CN209776743U - Navigation mark device with anti-corrosion function for marine navigation mark - Google Patents

Abstract

The utility model relates to a navigation mark device with anti-corrosion function for marine navigation mark, which comprises a floating block, a support post, a fixed block, an anti-corrosion mechanism, a substrate, a lamp shell, a lamp bead and four photovoltaic panels, wherein the anti-corrosion mechanism comprises a vertical pipe, four anti-corrosion components and four air inlet components, the anti-corrosion components comprise a spray pipe and a plurality of spray heads, the air inlet components comprise an air inlet pipe and two air inlet units, the air inlet units comprise a sealing plate, a support rod and a sliding unit, the navigation mark device with anti-corrosion function for marine navigation mark can adjust the blowing direction of sea wind through the anti-corrosion mechanism, so that the sea wind is blown downwards from the upper part of the photovoltaic panels to blow away the sea water and rain water on the surface of the photovoltaic panels, thereby avoiding the photovoltaic panels from being corroded after being affected by moisture, prolonging the service life of the photovoltaic panels and facilitating the photovoltaic panels to, the practicability of the equipment is improved.

Description

Navigation mark device with anti-corrosion function for marine navigation mark

Technical Field

The utility model relates to a boats and ships equipment field, in particular to a fairway buoy device that is used for marine navigation mark to have anti-corrosion function.

Background

The navigation mark is a short name of a navigation aid mark, is only a mark of a channel direction, a boundary and an obstacle, and is an artificial mark for guiding a ship to navigate, positioning, marking the obstacle and representing warning. The navigation mark plays an important role in supporting water transportation, fishery, ocean development and national defense construction. With the development of shipping, natural signs such as mountains, islands, etc. are gradually unable to meet the requirements of ships' navigation, and the development of navigation signs is particularly important, and the navigation signs are usually arranged in navigable waters and their vicinities to represent navigation channels, anchors, obstructions, shoals, etc., or as signs for positioning, steering, etc. The maritime navigation mark lamp emits specified light color and flash frequency at night to reach specified illumination angle and visibility range, and guides the transmission of night walking.

In order to realize the energy saving and environmental protection of the navigation mark, the navigation mark is usually provided with a solar panel for generating electricity in daytime, storing electric energy and providing light for lamp beads to emit light at night, but because the navigation mark is applied to a sea area, the solar panel is easy to be corroded by seawater, rainwater and the like, the service life of the solar panel on the navigation mark is shortened, and the practicability of the existing navigation mark is further reduced.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: in order to overcome the defects of the prior art, the navigation mark device with the anti-corrosion function for the marine navigation mark is provided.

The utility model provides a technical scheme that its technical problem adopted is: a navigation mark device with an anti-corrosion function for a marine navigation mark comprises a floating block, a supporting column, a fixed block, an anti-corrosion mechanism, a substrate, a lamp shell, a lamp bead and four photovoltaic panels, wherein the fixed block is fixed above the floating block through the supporting column, the fixed block is in a rectangular pyramid column shape, the four photovoltaic panels are respectively fixed on four side surfaces of the fixed block, the substrate is positioned above the fixed block, the anti-corrosion mechanism is positioned between the substrate and the fixed block, the lamp bead and the lamp shell are both fixed above the substrate, and the lamp bead is positioned on the inner side of the lamp shell;

the anti-corrosion mechanism comprises a vertical pipe, four anti-corrosion assemblies and four air inlet assemblies, the anti-corrosion assemblies correspond to the photovoltaic panel one by one, the anti-corrosion assemblies are located above the photovoltaic panel, the bottom end of the vertical pipe is fixed on the fixed block, the four air inlet assemblies are uniformly distributed on four sides of the top end of the vertical pipe, each anti-corrosion assembly comprises a spray pipe and a plurality of spray heads, the spray pipes are communicated with the vertical pipe, the spray heads are uniformly distributed on the spray pipes, and the spray heads face the photovoltaic panel;

the air inlet subassembly includes air-supply line and two air inlet units, the air-supply line level sets up, air-supply line and standpipe intercommunication, two air inlet units are located respectively on the inner wall of the both sides of air-supply line, the air inlet unit includes closing plate, branch and slip unit, the slip unit is connected with the one end of branch, the other end of branch is articulated with keeping away from the orificial one side of air-supply line of closing plate, the closing plate is articulated with the inner wall of air-supply line, and the closing plate in two air inlet units supports each other and leans on, the both sides of closing plate and the inner wall sealing connection of the both sides of air-supply.

Preferably, in order to facilitate the sliding of the end, far away from the sealing plate, of the support rod, the sliding unit comprises a sliding rail, a sliding block, a movable plate, a fixed plate and a spring, the sliding rail is U-shaped, two ends of the sliding rail are fixed to the inner wall of the air inlet pipe, the sliding block is sleeved on the sliding rail, the movable plate is fixed to the sliding block, the fixed plate is fixed to the sliding rail and located on one side, far away from the sealing plate, of the movable plate, the fixed plate is connected with the movable plate through the spring, the spring is in a compressed state, and the movable plate.

preferably, in order to dry the air entering the standpipe, a charcoal mesh is arranged in the standpipe.

Preferably, in order to guarantee the stability of the equipment, a plurality of notches are formed in the floating block, the notches are circumferentially and uniformly distributed above the floating block, balancing weights are arranged in the notches, the notches are matched with the balancing weights, the bottom ends of the balancing weights are located in the notches, and the top ends of the balancing weights are located above the floating block.

Preferably, to avoid the weight escaping the recess, the size of the bottom of the recess is larger than the size of the top of the recess.

Preferably, in order to ensure the service life of the photovoltaic panel, the photovoltaic panel is a monocrystalline silicon solar panel.

The beneficial effects of the utility model are that, this a fairway buoy device that has an anticorrosion function for marine navigation mark passes through the adjustable sea wind of anticorrosive mechanism and blows the direction for sea wind blows downwards from the top of photovoltaic board, blows away the sea water and the rainwater on photovoltaic board surface, avoids the photovoltaic board to take place to corrode after weing, thereby has prolonged the life of photovoltaic board, and the photovoltaic board photovoltaic power generation deposit lamp pearl of being convenient for is luminous required electric energy, has improved the practicality of equipment.

Drawings

the present invention will be further explained with reference to the drawings and examples.

FIG. 1 is a schematic structural view of a weather-resistant navigation mark device for a marine navigation mark according to the present invention;

FIG. 2 is a schematic structural diagram of an air intake assembly of the anti-corrosion navigation mark device for marine navigation mark of the present invention;

In the figure: 1. the novel solar photovoltaic panel comprises a floating block, 2 pillars, 3 fixed blocks, 4 base plates, 5 lamp shells, 6 lamp beads, 7 photovoltaic panels, 8 vertical pipes, 9 spray pipes, 10 spray heads, 11 air inlet pipes, 12 sealing plates, 13 supporting rods, 14 sliding rails, 15 sliding blocks, 16 moving plates, 17 fixed plates, 18 springs, 19 charcoal nets and 20 balancing weights.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1-2, a navigation mark device with an anti-corrosion function for a marine navigation mark comprises a floating block 1, a pillar 2, a fixed block 3, an anti-corrosion mechanism, a substrate 4, a lamp housing 5, a lamp bead 6 and four photovoltaic panels 7, wherein the fixed block 3 is fixed above the floating block 1 through the pillar 2, the fixed block 3 is in the shape of a rectangular pyramid cylinder, the four photovoltaic panels 7 are respectively fixed on four side surfaces of the fixed block 3, the substrate 4 is positioned above the fixed block 3, the anti-corrosion mechanism is positioned between the substrate 4 and the fixed block 3, the lamp bead 6 and the lamp housing 5 are both fixed above the substrate 4, and the lamp bead 6 is positioned on the inner side of the lamp housing 5;

The anti-corrosion mechanism comprises a vertical pipe 8, four anti-corrosion assemblies and four air inlet assemblies, the anti-corrosion assemblies correspond to the photovoltaic panel 7 one by one, the anti-corrosion assemblies are located above the photovoltaic panel 7, the bottom end of the vertical pipe 8 is fixed on the fixed block 3, the four air inlet assemblies are uniformly distributed on four sides of the top end of the vertical pipe 8, each anti-corrosion assembly comprises a spray pipe 9 and a plurality of spray heads 10, the spray pipes 9 are communicated with the vertical pipe 8, the spray heads 10 are uniformly distributed on the spray pipes 9, and the spray heads 10 face the photovoltaic panel 7;

The air inlet subassembly includes air-supply line 11 and two air inlet units, the air-supply line 11 level sets up, air-supply line 11 and standpipe 8 intercommunication, two air inlet units are located the inner wall of the both sides of air-supply line 11 respectively, the air inlet unit includes closing plate 12, branch 13 and slip unit, the slip unit is connected with the one end of branch 13, the other end of branch 13 is articulated with the orificial one side of keeping away from air-supply line 11 of closing plate 12, closing plate 12 is articulated with the inner wall of air-supply line 11, and closing plate 12 in two air inlet units supports each other and leans on, the inner wall sealing connection of the both sides of closing plate 12 and air-supply line 11's both sides.

This fairway buoy device uses when the sea area, by floating block 1 showy on the sea, provide ascending buoyancy, support equipment is on the sea, the top of pillar 2, fixed mounting fixed block 3, fixed block 3 is the rectangular pyramid cylindricality, can be at four sides fixed mounting photovoltaic board 7 of fixed block 3, can carry out photovoltaic power generation on sunny daytime through photovoltaic board 7, reserve the electric energy, supply the luminous use of lamp pearl 6 on the base plate 4 at night, for marine boats and ships guide navigation, the top of base plate 4, utilize lamp body 5 to protect around lamp pearl 6, prevent that lamp pearl 6 from damaging. In order to avoid the corrosion of the photovoltaic panel 7 caused by rainwater or seawater, the photovoltaic panels 7 on the four sides of the fixing block 3 can be protected by an anti-corrosion mechanism, so that the service life of the photovoltaic panel 7 is prolonged, when the device is used on the sea, sea wind blows, enters the vertical pipe 8 through the air inlet pipe and flows to the spray pipes 9 on the four sides, so that the spray heads 10 on the spray pipes 9 spray air flow downwards, the residual rainwater or seawater on the photovoltaic panel 7 can be blown away, the rainwater is prevented from remaining on the photovoltaic panel 7 in the rainy weather, and the seawater avoided by the photovoltaic panel 7 can be blown away after the sea waves hit the photovoltaic panel, so that the photovoltaic panel 7 is prevented from being corroded by the seawater or the rainwater. In order to make the sea wind enter the vertical pipe 8 through the air inlet pipe, two air inlet units are arranged in the air inlet pipe, when air enters the interior from the outside, the sealing plates 12 rotate inwardly, so that a gap is generated between the sealing plates 12 in the two air inlet units, facilitating the entry of air, and, when air is to flow from the inside of the inlet duct 11 to the outside of the inlet duct 11, the air acts on the sealing plate 12, so that the sealing plates 12 tend to rotate outwards, the two sealing plates 12 abut against each other to block air, the air is prevented from flowing out of the air inlet pipe 11, so that the sea wind can enter the interior from the air inlet pipe 11 and can not flow to the exterior from the air inlet pipe 11, and then the sea wind flows downwards to enter the vertical pipe 8, and is sprayed out from the spray head 10 through the spray pipe 9 to generate air flow, so that rainwater on the surface of the photovoltaic panel 7 and the sea are blown away, and the photovoltaic panel 7 is prevented from being corroded.

As shown in fig. 2, the sliding unit includes a sliding rail 14, a sliding block 15, a moving plate 16, a fixing plate 17 and a spring 18, the sliding rail 14 is U-shaped, two ends of the sliding rail 14 are fixed on an inner wall of the air inlet pipe 11, the sliding block 15 is sleeved on the sliding rail 14, the moving plate 16 is fixed on the sliding block 15, the fixing plate 17 is fixed on the sliding rail 14, the fixing plate 17 is located on one side of the moving plate 16 far from the sealing plate 12, the fixing plate 17 is connected with the moving plate 16 through the spring 18, the spring 18 is in a compressed state, and the moving plate 16 is hinged to the supporting rod 13.

In the sliding unit, through fixing the slide rail 14 in the air inlet pipe 11, the moving direction of the slider 15 has been fixed, the position of the fixed plate 17 is fixed, the spring 18 through the compression state acts on the movable plate 16, when there is no wind, the compressed spring 18 pushes the slider 15, make the movable plate 16 move to the movement of the slide rail 14 close to the sealing plate 12, push the sealing plate 12 by the branch 13, make the sealing plate 12 in two air inlet units support each other, two sealing plates 12 seal the mouth of pipe of the air inlet pipe 11, when sea wind gets into the air inlet pipe 11, the sea wind blows the sealing plate 12, make the sealing plate 12 rotate to the inside of the air inlet pipe 11, make produce the clearance between two sealing plates 12, be convenient for the sea wind to get into the standpipe 8 through the air inlet pipe 11.

Preferably, a charcoal mesh 19 is provided in the standpipe 8 in order to dry the air entering the standpipe 8. The air entering the riser duct 8 is dried by the charcoal mesh 19, avoiding the spraying of moist air from the spray head 10, so that moisture corrodes the photovoltaic panel 7.

preferably, in order to ensure the stability of the device, a plurality of notches are formed in the floating block 1, the notches are circumferentially and uniformly distributed above the floating block 1, a balancing weight 20 is arranged in each notch, each notch is matched with the corresponding balancing weight 20, the bottom end of each balancing weight 20 is located in each notch, and the top end of each balancing weight 20 is located above the floating block 1. Through installing balancing weight 20 in the notch on kicking block 1, increased the weight of equipment bottom for equipment keeps light weight down, and what the equipment of being convenient for was firm floats on the sea, prevents that equipment from turning on one's side.

Preferably, to avoid the weight 20 from escaping the recess, the dimensions of the bottom of the recess are greater than the dimensions of the top of the recess. By adopting the shape design, the balancing weight 20 cannot be separated from the notch, and the stability of the equipment is further ensured.

Preferably, the characteristic of long service life of the monocrystalline silicon solar panel is utilized, and in order to ensure the service life of the photovoltaic panel 7, the photovoltaic panel 7 is the monocrystalline silicon solar panel.

when this fairway buoy device used, when the sea wind got into the intake pipe inside, make the sea wind get into in the standpipe 8 through the air inlet unit, and spout from shower nozzle 10 through spray tube 9, produce the air current, blow away the sea water and the rainwater on photovoltaic board 7 surface, avoid photovoltaic board 7 to receive the corruption, thereby guaranteed photovoltaic board 7 safety in utilization, carry out photovoltaic power generation through photovoltaic board 7, the reserve electric energy, the lamp pearl 6 of being convenient for night is luminous, the navigation of guide boats and ships, thereby the practicality of equipment has been improved.

Compared with the prior art, this a fairway buoy device that is used for marine navigation mark to have anticorrosion function passes through the adjustable sea wind of anticorrosive mechanism and blows the direction for sea wind blows downwards from the top of photovoltaic board 7, blows off the sea water and the rainwater on photovoltaic board 7 surface, avoids photovoltaic board 7 to take place to corrode after weing, thereby has prolonged the life of photovoltaic board 7, the photovoltaic board 7 photovoltaic power generation deposit lamp pearl 6 required electric energy that gives out light, the practicality of equipment has been improved.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (6)

1. The navigation mark device with the anti-corrosion function for the marine navigation mark is characterized by comprising a floating block (1), a support column (2), a fixed block (3), an anti-corrosion mechanism, a substrate (4), a lamp shell (5), a lamp bead (6) and four photovoltaic panels (7), wherein the fixed block (3) is fixed above the floating block (1) through the support column (2), the fixed block (3) is in a rectangular pyramid column shape, the four photovoltaic panels (7) are respectively fixed on four side surfaces of the fixed block (3), the substrate (4) is positioned above the fixed block (3), the anti-corrosion mechanism is positioned between the substrate (4) and the fixed block (3), the lamp bead (6) and the lamp shell (5) are both fixed above the substrate (4), and the lamp bead (6) is positioned on the inner side of the lamp shell (5);

The anti-corrosion mechanism comprises vertical pipes (8), four anti-corrosion assemblies and four air inlet assemblies, the anti-corrosion assemblies correspond to the photovoltaic panels (7) one by one, the anti-corrosion assemblies are located above the photovoltaic panels (7), the bottom ends of the vertical pipes (8) are fixed on the fixing block (3), the four air inlet assemblies are uniformly distributed on four sides of the top ends of the vertical pipes (8), each anti-corrosion assembly comprises a spray pipe (9) and a plurality of spray heads (10), the spray pipes (9) are communicated with the vertical pipes (8), the spray heads (10) are uniformly distributed on the spray pipes (9), and the spray heads (10) face the photovoltaic panels (7);

The air inlet subassembly includes air-supply line (11) and two air inlet units, air-supply line (11) level sets up, air-supply line (11) and standpipe (8) intercommunication, two air inlet units are located the inner wall of the both sides of air-supply line (11) respectively, the air inlet unit includes closing plate (12), branch (13) and sliding unit, sliding unit is connected with the one end of branch (13), the other end of branch (13) is articulated with keeping away from air-supply line (11) orificial one side of closing plate (12), closing plate (12) are articulated with the inner wall of air-supply line (11), and closing plate (12) in two air inlet units support each other and lean on, the inner wall sealing connection of the both sides of closing plate (12) and the both sides of air-supply line (11).

2. The navigation mark device with the anti-corrosion function for the marine navigation mark according to claim 1, wherein the sliding unit comprises a sliding rail (14), a sliding block (15), a moving plate (16), a fixed plate (17) and a spring (18), the sliding rail (14) is U-shaped, two ends of the sliding rail (14) are fixed on the inner wall of the air inlet pipe (11), the sliding block (15) is sleeved on the sliding rail (14), the moving plate (16) is fixed on the sliding block (15), the fixed plate (17) is fixed on the sliding rail (14), the fixed plate (17) is located on one side of the moving plate (16) far away from the sealing plate (12), the fixed plate (17) is connected with the moving plate (16) through the spring (18), the spring (18) is in a compressed state, and the moving plate (16) is hinged to the supporting rod (13).

3. The weathervaning device for marine navigation marks as claimed in claim 1, characterized in that a charcoal mesh (19) is provided in the riser pipe (8).

4. The buoy device with the anti-corrosion function for the marine navigation mark of claim 1, wherein a plurality of notches are formed in the floating block (1), the notches are circumferentially and uniformly distributed above the floating block (1), a balancing weight (20) is arranged in each notch, the notches are matched with the balancing weight (20), the bottom end of each balancing weight (20) is positioned in each notch, and the top end of each balancing weight (20) is positioned above the floating block (1).

5. The weatherproof beacon device for marine navigation mark according to claim 4, wherein the size of the bottom of the recess is larger than the size of the top of the recess.

6. The weathervaning device for marine navigation marks as claimed in claim 1, characterized in that said photovoltaic panels (7) are monocrystalline silicon solar panels.