CN117818817A - Buoy device with anti-collision function - Google Patents

Abstract

The invention discloses a buoy device with an anti-collision function, which comprises a buoy body, a plurality of visual plates and an instrument platform. The buoy body has a cavity so that the floating body can float on the water surface. The plurality of visual plates are arranged on the buoy body and distributed at intervals around the circumference of the buoy body; the visual board is provided with a plurality of visual perforations. The instrument platform is used for installing a meteorological instrument; the instrument platform is arranged on the buoy body through the supporting elastic piece and is supported by the supporting elastic piece; the instrument platform comprises an instrument platform body and a protective ring connected to the periphery of the instrument platform body. The buoy body is arranged on the basis of the plurality of visual plates, and the visual plates are distributed around the circumference of the buoy body at intervals, so that at least one visual plate can be observed from the circumference of the buoy body, and a ship driver can timely avoid the buoy, so that the effect of preventing collision is achieved.

Description

Buoy device with anti-collision function

Technical Field

The application relates to the technical field of buoys, in particular to a buoy device with an anti-collision function.

Background

The buoy device is an automatic water quality monitoring laboratory or a meteorological monitoring device which is arranged in river basins such as rivers, lakes, reservoirs, coastal sea areas and the like. The water quality monitoring system or the meteorological system is characterized in that a water quality monitor or an instrument platform is used as a core, and a sensor technology is combined with a buoy body, a power supply system and data transmission equipment to form a small water quality monitoring system or a meteorological system which is placed in a water area.

However, based on the bottom of the buoy device being basically submerged, only the instrument platform extends out of the water surface, which is not beneficial for a ship driver to see clearly and avoid the buoy device, and once the buoy device is impacted, the buoy device is easily destroyed.

Disclosure of Invention

The embodiment of the application provides a buoy device with an anti-collision function, so as to solve the problems in the related art, and the technical scheme is as follows:

the embodiment of the application provides a buoy device with an anti-collision function, which comprises:

a buoy body having a cavity so that the buoy body can float on a water surface;

the plurality of visual plates are arranged on the buoy body and distributed at intervals around the circumference of the buoy body; the visual board is provided with a plurality of visual perforations;

the instrument platform is used for installing a meteorological instrument; the instrument platform is arranged on the buoy body through a supporting elastic piece and is supported by the supporting elastic piece; the instrument platform comprises an instrument platform body and a protective ring connected to the periphery of the instrument platform body.

Further, the supporting elastic members are compression springs, and a plurality of the supporting elastic members are distributed at intervals around the circumference of the buoy body.

Further, the visible board is provided with a signal lamp for warning the ship to prevent the ship from approaching.

Further, the instrument platform further comprises a support ring, wherein the support ring is connected with the protection ring and surrounds the periphery of the protection ring, and the support ring is used for supporting maintenance workers.

The buoy body is provided with an outer frame, and the supporting elastic piece is connected to the outer frame; the visual board is arranged in the outer frame.

Further, the buoy body is provided with a water quality detection device;

the water quality detection device comprises:

the water sample box is provided with a water sample groove, and a through hole penetrating through the water sample box along the axial direction is formed in the water sample box;

the protection pipe is arranged in the through hole and penetrates through the buoy body downwards;

one end of the water pumping hose is connected to the water sample tank, and the other end of the water pumping hose stretches into the protection pipe and extends downwards;

the submersible pump is connected with the pumping hose;

one end of the anchor chain is connected with the buoy body, and the other end of the anchor chain extends into the protection pipe and extends downwards; the submersible pump is supported by the anchor chain.

Further, a plurality of water sample grooves are formed, and the plurality of water sample grooves are distributed at intervals around the circumference of the through hole; the water pumping hoses are arranged, and each water sample tank is respectively provided with one water pumping hose; the plurality of submersible pumps are arranged, the plurality of submersible pumps and the plurality of pumping hoses are respectively in one-to-one correspondence, and the plurality of submersible pumps are distributed at intervals along the extending direction of the anchor chain; the water quality detectors are provided with a plurality of water quality detectors, and each water quality detector is respectively arranged in one of the water sample tanks.

Further, the water sample tank is provided with a plurality of overflow holes, and two ends of each overflow hole are respectively communicated with the protection pipe and one of the water sample tanks.

Further, the periphery of the anchor chain is coated with a buffer ring, the pumping hose is coated with the buffer ring, and the buffer ring is positioned in the protection tube.

Further, the water quality detection device further comprises a centralized pipe, and a plurality of water pumping hoses are all arranged in the centralized pipe in a penetrating manner; the centralized pipe is provided with a plurality of side wall outlets, and one end of part or all of the pumping hose penetrates out of the side wall outlets and is connected with the corresponding submersible pump.

Further, the water quality detection device further comprises a plurality of protective cladding pieces, wherein the protective cladding pieces are fixed on the anchor chain and are coated outside the submersible pump, and the protective cladding pieces are used for preventing barnacles from blocking the submersible pump.

The advantages or beneficial effects in the technical scheme at least comprise:

1. the buoy body is arranged on the basis of the plurality of visual plates, and the visual plates are distributed around the circumference of the buoy body at intervals, so that at least one visual plate can be observed from the circumference of the buoy body, and a ship driver can timely avoid the buoy, so that the effect of preventing collision is achieved.

2. In addition, the visual perforation is used for a ship driver to see the visual field behind the buoy body and for air flow to pass through so as to reduce wind resistance, thereby avoiding the buoy body from being overturned by sea wind, and the visual board can be used for two purposes.

3. And, when the collision phenomenon (influenced by typhoon or atmospheric air flow, for example) is forced to happen, the guard ring acts as a bumper, so as to avoid the ship from directly colliding with the instrument platform body of the instrument platform; moreover, after collision, the buoy can deviate to avoid the ship, and the instrument platform is mounted on the buoy body through the supporting elastic piece, so that the instrument platform can buffer the impact force through shaking, and valuable electrical equipment on the instrument platform is prevented from being destroyed.

The foregoing summary is for the purpose of the specification only and is not intended to be limiting in any way. In addition to the illustrative aspects, embodiments, and features described above, further aspects, embodiments, and features of the present application will become apparent by reference to the drawings and the following detailed description.

Drawings

In the drawings, the same reference numerals refer to the same or similar parts or elements throughout the several views unless otherwise specified. The figures are not necessarily drawn to scale. It is appreciated that these drawings depict only some embodiments according to the disclosure and are not therefore to be considered limiting of its scope.

FIG. 1 is a schematic diagram of a buoy device with anti-collision function according to the present invention;

FIG. 2 is a partial view of FIG. 1;

FIG. 3 is a partial view of FIG. 1;

FIG. 4 is a cross-sectional view of FIG. 1;

fig. 5 is a partial enlarged view at a of fig. 4.

1. A buoy body; 11. a cavity; 12. an outer frame; 2. a visual board; 21. visual perforation; 3. an instrument platform; 31. an instrument table body; 32. a guard ring; 4. a supporting elastic member; 5. a water quality detection device; 51. a water sample tank; 511. a water sample tank; 512. a through hole; 513. an overflow aperture; 52. a protective tube; 53. a water pumping hose; 54. an anchor chain; 55. a water quality detector; 6. a buffer ring; 7. a concentration tube; 8. a protective covering; 9. and (5) a lead fish.

Detailed Description

Hereinafter, only certain exemplary embodiments are briefly described. As will be recognized by those of skill in the pertinent art, the described embodiments may be modified in various different ways without departing from the spirit or scope of the present application. Accordingly, the drawings and description are to be regarded as illustrative in nature and not as restrictive.

Referring to fig. 1 to 5, a buoy device with an anti-collision function according to the present invention includes: buoy body 1, a plurality of vision boards 2 and instrument platform 3.

The buoy body 1 has a cavity 11 to enable the buoy body 1 to float on the water surface.

The plurality of visual plates 2 are arranged on the buoy body 1 and distributed at intervals around the circumference of the buoy body 1, so that at least one visual plate 2 can be observed from the circumference of the buoy body 1. The vision plate 2 is provided with a plurality of vision perforations 21. The visual through holes 21 are used for a ship driver to see the visual field behind the buoy body 1 and for air flow to pass through so as to reduce wind resistance and prevent the buoy body 1 from being overturned by sea wind.

The instrument platform 3 is used for mounting a meteorological instrument, wherein the meteorological instrument can be an anemometer, an air temperature detector, an air pressure detector, a humidity detector, a visibility monitor or a positioning instrument, etc. More preferably, the instrument platform 3 is provided with a solar panel, and the equipment on the instrument platform 3 can be powered by a storage battery or by the solar panel. The instrument platform 3 is mounted on the buoy body 1 through the supporting elastic piece 4 and is supported by the supporting elastic piece 4, so that the instrument platform 3 can shake relative to the buoy body 1 when being collided by a ship by mistake and cannot be destroyed by collision. The instrument platform 3 includes an instrument platform body 31 and a guard ring 32 connected to the periphery of the instrument platform body 31 to contact the ship through the guard ring 32, thereby preventing the valuable electrical equipment on the instrument platform body 31 from being knocked down.

During operation, at least one traction rope is connected to two opposite sides of the buoy respectively, the middle part of the traction rope is connected with a floating ball, one end, far away from the buoy body 1, of the traction rope is connected with a lying chain, and the lying chain is connected with an anchor head used for anchoring a river bed. Thus, the buoy can be prevented from deviating and drifting. In addition, since the buoy body 1 has a certain weight, a part of the buoy body 1 is sunk under the sea surface or the river surface, and a part of the buoy body leaks out to the sea surface or the river surface.

Obviously, locate buoy body 1 based on polylith visual board 2 to circumference interval ground distribution around buoy body 1, so that all can observe at least one visual board 2 from buoy body 1 all around, thereby make the boats and ships driver in time dodge the buoy, play the effect of prevention striking promptly. Moreover, the visual through holes 21 are used for a ship driver to see the visual field behind the buoy body 1 and for air flow to pass through so as to reduce wind resistance, thereby avoiding the buoy body 1 from being overturned by sea wind, namely, the visual board 2 can be used for two purposes. And, when a collision phenomenon is imminent (e.g., affected by typhoons or atmospheric air flow), the guard ring 32 functions as a bumper, thereby preventing the ship from directly colliding with the instrument platform body 31 of the instrument platform 3; moreover, after the collision, the buoy can deflect to avoid the ship, and the instrument platform 3 is mounted on the buoy body 1 through the supporting elastic piece 4, so that the instrument platform 3 can buffer the collision force through shaking, and the valuable electrical equipment on the instrument platform 3 is prevented from being destroyed.

In the present embodiment, preferably, the supporting elastic member 4 is a compression spring, and the plurality of supporting elastic members 4 are distributed at intervals around the circumference of the buoy body 1. By this arrangement, when the instrument platform 3 is deflected, the partial supporting elastic members 4 are stretched, and the partial supporting elastic members 4 are compressed, that is, the supporting elastic members 4 cooperate with each other, so that the instrument platform 3 can be buffered omnidirectionally, and the supporting elastic members 4 are not easy to damage. In particular, the compression spring has certain rigidity, so that the instrument platform 3 can keep stable when encountering small air flow, and further the working accuracy of various meteorological instruments is ensured. It will be appreciated that the support elastic 4 may alternatively be a rubber pad or the like.

In the present embodiment, the vision board 2 is preferably provided with a signal lamp for warning the ship to prevent the ship from approaching. The signal lamp works in the foggy weather or at night to warn the ship.

In this embodiment, based on maintenance, the maintenance worker needs to climb onto the instrument platform 3 to perform work, and in order to provide a support platform for the worker to work, the instrument platform 3 preferably further includes a support ring (not shown in the figure), which is connected to the guard ring 32 and is disposed around the guard ring 32, and the support ring is used for supporting the maintenance worker. So configured, the support ring also functions as a bumper, i.e., the support ring acts as a first layer bumper and the guard ring 32 acts as a second layer bumper. Thus, the support ring is also one object.

In this embodiment, in order to prevent the visible plate 2 from being damaged by being exposed, it is preferable that the buoy body 1 has an outer frame 12, and the supporting elastic member 4 is connected to the outer frame 12; the vision plate 2 is mounted within the outer frame 12. In this way, the vision plate 2 is effectively protected by the outer frame 12.

In the present embodiment, preferably, the buoy body 1 is provided with the water quality detection device 5; the water quality detection device 5 includes: a water sample tank 51, a protection pipe 52, a water pumping hose 53, a submersible pump (not shown in the figure), an anchor chain 54 and a water quality detector 55. The water sample tank 51 is provided with a water sample groove 511, and the water sample tank 51 is provided with a through hole 512 penetrating through the water sample tank 51 along the axial direction. The protection tube 52 is installed in the through hole 512 and penetrates the buoy body 1 downward. One end of the pumping hose 53 is connected to the water sample tank 511, and the other end of the pumping hose 53 is extended into the protection pipe 52 and downwardly extended. A submersible pump is connected to the water pumping hose 53 for pumping the water sample to the water sample tank 511. One end of the anchor chain 54 is connected with the buoy body 1, and the other end of the anchor chain 54 extends into the protection pipe 52 and extends downwards; the submersible pump is supported by the anchor chain 54. The water quality detector 55 is installed in the water sample tank 511 and detects the water sample, thereby transmitting the water sample to the headquarter system through a wireless signal. In operation, the anchor chain 54 is always placed in the vertical direction under the action of its own gravity, and the bottom of the anchor chain 54 may be connected to the fish 9 in order to reduce the deflection thereof. Thus, the submersible pump installed on the anchor chain 54 does not drift or sway, so that the submersible pump can always suck water samples with fixed depth, and the accuracy of experiments is ensured. When the water sample is sucked into the water sample tank 511, it is detected by the water quality detector 55, so that it is unnecessary to soak the water quality detector 55 below the liquid surface. Obviously, carry out the bearing through anchor chain 54 to the water sample of immersible pump suction is carried to the water sample groove 511 of water sample case 51 through pumping hose 53, makes water quality detector 55 can install in water sample groove 511, and detects the water sample, thereby need not to soak water quality detector 55 to sea level below, and then can prolong the life that water quality detector 55 detected. Moreover, the pumping hose 53, the anchor chain 54 and the submersible pump extend downwards into the sea water or river water along the protection pipe 52, so that the pumping hose 53, the anchor chain 54 and the submersible pump are in relatively stable positions during operation. When the overhaul is needed, the overhaul can be carried out in a targeted manner only by pulling the water pumping hose 53, the submersible pump and the anchor chain 54 out of the protection pipe 52 at the same time, and the whole buoy device with the anti-collision function is lifted up and returned to a factory for overhaul without moving a large-scale ship, so that the overhaul cost is greatly reduced. That is, the cooperation of the anchor chain 54 and the pumping hose 53 not only meets the requirements of the submerged pump for supporting and pumping, but also can shrink, thereby meeting the requirement of separate recovery and maintenance of the submerged pump, namely the anchor chain 54 is dual-purpose.

In the present embodiment, it is preferable that the plurality of water sample grooves 511 be provided, and in order to provide as many water sample grooves 511 as possible in a limited space, the plurality of water sample grooves 511 are distributed at intervals around the circumference of the through hole 512. The water pumping hoses 53 are provided in plural, and each water sample tank 511 is provided with one water pumping hose 53. The plurality of submersible pumps are arranged, the plurality of submersible pumps are respectively in one-to-one correspondence with the plurality of pumping hoses 53, and the plurality of submersible pumps are distributed at intervals along the extending direction of the anchor chain 54. In addition, a plurality of water quality detectors 55 are provided, and one water quality detector 55 is provided for each water sample tank 511. Thus, each submersible pump can pump water simultaneously, and each water quality detector 55 can operate simultaneously, so that water samples with different depths can be synchronously pumped and synchronously detected, and the detection efficiency is improved.

In this embodiment, the water sample tank 51 is preferably provided with a plurality of overflow holes 513, and both ends of each overflow hole 513 are respectively connected to the protection pipe 52 and one of the water sample tanks 511. By this arrangement, when the water in the water tank 511 overflows, the water can flow back to the natural environment along the protection pipe 52, and cannot overflow to the surface of the buoy body 1, so that the surface of the buoy body 1 is prevented from being soaked all the year round. It should be noted that, since the detection frequency is high, the last water sample does not need to be drained in the next detection, and only a new water sample needs to be continuously poured into the water sample tank 511. Obviously, the protection pipe 52 is used not only as a protection channel but also as an overflow channel, i.e. one object.

In this embodiment, in order to avoid frequent collision of the anchor chain 54 with the protection tube 52 and thus to avoid deformation of the protection tube 52, it is preferable that the outer periphery of the anchor chain 54 is covered with a buffer ring 6 (e.g., a rubber ring or a plastic ring, etc.), the water pumping hose 53 is covered with the buffer ring 6, and the buffer ring 6 is located in the protection tube 52. By this arrangement, the anchor chain 54 and the protecting tube 52 can be prevented from punching the pumping hose 53, so that the pumping hose 53 can work normally and keep the same.

In this embodiment, in order to further improve the protection effect of the water pumping hoses 53, it is preferable that the water quality detection device 5 further includes a collecting pipe 7, and the plurality of water pumping hoses 53 are all disposed in the collecting pipe 7 in a penetrating manner; the collecting pipe 7 is provided with a plurality of side wall outlets, and one end of part or all of the pumping hose 53 penetrates out of the side wall outlets and is connected with the corresponding submersible pump. When the submersible pump is required to be retracted, the centralized pipe 7 is required to be retracted, and all the pumping hoses 53 can be carried and retracted together, so that the phenomenon that the pumping hoses 53 are mutually wound is avoided.

In this embodiment, the water quality detecting device 5 preferably further includes a plurality of protective coating members 8, wherein the protective coating members 8 are fixed to the anchor chain 54 and are coated outside the submersible pump, and the protective coating members 8 are used for preventing barnacles from blocking the submersible pump. It should be noted that, the underwater organisms reproduce faster, and thus the submerged pump is easily damaged. The submerged pump is protected through the protection cladding piece 8, so that the inside and the outside of the submerged pump can be prevented from being attached by organisms, the normal use of the submerged pump is ensured, and the service life of the submerged pump is prolonged. During maintenance, the old protective coating piece 8 is only required to be detached, and then the new protective coating piece 8 is replaced. Wherein, the protection cladding piece 8 is preferably filtration rattan cotton or sponge and the like, so long as can supply the sample water to pass through and prevent that the aquatic organism from getting into the immersible pump can, the periphery of protection cladding piece 8 is tied up through nylon ribbon, packing area or magic subsides, so, the dismantlement and the renewing of protection cladding piece 8 of being convenient for. Moreover, the protective covering 8 simultaneously enables to tighten the concentrator tube 7 on the anchor chain 54, thereby avoiding that the concentrator tube 7 is drifting in the water.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present application. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present application, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The foregoing is merely a specific embodiment of the present application, but the protection scope of the present application is not limited thereto, and any person skilled in the art can easily think of various changes or substitutions within the technical scope of the present application, and these should be covered in the protection scope of the present application. Therefore, the protection scope of the present application shall be subject to the protection scope of the claims.

Claims (9)

1. A float device having an anti-collision function, comprising:

-a buoy body (1) having a cavity (11) to enable the buoy body (1) to float on a water surface;

a plurality of visual plates (2), wherein the visual plates (2) are arranged on the buoy body (1) and are distributed at intervals around the circumference of the buoy body (1); the visual board (2) is provided with a plurality of visual perforations (21);

an instrument platform (3) for mounting a meteorological instrument; the instrument platform (3) is arranged on the buoy body (1) through a supporting elastic piece (4) and is supported by the supporting elastic piece (4); the instrument platform (3) comprises an instrument platform body (31) and a protection ring (32) connected to the periphery of the instrument platform body (31)

A water quality detection device (5) mounted on the buoy body (1); the water quality detection device (5) comprises: the device comprises a water sample box (51), a protection pipe (52), a water pumping hose (53), a submersible pump, an anchor chain (54) and a water quality detector (55);

wherein,

the water sample box (51) is provided with a water sample groove (511), and the water sample box (51) is provided with a through hole (512) penetrating through the water sample box (51) along the axial direction;

the protection pipe (52) is arranged in the through hole (512) and penetrates through the buoy body (1) downwards;

one end of the water pumping hose (53) is communicated with the water sample tank (511), and the other end of the water pumping hose (53) extends into the protection tube (52) and extends downwards;

the submersible pump is connected with the pumping hose (53);

one end of the anchor chain (54) is connected with the buoy body (1), and the other end of the anchor chain (54) extends into the protection pipe (52) and extends downwards; the submersible pump is supported by the anchor chain (54);

a water quality detector (55) is mounted to the water sample tank (511).

2. A buoy device with anti-collision function according to claim 1, characterized in that the supporting elastic members (4) are compression springs, a plurality of the supporting elastic members (4) being distributed at intervals around the circumference of the buoy body (1).

3. Buoy device with anti-collision function according to claim 1, characterized in that the vision board (2) is fitted with a signal light for warning the vessel against approach.

4. A buoy device with anti-collision function according to claim 1, characterized in that the instrument platform (3) further comprises a support ring, which is connected with the protection ring (32) and is arranged around the protection ring (32), and which is used for supporting maintenance workers;

the buoy body (1) is provided with an outer frame (12), and the supporting elastic piece (4) is connected with the outer frame (12); the vision board (2) is installed in the outer frame (12).

5. A buoy device with anti-collision function according to claim 1, characterized in that a plurality of said watersample tanks (511) are provided, a plurality of said watersample tanks (511) being distributed at intervals circumferentially around said through hole (512); the water pumping hoses (53) are provided with a plurality of water sample tanks (511), and each water sample tank is provided with one water pumping hose (53); the plurality of submersible pumps are arranged, the plurality of submersible pumps are respectively in one-to-one correspondence with the plurality of pumping hoses (53), and the plurality of submersible pumps are distributed at intervals along the extending direction of the anchor chain (54); the water quality detectors (55) are provided with a plurality of water quality detectors, and each water quality detector (55) is respectively arranged in one water sample tank (511).

6. The buoy device with anti-collision function according to claim 5, wherein the water sample tank (51) is provided with a plurality of overflow holes (513), and both ends of each overflow hole (513) are respectively connected to the protection pipe (52) and one of the water sample tanks (511).

7. A buoy device with anti-collision function according to claim 1, characterized in that the periphery of the anchor chain (54) is covered with a buffer ring (6), the water pumping hose (53) is covered by the buffer ring (6), and the buffer ring (6) is located in the protection tube (52).

8. The buoy device with the anti-collision function according to claim 7, wherein the water quality detection device (5) further comprises a centralized pipe (7), and a plurality of pumping hoses (53) are all arranged in the centralized pipe (7) in a penetrating manner; the centralized pipe (7) is provided with a plurality of side wall outlets, and one end of part or all of the pumping hose (53) penetrates out of the side wall outlets and is connected with the corresponding submersible pump.

9. A buoy device with anti-collision function according to claim 1, characterized in that the water quality detection device (5) further comprises a plurality of protective covers (8), the protective covers (8) being fixed to the anchor chain (54) and being covered outside the submersible pump, the protective covers (8) being used for preventing barnacles from blocking the submersible pump.