CN113525594A

CN113525594A - Sea area sign location buoy

Info

Publication number: CN113525594A
Application number: CN202110778018.4A
Authority: CN
Inventors: 张鲲; 沈重; 田川; 窦兴波; 王海丰; 李涵雯; 包美璇
Original assignee: Hainan Tropical Ocean University
Current assignee: Hainan Huaxin Marine Technology Co.,Ltd.
Priority date: 2021-07-09
Filing date: 2021-07-09
Publication date: 2021-10-22
Anticipated expiration: 2041-07-09
Also published as: CN113525594B

Abstract

The invention relates to a buoy, in particular to a sea area identification positioning buoy. The utility model provides a sea area sign location buoy, includes hollow disc, hollow hemisphere and cylinder, the downside center fixedly connected with cylinder of hollow disc, the downside of hollow disc is the annular and is provided with a plurality of hollow hemispheres. The utility model provides a sea area sign location buoy still includes hollow post, solid post, ball and gear II, respectively is provided with one about the hollow post, and two hollow posts all articulate on hollow dish, and equal fixedly connected with gear II on two hollow posts meshes the transmission between two gear II, and equal sliding connection has solid post on two hollow posts, the equal fixedly connected with ball in outer end of two solid posts. The utility model provides a sea area sign location buoy still includes motor I and gear I, and the upside fixedly connected with motor I of hollow disc, fixedly connected with gear I on motor I's the output shaft, gear I and one of them gear II meshing transmission.

Description

Sea area sign location buoy

Technical Field

The invention relates to a buoy, in particular to a sea area identification positioning buoy.

Background

The patent number is 201620335739.2 discloses a buoy, this utility model discloses a buoy, buoy includes body and hollow sleeve, and the body is arranged hollow sleeve in with detachable mode card, and the body includes left body and right body, is equipped with first binding face on the body of a left side, is equipped with on the body of the right side with first binding face matched with second binding face, and the body outside is stretched out at the both ends that are equipped with fishing line and fishing line between first binding face and the second binding face. The utility model discloses a buoy is through establishing the card with left body, right body and fishing line cover and putting in hollow sleeve, accomplishes the installation of buoy, simple structure not only, and installation and dismantlement are convenient moreover, and convenience of customers uses. However, the buoy is not stable enough to be used for sea area identification and positioning.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the sea area identification positioning buoy which has the beneficial effect that the buoy can be used for sea area identification positioning.

The utility model provides a sea area sign location buoy, includes hollow disc, hollow hemisphere and cylinder, the downside center fixedly connected with cylinder of hollow disc, the downside of hollow disc is the annular and is provided with a plurality of hollow hemispheres.

The utility model provides a sea area sign location buoy still includes hollow post, solid post, ball and gear II, respectively is provided with one about the hollow post, and two hollow posts all articulate on hollow dish, and equal fixedly connected with gear II on two hollow posts meshes the transmission between two gear II, and equal sliding connection has solid post on two hollow posts, the equal fixedly connected with ball in outer end of two solid posts.

The utility model provides a sea area sign location buoy still includes motor I and gear I, and the upside fixedly connected with motor I of hollow disc, fixedly connected with gear I on motor I's the output shaft, gear I and one of them gear II meshing transmission.

The sea area identification positioning buoy further comprises a convex column I, a telescopic rod I and a convex column II, wherein the convex column II is fixedly connected onto the hollow column, the convex column I is fixedly connected onto the ball, and the telescopic rod I is fixedly connected between the convex column I and the convex column II.

The sea area identification positioning buoy further comprises power wheels, and the power wheels are rotatably connected to the outer portions of the two balls.

The utility model provides a sea area sign location buoy still includes belt pulley and motor II, is provided with motor II on the projection I, is provided with the belt pulley on motor II's the output shaft, passes through belt transmission between belt pulley and the power wheel.

The utility model provides a sea area sign location buoy still includes circle seat, flat bar, backing pin and spout, and the cylindrical lower extreme is provided with the circle seat, is provided with the spout on the flat bar, and circle seat sliding connection all is provided with the backing pin at both ends around the flat bar on the spout.

The sea area identification positioning buoy further comprises a hollow ring, and the front portion of the flat rod is provided with the hollow ring.

The sea area identification positioning buoy further comprises a rope, an anchor, a U-shaped frame and a lifting ring, the U-shaped frame is arranged on the lower side of the hollow ring, the lifting ring is rotatably connected to the middle of the U-shaped frame, the rope is connected to the lifting ring, and the lower portion of the rope is connected with the anchor.

The sea area identification positioning buoy further comprises an antenna, and the antenna is arranged on the upper side of the hollow disc.

The sea area identification positioning buoy has the beneficial effects that:

the invention can be used for sea area identification and positioning.

Drawings

The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a first schematic structural view of a sea area identification and positioning buoy;

FIG. 2 is a schematic structural diagram of a sea area identification positioning buoy;

FIG. 3 is a third schematic structural view of a sea area identification positioning buoy;

FIG. 4 is a first schematic structural view of a hollow disc;

FIG. 5 is a second schematic structural view of a hollow disc;

FIG. 6 is a schematic structural view of a hollow column;

FIG. 7 is a first schematic structural view of a flat bar;

FIG. 8 is a second schematic structural view of a flat bar;

FIG. 9 is a first schematic structural view of a cross-post;

FIG. 10 is a second schematic structural view of the cross-post;

fig. 11 is a schematic structural view of a door frame.

In the figure: a hollow disc 101; a motor I102; a hollow hemisphere 103; a cylinder 104; a round seat 105; gear I106; a hollow column 201; a solid column 202; a sphere 203; a power wheel 204; a pulley 205; motor II 206; a convex column I207; a telescopic rod I208; a convex column II 209; gear II 210; a flat bar 301; a catch pin 302; a chute 303; a cord 304; an anchor 305; a U-shaped frame 306; a hollow ring 307; a lifting ring 308; a cross-post 401; a fastening screw 402; a triangular hollow block 403; a directional plate 404; motor III 405; a motor mount 406; a top rod 407; a telescopic rod II 408; a gantry 501; a telescopic rod III 502; a rotating rod 503; a support rod 504; an antenna 505; and a motor IV 506.

Detailed Description

Referring to fig. 1-5, an embodiment of the present invention is provided to solve the main technical problem that a plurality of hollow hemispheres 103 make the hollow disc 101 more stable when being disposed in water, prevent the hollow disc 101 from sinking, and the cylinder 104 further makes the hollow disc 101 balanced, and further,

because sea area sign location buoy includes hollow disc 101, hollow hemisphere 103 and cylinder 104, the downside center of hollow disc 101 is provided with cylinder 104, the downside of hollow disc 101 is the annular and is provided with a plurality of hollow hemispheres 103, the aquatic can be put into to hollow disc 101, cylinder 104 inserts the aquatic, a plurality of hollow hemispheres 103 make hollow disc 101 set up more stable when the aquatic, prevent that hollow disc 101 from sinking, cylinder 104 further makes hollow disc 101 balanced.

Referring to fig. 1-6, an embodiment of the present invention is provided to solve the main technical problem of changing the positions of the two round balls 203 relative to the hollow disc 101 as required, and the two round balls 203 are also acted by buoyancy to adjust the positions of the two round balls 203 and further adjust the stability of the hollow disc 101, and further,

because the sea area identification positioning buoy further comprises the hollow columns 201, the solid columns 202, the round balls 203 and the gears II210, one hollow column 201 is arranged on the left and the right, one end of each of the two hollow columns 201 is rotatably connected to the hollow disc 101, the gears II210 are arranged on the two hollow columns 201, the two gears II210 are mutually meshed, the solid columns 202 are slidably connected to the two hollow columns 201, and the round balls 203 are fixedly connected to the outer ends of the two solid columns 202; solid post 202 can slide on hollow post 201, and then the position of adjustment ball 203 for ball 203 stretches far to farther position, further promotes the stability of hollow dish 101, and two hollow posts 201 can rotate simultaneously through gear II210, and then changes the position of two relative hollow dishes 101 of ball 203 as required, and two balls 203 also receive the effect of buoyancy, adjust the position of two balls 203 and then adjust the stability of hollow dish 101.

Referring to fig. 1-6, an embodiment of the present invention is provided, which solves the main technical problem of making two hollow pillars 201 rotate in opposite directions with equal angle at the same time, and further,

because the sea area identification positioning buoy further comprises a motor I102 and a gear I106, the motor I102 is arranged on the upper side of the hollow disc 101, the gear I106 is arranged on an output shaft of the motor I102, the gear I106 is in meshing transmission with one gear II210, when the motor I102 drives the gear I106 to rotate, one gear II210 can be driven to rotate, and then the other gear II210 is driven to rotate, so that the two hollow columns 201 can rotate in opposite directions at the same angle.

Referring to fig. 1-6, an embodiment of the present invention is provided to solve the main technical problem of adjusting the distance between the spherical ball 203 and the hollow disc 101, and further,

because sea area sign location buoy still includes projection I207, telescopic link I208 and projection II209, is provided with projection II209 on the hollow column 201, is provided with projection I207 on the ball 203, fixedly connected with telescopic link I208 between projection I207 and the projection II209, can drive solid post 202 and slide on hollow column 201 when telescopic link I208 is flexible, and then the distance between adjustment ball 203 and the hollow dish 101.

Referring to fig. 1-6, an embodiment of the present invention is provided, which solves the main technical problem of providing power for the movement of the buoy, and further,

because the sea area identification positioning buoy further comprises power wheels 204, the power wheels 204 are rotatably connected to the outer portions of the two round balls 203, when the power wheels 204 rotate, the buoy is conveniently driven to integrally move as required, and power is provided for movement of the buoy.

Referring to fig. 1-6, an embodiment of the present invention is provided to solve the main technical problem that when the pulley 205 is driven by the motor II206 to rotate, the belt can drive the power wheel 204 to rotate, so as to drive the power wheel 204 to rotate to drive the buoy to move as required, and further,

because sea area sign location buoy still includes belt pulley 205 and motor II206, is provided with motor II206 on the projection I207, is provided with belt pulley 205 on the output shaft of motor II206, passes through belt transmission between belt pulley 205 and the power wheel 204, can drive power wheel 204 through the belt and rotate when motor II206 drives belt pulley 205 and rotates, and then drive power wheel 204 and rotate the whole as required removal of drive buoy.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem that when the hollow disc 101 slides on the sliding slot 303 through the cylinder 104 and the round seat 105, the position of the hollow disc 101 can be easily changed, the two stop pins 302 can prevent the round seat 105 from separating from the flat bar 301, and further,

because sea area sign location buoy still includes round seat 105, flat bar 301, backing pin 302 and spout 303, the lower extreme of cylinder 104 is provided with round seat 105, be provided with spout 303 on the flat bar 301, round seat 105 sliding connection is on spout 303, the equal fixedly connected with backing pin 302 in both ends around the flat bar 301, hollow plate 101 passes through cylinder 104 and round seat 105 and is convenient for change hollow plate 101's position when sliding on spout 303, two backing pins 302 can prevent that round seat 105 from breaking away from flat bar 301.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem that the hollow ring 307 can be lifted in water by the buoyancy of water when being immersed in water, and further,

because the sea area identification positioning buoy further comprises the hollow ring 307, the hollow ring 307 is arranged at the front part of the flat rod 301, and the hollow ring 307 can be subjected to the buoyancy of water when being immersed in the water, so that the flat rod 301 is lifted in the water.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem of rotating the flat bar 301 to different directions, so that the hollow plate 101 can extend in different directions, and further,

because the sea area identification positioning buoy further comprises a rope 304, an anchor 305, a U-shaped frame 306 and a hanging ring 308, the U-shaped frame 306 is arranged on the lower side of the hollow ring 307, the hanging ring 308 is rotatably connected to the middle of the U-shaped frame 306, the rope 304 is connected to the hanging ring 308, the anchor 305 is connected to the lower portion of the rope 304 and can be hooked at the bottom of water, the hollow ring 307 is pulled through the rope 304, the horizontal position of the hollow ring 307 is prevented from being changed too much, the U-shaped frame 306 can rotate on the hanging ring 308, and then the flat rod 301 is rotated to different directions, so that the hollow disc 101 can extend to different directions.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem that an antenna 505 is used for transmitting and receiving signals, so that a ship knows the position of a buoy by radio, and further,

since the sea area identification positioning buoy further comprises an antenna 505, the upper side of the hollow disc 101 is provided with the antenna 505, and the antenna 505 is used for transmitting and receiving signals, so that the ship knows the position of the buoy by radio.

Sea area sign location buoy is still including door-shaped frame 501, telescopic link III502, bull stick 503, cradling piece 504 and motor IV506, the upside fixedly connected with door-shaped frame 501 of hollow disc 101, fixedly connected with motor IV506 on the door-shaped frame 501, fixedly connected with bull stick 503 on the output shaft of motor IV506, sliding connection has cradling piece 504 on the bull stick 503, fixedly connected with telescopic link III502 on the bull stick 503, the other end fixed connection of telescopic link III502 is on cradling piece 504, antenna 505 fixed connection is in the one end of cradling piece 504.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem of adjusting the direction and position of the antenna 505, and further,

the motor IV506 can drive the rotating rod 503 to rotate by taking the axis of the output shaft of the motor IV506 as the axis, so as to rotate the rotating rod 503 and the support rod 504 to different directions, and the telescopic rod III502 can drive the support rod 504 to slide back and forth on the rotating rod 503 when being stretched, so as to adjust the direction and the position of the antenna 505.

The sea area identification positioning buoy further comprises a direction plate 404, a motor III405 and a motor frame 406, the motor frame 406 is fixedly connected to the rear portion of the upper side of the hollow disc 101, the motor III405 is fixedly connected to the motor frame 406, an output shaft of the motor III405 is fixedly connected to one end of the direction plate 404, and the direction plate 404 is vertically arranged.

Referring to fig. 1-11, an embodiment of the present invention is provided, which solves the main technical problem of controlling the moving direction of the buoy and further,

the motor III405 may drive the direction plate 404 to rotate, and after the direction plate 404 faces different directions, the float moves towards the direction plate 404 by the rotation of the two power wheels 204, so as to control the moving direction of the float.

Sea area sign location buoy still includes spreader 401, three-edged hollow block 403, ejector pin 407 and telescopic link II408, and the upper portion fixedly connected with ejector pin 407 of direction board 404, the middle part of spreader 401 sliding connection in the front and back direction on ejector pin 407, the rear portion fixedly connected with telescopic link II408 of ejector pin 407, the expansion end fixed connection of telescopic link II408 is on spreader 401, both ends all are provided with three-edged hollow block 403 about spreader 401.

Referring to fig. 1-11, an embodiment of the present invention is provided to solve the main technical problem that two triangular hollow blocks 403 may also extend outward to improve the stability of the hollow plate 101, and further,

the telescopic link II408 goes up to stretch out and draw back and to drive the spreader 401 and move on ejector pin 407, and then drives two three-edged hollow blocks 403 and move simultaneously, and two three-edged hollow blocks 403 also receive the buoyancy of water for hollow dish 101 is more stable, and two three-edged hollow blocks 403 also can outwards stretch out, improve hollow dish 101 stability.

The sea area identification positioning buoy further comprises fastening screws 402, the two triangular hollow blocks 403 are respectively connected to the left end and the right end of the transverse column 401 in a sliding mode, the upper portions of the two triangular hollow blocks 403 are respectively connected with the fastening screws 402 through threads, and the two fastening screws 402 are all supported on the transverse column 401.

Referring to fig. 1-11, an embodiment of the present invention is provided to solve the main technical problem that a triangular hollow block 403 and a cross-pillar 401 can be fixed by a fastening screw 402, and further,

the two triangular hollow blocks 403 can slide on the transverse column 401, the positions of the two triangular hollow blocks 403 are further adjusted, and the triangular hollow blocks 403 and the transverse column 401 can be fixed through fastening screws 402.

Claims

1. A sea area identification positioning buoy comprises a hollow disc (101), a hollow hemisphere (103) and a cylinder (104), and is characterized in that: the center of the lower side of the hollow disc (101) is fixedly connected with a cylinder (104), and the lower side of the hollow disc (101) is annularly provided with a plurality of hollow hemispheres (103).

2. The sea area identification positioning buoy of claim 1, wherein: still include hollow post (201), solid post (202), ball (203) and gear II (210), respectively be provided with one about hollow post (201), two hollow post (201) all articulate on hollow dish (101), equal fixedly connected with gear II (210) on two hollow post (201), meshing transmission between two gear II (210), equal sliding connection has solid post (202) on two hollow post (201), the equal fixedly connected with ball (203) of outer end of two solid posts (202).

3. The sea area identification positioning buoy of claim 2, wherein: the hollow disc is characterized by further comprising a motor I (102) and a gear I (106), the upper side of the hollow disc (101) is fixedly connected with the motor I (102), an output shaft of the motor I (102) is fixedly connected with the gear I (106), and the gear I (106) is in meshing transmission with one gear II (210).

4. The sea area identification positioning buoy of claim 3, wherein: the hollow cylinder is characterized by further comprising a convex cylinder I (207), a telescopic rod I (208) and a convex cylinder II (209), wherein the convex cylinder II (209) is fixedly connected to the hollow cylinder (201), the convex cylinder I (207) is fixedly connected to the round ball (203), and the telescopic rod I (208) is fixedly connected between the convex cylinder I (207) and the convex cylinder II (209).

5. The sea area identification positioning buoy of claim 4, wherein: the power wheel (204) is further included, and the power wheels (204) are rotatably connected to the outer portions of the two round balls (203).

6. The sea area identification positioning buoy of claim 5, wherein: the motor II (206) is fixedly connected to the convex column I (207), the belt pulley (205) is fixedly connected to an output shaft of the motor II (206), and the belt pulley (205) and the power wheel (204) are in transmission through a belt.

7. The sea area identification positioning buoy of claim 6, wherein: the round pin fixing device is characterized by further comprising a round seat (105), a flat rod (301), a stop pin (302) and a sliding groove (303), wherein the round seat (105) is fixedly connected to the lower end of the cylinder (104), the sliding groove (303) is formed in the flat rod (301), the round seat (105) is connected to the sliding groove (303) in a sliding mode, and the stop pin (302) is fixedly connected to the front end and the rear end of the flat rod (301).

8. The sea area identification positioning buoy of claim 7, wherein: the hollow rod is characterized by further comprising a hollow ring (307), and the front part of the flat rod (301) is fixedly connected with the hollow ring (307).

9. The sea area identification positioning buoy of claim 8, wherein: the hollow ring is characterized by further comprising a rope (304), an anchor (305), a U-shaped frame (306) and a hanging ring (308), wherein the U-shaped frame (306) is fixedly connected to the lower side of the hollow ring (307), the hanging ring (308) is rotatably connected to the middle of the U-shaped frame (306), the rope (304) is connected to the hanging ring (308), and the anchor (305) is connected to the lower portion of the rope (304).

10. The sea area identification positioning buoy of claim 9, wherein: the hollow disc also comprises an antenna (505), and the antenna (505) is arranged on the upper side of the hollow disc (101).