CN107435613A

CN107435613A - Water wave electricity energy harvester

Info

Publication number: CN107435613A
Application number: CN201610361502.6A
Authority: CN
Inventors: 王桂林; 董万章
Original assignee: Individual
Current assignee: Individual
Priority date: 2016-05-26
Filing date: 2016-05-26
Publication date: 2017-12-05
Anticipated expiration: 2036-05-26
Also published as: CN107435613B

Abstract

A kind of water wave electricity energy harvester of the present invention, the floating platform floated on including several on the water surface, the floating platform is hinged two-by-two, make to relatively rotate around articulated position between the floating platform, also include moving connecting mechanism and the energy transfer mechanism being connected with the moving connecting mechanism, the moving connecting mechanism includes first assembly and the second component, the second floating platform that the first assembly is fixedly installed on the first floating platform and direction is hinged with first floating platform, second component is fixedly installed on second floating platform, it is flexibly connected between the first assembly and second component.The advantage of the invention is that：To prevent that water wave is excessive so that first assembly and the second component disengage after again engagement it is inaccurate, be provided with the first synchronizer for engaging its normotopia or when the second synchronizer makes it engage again, it is more accurate or easily.

Description

Water wave electricity energy harvester

Technical field

The invention belongs to electricity energy harvester field, and in particular to a kind of water wave electricity energy harvester.

Background technology

Existing water wave electricity energy harvester, realize that water wave can gather by water wave driving device, its device knot Structure is complicated, and water wave energy collecting efficiency is low, and under big water wave, device is easily damaged, transmission device engagement After position connection disengages with water wave, engagement is difficult again, needs repeatedly engagement or collision to complete often, It is inconvenient.

The content of the invention

It is an object of the invention to provide a kind of water simple in construction, the low and anti-big water wave of water wave energy collecting efficiency Unrestrained energy harvester.

A kind of water wave electricity energy harvester of the present invention, including several floating platforms for floating on the water surface, it is described floating Platform is hinged two-by-two, makes to relatively rotate around articulated position between the floating platform, in addition to moving connecting mechanism The energy transfer mechanism being connected with the moving connecting mechanism, the moving connecting mechanism include first assembly With the second component, the first assembly be fixedly installed on the first floating platform and towards with first floating platform be hinged Second floating platform, second component are fixedly installed on second floating platform, the first assembly and described second It is flexibly connected between component.

Preferably, the moving connecting mechanism is transmission mechanism；The transmission mechanism be gear drive, Slip gear or hydraulic gear.

Preferably, the gear drive includes the first assembly and second component, and described first Component includes swing rod and first gear, and first floating platform is fixed in described swing rod one end, and the swing rod is another End is movably set with the first gear, and the first gear can rotate around first gear rotating shaft, and described first Rotary gear shaft axially intersects with the swing rod；Second component includes being fixedly installed on second floating platform Rack, the first gear and the rack engaged transmission.

Preferably, the gear drive also includes the first synchronizer, and first synchronizer includes first Guide post group and first support arm, first guide post group is fixedly installed on the first gear side, described First support arm is fixedly installed on the rack extension side, when first guide post group is against described first After arm, first guide post group drives the first gear to turn to the position that can be meshed just with the rack Put, then, the first gear engages with rack normotopia.

Preferably, the gear drive also includes the second synchronizer, and second synchronizer includes first Dead turn and the first brake pad, the first tire are fixedly installed on the first gear side, and described first Brake pad is fixedly installed on the rack extension side, after the first tire is against first brake pad, The first tire drives the first gear to turn to the position that can be meshed just with the rack, then, The first gear easily engages with the rack.

Preferably, the gear drive includes the first assembly and second component, and described first Component includes being installed in sector gear on first floating platform, and second component includes being installed in described the The second gear of the support and pivot joint of two floating platforms on the bracket, the second gear can be around second gear axle Rotation, the sector gear and the second gear engaged transmission.

Preferably, the gear drive also includes the 3rd synchronizer, and the 3rd synchronizer includes second Guide post group and second support arm, second guide post group is fixedly installed on the second gear side, described Second support arm is fixedly installed on the sector teeth extension side, when second guide post group is against institute After stating second support arm, second guide post group drive the second gear turn to can just with the sector Gear is meshed position, and then, the second gear engages with the sector gear normotopia.

Preferably, the gear drive also includes the 4th synchronizer, and the 4th synchronizer includes second Dead turn and the second brake pad, second dead turn are fixedly installed on the second gear side, and described Two brake pads are fixedly installed on the sector teeth extension side, when second dead turn is against described After second brake pad, second dead turn drive the second gear turn to can just with the sector The position that is meshed is taken turns, then, the second gear easily engages with the sector gear.

Preferably, the slip gear includes the first assembly and second component, and described first Component includes swing rod and the first circle wheel, and first floating platform is fixed in described swing rod one end, and the swing rod is another End is movably set with described first and justifies wheel, and the first circle wheel can rotate around the first circle wheel rotating shaft, and described first Circle wheel rotating shaft axially intersects with the swing rod；Second component includes the arc being arranged on second floating platform Shape block, the first circle wheel surface and/or the arc block concave surface are provided with friction material, the first circle wheel and The second circle wheel transmission coordinates.

Preferably, the slip gear includes the first assembly and second component, and described first Component includes secter pat, and the secter pat is fixed on first floating platform；Second component includes being arranged at The second circle wheel on second floating platform, the second circle wheel can be fan-shaped around the described second circle wheel rotating shaft rotation Block covering of the fan and/or the second circle wheel surface are provided with friction material, and the secter pat covering of the fan is taken turns with the described second circle Transmission coordinates.

The advantage of the invention is that：

1) several floating platforms are floated on the water surface, are constantly changed by the difference in height between adjacent floating platform, band Dynamic moving connecting mechanism motion, moving connecting mechanism drive the energy transfer mechanism being attached thereto to generate electricity again, by A floating platform is fixed in the first assembly of moving connecting mechanism, the second component is fixed on another adjacent floating platform, and two It is flexibly connected between person, therefore under big water wave, the power between first assembly and the second component is also not too large, Moving connecting mechanism will not be damaged, while water wave energy collecting efficiency is high, simple in construction.

2) moving connecting mechanism is the first gear drive, when several floating platforms fluctuate, is fixed on The swing rod of first floating platform drives first gear to be rolled on the rack of the second floating platform, and first gear drives phase therewith The generating set of connection generates electricity, and generating efficiency is high.

3) moving connecting mechanism is second of gear drive, when several floating platforms fluctuate, is fixed on The sector gear of first floating platform and second gear engaged transmission, with the swing of sector gear, second gear rotates, Second gear drives connected generating set to generate electricity, and generating efficiency is high.

4) it is to prevent that water wave is excessive so that first gear engages inaccuracy again after being disengaged with rack, if The first synchronizer or the second synchronizer for engaging its normotopia are equipped with, the first synchronizer operation principle is, when the For one guide post group against after first support arm, the first guide post group drives first gear to turn to can just and rack Be meshed position, and the second synchronizer operation principle is, after the first dead turn is against the first brake pad, first Dead turn, which drives first gear to rotate, makes it be easily meshed with rack so that transmission device is hardly damaged.

5) moving connecting mechanism is the first slip gear, when several floating platforms fluctuate, is fixed on The swing rod of first floating platform drives the first circle wheel with being fixed on the second circle wheel frictional drive of the second floating platform, with first Circle wheel rotates, and the first circle wheel drives connected generating set to generate electricity, simple in construction.

6) moving connecting mechanism is second of slip gear, when several floating platforms fluctuate, is fixed on The 3rd circle wheel frictional drive on the secter pat of first floating platform and the second floating platform, with the swing of secter pat, drives 3rd circle wheel rotates, and the 3rd circle wheel drives connected generating set to generate electricity, simple in construction.

Brief description of the drawings

Technical scheme in order to illustrate the embodiments of the present invention more clearly, below will be to required in embodiment The accompanying drawing used is briefly described, it should be apparent that, drawings in the following description are some of the present invention Embodiment, for those of ordinary skill in the art, on the premise of not paying creative work, may be used also To obtain other accompanying drawings according to these accompanying drawings.

Fig. 1 is the first water wave electricity energy harvester structural representation.

Fig. 2 is the enlarged drawing of A in Fig. 1.

Fig. 3 is the enlarged drawing of B in Fig. 1.

Fig. 4 is floating platform structural representation.

Fig. 5 is swing rod, first gear and the first guide post group combining structure schematic diagram.

Fig. 6 is second of water wave electricity energy harvester structural representation.

Fig. 7 is the third water wave electricity energy harvester structural representation.

Fig. 8 is the 4th kind of water wave electricity energy harvester structural representation.

Fig. 9 is sector gear structural representation.

Figure 10 is the second guide post group and second gear combining structure schematic diagram.

Figure 11 is the 5th kind of water wave electricity energy harvester structural representation.

Figure 12 is the 6th kind of water wave electricity energy harvester structural representation.

Embodiment

In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with accompanying drawing and reality Example is applied, the present invention will be described in further detail.It should be appreciated that specific embodiment described herein is only To explain the present invention, it is not intended to limit the present invention.

It should be noted that when element is referred to as " being fixed on " or " being arranged at " another element, it can be straight It is connected on another element or may be simultaneously present centering elements.When an element is known as " being connected to " Another element, it can be directly to another element or may be simultaneously present centering elements.

It should also be noted that, the orientation term such as left and right, upper and lower in the embodiment of the present invention, is only mutual It is relative concept or using the normal operating condition of product as reference, and should not be regarded as restrictive 's.

The embodiment of the present invention one, as shown in Figures 1 to 5, a kind of water wave electricity energy harvester, including it is some The individual floating platform 100 floated on the water surface, floating platform 100 are hinged two-by-two, and making can be around be hinged between floating platform 100 Position relatively rotates, and swing rod 201 is fixedly installed on a floating platform 100 and towards adjacent floating platform 100, swing rod 201 are movably set with first gear 202 towards the adjacent end of floating platform 100, and first gear 202 can be around the first tooth Take turns rotating shaft rotation, first gear rotating shaft with swing rod 201 is axially vertical intersects；Fixation is set on adjacent floating platform 100 Arc-shaped rack 301 is equipped with, first gear 202 engages with rack 301.The side of first gear 202 is fixed The first guide post group 203 is provided with, is consolidated positioned at the extension side of rack 301 of the place floating platform 100 of rack 301 Surely first support arm 302 is provided with, the first guide post group 203 intersects vertically with first support arm 302, and first leads There is one group of bar to bar group 203, between any two bars with the distance of the intersection of first support arm 302 and The extension bar size of one support arm 302 is close, when several floating platforms 100 fluctuate, the first guide post group 203 to against first support arm 302, rear first support arm 302 away from first support arm 302 by being sandwiched in the first guiding Between two bars of bar group 203, with the position of first gear 202 is corrected to can just with rack 301 Be meshed position, and then, first gear 202 engages with the normotopia of rack 301, and first gear 202 is with generating electricity Unit is connected, and drives generating set to generate electricity.

The embodiment of the present invention two, unlike embodiment one, the fixed setting of the side of first gear 202 is First tire (the first dead turn), what the extension side of arc-shaped rack 301 was symmetrically fixedly installed is a bit of First brake pad, after first tire is against first brake pad, first tire drives first gear 202 The position that can be meshed just with arc-shaped rack 301 is turned to, then, first tire takes off with the first brake pad Open, first gear 202 engages with the normotopia of arc-shaped rack 301.

The embodiment of the present invention three, as shown in fig. 6, unlike embodiment one, between two floating platforms 100 Be hinged, side is be hinged by first axle 401, and swing rod 201 is fixed on the second axle 402, and the second axle 402 is solid Due to the internal support of floating platform 100 and the side of floating platform 100.

The embodiment of the present invention four, as shown in fig. 7, unlike embodiment one, between two floating platforms 100 Be hinged, side is be hinged by first axle 401, and opposite side is be hinged by the second axle 402, and swing rod 201 passes through 3rd axle 403 is fixed on the internal support of floating platform 100.

The embodiment of the present invention five, as shown in Fig. 8 to Figure 10, unlike embodiment one, including it is some The individual floating platform 100 floated on the water surface, floating platform 100 are hinged two-by-two, and making can be around be hinged between floating platform 100 Position relatively rotates, and sector gear 205 is fixedly installed on a floating platform 100 and towards adjacent floating platform 100； Support 304 is installed with another floating platform 100, second gear 303 is articulated on support 304, second gear 303 can rotate around second gear rotating shaft, sector gear 205 and the engaged transmission of second gear 303.Second tooth Take turns 303 sides and be fixedly installed the second guide post group 305, consolidate positioned at the tooth extension side of sector gear 205 Surely second support arm 206 is provided with, the second guide post group 305 intersects vertically with second support arm 206, and second leads There is one group of bar to bar group 305, between any two bars with the distance of the intersection of second support arm 206 and The extension bar size of two support arms 206 is close, when several floating platforms 100 fluctuate, the second guide post group 305 to against second support arm 206, rear second support arm 206 away from second support arm 206 by being sandwiched in the second guiding Between two bars of bar group 305, so that the position of second gear 303 is corrected to can just and sector gear 205 are meshed position, and then, second gear 303 engages with the normotopia of sector gear 205, second gear 303 It is connected with generating set, drives generating set to generate electricity.

The embodiment of the present invention six, as shown in figure 11, a kind of water wave electricity energy harvester, including several drifts Floating platform 100 on bubbling through the water column, floating platform 100 are hinged two-by-two, and making can be around articulated position between floating platform 100 Relatively rotate, a floating platform 100 is fixed in the one end of swing rod 201, and the other end of swing rod 201 is movably set with the 3rd Tire 208 (the first circle wheel outside is provided with tire), third round tire 208 can rotate around the rotating shaft of third round tire, The rotating shaft of third round tire 208 and swing rod are axially vertical；Arc block 307, arc block 307 are provided with second floating platform Concave surface is provided with friction material, frictional drive between third round tire 208 and arc block 307, the first circle wheel 208 Friction is formed between arc block 307 to be set simultaneously on both, or only sets one.

The embodiment of the present invention seven, as shown in figure 12, a kind of water wave electricity energy harvester, including several drifts Floating platform 100 on bubbling through the water column, floating platform 100 are hinged two-by-two, and making can be around articulated position between floating platform 100 Relatively rotating, secter pat 207 is fixed on a floating platform 100, and the covering of the fan of secter pat 207 is provided with friction material, the The second tire (the second circle wheel appearance is provided with tire) 306 is provided with two floating platforms, the second tire can be around the 3rd Tire rotating shaft rotates, frictional drive between the tire 306 of secter pat 207 and second, secter pat 207 and second Friction is formed between tire 306 to be set simultaneously on both, or only sets one.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all in this hair Any modification, equivalent substitution or improvement made within bright spirit and principle etc., should be included in the present invention Protection domain within.

Claims

1. a kind of water wave electricity energy harvester, including several floating platforms for floating on the water surface, the floating platform two Two is be hinged, makes to relatively rotate around articulated position between the floating platform, it is characterised in that：Also include activity Bindiny mechanism and the energy transfer mechanism being connected with the moving connecting mechanism, the moving connecting mechanism include First assembly and the second component, the first assembly are fixedly installed on the first floating platform and floated towards with described first The second floating platform that table-hinges connects, second component are fixedly installed on second floating platform, the first assembly with It is flexibly connected between second component.

2. water wave electricity energy harvester according to claim 1, it is characterised in that：The flexible connection Mechanism is transmission mechanism；The transmission mechanism is gear drive, slip gear or hydraulic drive motor Structure.

3. water wave electricity energy harvester according to claim 2, it is characterised in that：The gear drive Mechanism includes the first assembly and second component, and the first assembly includes swing rod and first gear, First floating platform is fixed in described swing rod one end, and the swing rod other end is movably set with the first gear, The first gear can rotate around first gear rotating shaft, and the first gear rotating shaft axially intersects with the swing rod； Second component includes the rack being fixedly installed on second floating platform, the first gear and the tooth Bar engaged transmission.

4. water wave electricity energy harvester according to claim 3, it is characterised in that：The gear drive Mechanism also includes the first synchronizer, and first synchronizer includes the first guide post group and first support arm, described First guide post group is fixedly installed on the first gear side, and the first support arm is fixedly installed on the tooth Bar extension side, after first guide post group is against the first support arm, the first guide post group band Move the first gear turn to the position that can be meshed just with the rack, then, the first gear with Rack normotopia engages.

5. water wave electricity energy harvester according to claim 3, it is characterised in that：The gear drive Mechanism also includes the second synchronizer, and second synchronizer includes the first dead turn and the first brake pad, described First tire is fixedly installed on the first gear side, and first brake pad is fixedly installed on the rack Extension side, after the first tire is against first brake pad, the first tire drives described the One pinion rotation can extremely be meshed position with the rack just, then, the first gear and the rack Easily engagement.

6. the water wave electricity energy harvester stated according to claim 2, it is characterised in that：The gear drive machine Structure includes the first assembly and second component, and the first assembly includes being installed in first floating platform On sector gear, second component include be installed in second floating platform support and be articulated in the branch Second gear on frame, the second gear can rotate around second gear axle, the sector gear and described the Two meshed transmission gears.

7. water wave electricity energy harvester according to claim 6, it is characterised in that：The gear drive Mechanism also includes the 3rd synchronizer, and the 3rd synchronizer includes the second guide post group and second support arm, described Second guide post group is fixedly installed on the second gear side, and the second support arm is fixedly installed on the fan The tooth extension side of shape gear, after second guide post group is against the second support arm, described second leads The second gear is driven to turn to can be meshed just with the sector gear position, then, institute to bar group Second gear is stated to engage with the sector gear normotopia.

8. water wave electricity energy harvester according to claim 6, it is characterised in that：The gear drive Mechanism also includes the 4th synchronizer, and the 4th synchronizer includes the second dead turn and the second brake pad, described Second dead turn is fixedly installed on the second gear side, and second brake pad is fixedly installed on the fan The tooth extension side of shape gear, after second dead turn is against second brake pad, described second rubs Wiping circle drives the second gear to turn to the position that can be meshed just with the sector gear, then, described Second gear easily engages with the sector gear.

9. water wave electricity energy harvester according to claim 2, it is characterised in that：The frictional drive Mechanism includes the first assembly and second component, and the first assembly includes swing rod and the first circle wheel, First floating platform is fixed in described swing rod one end, and the swing rod other end is movably set with the first circle wheel, The first circle wheel can axially intersect around the first circle wheel rotating shaft rotation, the first circle wheel rotating shaft with the swing rod； Second component includes the arc block being arranged on second floating platform, the first circle wheel surface and/or institute State arc block concave surface and be provided with friction material, the first circle wheel coordinates with the described second circle wheel transmission.

10. water wave electricity energy harvester according to claim 2, it is characterised in that：The frictional drive Mechanism includes the first assembly and second component, and the first assembly includes secter pat, the sector Block is fixed on first floating platform；Second component includes the second circle wheel being arranged on second floating platform, The second circle wheel can be around the described second circle wheel rotating shaft rotation, secter pat covering of the fan and/or the second circle wheel surface Provided with friction material, the secter pat covering of the fan coordinates with the described second circle wheel transmission.