CN113154317A - Navigation mark lamp with overwater autonomous lifting system - Google Patents

Abstract

The invention provides a navigation mark lamp with an overwater autonomous lifting system. The navigation mark lamp with aquatic autonomic operating system includes: a support table; the device comprises a shrinkage groove, wherein the shrinkage groove is formed in the top of a supporting table, a device groove and a lifting structure are formed in the supporting table, and the lifting structure comprises a driving motor, a worm, a lifting frame, two fixed pulleys and two stop blocks. The invention provides a beacon light with an overwater autonomous lifting system, which is mainly used for adjusting the height of the beacon light by arranging the lifting structure to form the autonomous lifting system of the beacon light, so that the height adjustment of the beacon light is realized, when the water level of a water area is changed, the beacon light can be automatically adjusted in an adaptive manner according to the water level change condition, the beacon light is ensured not to be influenced by the water level change, the beacon light can be kept in normal running state, and identification signals can be better provided for a navigation ship.

Description

Navigation mark lamp with overwater autonomous lifting system

Technical Field

The invention relates to the field of beacon lights, in particular to a beacon light with an overwater autonomous lifting system.

Background

The navigation mark lamp is a traffic light installed on some navigation marks for ensuring the safe navigation of ships at night, the navigation mark lamp emits specified light color and flash frequency (frequency can be 0) at night to reach specified irradiation angle and visible distance to guide ships traveling at night, the navigation mark lamp has four types of fixed light marks, light buoys, light boats and lighthouses, the fixed light marks, the light buoys and the light boats are beacons for navigation and warning, the lighthouses emit identifiable signals at sea day and night to measure positions of the ships and provide danger warning for the ships, the navigation mark lamp mainly uses storage batteries as a power supply, small lighthouses adopt solar batteries, and large lighthouses adopt diesel generator sets as a main power supply.

At present, the navigation field uses very extensively, and to floating navigation mark lamp, receives environmental impact when the waters that navigation mark lamp located for when the water level changes, and the change of water level can directly influence the navigation mark lamp as the effect of discernable signal, because the height of traditional floating navigation mark lamp generally is fixed the setting, can not independently adjust according to the user demand of reality, makes it not nimble enough when using, can not be fine satisfies the user demand of boat.

Therefore, it is necessary to provide a navigation light with an autonomous lifting system on water to solve the above technical problems.

Disclosure of Invention

The invention provides a beacon light with an overwater autonomous lifting system, and solves the problems that a traditional floating beacon light cannot be autonomously adjusted according to actual use requirements, is not flexible enough when used, and cannot well meet the use requirements of a navigation ship. In order to solve the technical problem, the invention provides a beacon light with an overwater autonomous lifting system, which comprises:

a support table;

the contraction groove is formed in the top of the support table, and a device groove is formed in the support table;

the lifting mechanism comprises a driving motor, a worm, a lifting frame, two fixed pulleys and two stop blocks, wherein the output end of the driving motor and the outer surface of the worm are fixedly connected with rotating gears, the outer surfaces of the two rotating gears are meshed with each other, two sides of the outer surface of the worm are meshed with driving gears, one side of each driving gear is fixedly connected with a rolling wheel, the outside of each rolling wheel is wound with a driving rope, the outside of the driving rope is in rolling connection with the outside of the fixed pulleys, the other end of the driving rope is fixedly connected with one side of the outside of the lifting frame, and two sides of the outside of the lifting frame are fixedly connected with limiting pulleys;

the two limiting sliding grooves are respectively communicated with two sides of the inner surface of the contraction groove, the outer part of the limiting pulley is in rolling connection with the inner part of the limiting sliding groove, the bottom of the stop block is fixedly connected with a cushion pad, and the outer part of the driving rope is sleeved with a lubricating structure;

the floating base is fixedly connected to the bottom of the supporting table, and a gravity center balance structure is arranged on the floating base.

Preferably, the floating base is provided with a groove therein, the gravity center balance structure comprises a rotating motor and a gravity center balance block, and the driving motor is disposed in the groove.

Preferably, the output end of the driving motor is fixedly connected with a winding rotating piece, a connecting rope is wound outside the winding rotating piece, and the other end of the connecting rope is fixedly connected with the top of the gravity center balance block.

Preferably, the right end of the rolling rotating piece is rotatably connected with the right side of the inner surface of the groove, and the gravity center balance block is arranged at the bottom of the floating base.

Preferably, the lubricating structure comprises a shell, a movable groove is formed in the shell, a movable plate is movably connected in the movable groove, and a graphite lubricating wheel is rotatably connected to the right side of the movable plate.

Preferably, the inside fixedly connected with two slide bars of activity groove, the both sides of shell respectively with the surface sliding connection of two slide bars, the surface cup joints the elastic component of slide bar.

Preferably, the outside of the driving rope is located inside the movable groove, the outside of the graphite lubricating wheel is in rolling connection with the outer surface of the driving rope, and one side of the shell is fixedly connected with one side of the inner surface of the contraction groove through screws.

Preferably, the driving motor is arranged inside the device groove, two ends of the worm are respectively and rotatably connected with two sides of the inner surface of the device groove, and the tops of the two fixed pulleys are respectively and fixedly connected with two sides of the top of the inner surface of the shrinkage groove.

Preferably, one side of each of the two stop blocks is fixedly connected with one side of the inner surface of the shrinkage groove, and the lifting frame is arranged inside the shrinkage groove.

Preferably, the top of crane just is located the top fixedly connected with mounting bracket of brace table, the top of mounting bracket is provided with the pilot lamp, be provided with solar energy power generation component on the mounting bracket, level sensor sets up the outside of mounting bracket.

Compared with the related art, the beacon light with the overwater autonomous lifting system has the following beneficial effects:

(1) the height of the beacon light is mainly adjusted by arranging the lifting structure, so that an autonomous lifting system of the beacon light is formed, the height adjustment of the beacon light is realized, when the water level of a water area where the beacon light is located changes, the beacon light can be automatically adjusted in an adaptive mode according to the water level change condition, the beacon light is prevented from being influenced by the water level change, the beacon light can be kept running in a normal state, and an identification signal is better provided for a navigation ship;

(2) the gravity center balancing structure is mainly used for balancing the gravity center of the beacon light, and can be matched with the lifting structure for use when the height of the beacon light is adjusted, so that the integral gravity center balance is kept in time when the height adjustment gravity center of the beacon light is changed, and further the accident that the beacon light topples over due to the gravity center change during height adjustment is avoided, the beacon light is safer during use, and the beacon light is further protected;

(3) through setting up lubricating structure, use with the elevation structure cooperation, the realization is to the outside self-lubricate function of drive rope, when drive rope is in the inside removal of movable groove, can produce a large amount of graphite powder when utilizing the friction, plays fine lubricated effect to drive rope outside for drive rope can keep in the use state of following the smoothness, and then ensures to keep smooth the removal when going up and down, and plays fine safeguard effect, extension its life to drive rope.

Drawings

FIG. 1 is a schematic structural diagram of the interior of a beacon light with an autonomous water lifting system provided by the invention;

FIG. 2 is a schematic view of the interior of the support table shown in FIG. 1;

FIG. 3 is a schematic view of the interior of the floating base shown in FIG. 1;

FIG. 4 is an enlarged view of portion A of FIG. 1;

FIG. 5 is a schematic view of the interior of the lubricating structure shown in FIG. 4;

FIG. 6 is a schematic exterior view of the graphite lubricant wheel shown in FIG. 5;

fig. 7 is a schematic structural diagram of the exterior of the beacon light with the autonomous water lifting system provided by the invention.

Reference numbers in the figures: 1. supporting table, 2, contraction groove, 3, device groove, 4, lifting structure, 41, driving motor, 42, worm, 43, lifting frame, 44, fixed pulley, 45, stopper, 46, rotating gear, 47, driving gear, 48, winding wheel, 49, driving rope, 410, limiting pulley, 411, buffer pad, 412, water level sensor, 5, limiting chute, 6, lubricating structure, 61, shell, 62, movable groove, 63, movable plate, 64, graphite lubricating wheel, 65, sliding rod, 66, elastic element, 7, floating base, 8, gravity balance structure, 81, rotating motor, 82, gravity balance block, 83, winding rotating element, 84, connecting rope, 9, groove, 10, mounting frame, 11, identification lamp, 12 and solar power generation assembly.

Detailed Description

The invention is further described with reference to the following figures and embodiments.

Please refer to fig. 1, fig. 2, fig. 3, fig. 4, fig. 5, fig. 6 and fig. 7 in combination, wherein fig. 1 is a schematic structural diagram of an interior of a beacon light with an autonomous water lifting system according to the present invention; FIG. 2 is a schematic view of the interior of the support table shown in FIG. 1; FIG. 3 is a schematic view of the interior of the floating base shown in FIG. 1; FIG. 4 is an enlarged view of portion A of FIG. 1; FIG. 5 is a schematic view of the interior of the lubricating structure shown in FIG. 4; FIG. 6 is a schematic exterior view of the graphite lubricant wheel shown in FIG. 5; fig. 7 is a schematic structural diagram of the exterior of the beacon light with the autonomous water lifting system provided by the invention. Navigation mark lamp with autonomic operating system on water includes:

a support table 1;

the device comprises a support table 1, a contraction groove 2, a device groove 3 and a control device, wherein the contraction groove 2 is arranged at the top of the support table 1, and the device groove 3 is formed in the support table 1;

the lifting structure 4 comprises a driving motor 41, a worm 42, a lifting frame 43, two fixed pulleys 44 and two stop blocks 45, wherein the output end of the driving motor 41 and the outer surface of the worm 42 are fixedly connected with rotating gears 46, the outer surfaces of the two rotating gears 46 are meshed with each other, driving gears 47 are meshed with two sides of the outer surface of the worm 42, one side of each driving gear 47 is fixedly connected with a winding wheel 48, a driving rope 49 is wound outside the winding wheel 48, the outside of the driving rope 49 is in rolling connection with the outside of the fixed pulleys 44, the other end of the driving rope 49 is fixedly connected with one side of the outside of the lifting frame 43, and two sides of the outside of the lifting frame 43 are fixedly connected with limiting pulleys 410;

the two limiting sliding grooves 5 are respectively communicated with two sides of the inner surface of the contraction groove 2, the outer part of the limiting pulley 410 is in rolling connection with the inner part of the limiting sliding groove 5, the bottom of the stop block 45 is fixedly connected with a cushion 411, and the outer part of the driving rope 49 is sleeved with a lubricating structure 6;

the floating base 7 is fixedly connected to the bottom of the supporting table 1, and a gravity center balance structure 8 is arranged on the floating base 7.

The driving motor 41 is fixedly arranged inside the device groove 3 and externally connected with a power supply, the worm 42 is positioned below the driving motor 41, the left end and the right end of the worm are respectively rotatably connected with the left side and the right side of the inner surface of the device groove 3, the two fixed pulleys 44 are respectively fixedly connected with the left side and the right side of the top of the inner surface of the contraction groove 2, the two rotating gears 46 are arranged in a matching way, the two rotating gears 46 are simultaneously rotated by the rotation of the driving motor 41 so as to drive the worm 42 to rotate, one side of the winding wheel 48 is rotatably connected with one side of the inner surface of the contraction groove 2 to drive the rope to be a steel wire rope, the rope has good anti-stretching performance, the acting force direction of the rope 49 is adjusted by the fixed pulleys 44 to be finally fixedly connected with the outer part of the lifting frame 43, the two limiting pulleys 410 are respectively positioned at the front side and the back side of the lifting frame 43, the limiting pulleys 410 are arranged in a matching way with the limiting sliding groove 5 to roll by the two pulleys in a matching way, the lifting frame 43 is limited, so that the lifting frame 43 can stably move up and down in the contraction groove 2, the buffer pads 411 are made of rubber, a buffer protection effect is achieved, when the lifting frame 43 moves to the position of the stop block 45, the lifting frame 43 is prevented from being in direct contact with the stop block, the outer part of the lifting frame is protected, the water level sensor 412 is used for the water level change situation around the beacon light, the model is MIK-DP, and other adaptive models can be adopted for replacement and connected with an internal controller, and if the water level exceeds a set value, a signal can be sent to the controller immediately;

through the arrangement of the lifting structure 4, the height of the beacon light is mainly used for adjusting, when the water level of a water area where the beacon light is located changes, the water level sensor 412 detects that the water level exceeds a set height, a signal is sent to the controller, the controller automatically selects and adjusts the height of the beacon light according to the water level detected by the water level sensor 412, if the water level is detected to be lowered, the beacon light needs to be heightened, the driving motor 41 is started to rotate in the forward direction, the two rotating gears 46 rotate simultaneously, the worm 42 is further driven to rotate, the two driving gears 47 can be simultaneously driven to rotate through the rotation of the worm 42, the two winding wheels 48 rotate simultaneously, the rope 49 starts to be shortened through the rotation of the winding wheels 48, the rope 49 is driven to generate upward pulling force to the outside of the lifting frame 43 at the moment, and the lifting frame 43 starts to be slowly pulled to move in the shrinkage groove 2, meanwhile, the mounting rack 10 at the top of the navigation light is driven to move upwards until the water level sensor 412 detects that the water level of the mounting rack 10 returns to normal, a signal is sent to the controller, the controller controls the driving motor 41 to stop rotating, at the moment, the lifting frame 43 does not move upwards any more and keeps a stable state, if the water level is detected to be too high, the height of the navigation light is adjusted downwards as required, the driving motor 41 is controlled to rotate reversely, the mounting rack 10 is finally driven to move downwards, the lifting structure 4 forms an autonomous lifting system, the height adjustment of the navigation light is realized, when the water level of the water area where the navigation light is located changes, the navigation light can be automatically adjusted in an adaptive mode according to the water level change condition, the navigation light is ensured not to be influenced by the water level change, the normal state operation is kept, identification signals are better provided for the navigation ship, and compared with the traditional navigation light which is fixedly arranged, the navigation light is more flexible to use, More convenient, the adaptive capacity to environment is stronger, and the function is more powerful, fine user demand who satisfies the boat.

The floating base 7 is internally provided with a groove 9, the gravity center balance structure 8 comprises a rotating motor 81 and a gravity center balance weight 82, and the rotating motor 81 is arranged inside the groove 9.

The rotating motor 81 is connected with an internal power supply, and is a forward and reverse rotating motor, the fixed mounting is arranged in the groove 9, the gravity center balance block 82 is made of metal materials, the whole body is arranged in a hemispherical shape, and the gravity balance structure is arranged at the bottom of the floating base 7, so that the whole beacon light can be kept in a stable state on the water surface.

The output end of the rotating motor 81 is fixedly connected with a winding rotating member 83, a connecting rope 84 is wound outside the winding rotating member 83, and the other end of the connecting rope 84 is fixedly connected with the top of the gravity center balance weight 82.

The winding rotor 83 is composed of two winding wheels of the rotating shaft, the two winding wheels are respectively positioned at the left side and the right side of the outer surface of the rotating shaft, and the connecting rope 84 extends from the inside of the floating base 7 to the bottom thereof and is used for connecting the gravity center balance blocks 82.

The right end of the rolling rotating piece 83 is rotatably connected with the right side of the inner surface of the groove 9, and the gravity center balance weight 82 is arranged at the bottom of the floating base 7.

The gravity center balancing structure 8 is mainly used for balancing the gravity center of the beacon light, when the height of the beacon light is adjusted, the gravity center balancing structure can be matched with the lifting structure 4 for use, when the height adjustment gravity center of the beacon light changes, the integral gravity center balance can be kept in time, further, the accidental situation that the beacon light topples over due to the gravity center change during the height adjustment can be avoided, the beacon light is safer during use, the beacon light is further protected, when the beacon light is used, if the beacon light is adjusted upwards, the integral gravity center of the beacon light rises along with the beacon light, at the moment, the rolling rotating piece 83 starts to rotate by controlling the rotating motor 81 to rotate forwards, the connecting rope 84 is lengthened, at the moment, the gravity center balancing block 82 moves downwards until the gravity center balancing block 82 descends to the position where the gravity center balancing distance is calculated by the controller, at the moment, the rotating motor 81 is controlled to stop rotating, at this time, the rolling rotation member 83 does not rotate any more, so that the gravity center balance weight 82 is kept in a stable state, and the gravity center balancing operation is completed.

The lubricating structure 6 comprises a shell 61, a movable groove 62 is formed in the shell 61, a movable plate 63 is movably connected in the movable groove 62, and a graphite lubricating wheel 64 is rotatably connected to the right side of the movable plate 63.

The movable plate 63 is movable in the horizontal direction inside the movable groove 62, and the graphite lubricating wheels 64 are made of graphite, and are uniformly distributed on the right side of the movable plate 63.

Two sliding rods 65 are fixedly connected inside the movable groove 62, two sides of the shell 61 are respectively connected with the outer surfaces of the two sliding rods 65 in a sliding manner, and an elastic part 66 is sleeved on the outer surface of each sliding rod 65.

The two sliding rods 65 limit the movable plate 63, so that the movable plate 63 can stably move in the movable groove 62, the elastic member 66 provides elastic support for the movable plate 63, so that the movable plate 63 has elasticity, when the driving rope 49 is installed in the movable groove 62, because the gap between the movable groove 62 and the movable plate 63 is larger than the diameter of the driving rope 49, the driving rope 49 can compress the movable plate 63 to the left, so that the elastic member 66 is compressed, when the volume of the graphite lubricating wheel 64 is reduced due to abrasion, the exterior of the graphite lubricating wheel 64 can still be kept tightly connected with the exterior of the driving rope 49 all the time, after the graphite lubricating wheel 64 is abraded, the whole lubricating structure 6 is directly disassembled, and the replacement is completed.

The outer part of the driving rope 49 is located inside the movable groove 62, the outer part of the graphite lubricating wheel 64 is in rolling connection with the outer surface of the driving rope 49, and one side of the shell 61 is fixedly connected with one side of the inner surface of the contraction groove 2 through screws.

Through setting up this lubricating structure 6, mainly used carries out the self-lubricate effect to the outside that drives rope 49, drive rope 49 when the inside removal of activity groove 62, make drive rope 49 continuous and the moist pulley 64 outside friction of graphite take place, and can produce a large amount of graphite powder when the friction, and the graphite powder belongs to oiliness, can play fine lubricated effect to driving the rope outside, make drive rope 49 can keep the smooth state in the use, and play fine safeguard effect to driving rope 49, prolong its life.

The driving motor 41 is arranged inside the device groove 3, two ends of the worm 42 are respectively and rotatably connected with two sides of the inner surface of the device groove 3, and the tops of the two fixed pulleys 44 are respectively and fixedly connected with two sides of the top of the inner surface of the contraction groove 2.

One side of each of the two stoppers 45 is fixedly connected with one side of the inner surface of the shrinkage groove 2, and the lifting frame 43 is arranged inside the shrinkage groove 2.

The top of crane 43 just is located the top fixedly connected with mounting bracket 10 of brace table 1, the top of mounting bracket 10 is provided with pilot lamp 11, be provided with solar energy power generation component 12 on the mounting bracket 10, level sensor 412 sets up the outside of mounting bracket 10.

The mounting rack 10 is used for mounting the sign lamp 11 and the solar power generation assembly 12, and the solar power generation assembly 12 can generate power, store power and supply power by itself to maintain the operation of the whole beacon light.

The working principle of the beacon light with the overwater autonomous lifting system provided by the invention is as follows:

when the water level of the water area where the beacon light is located changes, the water level sensor 412 detects that the water level exceeds the set height, a signal is sent to the controller, at the moment, the controller automatically selects and adjusts the height of the beacon light according to the water level detected by the water level sensor 412, if the water level is detected to be low, the beacon light needs to be heightened, the driving motor 41 is started to rotate in the forward direction, the two rotating gears 46 rotate simultaneously, the worm 42 is driven to rotate, the two driving gears 47 can be simultaneously driven to rotate through the rotation of the worm 42, the two winding wheels 48 rotate simultaneously, the driving rope 49 starts to be shortened through the rotation of the winding wheels 48, at the moment, the driving rope 49 generates upward pulling force on the outer portion of the lifting frame 43, the lifting frame 43 is slowly pulled to move in the shrinking groove 2, and the mounting frame 10 at the top of the lifting frame is driven to move upwards, until the water level sensor 412 detects that the water level of the installation rack 10 is normal, a signal is sent to the controller, the controller controls the driving motor 41 to stop rotating, at the moment, the lifting frame 43 does not move upwards any more, and keeps a stable state, if the water level is detected to be higher, the height of the beacon light is adjusted downwards as required, and the installation rack 10 is finally driven to move downwards by controlling the driving motor 41 to rotate reversely.

Compared with the related art, the beacon light with the overwater autonomous lifting system has the following beneficial effects:

(1) the lifting structure 4 is mainly used for adjusting the height of the beacon light to form an autonomous lifting system of the beacon light, so that the height adjustment of the beacon light is realized, when the water level of a water area is changed, the adaptive adjustment can be automatically carried out according to the water level change condition, the beacon light is ensured not to be influenced by the water level change, the normal state operation is kept, and an identification signal is better provided for a navigation ship;

(2) the gravity center balancing structure 8 is mainly used for balancing the gravity center of the beacon light, and can be matched with the lifting structure 4 for use when the height of the beacon light is adjusted, so that the integral gravity center balance is kept in time when the height adjustment gravity center of the beacon light is changed, and further the accident that the beacon light topples over due to the gravity center change during height adjustment is avoided, the beacon light is safer to use, and the beacon light is further protected;

(3) through setting up lubricating structure 6, use with 4 cooperations of elevation structure, realize driving the outside self-lubricate function of rope 49, drive rope 49 when the inside removal of movable groove 62, can produce a large amount of graphite powder when utilizing the friction, play fine lubricated effect to driving the rope outside, make to drive rope 49 and can keep the smooth state in the use, and then ensure to keep smooth removal when going up and down, and play fine safeguard effect to driving rope 49, prolong its life.

The above description is only an embodiment of the present invention, and not intended to limit the scope of the present invention, and all modifications of equivalent structures and equivalent processes, which are made by using the contents of the present specification and the accompanying drawings, or directly or indirectly applied to other related technical fields, are included in the scope of the present invention.

Claims (10)

1. The utility model provides a navigation mark lamp with autonomic operating system on water which characterized in that includes:

a support table;

the contraction groove is formed in the top of the support table, and a device groove is formed in the support table;

the lifting structure comprises a driving motor, a worm, a lifting frame, two fixed pulleys, two stop blocks and a water level sensor, wherein the output end of the driving motor and the outer surface of the worm are fixedly connected with rotating gears, the outer surfaces of the two rotating gears are meshed with each other, two sides of the outer surface of the worm are meshed with driving gears, one side of each driving gear is fixedly connected with a winding wheel, a driving rope is wound outside the winding wheel, the outside of the driving rope is in rolling connection with the outside of the fixed pulleys, the other end of the driving rope is fixedly connected with one side of the outside of the lifting frame, and two sides of the outside of the lifting frame are fixedly connected with limiting pulleys;

the two limiting sliding grooves are respectively communicated with two sides of the inner surface of the contraction groove, the outer part of the limiting pulley is in rolling connection with the inner part of the limiting sliding groove, the bottom of the stop block is fixedly connected with a cushion pad, and the outer part of the driving rope is sleeved with a lubricating structure;

the floating base is fixedly connected to the bottom of the supporting table, and a gravity center balance structure is arranged on the floating base.

2. The beacon light with autonomous underwater lifting system of claim 1, wherein the floating base has a recess defined therein, the gravity balance structure comprises a rotating motor and a gravity balance weight, and the driving motor is disposed within the recess.

3. The beacon light with the above-water autonomous lifting system according to claim 2, wherein the output end of the driving motor is fixedly connected with a rolling rotating piece, a connecting rope is wound outside the rolling rotating piece, and the other end of the connecting rope is fixedly connected with the top of the gravity center balance block.

4. The beacon light with autonomous lifting system on water of claim 3, characterized in that the right end of the rolling rotation piece is rotatably connected with the right side of the inner surface of the groove, and the gravity center balance block is arranged at the bottom of the floating base.

5. The beacon light with the aquatic autonomous lifting system of claim 1, wherein the lubricating structure comprises a housing, a movable groove is formed in the housing, a movable plate is movably connected to the inside of the movable groove, and a graphite lubricating wheel is rotatably connected to the right side of the movable plate.

6. The beacon light with the aquatic autonomous lifting system of claim 5, characterized in that two sliding rods are fixedly connected to the inside of the movable groove, two sides of the housing are respectively connected with the outer surfaces of the two sliding rods in a sliding manner, and the outer surfaces of the sliding rods are sleeved with elastic pieces.

7. The beacon light with autonomous aquatic lifting system of claim 6, wherein the outer part of the driving rope is located inside the movable groove, the outer part of the graphite lubricating wheel is in rolling connection with the outer surface of the driving rope, and one side of the housing is fixedly connected with one side of the inner surface of the contraction groove through screws.

8. The beacon light with the aquatic autonomous lifting system of claim 1, wherein the driving motor is arranged inside the device groove, two ends of the worm are respectively and rotatably connected with two sides of the inner surface of the device groove, and the tops of the two fixed pulleys are respectively and fixedly connected with two sides of the top of the inner surface of the contraction groove.

9. The beacon light with the aquatic autonomous lifting system of claim 1, wherein one side of each of the two stoppers is fixedly connected to one side of the inner surface of the shrink groove, and the lifting frame is disposed inside the shrink groove.

10. The beacon light with the autonomous lifting system on water of claim 1, wherein a mounting rack is fixedly connected to the top of the lifting rack and located at the top of the supporting platform, an identification light is arranged at the top of the mounting rack, a solar power generation assembly is arranged on the mounting rack, and the water level sensor is arranged outside the mounting rack.

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