CN104141583A

CN104141583A - Bidirectional ocean energy collecting mechanism provided with float

Info

Publication number: CN104141583A
Application number: CN201410243779.XA
Authority: CN
Inventors: 陈沪; 何宏舟; 王子润
Original assignee: Jimei University
Current assignee: Jimei University
Priority date: 2014-06-04
Filing date: 2014-06-04
Publication date: 2014-11-12

Abstract

The invention discloses a bidirectional ocean energy collecting mechanism provided with a float. The bidirectional ocean energy collecting mechanism comprises the float, a connecting frame, a unidirectional conversion mechanism, a gear drive mechanism and a power generation shaft, wherein one end of the connecting frame is fixedly connected with the float, the other end is connected with the unidirectional conversion mechanism which is connected with the gear drive mechanism connected with the power generation shaft; and bidirectional mechanical energy generated by up-down floating of the float is converted into unidirectional mechanical energy by the unidirectional conversion mechanism, the unidirectional mechanical energy is then subjected to speed change by the gear drive mechanism and transmitted to the power generation shaft for power generation, so that bidirectional energy collection through up-down floating of the float can be achieved. With adoption of the design, the float can collect energy when moving both upward and downward, and the energy exchange efficiency is high; the design is scientific and reasonable, the structure is simple, and the cost is low; and inexhaustible ocean energy is taken as power, the socially booming power demand can be met, pollution and noise are avoided, and the environment is protected.

Description

Two-way ocean energy float acquisition mechanism

Technical field

The present invention relates to a kind of hydroelectric installation, relate in particular to a kind of two-way ocean energy float acquisition mechanism.

Background technique

Be accompanied by the fast development of economic society, because the mankind's meeting of too pursuing that development brings and the speed of development are ignored or thin its negative effect of bringing, even when greatly meeting self material desire, buried many hidden danger also to the future development of self, As time goes on these problems expose more and more obvious, until threaten mankind itself's existence, as the appearance of greenhouse effect, the problems such as water pollution, to a certain extent, these problems are all attributed to the one-sided of people to development, thought as long as economic development, all problems is all readily solved, ignored environmental protection.

Now, electric energy has become the main energy sources of daily life and social industrial development, existing generation mode is roughly wind-power electricity generation, water generating, thermal power generation and nuclear power generation, these power station construction investments are high, cost is high, and fossil energy is seriously polluted, the limited day by day exhausted danger that is faced with of originating.On the contrary, marine energy is a kind of green clean energy resource, and it is cheap clean and inexhaustible.Therefore, how effectively to utilize the energy containing in the vast oceans exploitation morning and evening tides and wave to become the important topic that countries nowadays is fallen over each other research.

Existing, take ocean energy in the technological scheme that energy source generates electricity, application number is that 201080055006.9 Chinese patent discloses the invention of " ocean power generation equipment " by name, application number is that 200880126124.7 Chinese patent discloses the invention of " the composite marine power generation system that integrates tidal power generation and ocean current power generation " by name, application number is that 201010212420.8 Chinese patent discloses the invention of " power transmission system of tide and sea wave potential energy power station " by name, waits other technological scheme.But gigantic project is mostly too numerous and diverse, be unfavorable for the conversion of energy, and cost is high.Design a kind of simple in structurely, with low cost, the ocean energy acquisition mechanism that energy conversion efficiency is high becomes desirability.

Summary of the invention

The object of the present invention is to provide two-way ocean energy float acquisition mechanism, that this mechanism has is simple in structure, with low cost, no matter can realize that float upwards still moves down all can collecting energy, i.e. high and little to the ocean environment destructiveness feature of energy conversion efficiency.

Above-mentioned purpose of the present invention realizes by following technical proposal:

Two-way ocean energy float acquisition mechanism, comprises float, frame linking, unidirectional switching mechanism, gear drive and generating axle; Frame linking one end is fixedly connected with float, and the other end connects unidirectional switching mechanism, unidirectional switching mechanism connection teeth wheel drive mechanism, and gear drive connects generating axle; Through unidirectional switching mechanism, can convert the two-way mechanical of the upper and lower unsteady generation of float to single direction rotation mechanical energy, through gear drive, single direction rotation mechanical energy is carried out to speed change again and passes to generating axle generating electricity, so, can realize the two-way energy of adopting that float moves up and down.

Described frame linking is arm shape reel cage, its unidirectional switching mechanism comprise adopt can axle, directly push away double-acting ratchet mechanism and jack shaft; One end of reel cage is fixedly connected with float, the other end is fixedly connected on to be adopted on energy axle, adopt and can on axle, the two ratchet parts that directly push away double-acting ratchet mechanism be housed, the ratchet portions that directly pushes away double-acting ratchet mechanism is arranged on jack shaft, and jack shaft will pass to generating axle by gear drive after mechanical energy speed change; Utilize the unidirectional drive feature that directly pushes away double-acting ratchet mechanism, realize the two-way energy of adopting that float moves up and down.

Further, the described double-acting ratchet mechanism that directly pushes away arranges one; Simple in structure, transformation efficiency is high.

Further, the described double-acting ratchet mechanism that directly pushes away arranges a plurality of; Can strengthen bearing capacity, in long-term use, even if break down one of them or several, other directly push away the normal work that double-acting ratchet mechanism still can maintain two-way ocean energy float acquisition mechanism.

Described frame linking is arm shape reel cage, its unidirectional switching mechanism comprises adopts energy axle, forward is arranged on the overrunning clutch of adopting on energy axle, oppositely being arranged on the overrunning clutch of adopting on energy axle (is also two clutches, installing clockwise one for one installs counterclockwise), be arranged on forward and be arranged on the forward gear on the overrunning clutch of adopting on energy axle, be arranged on the reverse gear being oppositely arranged on the overrunning clutch of adopting on energy axle, the output gear one being meshed with above-mentioned forward gear, the tumbler gear being meshed with above-mentioned reverse gear, the output gear two and the output shaft that are meshed with tumbler gear, output gear one is all fixedly mounted on output shaft with output gear two, one end of reel cage is fixedly connected with float, the other end is fixedly connected on to be adopted on energy axle, output shaft is by gear drive by passing to generating axle after mechanical energy speed change, and by this structural design, no matter float moves up or moves down, and finally passes to the mechanical energy that is same sense of rotation on generating axle, thereby, realize the two-way energy of adopting that float moves up and down.

Described unidirectional switching mechanism comprises tooth bar, the gear being meshed with tooth bar, adopt energy axle, forward is arranged on the overrunning clutch of adopting on energy axle, oppositely be arranged on the overrunning clutch of adopting on energy axle, be arranged on forward and be arranged on the forward gear on the overrunning clutch of adopting on energy axle, be arranged on the reverse gear being oppositely arranged on the overrunning clutch of adopting on energy axle, the output gear one being meshed with above-mentioned forward gear, the tumbler gear being meshed with above-mentioned reverse gear, the output gear two and the output shaft that are meshed with tumbler gear, output gear one is all fixedly mounted on output shaft with output gear two, tooth bar is fixed on frame linking, the gear being meshed with tooth bar is fixedly mounted on to be adopted on energy axle, output shaft will pass to generating axle by gear drive after mechanical energy speed change, by this structural design, no matter float moves up or moves down, finally pass to the mechanical energy that is same sense of rotation on generating axle, thereby, realize the two-way energy of adopting that float moves up and down.

Compared with prior art, the invention has the beneficial effects as follows: 1, can realize that float moves up and down all can collecting energy, and energy conversion efficiency is high; 2, design science is reasonable, simple in structure, with low cost; 3, take ocean energy as power, inexhaustible, can meet the need for electricity that society develops rapidly; 4, pollution-free, noiseless, protection of the environment.

Accompanying drawing explanation

Fig. 1 is the structural representation of the embodiment of the present invention one;

Fig. 2 is embodiment one the connection diagram that directly pushes away double-acting ratchet mechanism and other member;

Fig. 3 is that schematic diagram is arranged in the combination of the embodiment of the present invention one;

Fig. 4 is the structural representation of the embodiment of the present invention two;

Fig. 5 is the structural representation of the embodiment of the present invention three;

Fig. 6 is that schematic diagram is arranged in the combination of the embodiment of the present invention three;

Embodiment's one main member symbol description:

A1, float A2, reel cage

A3, generating axle A4, adopting can axle

A5, double-acting ratchet mechanism A51, upper ratchet

A52, lower ratchet A53, ratchet

A6, jack shaft A7, gear drive

Embodiment's two main member symbol descriptions:

B1, float B2, reel cage

B3, adopt can axle B4, overrunning clutch

B5, overrunning clutch B6, forward gear

B7, reverse gear B8, output gear one

B9, tumbler gear B10, output gear two

B11, output shaft

Embodiment's three main member symbol descriptions:

C1, float C2, frame linking

C3, tooth bar C4, gear

C5, adopt can axle C6, overrunning clutch

C7, overrunning clutch C8, forward gear

C9, reverse gear C10, output gear one

C11, tumbler gear C12, output gear two

C13, output shaft.

Embodiment

Below in conjunction with the drawings and specific embodiments, the invention will be further described.

embodiment one: two-way ocean energy float acquisition mechanism, as depicted in figs. 1 and 2, comprises float A1, frame linking A2, (mechanical energy of different direction can be converted to the mechanical energy of same sense of rotation) unidirectional switching mechanism, gear drive A7 and generating axle A3; Frame linking A2 one end is fixedly connected with float A1, and the other end connects unidirectional switching mechanism, unidirectional switching mechanism connection teeth wheel drive mechanism, and gear drive connects generating axle A3; Through unidirectional switching mechanism, can convert the two-way mechanical of the upper and lower unsteady generation of float A1 to unidirectional mechanical energy, through gear drive, single direction rotation mechanical energy is carried out to speed change again and passes to generating axle A3 generating electricity, so, can realize the two-way energy of adopting that float A1 moves up and down.

Frame linking A2 is arm shape reel cage A2, its unidirectional switching mechanism comprise adopt can axle A4, directly push away double-acting ratchet mechanism A5 and jack shaft A6; One end of reel cage A2 is fixedly connected with float A1, the other end is fixedly connected on to be adopted on energy axle A4, adopt and can on axle A4, the two ratchet parts (A51 and A52) that directly push away double-acting ratchet mechanism A5 be housed, the ratchet portions A53 that directly pushes away double-acting ratchet mechanism A5 is arranged on jack shaft A6 above, and jack shaft A6 will pass to generating axle by gear drive after mechanical energy speed change; Utilize the unidirectional drive feature that directly pushes away double-acting ratchet mechanism A5, realize the two-way energy of adopting that float moves up and down.Wherein, directly push away double-acting ratchet mechanism A5 and can arrange one, simple in structure like this, transformation efficiency is high; Certainly also can arrange a plurality of; To strengthen bearing capacity, in long-term use, even if break down one of them or several, other directly push away the normal work that double-acting ratchet mechanism still can maintain two-way ocean energy float acquisition mechanism.

When tide rises, the water surface rises, swim in float A1 on the water surface because buoyancy increases the rise that makes progress, drive reel cage A2 upwards to swing, adopting of being fixedly connected with reel cage A2 can will turn over certain angle by axle A4, and in drive, ratchet A51 promotes forward, and ratchet A53 is rotated forward, meanwhile, lower ratchet A52 recession.In the time of ebb, the water surface declines, float A1 loses buoyancy of water, due to Action of Gravity Field, decline thereupon, drive reel cage A2 to lower swing, the rotating shaft A4 being fixedly connected with reel cage A2 will oppositely turn over certain angle, drive lower ratchet A52 to promote forward, make equally ratchet A53 rotate forward, meanwhile, upper ratchet A52 recession, in order to continuing next time, promote forward, so circulation, ratchet A53 drives jack shaft A6 rotation endlessly, then by gear drive A7, this mechanical energy is passed to generator and can produce electric energy endlessly.

This two-way ocean energy float acquisition mechanism can a plurality ofly be used in combination, and as shown in Figure 3, after combination, kinetic energy is delivered on same axle, then drives the generator generating of relatively high power, the gathering of more convenient like this installation and energy, and generating efficiency is higher.

embodiment two: two-way ocean energy float acquisition mechanism, as shown in Figure 4, comprise float B1, frame linking B2, the unidirectional switching mechanism that the mechanical energy of different direction can be converted to unidirectional mechanical energy, gear drive (not drawing in figure) and generating axle (not drawing in figure); Frame linking B2 one end is fixedly connected with float B1, and the other end connects unidirectional switching mechanism, unidirectional switching mechanism connection teeth wheel drive mechanism, and gear drive connects generating axle; Through unidirectional switching mechanism, can convert the two-way mechanical of the upper and lower unsteady generation of float B1 to unidirectional mechanical energy, through gear drive, to unidirectional mechanical, can carry out speed change again and pass to generating axle generating electricity, so, can realize the two-way energy of adopting that float B1 moves up and down.

Frame linking B2 is arm shape reel cage B2, its unidirectional switching mechanism comprises adopts energy axle B3, forward is arranged on the overrunning clutch B4 adopting on energy axle B3, oppositely being arranged on the overrunning clutch B5 adopting on energy axle B3 (is also two clutches, installing clockwise one for one installs counterclockwise), be arranged on forward and be arranged on the forward gear B 6 on the overrunning clutch B4 adopting on energy axle B3, be arranged on the reverse gear B7 being oppositely arranged on the overrunning clutch B5 adopting on energy axle B3, output gear one B8 being meshed with above-mentioned forward gear B 6, the tumbler gear B9 being meshed with above-mentioned reverse gear B7, output gear two B10 and the output shaft B11 that are meshed with tumbler gear B9, output gear one B8 and output gear two B10 are fixedly mounted on output shaft B11, one end of reel cage B2 is fixedly connected with float B1, the other end is fixedly connected on to be adopted on energy axle B3, output shaft B11 will pass to generating axle by gear drive after mechanical energy speed change, by this structural design, no matter float B1 moves up or moves down, finally pass to the mechanical energy that is same sense of rotation on generating axle, thereby, realize the two-way energy of adopting that float moves up and down.

The installation direction of supposing overrunning clutch B4 and B5 meets following characteristics: to clutch B4, can drive counterclockwise rotation of forward gear B 6, clockwise direction is idle running, overrunning clutch B5 oppositely installs with respect to overrunning clutch B4, and reverse gear B7 is contrary with forward gear B 6 action directions.When tide rises, the water surface rises, swim in float B1 on the water surface because buoyancy increases the rise that makes progress, the reel cage B2 drive being fixed on float B1 is adopted and can be turned over counterclockwise certain angle by axle B3, positive engagement effect due to overrunning clutch B4, forward gear B 6 also can turn over certain angle by axle B3 counterclockwise with adopting, thereby drives the clockwise direction rotation of output gear one B8 and output shaft B11; Now, be oppositely arranged on and adopt the overrunning clutch B5 on energy axle B3 and adopt energy axle B3 because of forward centrifugation, and dally.In the time of ebb, the water surface declines, the float B1 swimming on the water surface declines with the water surface due to Action of Gravity Field, the reel cage B2 drive being fixed on float B1 is adopted and can be turned over clockwise certain angle by axle B3, reverse engagement due to overrunning clutch B5, reverse gear B5 also can turn over certain angle by axle B3 clockwise with adopting, thereby drives tumbler gear B9 to be rotated counterclockwise certain angle, and tumbler gear B9 drives the clockwise direction rotation of output gear two B10 and output shaft B11; Now, forward is arranged on to be adopted the overrunning clutch B4 on energy axle B3 and adopts energy axle B3 because of oppositely centrifugation, and dallies.Can find out, float is floating or the clockwise direction rotation of falling to all driving output shaft B11.The installation direction of transposing clutch B4 and B5, is also same process, and just output shaft B11 can be towards counterrotating, but its sense of rotation remains unique.Also be, as long as guarantee that overrunning clutch B4 and overrunning clutch B5 are contrary at the installation direction of adopting on energy axle B3, just can guarantee that output shaft B11 tide rises or ebb all towards same direction rotation, then by gear drive, this mechanical energy is passed to generator and can produce electric energy endlessly.

This two-way ocean energy float acquisition mechanism can a plurality ofly be used in combination, and after combination, kinetic energy is delivered on same axle, then drives the generator generating of relatively high power, the gathering of more convenient like this installation and energy, and generating efficiency is higher.

embodiment three: two-way ocean energy float acquisition mechanism, as shown in Figure 5, comprise float C1, frame linking C2, the unidirectional switching mechanism that the mechanical energy of different direction can be converted to unidirectional mechanical energy, gear drive (not drawing in figure) and generating axle (not drawing in figure); Frame linking C2 one end is fixedly connected with float C1, and the other end connects unidirectional switching mechanism, unidirectional switching mechanism connection teeth wheel drive mechanism, and gear drive connects generating axle; Through unidirectional switching mechanism, can convert the two-way mechanical of the upper and lower unsteady generation of float C1 to single direction rotation mechanical energy, through gear drive, single direction rotation mechanical energy is carried out to speed change again and passes to generating axle generating electricity, so, can realize the two-way energy of adopting that float C1 moves up and down.

Wherein, unidirectional switching mechanism comprises tooth bar C3, the gear C 4 being meshed with tooth bar C3, adopt energy axle C5, forward is arranged on the overrunning clutch C6 adopting on energy axle C5, oppositely be arranged on the overrunning clutch C7 adopting on energy axle C5, be arranged on forward and be arranged on the forward gear C 8 on the overrunning clutch C6 adopting on energy axle C5, be arranged on the reverse gear C9 being oppositely arranged on the overrunning clutch C7 adopting on energy axle C5, output gear one C10 being meshed with above-mentioned forward gear C 8, the tumbler gear C11 being meshed with above-mentioned reverse gear C9, output gear two C12 and the output shaft C13 that are meshed with tumbler gear C11, output gear one C10 and output gear two C12 are fixedly mounted on output shaft C13, tooth bar C3 is fixed on frame linking C2, the gear C 4 being meshed with tooth bar C3 is fixedly mounted on to be adopted on energy axle C5, output shaft C13 will pass to generating axle by gear drive after mechanical energy speed change, by this structural design, no matter float C1 moves up or moves down, finally pass to the mechanical energy that is same sense of rotation on generating axle, thereby, realize the two-way energy of adopting that float C1 moves up and down.

The installation direction of supposing overrunning clutch C6 and C7 meets following characteristics: overrunning clutch C6 can drive counterclockwise rotation (from the right side of figure shown in figure) of forward gear C 8, clockwise direction is idle running, and overrunning clutch C7 oppositely installs with respect to overrunning clutch C6.When tide rises, the water surface rises, swim in float C1 on the water surface because buoyancy increases the rise that makes progress, the frame linking C2 being fixed on float C1 moves up together with tooth bar C3, tooth bar C3 drives with its meshed gears C4 and turns over counterclockwise certain angle, due to the positive engagement effect of overrunning clutch C6, forward gear C 8 can turn over certain angle by axle C5 counterclockwise with adopting, thereby drives the clockwise direction rotation of output gear one C10 and output shaft C13; Now, be oppositely arranged on and adopt the overrunning clutch C7 on energy axle C5 and adopt energy axle C5 because of forward centrifugation, and dally.In the time of ebb, the water surface declines, the float C1 swimming on the water surface declines with the water surface due to Action of Gravity Field, the frame linking C2 being fixed on float C1 moves down together with tooth bar C3, tooth bar C3 drives with its meshed gears C4 and turns over clockwise certain angle, reverse engagement due to overrunning clutch C7, reverse gear C9 can turn over certain angle by axle C5 clockwise with adopting, thereby drive tumbler gear C11 to be rotated counterclockwise certain angle, tumbler gear C11 drives output gear two C12 and the rotation of output shaft C13 clockwise direction; Now, forward is arranged on to be adopted the overrunning clutch C6 on energy axle C5 and adopts energy axle C5 because of oppositely centrifugation, and dallies.Can find out, float is floating or the clockwise direction rotation of falling to all driving output shaft C13.The installation direction of transposing clutch C6 and C7, is also same process, and just output shaft C13 can be towards counterrotating, but its sense of rotation remains unique.Also be, as long as guarantee that overrunning clutch C6 and overrunning clutch C7 are contrary at the installation direction of adopting on energy axle C5, just can guarantee that output shaft C13 tide rises or ebb all towards same direction rotation, then by gear drive, this mechanical energy is passed to generator and can produce electric energy endlessly.

This two-way ocean energy float acquisition mechanism can a plurality ofly be used in combination, and as shown in Figure 6, after combination, kinetic energy is delivered on same axle, then drives the generator generating of relatively high power, the gathering of more convenient like this installation and energy, and generating efficiency is higher.

Above embodiment is preferred embodiment of the present invention, used for illustrative purposes only, but not limitation of the present invention, person skilled in the relevant technique, without departing from the spirit and scope of the present invention, can also make various conversion or variation.Therefore, all technological schemes that are equal to also should belong to category of the present invention.

Claims

1. two-way ocean energy float acquisition mechanism, is characterized in that: comprise float, frame linking, (mechanical energy of different rotary direction can be converted to the mechanical energy of same sense of rotation) unidirectional switching mechanism, gear drive and generating axle; Frame linking one end is fixedly connected with float, and the other end connects unidirectional switching mechanism, unidirectional switching mechanism connection teeth wheel drive mechanism, and gear drive connects generating axle.

2. two-way ocean energy float acquisition mechanism according to claim 1, is characterized in that: described frame linking is arm shape reel cage; Described unidirectional switching mechanism comprise adopt can axle, directly push away double-acting ratchet mechanism and jack shaft; One end of reel cage is fixedly connected with float, the other end is fixedly connected on to be adopted on energy axle, adopt and can on axle, the two ratchet parts that directly push away double-acting ratchet mechanism be housed, the ratchet portions that directly pushes away double-acting ratchet mechanism is arranged on jack shaft, and jack shaft will pass to generating axle by gear drive after mechanical energy speed change.

3. two-way ocean energy float acquisition mechanism according to claim 2, is characterized in that: the described double-acting ratchet mechanism that directly pushes away arranges one, utilizes the unidirectional drive feature that directly pushes away double-acting ratchet mechanism, realizes the two-way energy of adopting that float moves up and down.

4. two-way ocean energy float acquisition mechanism according to claim 2, is characterized in that: the described double-acting ratchet mechanism that directly pushes away arranges a plurality ofly, utilizes the unidirectional drive feature that directly pushes away double-acting ratchet mechanism, realizes the two-way energy of adopting that float moves up and down.

5. two-way ocean energy float acquisition mechanism according to claim 1, is characterized in that: described frame linking is arm shape reel cage, described unidirectional switching mechanism comprises adopts energy axle, forward is arranged on the overrunning clutch of adopting on energy axle, oppositely be arranged on the overrunning clutch of adopting on energy axle, be arranged on forward and be arranged on the forward gear on the overrunning clutch of adopting on energy axle, be arranged on the reverse gear being oppositely arranged on the overrunning clutch of adopting on energy axle, the output gear one being meshed with above-mentioned forward gear, the tumbler gear being meshed with above-mentioned reverse gear, the output gear two and the output shaft that are meshed with tumbler gear, output gear one is all fixedly mounted on output shaft with output gear two, one end of reel cage is fixedly connected with float, the other end is fixedly connected on to be adopted on energy axle, output shaft is by gear drive by passing to generating axle after mechanical energy speed change, and by this structural design, no matter float moves up or moves down, and finally passes to the mechanical energy that is same sense of rotation on generating axle.

6. two-way ocean energy float acquisition mechanism according to claim 1, it is characterized in that: described unidirectional switching mechanism comprises tooth bar, the gear being meshed with tooth bar, adopt energy axle, forward is arranged on the overrunning clutch of adopting on energy axle, oppositely be arranged on the overrunning clutch of adopting on energy axle, be arranged on forward and be arranged on the forward gear on the overrunning clutch of adopting on energy axle, be arranged on the reverse gear being oppositely arranged on the overrunning clutch of adopting on energy axle, the output gear one being meshed with above-mentioned forward gear, the tumbler gear being meshed with above-mentioned reverse gear, the output gear two and the output shaft that are meshed with tumbler gear, output gear one is all fixedly mounted on output shaft with output gear two, tooth bar is fixed on frame linking, the gear being meshed with tooth bar is fixedly mounted on to be adopted on energy axle, output shaft will pass to generating axle by gear drive after mechanical energy speed change, by this structural design, no matter float moves up or moves down, finally pass to the mechanical energy that is same sense of rotation on generating axle.