CN208544401U - Large-scale Mobile floating structures system on a kind of ocean - Google Patents

Abstract

The utility model provides Large-scale Mobile floating structures system on a kind of ocean, it is that the multiple keg floats 04 being put into seawater are arranged together, it is connect equipped with multiple Self-resetting cylinder movable ends 01 and Self-resetting cylinder fixing end 02 with substrate framework 05 on keg float, form a kickboard, when the power of ocean kinetic energy output acts on Self-resetting cylinder movable end 01, the gas of Self-resetting cylinder fixing end exhaust pipe (03) is filled in air collector (12), gas control equipment in air collector (12) drives floating motion to gas is discharged through the country.

Description

Large-scale Mobile floating structures system on a kind of ocean

Technical field

The utility model relates to ocean kinetic energies to pick up, conversion, comprehensive development and utilization field.

Background technique

There are many exploitation ocean kinetic energy at present, and in the prior art, most of is all to take to pass through various sides using ocean kinetic energy The problems such as formula is converted directly into utilization of power, and structure process is complicated, causes input cost high, conversion low efficiency, this is practical It is novel it is to be solved be by it is different pick up ocean kinetic energies in the way of, by ocean generate kinetic energy be converted to pressure gas energy, make Large-scale Mobile floating structures movement on ocean can be directly driven with pressure gas, pneumatic tool can be directly driven using pressure gas and done Function can drive air pressure generator that gas can be converted to electric energy using pressure gas, store pressure gas energy using pressurized tank, make full use of The renewable green energy resource of ocean kinetic energy, brings benefit to the mankind.

Summary of the invention

In view of this, the utility model lies in that Large-scale Mobile floating structures system on a kind of ocean is provided, at least The problems such as solution is complicated to structure process in the prior art, and input cost is high, conversion low efficiency, causes the energy that cannot have The drawbacks of effect utilizes problem.

In order to solve the above problem the utility model lies in that providing Large-scale Mobile floating structures system on a kind of ocean, packet Include: Self-resetting cylinder movable end is connect with keg float, and Self-resetting cylinder fixing end is connect with substrate framework, Self-resetting cylinder fixing end Exhaust pipe inputs the first check valve by air collector and connect with one end of air collector input pipe, the other end of air collector input pipe and Air collector connection, air collector are connected by air collector efferent duct and second one-way valve door by pressurized tank input channel and pressurized tank Connect, the efferent duct of pressurized tank by dividing gas tank valve and gas tank input pipe divided to connect with gas tank is divided, divide gas tank the first efferent duct, One end that second efferent duct and third efferent duct export electrically operated valve, the second output valve and third output valve with first respectively Connection.

Further, further includes: pressure acquisition device and safety valve are mounted on pressurized tank, pressure acquisition device with it is described Control device connection.

Further, further includes: Self-resetting cylinder movable end, Self-resetting cylinder fixing end, Self-resetting cylinder fixing end row Tracheae, keg float be it is multiple, connect with substrate framework, multiple Self-resetting cylinder fixing end exhaust pipes respectively with multiple first check valves Connection.

Further, further includes: driving exhaust pipe is connected by first bearing box with second bearing box with to reel flanges, right Reel flanges are connect with angle driving apparatus, first bearing and second bearing box and angle drive dynamic control device respectively with fixed bracket Connection, fixed bracket are connect with substrate framework, and rudder plate is connect with driving exhaust pipe, driving air inlet pipe first exports electrically operated valve Connection.

Further, further includes: driving air inlet pipe is connect with the first output electrically operated valve, the first output electrically operated valve and control Device connection processed, angle drive dynamic control device are connect with control device.

Further, further includes: bottomless air collector is connected by the first fixed bracket and the second fixed bracket and substrate framework Connect, bottomless air collector is inhaled, exhaust pipe is connect with one end of breather cheek valve door and exhaust check valve door respectively, drain tap it is another One end is connect with pressurized tank.

Further, further includes: bottomless air collector, breather cheek valve door, exhaust check valve door are multiple, multiple bottomless collection Gas tank and multiple keg floats are placed in seawater.

Control system navigational monitoring system is connect with control system, and unmanned plane secondary navigation system and control system connect It connects, control system is connect with display system.

Further, further includes: it is laid with ground in substrate framework, constructs equipment machine room, ship anchor, the second output valve, Three output valves.

Further, further includes: substrate framework, be laid with ground can arbitrary shape, material hardness is high, carry out preservative treatment, Area can arbitrarily expand, and Large-scale Mobile floating structures system multiple can combine on a kind of ocean, construct equipment machine room, ship anchor, Second output valve, third output valve are multiple.

Using Large-scale Mobile floating structures system on a kind of ocean of the utility model, structure simple rigid is durable, Ocean kinetic energy conversion rate is high, has large area offshore platform that can develop and use.

In addition to objects, features and advantages described above, there are also other objects, features and advantages for the utility model. Below with reference to figure, the utility model is described in further detail.

Detailed description of the invention

The attached drawing constituted part of this application is used to provide a further understanding of the present invention.The utility model Illustrative examples and explanation are used to explain the present invention, and are not constituted improper limitations of the present invention.In the accompanying drawings:

Fig. 1, Large-scale Mobile floating structures system on a kind of ocean according to the utility model embodiment one is shown Structural schematic diagram:

01 Self-resetting cylinder movable end, 02 finger Self-resetting cylinder fixing end, 03 finger Self-resetting cylinder fixing end exhaust pipe, 04 Refer to keg float, 05 refers to substrate framework, and 30 refer to driving exhaust pipe, and 31 refer to first bearing box, and 32 refer to second bearing box, and 33 refer to disk method Orchid, 34 refer to that angle driving apparatus 35 refer to fixed brackets, and 36 refer to driving air inlet pipe, and 37 refer to rudder plates, and 40 refer to bottomless air collectors, and 41 refer to the One fixed bracket, 42 refer to the second fixed bracket, and 43 refer to exhaust pipe.

Fig. 2 shows the originals according to Large-scale Mobile floating structures system on a kind of ocean of the utility model embodiment one Manage schematic diagram:

Wherein appended drawing reference is 10 the first check valves of finger, and 11 refer to air collector input pipes, and 12 refer to air collectors, and 13 refer to that air collectors are defeated Outlet pipe, 14 refer to second one-way valve door, and 15 finger pressure tank input channels, 16 finger pressure tanks, 17 finger pressure force acquisition devices, 18 refer to safety Valve, 19 finger pressure tank efferent ducts, 20 fingers divide gas tank valve, and 21 fingers divide gas tank input pipe, and 22 fingers divide gas tank, and 23 refer to the first of gas tanks Efferent duct, 24 finger the first output electrically operated valves, 25 the second efferent ducts of finger, 26 the second output valves of finger, 27 finger third efferent ducts, 28 Refer to third output valve.

Fig. 3 shows the control of Large-scale Mobile floating structures system on a kind of ocean according to the utility model embodiment one Displaying principle schematic diagram processed:

Fig. 4 shows the 1- of Large-scale Mobile floating structures system on a kind of ocean according to the utility model embodiment one 1 amplification driving structure schematic diagram: and the top view of 1-2 rudder plate and driving exhaust pipe:

Fig. 5 shows the base of Large-scale Mobile floating structures system on a kind of ocean according to the utility model embodiment one Framework and bottomless air collector overlooking structure diagram:

Fig. 6 shows the base of Large-scale Mobile floating structures system on a kind of ocean according to the utility model embodiment one Ground on framework and construct equipment machine room overlooking structure diagram:

Specific embodiment

Scheme in the utility model to clearly illustrate is given below preferred embodiment and is described with reference to the accompanying drawings.

Embodiment one

Fig. 1 shows the structural schematic diagram according to Large-scale Mobile floating structures system on a kind of ocean of the utility model, Fig. 2 shows illustrated according to the principle of Large-scale Mobile floating structures system on a kind of ocean of the utility model embodiment one Figure.

As shown in Figure 1 and Figure 2, Self-resetting cylinder movable end 01 is connect with keg float 04, Self-resetting cylinder fixing end 02 and substrate Skeleton 05 connects, and Self-resetting cylinder fixing end exhaust pipe 03 passes through the first check valve of air collector input 10 and air collector input pipe 11 One end connection, the other end of air collector input pipe 11 connect with air collector 12, and air collector 12 passes through 13 He of air collector efferent duct Second one-way valve door 14 is connect by pressurized tank input channel 15 with pressurized tank 16, and the efferent duct 19 of pressurized tank 16 is by dividing gas tank Valve 20 and gas tank input pipe 21 is divided to connect with gas tank 22 is divided, divides the first efferent duct 23, the second efferent duct 25 and third of gas tank Efferent duct 27 is connect with one end of the first output electrically operated valve 24, the second output valve 26 and third output valve 28 respectively.

And Self-resetting cylinder movable end 01, Self-resetting cylinder fixing end exhaust pipe 03, floats at Self-resetting cylinder fixing end 02 Bucket 04 is connect to be multiple with substrate framework 05, multiple Self-resetting cylinder fixing end exhaust pipes 03 respectively with multiple first check valves 10 connections.

Concrete operating principle is that the multiple keg floats 04 being put into seawater are arranged together, and multiple Self-resettings are housed on keg float Cylinder movable end 01 and Self-resetting cylinder fixing end 02 are connect with substrate framework 05, when wave moves upwards, Self-resetting cylinder Movable end 01 inwardly moves under the action of by gravity in substrate framework 05, and Self-resetting cylinder fixing end exhaust pipe 03 is vented outwards, The first check valve 10 is inputted by air collector to open, high pressure gas is discharged in air collector 12, and the gas of air collector passes through second One-way cock 14 enters pressurized tank 16, and when wave moves downward, air collector inputs the first check valve 10 and closes, Self-resetting cylinder Reversal valve in fixing end 02, which is opened, carries out air-breathing, and Self-resetting cylinder movable end 01 moves out under the action of contained spring, When wave moves again up, the above movement will be repeated.

As shown in Figure 1 and Figure 2, driving exhaust pipe 30 is by first bearing box 31 and second bearing box 32 and to reel flanges 33 Connection, reel flanges 33 are connect with angle driving apparatus 34, and first bearing 31 and second bearing box 32 and angle drive control fill 34 to be set to connect with fixed bracket 35 respectively, fixed bracket 35 is connect with substrate framework 05, and rudder plate 37 is connect with driving exhaust pipe 30, Driving air inlet pipe 36 is connect with the first output electrically operated valve 24, and the first output electrically operated valve 24 is connect with control device 80, angle Drive dynamic control device 34 is connect with control device 80.

Drive exhaust pipe 30, first bearing box 31, second bearing box 32, to reel flanges 33, angle driving apparatus 34, fixed Bracket 35, rudder plate 37 are as shown in figure 5, distributing installation is in substrate framework 05, and the setting angle of each rudder plate is identical, each rudder plate Direction it is identical, by control device 80 issue instruct, make all angle drive dynamic control devices 34 by the instruction received turn Corresponding angle is moved, drives that all exhaust pipes 30 are synchronous with rudder plate 37, same to angular turn, moved to large-scale on a kind of ocean The regulation in dynamic floating structures system navigation direction issues instruction to the first output electrically operated valve 24 by control device 80, can The capacity of control driving exhaust pipe 30, can control a kind of route speed of Large-scale Mobile floating structures system on ocean.

As shown in Figure 1 and Figure 2, bottomless air collector 40 passes through the first fixed bracket 41 and the second fixed bracket 42 and substrate bone Frame 05 connects, and bottomless air collector is inhaled, exhaust pipe 43 is connect with one end of breather cheek valve door 44 and exhaust check valve door 45 respectively, The other end of drain tap 45 is connect with pressurized tank 16, and bottomless air collector 40, breather cheek valve door 44, exhaust check valve door 45 are Multiple, multiple bottomless air collectors 40 and multiple keg floats 04 are placed in seawater 50.

As shown in Figure 1, Figure 2, Figure 5, multiple bottomless air collectors 40 are connect with substrate framework 05, bottomless 40 phase of air collector interconnection It connects, improves a kind of stability of Large-scale Mobile floating structures system on ocean, the length of multiple bottomless air collectors 40 is not Wide more than 3 meters is no more than 1.5 meters, and the gas when wave rises in tank is compressed, and breather cheek valve door 44 is closed, and gas is logical It crosses bottomless air collector suction, exhaust pipe 43 and exhaust check valve door 45 to inflate into pressurized tank 16, when wave decline, exhaust is unidirectional Valve 45 is closed, and breather cheek valve door 44 is opened, and sucks gas in bottomless air collector 40, is completed when wave rises again above-mentioned dynamic Make.

As shown in figure 3, navigational monitoring system 90 is connect with control system, unmanned plane secondary navigation system 110 and control System processed is connect with display system 100, it can be achieved that remote control controls.

As shown in fig. 6, being laid with ground 120 in substrate framework 05, equipment machine room 130 is constructed in substrate framework 05, Installation ship anchor on bottomless air collector 40, substrate framework 05, be laid with ground 120 can arbitrary shape, material hardness is high, carries out at anti-corrosion Reason.

Implement assembling scheme, multiple floating body platforms that multiple keg floats 04 are assembled into small area are put into sea, in floating body platform Over-assemble substrate framework 05, the material of substrate framework 05 are molding materials, while installing Self-resetting cylinder movable end 01 and oneself Reset cylinder fixing end 02, across the sea installation combination, area and shape can be selected according to sea conditions and functional requirement, group At a kind of marine Large-scale Mobile floating structures system multiple can combine, when combination, a kind of each marine Large-scale Mobile floating was constructed The direction of object system and the angle of angle drive dynamic control device 34 are answered identical, are constructed equipment machine room (130), ship anchor (140), second Output valve (26), third output valve (28) are multiple.

As shown in fig. 6, have very large space that can utilize on a kind of marine Large-scale Mobile floating structures system ground, For the capacity for improving Self-resetting cylinder movable end 01 and Self-resetting cylinder fixing end 02, it should in substrate framework 05 and be laid with ground Increase counterweight on face 120, weight body can do sea-farming, and sea water desalination can carry out tour itineraries exploitation, can carry out by inshore Energy output etc..

Claims (10)

1. Large-scale Mobile floating structures system on a kind of ocean characterized by comprising

Self-resetting cylinder movable end (01) is connect with keg float (04), and Self-resetting cylinder fixing end (02) and substrate framework (05) are even It connects, Self-resetting cylinder fixing end exhaust pipe (03) passes through air collector input the first check valve (10) and air collector input pipe (11) One end connection, the other end of air collector input pipe (11) are connect with air collector (12), and air collector efferent duct (13) is unidirectional with second Valve (14), the first input pipe of pressurized tank (15) connection, the pressurized tank efferent duct (19) of pressurized tank (16) is by dividing gas tank valve (20) and gas tank input pipe (21) is divided to connect with gas tank (22) is divided, divides the first efferent duct (23), the second efferent duct (25) of gas tank Electrically operated valve (24), the second output valve (26) and third output valve (28) are exported with first respectively with third efferent duct (27) One end connection.

2. Large-scale Mobile floating structures system on a kind of ocean according to claim 1, which is characterized in that further include: Pressure acquisition device (17) and safety valve (18) are mounted on pressurized tank (16), pressure acquisition device (17) and control device (80) Connection.

3. Large-scale Mobile floating structures system on a kind of ocean according to claim 1, which is characterized in that Self-resetting gas Cylinder fixing end (02) is connect with substrate framework (05), Self-resetting cylinder movable end (01), Self-resetting cylinder fixing end (02), runback Position cylinder fixing end exhaust pipe (03), keg float (04) be it is multiple, multiple Self-resetting cylinder fixing end exhaust pipes (03) respectively with it is more A first check valve (10) connection.

4. Large-scale Mobile floating structures system on a kind of ocean according to claim 1, which is characterized in that further include: According to claim 1 on a kind of ocean Large-scale Mobile floating structures system it is characterized by further comprising: driving exhaust pipe (30) It is connect by first bearing box (31) and second bearing box (32) with to reel flanges (33), reel flanges (33) and angle driving is controlled Device (34) connection processed, first bearing box (31), second bearing box (32), angle drive dynamic control device (34) are propped up with fixation respectively Frame (35) connection, fixed bracket (35) are connect with substrate framework (05), and rudder plate (37) is connect with exhaust pipe (30) are driven, drive into Tracheae (36) is connect with the first output electrically operated valve (24).

5. Large-scale Mobile floating structures system on a kind of ocean according to claim 4, which is characterized in that driving air inlet Pipe (36) is connect with the first output electrically operated valve (24), and the first output electrically operated valve (24) is connect with control device (80), angle Drive dynamic control device (34) is connect with control device (80).

6. Large-scale Mobile floating structures system on a kind of ocean according to claim 1, which is characterized in that further include, Bottomless air collector (40) is connect by first fixed bracket (41) and second fixed bracket (42) with substrate framework (05), bottomless collection Gas tank is inhaled, exhaust pipe (43) is connect with one end of breather cheek valve door (44) and exhaust check valve door (45) respectively, and exhaust is unidirectional The other end of valve (45) is connect with pressurized tank (16).

7. Large-scale Mobile floating structures system on a kind of ocean according to claim 6, which is characterized in that further include, Bottomless air collector (40) and substrate framework (05) are put into seawater (50), and bottomless air collector (40) is multiple.

8. Large-scale Mobile floating structures system on a kind of ocean according to claim 1, which is characterized in that further include, Navigational monitoring system (90), unmanned plane secondary navigation system (110), display system (100) are connect with control device (80).

9. Large-scale Mobile floating structures system on a kind of ocean according to claim 8, which is characterized in that further include, Ground (120) are laid in substrate framework (05), are constructed equipment machine room (130), ship anchor (140), the second output valve (26), third Output valve (28).

10. Large-scale Mobile floating structures system on a kind of ocean according to claim 9, which is characterized in that further include, Substrate framework (05), be laid with ground (120) can arbitrary shape, material hardness is high, carries out preservative treatment, a kind of sea Large-scale Mobile Floating structures system multiple can combine, and construct equipment machine room (130), and ship anchor (140), the second output valve (26), third is defeated Valve (28) is multiple out.