CN218949419U - Drifting buoy with power driving structure - Google Patents

Abstract

The utility model relates to the technical field of drifting buoys, and discloses a drifting buoy with a power driving structure, which comprises a first floating body and a second floating body, wherein the bottom end of the first floating body is fixedly connected with a fixed mounting sleeve rod, the inside of the fixed mounting sleeve rod is movably connected with a power driving mechanism, the inside of the first floating body is provided with a fixed clamping groove, the fixed clamping groove and the inner side of the first floating body are movably clamped with a movable mounting bottom plate, and the top end of the movable mounting bottom plate is fixedly connected with a GPS (global positioning system) positioner; the power driving mechanism is arranged, so that the device can move under the action of the power driving mechanism under the action of ocean drifting at first, a drifting track can be obtained, then the power driving mechanism can be started after the device is used, at the moment, the device can move vertically according to the drifting direction, the whole device can be recovered, and the operation is convenient.

Description

Drifting buoy with power driving structure

Technical Field

The utility model relates to the technical field of drifting buoys, in particular to a drifting buoy with a power driving structure.

Background

The drifting buoy is a buoy which floats along with the ocean current at the sea surface or a certain depth, the position information of the buoy is obtained by using a satellite, a network or an acoustic method, and after the processing software obtains the positioning information, the track of the buoy moving along with the ocean current is drawn according to a specific algorithm, so that ocean surface flow data are obtained.

In the process of using the existing drifting buoy, as the ocean surface flow has a certain flow velocity, the buoy can be driven to flow far away, the buoy needs to be recovered after the flow velocity and the track are measured, the outside is tied with a pull rope to influence the track of the ocean surface flow driving the buoy to move, a certain deviation exists, and the buoy is inconvenient to recover, so that the floating buoy with the power driving structure is provided.

Disclosure of Invention

In order to overcome the above-mentioned drawbacks of the prior art, the present utility model provides a drifting buoy with a power driving structure, so as to solve the above-mentioned problems in the prior art.

The utility model provides the following technical scheme: the floating buoy with the power driving structure comprises a first floating body and a second floating body, wherein the bottom end of the first floating body is fixedly connected with a fixed mounting sleeve rod, the inside of the fixed mounting sleeve rod is movably connected with a power driving mechanism, a fixed clamping groove is formed in the first floating body, the fixed clamping groove and the inner side of the first floating body are movably clamped with a movable mounting bottom plate, and the top end of the movable mounting bottom plate is fixedly connected with a GPS (global positioning system) positioner;

further, all fixedly connected with connection sealing washer between first body and the second body, the surface outside of first body and second body has all movably sleeved movable fixture block, the tip fixedly connected with of movable fixture block connects the locating piece, the inside swing joint of connecting the locating piece has fastening bolt, fastening bolt's surface outside has movably sleeved coupling nut.

Further, the top end of the movable mounting bottom plate is fixedly connected with a connecting handle.

Further, the power driving mechanism comprises a movable mounting sleeve, the top fixedly connected with of movable mounting sleeve connects the footwall, the top fixedly connected with servo motor who connects the footwall, servo motor's output fixedly connected with initiative bevel gear, movable mounting sleeve's bottom and top pass through the axis of rotation and respectively swing joint have first driven bevel gear and third driven bevel gear, movable mounting sleeve's bottom fixedly connected with fixed locating piece, fixed locating piece's inside is through transmission shaft swing joint rotor blade and second driven bevel gear, movable mounting sleeve's bottom is through installation pole fixedly connected with direction adjustment piece, the fixed surface of direction adjustment piece is connected with atress guide block.

Further, the driving bevel gear is in mutually perpendicular meshing connection with the third driven bevel gear, and the first driven bevel gear is in mutually perpendicular meshing connection with the second driven bevel gear.

Further, an oblique guide hole is formed in the stress guide block.

Further, anti-skid patterns are arranged on the inner side of the movable clamping block.

The utility model has the technical effects and advantages that:

1. the power driving mechanism is arranged, so that the device can move under the action of the power driving mechanism under the action of ocean drifting at first, a drifting track can be obtained, then the power driving mechanism can be started after the device is used, at the moment, the device can move vertically according to the drifting direction, the whole device can be recovered, and the operation is convenient.

2. According to the utility model, the movable clamping blocks are conveniently sleeved outside the surfaces of the first floating body and the second floating body through the connecting sealing rings, the movable clamping blocks, the connecting positioning blocks, the fastening bolts and the connecting nuts, then the fastening bolts are inserted into the connecting positioning blocks and connected with the connecting nuts, so that the movable clamping blocks can be quickly connected and fixed, the first floating body and the second floating body can be quickly installed, otherwise, the movable clamping blocks can be quickly disassembled, the servo motor and the GPS positioner in the first floating body can be quickly disassembled and maintained, and the operation is convenient.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present utility model.

Fig. 2 is a schematic diagram of a fixing slot structure of the present utility model.

Fig. 3 is a schematic diagram of the power driving mechanism of the present utility model.

Fig. 4 is a schematic diagram of a movable clamping block structure according to the present utility model.

The reference numerals are: 1. a first floating body; 2. a second floating body; 3. fixedly installing a loop bar; 4. a power driving mechanism; 5. a fixing slot; 6. a movable mounting bottom plate; 7. a GPS locator; 8. connecting a sealing ring; 9. a movable clamping block; 10. connecting a positioning block; 11. a fastening bolt; 12. a coupling nut; 13. a connecting handle; 14. a movable mounting sleeve; 15. a first driven bevel gear; 16. fixing the positioning block; 17. rotating the blade; 18. a second driven bevel gear; 19. a direction adjusting sheet; 20. a stress guide block; 21. the top plate is connected; 22. a third driven bevel gear; 23. a servo motor; 24. a driving bevel gear.

Detailed Description

The embodiments of the present utility model will be described more fully hereinafter with reference to the accompanying drawings, in which the embodiments of the present utility model are shown by way of illustration only, and the utility model is not limited to the embodiments of the present utility model, but other embodiments of the present utility model will be apparent to those skilled in the art without making any inventive effort.

Referring to fig. 1-4, the utility model provides a drifting buoy with a power driving structure, which comprises a first floating body 1 and a second floating body 2, wherein the bottom end of the first floating body 1 is fixedly connected with a fixed mounting sleeve rod 3, the inside of the fixed mounting sleeve rod 3 is movably connected with a power driving mechanism 4, a fixed clamping groove 5 is formed in the first floating body 1, the fixed clamping groove 5 and the inner side of the first floating body 1 are movably clamped with a movable mounting bottom plate 6, and the top end of the movable mounting bottom plate 6 is fixedly connected with a GPS (global positioning system) positioner 7;

wherein, all fixedly connected with connects sealing washer 8 between first body 1 and the second body 2, the surface outside of first body 1 and the second body 2 has all movably sleeved movable fixture block 9, the tip fixedly connected with of movable fixture block 9 connects locating piece 10, the inside swing joint of connecting locating piece 10 has fastening bolt 11, fastening bolt 11's surface outside activity has sleeved coupling nut 12, be convenient for with movable fixture block 9 card in the marginal surface outside of first body 1 and second body 2, then can fix the position of connecting locating piece 10 through the cooperation between fastening bolt 11 and the coupling nut 12, thereby can connect the restriction to the position of movable fixture block 9, thereby can connect fixedly between first body 1 and the second body 2.

Wherein, the top fixedly connected with of movable mounting bottom plate 6 connects handle 13, is convenient for carry and draw movable mounting bottom plate 6 and GPS locator 7 that can take fast to remove to connecting handle 13, can be quick dismantle the maintenance to GPS locator 7.

The power driving mechanism 4 comprises a movable mounting sleeve 14, the top end of the movable mounting sleeve 14 is fixedly connected with a connecting top disc 21, the top of the connecting top disc 21 is fixedly connected with a servo motor 23, the output end of the servo motor 23 is fixedly connected with a driving bevel gear 24, the bottom end and the top end of the movable mounting sleeve 14 are respectively and movably connected with a first driven bevel gear 15 and a third driven bevel gear 22 through rotating shafts, the bottom end of the movable mounting sleeve 14 is fixedly connected with a fixed positioning block 16, the inside of the fixed positioning block 16 is movably connected with a rotating blade 17 and a second driven bevel gear 18 through a transmission shaft, the bottom end of the movable mounting sleeve 14 is fixedly connected with a direction regulating piece 19 through a mounting rod, the surface of the direction regulating piece 19 is fixedly connected with a stress guide block 20, the stress guide block 20 can be subjected to the action of drifting and is parallel to each other, the whole power driving mechanism 4 can be driven to deflect and be parallel to the drifting direction, the rotating blade 17 is also parallel to the drifting direction, after the use is completed, the servo motor 23 is started, the driving bevel gear 24 and the first driven bevel gear 15 are rotated, the second driven bevel gear 18 can be driven to rotate, the whole device can be conveniently and the whole device can be recovered, and the whole device can be moved to the whole device can be conveniently, and the whole device can be recovered to the sea.

The driving bevel gear 24 is engaged with the third driven bevel gear 22 in a mutually perpendicular manner, the first driven bevel gear 15 is engaged with the second driven bevel gear 18 in a mutually perpendicular manner, so that the driving bevel gear 24 and the third driven bevel gear 22 and the first driven bevel gear 15 and the second driven bevel gear 18 can be stably driven, and the operation is convenient.

Wherein, the inclined guide hole has been seted up to the inside of atress guide block 20, and the ocean surface layer flow of being convenient for can provide thrust to atress guide block 20 when flowing, can flow outside through the inside of the inside inclined guide hole of atress guide block 20 simultaneously, convenient operation.

Wherein, the inboard of activity fixture block 9 is equipped with the anti-skidding line, and the activity fixture block 9 of being convenient for can stably block in the edge outside of first body 1 and second body 2 for can stably use between first body 1 and the second body 2.

The working principle of the utility model is as follows: in the using process, the device is integrally placed in the ocean, the direction regulating piece 19 can be pushed along with the flow of ocean surface flow, so that the direction regulating piece 19 can be kept parallel to the flowing direction, the movable mounting sleeve 14, the connecting top plate 21, the third driven bevel gear 22, the servo motor 23, the driving bevel gear 24, the first driven bevel gear 15, the fixed positioning block 16, the rotating blade 17 and the second driven bevel gear 18 can be driven to deflect in the deflecting process of the direction regulating piece 19, at this moment, the thrust can be lifted to the stressed guide block 20 along with the flow of the ocean surface flow, the device can be driven to integrally move, the flowing direction of the ocean surface flow can be obtained, then after the flowing direction of the ocean surface flow is monitored, the servo motor 23 can be started through the remote control device, the driving bevel gear 24 is driven to rotate, so that the third driven bevel gear 22 and the first driven bevel gear 15 can rotate, then the second driven bevel gear 18 is driven to rotate, the rotating blade 17 can rotate at a position parallel to the flowing direction of the ocean surface layer, the whole device can move perpendicular to the flowing direction of the ocean surface layer, finally the whole device can move to the shore, the whole device can be recovered, the trend of the whole device can be judged through the GPS positioner 7 in the recovery process, if the whole device is slowly far away from the shore, the servo motor 23 is driven to rotate reversely, the rotating blade 17 can finally rotate reversely, the whole device can move reversely, the whole device provides power output through the storage battery, the device is convenient to recover under the drive of power, after long-time use, the servo motor 23 and the GPS positioner 7 are required to be overhauled and maintained, at the moment, the fastening bolt 11 and the connecting nut 12 can be mutually rotated and separated, the position of the connecting positioning block 10 is not fixed, then the movable clamping block 9 is separated from the outer sides of the edge surfaces of the first floating body 1 and the second floating body 2, so that the first floating body 1 and the second floating body 2 can be rapidly separated, the first floating body 1 and the second floating body 2 can be rapidly disassembled and separated, then the connecting handle 13 is lifted upwards, the movable mounting base plate 6 and the GPS positioner 7 can be rapidly driven to move, and the servo motor 23 and the GPS positioner 7 can be rapidly overhauled and maintained, so that the operation is convenient and rapid.

The last points to be described are: first, in the description of the present application, it should be noted that, unless otherwise specified and defined, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be mechanical or electrical, or may be a direct connection between two elements, and "upper," "lower," "left," "right," etc. are merely used to indicate relative positional relationships, which may be changed when the absolute position of the object being described is changed;

secondly: in the drawings of the disclosed embodiments, only the structures related to the embodiments of the present disclosure are referred to, and other structures can refer to the common design, so that the same embodiment and different embodiments of the present disclosure can be combined with each other under the condition of no conflict;

finally: the foregoing description of the preferred embodiments of the utility model is not intended to limit the utility model to the precise form disclosed, and any such modifications, equivalents, and alternatives falling within the spirit and principles of the utility model are intended to be included within the scope of the utility model.

Claims (7)

1. The utility model provides a drifted buoy with power driving structure, includes first body (1) and second body (2), its characterized in that: the novel floating body comprises a first floating body (1), wherein a fixed mounting loop bar (3) is fixedly connected to the bottom end of the first floating body (1), a power driving mechanism (4) is movably connected to the inside of the fixed mounting loop bar (3), a fixing clamping groove (5) is formed in the first floating body (1), a movable mounting bottom plate (6) is movably clamped between the fixing clamping groove (5) and the inner side of the first floating body (1), and a GPS (global positioning system) locator (7) is fixedly connected to the top end of the movable mounting bottom plate (6).

2. A powered structure drift buoy in accordance with claim 1, characterized by: all fixedly connected with connection sealing washer (8) between first body (1) and second body (2), the surface outside of first body (1) and second body (2) has all movably been cup jointed movable fixture block (9), the tip fixedly connected with of movable fixture block (9) connects locating piece (10), the inside swing joint of connecting locating piece (10) has fastening bolt (11), coupling nut (12) have been cup jointed in the surface outside activity of fastening bolt (11).

3. A powered structure drift buoy in accordance with claim 1, characterized by: the top end of the movable mounting bottom plate (6) is fixedly connected with a connecting handle (13).

4. A powered structure drift buoy in accordance with claim 1, characterized by: the power driving mechanism (4) comprises a movable mounting sleeve (14), the top of the movable mounting sleeve (14) is fixedly connected with a connecting top disc (21), the top of the connecting top disc (21) is fixedly connected with a servo motor (23), the output end of the servo motor (23) is fixedly connected with a driving bevel gear (24), the bottom and the top of the movable mounting sleeve (14) are respectively and movably connected with a first driven bevel gear (15) and a third driven bevel gear (22) through a rotating shaft, the bottom of the movable mounting sleeve (14) is fixedly connected with a fixed positioning block (16), the inside of the fixed positioning block (16) is movably connected with a rotating blade (17) and a second driven bevel gear (18) through a transmission shaft, the bottom of the movable mounting sleeve (14) is fixedly connected with a direction adjusting piece (19) through a mounting rod, and the surface of the direction adjusting piece (19) is fixedly connected with a stressed guide block (20).

5. The powered structure drift buoy of claim 4, wherein: the driving bevel gear (24) is in mutually perpendicular meshing connection with the third driven bevel gear (22), and the first driven bevel gear (15) is in mutually perpendicular meshing connection with the second driven bevel gear (18).

6. The powered structure drift buoy of claim 4, wherein: and an inclined guide hole is formed in the stress guide block (20).

7. A powered structure drift buoy in accordance with claim 2, characterized by: the inner side of the movable clamping block (9) is provided with anti-skid patterns.

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