CN116001985A - Marine floating beacon based on tidal energy - Google Patents

Abstract

The invention discloses a tidal energy-based marine floating beacon, which comprises a fixed main body, wherein the outer end of the fixed main body is sleeved with a flow direction adjusting device, a fixed pile is arranged in the middle of the upper end of the fixed main body, a connecting shell is fixedly arranged in the middle of the fixed pile, a floating pontoon is arranged in the middle of the connecting shell, a guide disc is arranged at the upper end of the floating pontoon, and a plurality of uniformly distributed hexagonal mounting grooves are formed in the connecting shell. The beneficial effects are that: the effectual awl bucket that floats of messenger carries out reciprocating motion from top to bottom through the ripples of water, and then makes its drive slide bar carry out reciprocating motion, and then makes the continuous suction of device and discharge rivers, and then reaches the effect that makes drive arrangement rotate and reach the electricity generation, effectually avoided current device to meet the effect that long-time overcast and rainy weather leads to the device power supply not enough easily to the effectual practicality and the security that has improved the device.

Description

Marine floating beacon based on tidal energy

Technical Field

The invention relates to the technical field of offshore lifesaving, in particular to an offshore floating beacon based on tidal energy.

Background

The drifting buoy is a buoy capable of automatically detecting marine weather and hydrologic elements related to the marine weather, and can send measured wind direction, wind speed, air temperature, air pressure, humidity, water temperature, salinity, flow direction, flow velocity, wave height, period and other data back to a marine weather center at regular time, continuously and for a long time every day according to set requirements, and has good indication effect in marine rescue.

However, the current offshore floating beacons are generally powered by solar energy, and long-time overcast and rainy weather can occur due to severe offshore weather, and the power supply mode easily causes the conditions of insufficient power supply in the device, buoy loss and the like, and further causes the device failure.

SUMMARY OF THE PATENT FOR INVENTION

Aiming at the problems in the related art, the invention provides a tidal energy based marine floating beacon, which aims to overcome the technical problems existing in the related art.

Therefore, the invention adopts the following specific technical scheme:

the utility model provides an offshore floating beacon based on tidal energy, includes the fixed main part, the outer pot head of fixed main part is equipped with flow direction adjusting device, the upper end middle part of fixed main part is provided with the spud pile, the middle part fixed mounting of spud pile has the connection casing, the middle part of connecting the casing is provided with the float bowl, the upper end of float bowl is provided with the guide disc, the inside of connecting the casing is provided with a plurality of evenly distributed's hexagonal mounting groove, the upper end of hexagonal mounting groove is provided with runs through the guiding hole of connecting the casing, the middle part of guiding hole is provided with the slide bar, the lower extreme middle part of slide bar be provided with the drive arrangement that the hexagonal mounting groove cooperatees, drive arrangement's middle part is provided with the rotation coil, the upper end of guide disc is provided with the float cone barrel, the lower extreme middle part of float cone barrel be provided with the connecting block that the slide bar is connected.

Furthermore, a diversion trench is formed in one side of the sliding rod, and a drain pipe penetrating through the sliding rod is arranged in one side of the sliding rod away from the diversion trench.

Further, the drive arrangement include with hexagonal mounting groove matched with locating piece, the inside middle part of locating piece sets up the installation cavity, the inside middle part of installation cavity sets up first bevel gear, first bevel gear's lower extreme is provided with runs through the connecting axle of installation cavity, one side of installation cavity is provided with the direction chamber, just one side of first bevel gear is provided with the second bevel gear, the middle part of second bevel gear is provided with runs through the installation cavity and extends to the transmission shaft in direction chamber, the transmission shaft is kept away from the one end of second bevel gear is provided with drive impeller.

Further, the rotating coil comprises a fixing piece positioned in the middle of the connecting shaft, a plurality of evenly distributed conductive coils are arranged around the fixing piece, and the conductive coils can form a closed loop.

Further, the lower extreme of connecting axle be provided with hexagonal mounting groove matched with piston piece, the piston piece be close to one side of guiding gutter is provided with and runs through the locating piece with the first communicating tube of piston piece, the piston piece is kept away from one side of first communicating tube is provided with and runs through the piston piece and with the second communicating tube of direction chamber UNICOM.

Further, the inner middle part of the connecting shell and the position corresponding to the hexagonal mounting groove are respectively provided with an electromagnet which is uniformly distributed, the electromagnets are adjacent to each other and are opposite magnetic poles, the upper end of the guiding cavity is provided with a through hole connected with the drain pipe, and the inner middle part of the drain pipe is provided with a one-way valve.

Further, the flow direction adjusting device comprises a flow guide body positioned on one side of the fixed main body, two sides of the flow guide body are streamline, one side, away from the flow guide body, of the fixed main body is provided with a plurality of evenly distributed stabilizing pieces, the middle parts of the stabilizing pieces are provided with rotating shafts, the middle parts of the rotating shafts are provided with rotating plates, and the middle parts of the lower ends of the fixed main body are provided with anchor chains.

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

1. the effectual awl bucket that floats of messenger carries out reciprocating motion from top to bottom through the ripples of water, and then makes its drive slide bar carry out reciprocating motion, and then makes the continuous suction of device and discharge rivers, and then reaches the effect that makes drive arrangement rotate and reach the electricity generation, effectually avoided current device to meet the effect that long-time overcast and rainy weather leads to the device power supply not enough easily to the effectual practicality and the security that has improved the device.

2. Through each part of fixed mounting device of setting up of fixed main part, the orientation that makes the device is parallel and then is favorable to the influence of morning and evening tides to the beacon all the time with the square of rivers through flow direction adjusting device's setting, and then improve the device and to the utilization efficiency of tidal energy, make the device float on the horizontal plane all the time through floating pontoon's setting, and make the guide plate submergence, and then make rivers get into the device upper end through the inclined plane of guide plate when overcast and rainy weather morning and evening tides wave moves, and then make the swing of floating awl bucket pass through the purpose of connecting block drive slide bar, when rivers pass through the guide plate because the flow of water wave makes floating awl bucket reciprocate and then make the inside slide bar of device reciprocate, when floating awl bucket moves upward, upward move the suction rivers through the slide bar, make the slide bar move down and then reach and impress in the hexagonal mounting groove with rivers, flow through rivers and make drive arrangement start and then make the rotation coil rotate, and then the rotation cutting magnetism induction line through the rotation of rotation coil produces electric current and then reaches the effect of supplying power.

3. When the sliding rod moves upwards, water flows through the diversion trench to enter the device, when the sliding rod moves downwards, water flows are extruded downwards and then pass through the driving device, the driving device starts to work, and when water flows are sucked through the diversion trench again, the water flows enter the drain pipe to be discharged through the driving device again, and then the purpose of circulation is achieved, and further the continuous power supply effect of the device is achieved, when the sliding rod moves upwards, water flows are sucked through the diversion trench, the water flows are downwards moved through the sliding rod and then enter the bottom of the hexagonal installation groove through the first communicating pipe, when the sliding rod moves upwards and downwards again, water flows are sucked again and then compressed again, and then the water flows enter the guide cavity through the second communicating pipe and then pass through the effect of the water flows, so that the driving impeller rotates, and then the driving shaft drives the first bevel gear to rotate through the second bevel gear, and then the connecting shaft rotates, and further the purpose of driving the rotating coil is achieved, the purpose of driving the rotating coil is achieved through the rotation of the rotating coil and the electromagnetic iron, and the purpose of cutting the magnetic induction line is achieved, and the effect of continuous power generation is achieved, and the power supply effect of the device is achieved, and the setting of the piston and the water flows and the second communicating pipe and the driving coil are not connected through the driving device.

4. The device is convenient to cooperate with the rotating coil to achieve the purpose of electricity generation through the arrangement of the electromagnet, the device is communicated with the guide cavity through the arrangement of the through hole, the device is rotated through the arrangement of the current guide body when the current guide body is square and pure in angle with water flow, and when the current guide body is parallel to the water flow, the influence of the water flow and the current guide body is reduced through the streamline on the two sides, so that the effect that the direction of the device is always the same as the direction of the water flow is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the embodiments will be briefly described below, it will be obvious that the drawings in the following description are only some embodiments of the present invention, and that other drawings can be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of a tidal energy based marine floating beacon according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of the structure of a floating cone of a tidal energy based marine floating beacon according to an embodiment of the present invention;

FIG. 3 is a schematic view of a flow direction regulating device of a tidal energy based marine floating beacon according to an embodiment of the present invention;

FIG. 4 is a schematic illustration of the structure of a connection housing for a tidal energy based marine floating beacon according to an embodiment of the present invention;

FIG. 5 is a schematic diagram II of a tidal energy based marine floating beacon connection housing according to an embodiment of the present invention;

fig. 6 is an enlarged view of a portion of fig. 4 of a tidal energy based marine floating beacon according to an embodiment of the present invention.

In the figure:

1. a fixing body; 2. flow direction regulating means; 3. fixing piles; 4. a connection housing; 5. a floating pontoon; 6. a guide disc; 7. a hexagonal mounting groove; 8. a guide hole; 9. a slide bar; 10. a driving device; 11. rotating the coil; 12. a floating cone; 13. a connecting block; 14. a diversion trench; 15. a drain pipe; 16. a positioning block; 17. a mounting cavity; 18. a first bevel gear; 19. a connecting shaft; 20. a guide chamber; 21. a second bevel gear; 22. a transmission shaft; 23. driving the impeller; 24. a fixing member; 25. a conductive coil; 26. a piston plate; 27. a first communicating pipe; 28. a second communicating pipe; 29. an electromagnet; 30. a through hole; 31. a flow guide body; 32. a stabilizing piece; 33. a rotating shaft; 34. a rotating plate; 35. and (5) an anchor chain.

Detailed Description

For further explanation of the embodiments, the patent of the invention is provided with the accompanying drawings, which are part of the disclosure of the patent of the invention, mainly for illustration of the embodiments and for explanation of the working principle of the embodiments in conjunction with the related description of the specification, and with reference to these, it should be understood by those skilled in the art that other possible implementations and advantages of the patent of the invention, the components in the drawings not being drawn to scale, and that like reference numerals are generally used to designate like components.

Example 1

As illustrated in figures 1-6:

the invention provides an offshore floating beacon based on tidal energy, which comprises a fixed main body 1, wherein the outer end of the fixed main body 1 is sleeved with a flow direction regulating device 2, the middle part of the upper end of the fixed main body 1 is provided with a fixed pile 3, the middle part of the fixed pile 3 is fixedly provided with a connecting shell 4, the middle part of the connecting shell 4 is provided with a floating drum 5, the upper end of the floating drum 5 is provided with a guide disc 6, the direction of the device is always parallel to the square of water flow through each part of the fixed main body 1 provided with the fixed mounting device, thereby being beneficial to the influence of the tidal energy on the beacon, the utilization efficiency of the device on the tidal energy is further improved, the device always floats on the horizontal plane through the arrangement of the floating drum 5, and the guide disc 6 is further moved into the upper end of the device through the inclined plane of the guide disc 6, and further the swing of a floating cone 12 at the upper end of the device is further swung through the inclined plane of the guide disc 6, the swing of the floating cone 12 is further swung through a plurality of sliding cone 13, the inside of the connecting shell 4 is provided with six evenly distributed grooves 7, the sliding cone 9 is provided with a plurality of sliding grooves 7, the sliding cone 9 are respectively arranged at the middle part of the sliding cone 12 is matched with the sliding cone 9, the sliding cone 9 is provided with a plurality of sliding cone holes 10, the sliding cone 9 is matched with the sliding cone 9 is provided with the sliding cone holes 10, and the sliding cone 9 is provided with the sliding cone hole is provided with the sliding holes 10, when the water flow passes through the guide disc 6, the floating cone 12 moves up and down due to the flow of the water wave, so that the sliding rod 9 in the device moves up and down, when the floating cone 12 moves up, the water flow is sucked through the upward movement of the sliding rod 9, after the water wave passes, the sliding rod 9 moves down, so that the water flow is pressed into the hexagonal mounting groove 7, the driving device 10 is started to further enable the rotating coil 11 to rotate through the flow of the water flow, and then the current is generated through the rotating cutting magnetic induction line of the rotating coil 11, so that the effect of supplying power is achieved.

Detailed usage and effects of the first embodiment: through the setting of fixed main part 1 each part of fixed mounting device, the orientation that makes the device is parallel with the square of rivers and then is favorable to the morning and evening tides to the influence of beacon all the time through the setting of flow direction adjusting device 2, and then improve the device and to the utilization efficiency of tidal energy, make the device float on the horizontal plane all the time through the setting of floating drum 5, and make steering wheel 6 submergence, and then make rivers get into the device upper end through the inclined plane of steering wheel 6 when overcast and rainy morning and evening tides wave moves, and then make the purpose of floating cone 12 swing through connecting block 13 drive slide bar 9, when rivers pass through steering wheel 6 because the flow of water wave makes floating cone 12 reciprocate and then make the inside slide bar 9 of device reciprocate, when floating cone 12 moves up, through the upward motion of slide bar 9 inhale rivers, make slide bar 9 move down and then reach and impress in hexagonal mounting groove 7 with rivers, and then make driving device 10 start up through the flow of rivers and then make rotation coil 11 rotate, and then produce the purpose of supplying power through the rotation of rotation coil 11 and then magnetic induction line achieves the effect.

Example two

As illustrated in figures 1-6:

the invention provides a tidal energy-based marine floating beacon, wherein a diversion trench 14 is formed in one side of a sliding rod 9, a drain pipe 15 penetrating through the sliding rod 9 is arranged in one side of the sliding rod 9 away from the diversion trench 14, when the sliding rod 9 moves upwards, water flows into the device through the diversion trench 14, when the sliding rod 9 moves downwards, the water flows are downwards extruded and then pass through a driving device 10, the driving device 10 starts to work, and when the water flows are sucked again through the diversion trench 14, the water flows are downwards pressed again and are discharged through the driving device 10 and enter the drain pipe 15, so that the purpose of circulation is achieved, and the effect of continuously supplying power to the device is achieved. The driving device 10 comprises a positioning block 16 matched with the hexagonal mounting groove 7, a mounting cavity 17 is formed in the middle of the inside of the positioning block 16, a first bevel gear 18 is arranged in the middle of the inside of the mounting cavity 17, a connecting shaft 19 penetrating through the mounting cavity 17 is arranged at the lower end of the first bevel gear 18, a guide cavity 20 is formed in one side of the mounting cavity 17, a second bevel gear 21 is arranged on one side of the first bevel gear 18, a transmission shaft 22 penetrating through the mounting cavity 17 and extending to the guide cavity 20 is arranged in the middle of the second bevel gear 21, a driving impeller 23 is arranged at one end, far away from the second bevel gear 21, of the transmission shaft 22, water flow is sucked through a guide groove when the sliding rod 9 moves upwards, the water flow moves downwards through the first connecting pipe 27 to enter the bottom of the hexagonal mounting groove 7, the water flow is sucked again when the sliding rod 9 moves upwards again, the water flow is compressed again to enable the water flow to enter the guide cavity 20 through the second bevel gear 21, the impeller 23 is enabled to rotate through the second connecting pipe 23 through the effect of the water flow, the driving impeller 22 is enabled to rotate through the second bevel gear 22, the driving impeller 22 is enabled to rotate through the second bevel gear 19, and the driving impeller 11 is enabled to rotate through the second bevel gear 19, and the driving shaft is enabled to rotate through the second bevel gear 11 to rotate, and the driving shaft is enabled to rotate through the second bevel gear 19. The rotating coil 11 comprises a fixing piece 24 positioned in the middle of the connecting shaft 19, a plurality of evenly distributed conductive coils 25 are arranged around the fixing piece 24, the opposite conductive coils 25 can form a closed loop, the purpose of cutting magnetic induction lines is achieved by matching the rotation of the rotating coil 11 with the electromagnet, the effect of generating electricity is achieved, and the effect of continuously supplying power to the device is achieved. The lower extreme of connecting axle 19 be provided with hexagonal mounting groove 7 matched with piston piece 26, piston piece 26 be close to one side of guiding gutter 14 is provided with and runs through locating piece 16 with piston piece 26's first communicating tube 27, piston piece 26 is kept away from one side of first communicating tube 27 is provided with and runs through piston piece 26 and with the second communicating tube 28 of direction chamber 20 UNICOM, through the setting of piston piece 26 with the setting of first communicating tube 27 and second communicating tube 28 make rivers through drive arrangement 10 and do not meet with rotation coil 11 and then reach the purpose that prolongs rotation coil 11 life-span.

Detailed usage and effects of the second embodiment: when the sliding rod 9 moves upwards, water flows into the device through the diversion trench 14, when the sliding rod 9 moves downwards, water flows downwards are extruded and then are led to pass through the driving device 10, the driving device 10 starts to work, and when water flows are sucked through the diversion trench 14 again, the water flows enter the drain pipe 15 to be discharged through the driving device 10 again, the purpose of circulation is achieved, and then the effect of continuously supplying power to the device is achieved, when the sliding rod 9 moves upwards, water flows are sucked through the diversion trench, the water flows downwards move downwards through the sliding rod 9 and then enter the bottom of the hexagonal installation trench 7 through the first communication pipe 27, when the sliding rod 9 moves upwards and downwards again, the water flows are sucked again and then compressed again, and then the water flows enter the guide cavity 20 through the second communication pipe 28, and then the driving impeller 23 rotates through the action of the water flows, and then the driving impeller 23 rotates the transmission shaft 22, and then the transmission shaft 22 drives the first bevel gear 18 to rotate through the second bevel gear 21, and then the connecting shaft 19 rotates, and then the purpose of driving the rotating coil 11 is achieved, the purpose of continuously supplying power through the rotation of the rotating coil 11 and the electromagnetic iron matched with the electromagnetic iron, and the purpose of continuously supplying power to the device through the second communication pipe 27 is achieved, and the purpose of continuously supplying power to the rotating coil 11 is achieved through the magnetic induction coil 11, and the device is achieved, and the purpose of the device is achieved, and the device is not is provided, and the device is provided with the rotating, and the device is provided.

Example III

As illustrated in figures 1-6:

the invention provides a tidal energy-based marine floating beacon, wherein electromagnets 29 which are uniformly distributed are arranged at positions corresponding to hexagonal installation grooves 7 in the middle part of the inside of a connection shell 4, the adjacent electromagnets 29 are all opposite magnetic poles, a through hole 30 connected with a drain pipe 15 is arranged at the upper end of a guide cavity 20, a one-way valve is arranged in the middle part of the inside of the drain pipe 15, the electromagnet 29 is arranged so as to be convenient to be matched with a rotating coil 11 to achieve the purpose of generating electricity, and the device is communicated with the guide cavity 20 through the arrangement of the through hole 30. The flow direction regulating device 2 comprises a guide body 31 positioned on one side of a fixed main body 1, both sides of the guide body 31 are streamline, one side of the guide body 31, which is far away from the fixed main body 1, is provided with a plurality of evenly distributed stabilizing pieces 32, the middle part of each stabilizing piece 32 is provided with a rotating shaft 33, the middle part of each rotating shaft 33 is provided with a rotating plate 34, the middle part of the lower end of the fixed main body 1 is provided with an anchor chain 35, the device is rotated when the guide body 31 is square with water flow, when the guide body 31 is parallel to the water flow, the influence of the water flow and the guide body 31 is reduced through streamline on both sides, and the effect that the direction of the device is always the same as the direction of the water flow is achieved.

Detailed usage method and action of the third embodiment: the electromagnet 29 is arranged to be convenient to be matched with the rotating coil 11 to achieve the purpose of electricity generation, the device is communicated with the guide cavity 20 through the arrangement of the through hole 30, the device is rotated when the device is square and pure in angle with water flow through the arrangement of the guide body 31, and when the guide body 31 is parallel to the water flow, the influence of the water flow and the guide body 31 is reduced through streamline on two sides, so that the effect that the direction of the device is always the same as the direction of the water flow is achieved.

In summary, by means of the technical scheme of the invention, the floating cone is effectively reciprocated up and down by water waves, so that the floating cone drives the sliding rod to reciprocate, and the device continuously sucks and discharges water flow, so that the effect of generating electricity by rotating the driving device is achieved, the effect that the device is easy to cause insufficient power supply in long-time overcast and rainy days is effectively avoided, and the practicability and safety of the device are effectively improved.

The foregoing description of the preferred embodiments of the present invention should not be taken as limiting the scope of the invention, but rather should be construed in view of the appended claims.

Claims (7)

1. The utility model provides a marine floating beacon based on tidal energy, its characterized in that, including fixed main part (1), the outer pot head of fixed main part (1) is equipped with flow direction adjusting device (2), the upper end middle part of fixed main part (1) is provided with fixed pile (3), the middle part fixed mounting of fixed pile (3) has connection casing (4), the middle part of connecting casing (4) is provided with floats flotation pontoon (5), the upper end of floating barrel (5) is provided with guide disc (6), the inside of connecting casing (4) is provided with a plurality of evenly distributed's hexagonal mounting groove (7), the upper end of hexagonal mounting groove (7) is provided with runs through guiding hole (8) of connecting casing (4), the middle part of guiding hole (8) is provided with slide bar (9), the lower extreme middle part of slide bar (9) be provided with hexagonal mounting groove (7) matched with drive arrangement (10), the middle part of drive arrangement (10) is provided with rotation coil (11), the upper end of floating barrel (6) is provided with hexagonal cone (12), the middle part (12) of floating barrel (13) is provided with slide bar (13).

2. The tidal energy based marine floating beacon according to claim 1, wherein a diversion trench (14) is provided on one side of the sliding rod (9), and a drain pipe (15) penetrating through the sliding rod (9) is provided inside one side of the sliding rod (9) away from the diversion trench (14).

3. The marine floating beacon based on tidal energy according to claim 2, wherein the driving device (10) comprises a positioning block (16) matched with the hexagonal installation groove (7), an installation cavity (17) is arranged in the middle of the inside of the positioning block (16), a first bevel gear (18) is arranged in the middle of the inside of the installation cavity (17), a connecting shaft (19) penetrating through the installation cavity (17) is arranged at the lower end of the first bevel gear (18), a guiding cavity (20) is arranged at one side of the installation cavity (17), a second bevel gear (21) is arranged at one side of the first bevel gear (18), a transmission shaft (22) penetrating through the installation cavity (17) and extending to the guiding cavity (20) is arranged in the middle of the second bevel gear (21), and a driving impeller (23) is arranged at one end of the transmission shaft (22) far away from the second bevel gear (21).

4. A tidal energy based marine floating beacon according to claim 3, wherein the rotating coil (11) comprises a fixing member (24) located in the middle of the connecting shaft (19), a plurality of evenly distributed conductive coils (25) are arranged around the fixing member (24), and the conductive coils (25) are arranged in a closed loop.

5. The tidal energy based marine floating beacon according to claim 4, wherein a piston sheet (26) matched with the hexagonal installation groove (7) is arranged at the lower end of the connecting shaft (19), a first communicating pipe (27) penetrating through the positioning block (16) and the piston sheet (26) is arranged at one side, close to the guide groove (14), of the piston sheet (26), and a second communicating pipe (28) penetrating through the piston sheet (26) and communicating with the guide cavity (20) is arranged at one side, far away from the first communicating pipe (27), of the piston sheet (26).

6. The tidal energy based marine floating beacon according to claim 5, wherein the inner middle part of the connection housing (4) and the position corresponding to the hexagonal installation groove (7) are provided with evenly distributed electromagnets (29), the adjacent electromagnets (29) are opposite magnetic poles, the upper end of the guide cavity (20) is provided with a through hole (30) connected with the drain pipe (15), and the inner middle part of the drain pipe (15) is provided with a one-way valve.

7. The tidal energy based marine floating beacon according to claim 6, wherein the flow direction regulating device (2) comprises a flow guiding body (31) positioned at one side of the fixed main body (1), both sides of the flow guiding body (31) are streamline, a plurality of evenly distributed stabilizing sheets (32) are arranged at one side of the fixed main body (1) far away from the flow guiding body (31), a rotating shaft (33) is arranged at the middle part of the stabilizing sheets (32), a rotating plate (34) is arranged at the middle part of the rotating shaft (33), and an anchor chain (35) is arranged at the middle part of the lower end of the fixed main body (1).

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