manner, a limiting groove 22 is arranged on one side wall of the water outlet groove 18 far away from the floating seat 1, a limiting block 23 is connected in the limiting groove 22 in a sliding manner, the limiting block 23 is fixedly connected on the sliding column 19, the limiting block 23 and the limiting groove 22 are matched so that the sliding column 19 can stably slide in the, the water outlet groove 18 can not be completely separated, the integrity and the working stability of the device are greatly ensured, one side wall of the sliding column 19, which is close to the supporting plate 4, is fixedly connected with a working spring 20, one end of the working spring 20, which is far away from the sliding column 19, is fixedly connected to the inner wall of one side of the water outlet groove 18, which is close to the supporting plate 4, the sliding column 19 is provided with a water outlet hole 21, the water outlet hole 21 is arranged in an L shape, therefore, when the water in the working box 2 is gathered to a certain degree, the water enters the drainage groove 17 and the water outlet groove 18 to push the sliding column 19 to pull the working spring 20 to stretch, so that the water outlet hole 21 is aligned with the outside, and the water in the working box 2 can be smoothly discharged, when the wave comes, the sliding column 19 can be pushed, so that the sliding column 19 closes the water outlet groove 18, therefore, the sea waves can be effectively prevented from directly entering the working box 2, and the normal work of the device is greatly guaranteed.

In the invention, when the device is positioned on the sea surface, water falls into the water collecting tank 3 when the sea surges, the water falls into the water collecting tank 3 and then falls onto the negative charge film 6 through the capillary tube 16, when the water falls onto the negative charge film 6, the negative charge film 6 carries negative charge under the action of friction electricity generation, so that the positive charge plate 5 carries equal amount of positive charge under the action of electrostatic induction, then when the water falls onto the surface of the negative charge film 6 and contacts the aluminum electrode 7, the water drops are communicated with a passage between the aluminum electrode 7 and the positive charge plate 5, so that the positive charge of the positive charge plate 5 is transferred to the aluminum electrode 7, and then current is generated, the current is transferred to the grid-connected equipment 9 through the lead 8, and a plurality of strands of current after being processed by the grid-connected equipment 9 can enter the power supply equipment 11 through the charging wire 12, thereby completing the charging work of the power supply equipment 11, make electrical equipment 11 can last the power supply to equipment for operation 13 through power supply line 14, so equipment for operation 13 just no longer need the user to carry out frequent supply alright with smooth long-time monitoring work that carries on, very big user's use of having made things convenient for, the water droplet falls down the back from positive charge board 5, it just can enter into outlet trough 18 through water drainage tank 17 after certain degree to assemble in work box 2, then promote 19 pulling work springs 20 of sliding column, make apopore 21 and external intercommunication, the water in work box 2 can be smooth discharges through apopore 21, can not stop the normal work of interfering device in work box 2, very big guarantee that long-time work of device is not influenced.

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 (8)

1. A power supply device for ocean monitoring equipment comprises a floating seat (1) and is characterized in that a working box (2) is fixedly connected onto the upper end face of the floating seat (1), a water collecting tank (3) is fixedly connected onto one end, far away from the floating seat (1), of the working box (2), a plurality of supporting plates (4) which are arranged at equal intervals are fixedly connected onto the inner wall of the working box (2), the plurality of supporting plates (4) are all arranged in an inclined mode, a plurality of positive charge plates (5) are fixedly connected onto one side wall, far away from the floating seat (1), of the supporting plates (4), a plurality of negative charge plates (6) are fixedly connected onto one side wall, far away from the floating seat (1), of the positive charge plates (5), an aluminum electrode (7) is fixedly connected onto one side wall, far away from the floating seat (1), of the negative charge plates (5) and the aluminum electrode (7), a wire (8) is fixedly connected onto each positive charge plate (5) and each aluminum electrode (7), the outer wall of the working box (2) is fixedly connected with grid-connected equipment (9), a plurality of leads (8) are fixedly connected to the grid-connected equipment (9) in a penetrating mode and are arranged on the grid-connected equipment (9), a cavity (10) is arranged in the floating seat (1), power supply equipment (11) is fixedly connected in the cavity (10), charging wires (12) are arranged on the grid-connected equipment (9), one end, far away from the grid-connected equipment (9), of each charging wire (12) penetrates through the floating seat (1) and is fixedly connected to the power supply equipment (11), one side wall, far away from the working box (2), of the floating seat (1) is fixedly connected with the working equipment (13), a power supply line (14) is arranged on the power supply equipment (11), one end, far away from the power supply equipment (11), of each power supply line (14) penetrates through the floating seat (1) and is fixedly connected to the working equipment (13), one side wall, close to the floating seat (1), of the, capillary tubes (16) are fixedly connected in the water falling holes (15), the capillary tubes (16) are respectively arranged right opposite to the negative charge films (6), and a drainage device is arranged on the work box (2).

2. The power supply replenishing device for the ocean monitoring equipment is characterized in that the drainage device comprises a drainage groove (17) arranged on the inner wall of the working box (2), the drainage groove (17) is arranged close to the floating seat (1), the drainage groove (17) is arranged in an L shape, a water outlet groove (18) is arranged on one side wall of the drainage groove (17) far away from the floating seat (1), one end of the water outlet groove (18) far away from the drainage groove (17) penetrates through the working box (2), a sliding column (19) is connected in the water outlet groove (18) in a sliding mode, a working spring (20) is fixedly connected to one side wall of the sliding column (19) close to the supporting plate (4), one end of the working spring (20) far away from the sliding column (19) is fixedly connected to the inner wall of the water outlet groove (18) close to the supporting plate (4), be equipped with apopore (21) on sliding column (19), apopore (21) are the setting of L type.

3. The power supply replenishing device for the ocean monitoring equipment according to claim 2, wherein a limiting groove (22) is formed in one side wall of the water outlet groove (18) far away from the floating seat (1), a limiting block (23) is connected in the limiting groove (22) in a sliding mode, and the limiting block (23) is fixedly connected to the sliding column (19) in a setting mode.

4. The supply of power supply for ocean monitoring equipment according to claim 1, characterized in that the water collection tank (3) is bowl-shaped, and a protective shell (24) is fixedly connected to the outer wall of the water collection tank (3).

5. The supply of power for ocean monitoring equipment according to claim 1, characterized in that the inner wall of the work box (2) is provided with a funnel (25), and the funnel (25) is arranged near the floating seat (1).

6. The power supply device for the ocean monitoring equipment is characterized in that a cooling hole (26) is formed in one side wall, close to the floating seat (1), of the working box (2), one end, far away from the water collecting box (3), of the cooling hole (26) is arranged through the floating seat (1), a heat conducting block (27) is fixedly connected into the cooling hole (26), and the heat conducting block (27) is fixedly connected onto the power supply equipment (11).

7. The supply device for the ocean monitoring equipment according to claim 1, wherein a protection box (28) is fixedly connected to the outer wall of the working box (2), and the grid-connected equipment (9) and the charging wire (12) are both arranged in the protection box (28).

8. A supply means for a sea monitoring device according to claim 1, characterized in that a plurality of said supporting plates (4) are made of insulating material, a plurality of said positively charged plates (5) are made of indium tin oxide material and a plurality of said negatively charged membranes (6) are made of polytetrafluoroethylene material.

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