CN113525606A - Ocean engineering platform prompting method - Google Patents

Abstract

The invention discloses a method for prompting an ocean engineering platform, which specifically comprises the following steps: energy storage ring board, and install the buoyancy device at annular main part top, and install the suggestion device of buoyancy device top intermediate position, and install the draw gear of buoyancy device bottom intermediate position, the suggestion device includes: the invention relates to the technical field of ocean engineering, in particular to a triangular frame plate, a through hole formed in the top of a circular main body, a light-gathering cover arranged in the middle of the top of the circular main body, a light-gathering crystal arranged on the top of the light-gathering cover, and a spherical filter cover arranged in the middle of an inner cavity of the circular main body. Through the setting of snoot and spotlight brilliant, the light that will produce forms the light column and upwards shines perpendicularly, avoids the light to shine all around, prevents that light from causing the glare to peripheral ship at the instruction in-process, and the setting of through-hole is convenient for the air current and flows simultaneously, increases the radiating effect of equipment internals.

Description

Ocean engineering platform prompting method

Technical Field

The invention relates to the technical field of ocean engineering, in particular to a prompting method for an ocean engineering platform.

Background

With the development of the marine oil industry, large marine oil facilities such as offshore oil platforms and FPSOs are more and more, and stand on the sea level to influence the channel of marine ships, and the ships passing by are warned through the prompting equipment of the marine engineering platform.

Current ocean engineering platform suggestion equipment self is intake easily in the use, leads to equipment self to receive the sea water influence to damage, and self receives external illumination's influence easily, reduces suggestion intensity to make passing ship produce the glare easily, lead to unnecessary danger to take place.

Disclosure of Invention

Technical problem to be solved

Aiming at the defects of the prior art, the invention provides a prompting method of an ocean engineering platform, which solves the problems that the existing prompting equipment of the ocean engineering platform is easy to enter water during the use process, so that the equipment is influenced and damaged by seawater, is easy to be influenced by external illumination, reduces the prompting intensity, and is easy to cause glare to passing ships, so that unnecessary dangers are caused.

(II) technical scheme

In order to achieve the purpose, the invention is realized by the following technical scheme: the utility model provides an ocean engineering platform suggestion device, specifically includes:

energy storage ring board, this energy storage ring board have annular main part, and install the buoyancy device at annular main part top, and install the suggestion device of buoyancy device top intermediate position, and install the draw gear of buoyancy device bottom intermediate position, and install the page board device of draw gear both sides, the suggestion device includes:

the triangular frame plate, this triangular frame plate have circular main part, and set up the through hole at circular main part top, and install the snoot of circular main part top intermediate position, and install the spotlight crystal at snoot top, and install the spherical filter mantle of circular main part inner chamber intermediate position. Through the setting of snoot and spotlight brilliant, the light that will produce forms the light column and upwards shines perpendicularly, avoids the light to shine all around, prevents that light from causing the glare to peripheral ship at the instruction in-process, and the setting of through-hole is convenient for the air current to flow simultaneously, promotes the area of contact between air current and the equipment, increases the radiating effect of equipment internals.

Preferably, the accumulator ring plate comprises:

the protection plate is provided with an annular plate body and an energy conversion arc plate arranged on the inner surface of the annular plate body, and an induction coil arranged on the inner surface of the energy conversion arc plate. Magnetic field lines generated by magnetic columns on the page plate device are cut through the induction coil, self-generated electric energy is supplied for equipment, and meanwhile the induction coil is set to be in an arc state to disperse impact force of water flow, so that self protection effect is achieved.

Preferably, the buoyancy means comprises:

the folded plate is provided with a double-plate body and is installed with an air bag on the outer surface of the double-plate body, an air pump in the middle position of the double-plate body is installed with a prompt lamp at the top of the double-plate body, the top of the double-plate body is located on a reflector outside the prompt lamp, and the arc-shaped baffle is installed at the top of the double-plate body and located on the outer side of the reflector. Set up through cowl blocks peripheral wave, prevents that the sea water from getting into inside the equipment, protects internal component, reflects and scatters external light simultaneously, avoids light to get into the inside influence suggestion effect of equipment, and external equipment original route is returned to influence other equipment sights to the scattering simultaneously.

Preferably, the traction device comprises:

the mounting bracket, this mounting bracket have the disc frame board, and install the spiral spring of the one side that the disc frame board is close to each other, and install the rotation dabber at spiral spring the inner, and install rotate the reel of dabber internal surface intermediate position, and install the pull wire of reel surface. The component that carries out the reciprocity through setting up of spiral spring and pull wire to equipment replies, the continuation operation of the equipment of being convenient for, the life of extension equipment to and ensure that equipment branch of academic or vocational study is automatic to be operated, need not manual operation.

Preferably, the top of the mounting frame is connected with the buoyancy device, and two ends of the rotating mandrel are connected with the mounting frame. The equipment can be fixedly positioned by the aid of the traction wire, so that the equipment is prevented from being separated from an ocean engineering platform, the movement range of the equipment is limited, and the equipment is prevented from being shifted or lost in the working process.

Preferably, the sheet device includes:

the shaft column is provided with a rod-shaped main body, a leaf plate arranged in the middle of the rod-shaped main body, a magnetic column arranged on one side, far away from the rod-shaped main body, of the leaf plate, and spherical blocks arranged on the two sides of the rod-shaped main body and located on the leaf plate. The arrangement of the page plates promotes the internal water flow, the change of the internal temperature can be promoted by accelerating the flow of the water flow, and the fluctuation of the sea surface waviness is converted, so that the conversion and utilization of the capacity are facilitated.

A prompting method for an ocean engineering platform comprises the following steps,

the method comprises the following steps: the whole equipment is assembled, an air pump in the buoyancy device is started, external air is filled into the middle of the laminated plate, so that the air bag is expanded, and the position of the equipment is controlled by utilizing the floating force;

step two: the equipment is changed in the up-down position due to the wavy fluctuation of the seawater, so that a traction wire in the traction device stretches, the reel is driven to rotate, and the rotating mandrel rotates along with the reel;

step three: the rotation of the rotating mandrel drives the page plate device to rotate and drives the volute spiral spring to wind, and the elastic deformation of the volute spiral spring enables the reel to reset and rotate;

step four: the page plate device rotates in a reciprocating manner under the influence of the third step and the second step, so that the magnetic column rotates in a reciprocating manner;

step five: the induction coil on the energy storage ring plate cuts the magnetic field lines of the magnetic columns to generate electric energy for auxiliary energy supply;

step six: the energy is supplied to the warning light on the buoyancy device, and the warning light produces light, reflects light to the snoot surface of warning device through the speculum, gets into the spotlight brilliant through the refraction of snoot, utilizes the spotlight brilliant light column of forming with light at last, reminds.

(III) advantageous effects

The invention provides a prompting method for an ocean engineering platform. The method has the following beneficial effects:

(one), this ocean engineering platform reminder system, through the setting of snoot and spotlight crystal, the light that will produce forms the light column and upwards shines perpendicularly, avoids the light to shine all around, prevents that light from causing the glare to peripheral ship at the instruction in-process, and the setting of through hole is convenient for the air current to flow simultaneously, promotes the area of contact between air current and the equipment, increases the radiating effect of equipment internals.

(II), this ocean engineering platform reminder system, the magnetic field that sets up the magnetic column production on the page or leaf board device through induction coil cuts, and the oneself produces the electric energy and carries out the energy supply for equipment, and induction coil sets up to the impact force of arc state to rivers and disperses simultaneously, realizes the protection effect of self.

(III), this ocean engineering platform reminder system, setting through cowl blocks peripheral wave, prevents inside the sea water entering equipment, protects internal component, reflects and scatters external light simultaneously, avoids the inside influence prompt effect of light entering equipment, and the external equipment original road is avoided returning to influence other equipment sights to the scattering simultaneously.

(IV), this ocean engineering platform reminder system, the component that sets up through spiral spring and pull wire carries out the reciprocity to equipment replies, the continuation operation of the equipment of being convenient for, the life of extension equipment to and ensure that equipment branch of academic or vocational study is automatic to be operated, need not manual operation.

The ocean engineering platform prompting system can fix and position equipment through the arrangement of the traction line, avoids the equipment from being separated from the ocean engineering platform, realizes the limitation of the motion range of the equipment, and avoids the deviation or loss of the position of the equipment in the working process.

The ocean engineering platform prompting system promotes internal water flow through the arrangement of the page plates, accelerates the flow of the water flow to promote the change of internal temperature, and simultaneously converts the fluctuation of sea surface wave property, thereby facilitating the conversion and utilization of the capacity.

Drawings

FIG. 1 is a schematic structural view of the present invention as a whole;

FIG. 2 is a schematic structural diagram of a notification device according to the present invention;

FIG. 3 is a schematic structural diagram of an energy storage ring plate according to the present invention;

FIG. 4 is a schematic structural view of the traction device of the present invention;

FIG. 5 is a schematic view of the construction of the leaf device of the present invention;

FIG. 6 is a schematic view of the construction of the buoyancy device of the present invention;

in the figure: the device comprises an energy storage annular plate 1, a protection plate 11, a rotary energy arc plate 12, an induction coil 13, a buoyancy device 2, a laminated plate 21, an air bag 22, an air pump 23, a prompting lamp 24, a reflector 25, an arc baffle 26, a prompting device 3, a tripod plate 31, a through hole 32, a light-gathering cover 33, a light-gathering crystal 34, a spherical filter 35, a traction device 4, a mounting frame 41, a volute spring 42, a rotary mandrel 43, a reel 44, a traction line 45, a plate device 5, a shaft column 51, a plate 52, a magnetic column 53 and a spherical block 54.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The first embodiment is as follows:

referring to fig. 1-6, the present invention provides a technical solution: the utility model provides an ocean engineering platform suggestion device, specifically includes:

energy storage ring board 1, this energy storage ring board 1 have annular main part to and install 2 at the buoyancy device of annular main part top, and install the suggestion device 3 at 2 top intermediate positions of buoyancy device, and install the draw gear 4 at 2 bottom intermediate positions of buoyancy device, and install the page board device 5 at draw gear 4 both sides, suggestion device 3 includes:

the triangular frame plate 31 is provided with a circular main body, a through hole 32 arranged at the top of the circular main body, a light-gathering cover 33 arranged at the middle position of the top of the circular main body, a light-gathering crystal 34 arranged at the top of the light-gathering cover 33, and a spherical filter 35 arranged at the middle position of the inner cavity of the circular main body. Through the setting of snoot 33 and spotlight brilliant 34, the light that will produce forms the light column and upwards shines perpendicularly, avoids the light to shine all around, prevents that light from causing the glare to peripheral ship at the instruction in-process, and the setting of through hole 32 is convenient for the air current to flow simultaneously, promotes the area of contact between air current and the equipment, increases the radiating effect of equipment internals.

The accumulator ring plate 1 comprises:

the protection plate 11 is provided with an annular plate body, a rotary energy arc plate 12 arranged on the inner surface of the annular plate body, and an induction coil 13 arranged on the inner surface of the rotary energy arc plate 12. Magnetic field lines generated by the magnetic columns 53 on the page plate device 5 are cut through the arrangement of the induction coil 13, self-generated electric energy is supplied for equipment, and meanwhile the induction coil 13 is arranged in an arc state to disperse impact force of water flow, so that self-protection effect is realized.

The buoyancy device 2 includes:

the laminated plate 21 comprises a double-plate body, an air bag 22 arranged on the outer surface of the double-plate body, an air pump 23 arranged in the middle of the double-plate body, a warning lamp 24 arranged at the top of the double-plate body, a reflector 25 arranged at the top of the double-plate body and positioned outside the warning lamp 24, and an arc-shaped baffle 26 arranged at the top of the double-plate body and positioned outside the reflector 25. Set up through cowl 26 and block peripheral wave, prevent that the sea water from getting into inside the equipment, protect internal member, reflect and scatter external light simultaneously, avoid light to get into the inside influence prompt effect of equipment, the scattering avoids external equipment original road to return and influences other equipment sights simultaneously.

The traction device 4 includes:

and a mounting bracket 41, wherein the mounting bracket 41 is provided with a disc frame plate, a scroll spring 42 which is arranged on one side of the disc frame plate close to each other, a rotating core shaft 43 which is arranged at the inner end of the scroll spring 42, a reel 44 which is arranged at the middle position of the inner surface of the rotating core shaft 43, and a traction wire 45 which is arranged on the outer surface of the reel 44. The component that carries out the reciprocity through setting up of spiral spring 42 and pull wire 45 to equipment replies, the continuation operation of the equipment of being convenient for, the life of extension equipment to and ensure that equipment branch of academic or vocational study is automatic to be operated, need not manual operation.

The top of the mounting frame 41 is connected to the buoyancy means 2, and the two ends of the rotating mandrel 43 are connected to the mounting frame 41. The equipment can be fixedly positioned by the arrangement of the traction wire 45, so that the equipment is prevented from being separated from an ocean engineering platform, the movement range of the equipment is limited, and the position of the equipment is prevented from being deviated or lost in the working process.

The sheet device 5 includes:

the shaft column 51 comprises a rod-shaped main body, a leaf plate 52 arranged in the middle of the rod-shaped main body, a magnetic column 53 arranged on one side of the leaf plate 52 far away from the rod-shaped main body, and spherical blocks 54 arranged on the rod-shaped main body and positioned on two sides of the leaf plate 52. The arrangement of the page plates 52 promotes internal water flow, and the change of internal temperature can be promoted by accelerating the flow of the water flow, and the conversion of sea surface wave fluctuation is facilitated, so that the conversion and utilization of capacity are facilitated.

Example two:

referring to fig. 1-6, on the basis of the first embodiment, the present invention provides a technical solution: a prompting method for an ocean engineering platform comprises the following steps,

the method comprises the following steps: the whole equipment is assembled, an air pump 23 in the buoyancy device 2 is started, external air is filled into the middle of the laminated plate 21, the air bag 22 is expanded, and the position of the equipment is controlled by using the buoyancy force;

step two: the wave-like fluctuation of the seawater enables the whole equipment to change up and down positions, so that the traction wire 45 in the traction device 4 stretches and retracts to drive the reel 44 to rotate, and the rotating mandrel 43 rotates along with the reel 44;

step three: the rotation of the rotating mandrel 43 drives the leaf device 5 to rotate and drives the volute spiral spring 42 to wind, and the elastic deformation of the volute spiral spring 42 enables the reel 44 to reset and rotate;

step four: the page plate device 5 rotates in a reciprocating manner under the influence of the third step and the second step, so that the magnetic column 53 rotates in a reciprocating manner;

step five: the induction coil 13 on the energy storage ring plate 1 cuts the magnetic field lines of the magnetic columns 53 to generate electric energy for auxiliary energy supply;

step six: the energy is supplied to the indicator light 24 on the buoyancy device 2, the indicator light 24 generates light, the light is reflected to the surface of the light-gathering cover 33 of the indicator device 3 through the reflector 25, enters the light-gathering crystal 34 through the refraction of the light-gathering cover 33, and finally the light is formed into a light column by the light-gathering crystal 34 for indication.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. The term "comprising", without further limitation, means that the element so defined is not excluded from the group consisting of additional identical elements in the process, method, article, or apparatus that comprises the element.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an ocean engineering platform suggestion device, specifically includes:

energy storage ring board (1), this energy storage ring board (1) have annular main part, and install buoyancy device (2) at annular main part top, and install buoyancy device (2) top intermediate position's suggestion device (3), and install the draw gear (4) of buoyancy device (2) bottom intermediate position, and install the page board device (5) of draw gear (4) both sides, its characterized in that: the presentation device (3) comprises:

the triangular plate (31), this triangular plate (31) have circular main part, and set up in through hole (32) at circular main part top, and install snoot (33) of circular main part top intermediate position, and install spotlight crystal (34) at snoot (33) top, and install spherical filter mantle (35) of circular main part inner chamber intermediate position.

2. The oceanographic engineering platform prompting device as defined in claim 1, wherein: the energy storage ring plate (1) comprises:

the protection plate (11) is provided with an annular plate body, a rotary energy arc plate (12) arranged on the inner surface of the annular plate body, and an induction coil (13) arranged on the inner surface of the rotary energy arc plate (12).

3. The oceanographic engineering platform prompting device as defined in claim 1, wherein: the buoyancy device (2) comprises:

the double-plate-body air pump is characterized by comprising a laminated plate (21), wherein the laminated plate (21) is provided with double plate bodies, an air bag (22) arranged on the outer surfaces of the double plate bodies is installed on an air pump (23) arranged in the middle of the double plate bodies, a prompt lamp (24) arranged at the top of the double plate bodies is installed on a reflector (25) arranged at the outer side of the prompt lamp (24) and an arc-shaped baffle (26) arranged at the top of the double plate bodies and positioned at the outer side of the reflector (25).

4. The oceanographic engineering platform prompting device as defined in claim 1, wherein: the traction device (4) comprises:

the mounting bracket (41) is provided with a disc frame plate, a scroll spring (42) which is arranged on one side of the disc frame plate close to each other, a rotating mandrel (43) which is arranged at the inner end of the scroll spring (42), a reel (44) which is arranged at the middle position of the inner surface of the rotating mandrel (43), and a traction line (45) which is arranged on the outer surface of the reel (44).

5. The oceanographic engineering platform prompting device as claimed in claim 4, wherein: the top of the mounting frame (41) is connected with the buoyancy device (2), and two ends of the rotating mandrel (43) are connected with the mounting frame (41).

6. The oceanographic engineering platform prompting device as defined in claim 1, wherein: the leaf arrangement (5) comprises:

the shaft column (51) is provided with a rod-shaped main body, a leaf plate (52) arranged in the middle of the rod-shaped main body, a magnetic column (53) arranged on one side, far away from the rod-shaped main body, of the leaf plate (52), and spherical blocks (54) arranged on the rod-shaped main body and located on two sides of the leaf plate (52).

7. A method for prompting an ocean engineering platform is characterized by comprising the following steps: comprises the following steps of (a) carrying out,

the method comprises the following steps: the whole equipment is assembled, an air pump (23) in the buoyancy device (2) is started, external air is filled into the middle of the laminated plate (21), so that the air bag (22) expands, and the position of the equipment is controlled by using the buoyancy force;

step two: the wave fluctuation of the seawater enables the whole equipment to be changed in the up-down position, so that a traction wire (45) in the traction device (4) stretches and retracts, a reel (44) is driven to rotate, and a rotating mandrel (43) rotates along with the reel (44);

step three: the rotation of the rotating mandrel (43) drives the page plate device (5) to rotate and drives the volute spiral spring (42) to wind, and the elastic deformation of the volute spiral spring (42) enables the reel (44) to reset and rotate;

step four: the page plate device (5) rotates in a reciprocating manner under the influence of the third step and the second step, so that the magnetic column (53) rotates in a reciprocating manner;

step five: an induction coil (13) on the energy storage ring plate (1) cuts magnetic field lines of the magnetic columns (53) to generate electric energy for auxiliary energy supply;

step six: the energy is supplied to a prompt lamp (24) on the buoyancy device (2), the prompt lamp (24) generates light, the light is reflected to the surface of a light-gathering cover (33) of the prompt device (3) through a reflector (25), the light enters a light-gathering crystal (34) through the refraction of the light-gathering cover (33), and finally the light is formed into a light column by the light-gathering crystal (34) for prompting.

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