CN104675614A - Pure-mechanical float combined type wave energy collecting and transmitting device and float pure-mechanical power generation system formed there-from - Google Patents
Pure-mechanical float combined type wave energy collecting and transmitting device and float pure-mechanical power generation system formed there-from Download PDFInfo
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- CN104675614A CN104675614A CN201510100738.XA CN201510100738A CN104675614A CN 104675614 A CN104675614 A CN 104675614A CN 201510100738 A CN201510100738 A CN 201510100738A CN 104675614 A CN104675614 A CN 104675614A
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- multidiameter shaft
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- shaft
- ratchet
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/30—Energy from the sea, e.g. using wave energy or salinity gradient
Abstract
The invention relates to a pure-mechanical float combined type wave energy collecting and transmitting device and a float pure-mechanical power generation system formed there-from, and belongs to the technical field of wave power generation. The energy generated by up and down float of waves is concentrated by a plurality of ratchet structures, and the energy is output stably with a spring as a buffer element. The device and system provided by the invention have the following beneficial effects that 20% of equipment energy consumption is reduced due to the fact that a large hydraulic system and a pressure stabilizing system are not required; the equipment body is arranged on the position of 4-5m high from the water surface, a protective cover can be arranged, the big wave is considered, the cost is low, the device and system are not likely to be corroded and are easy to maintain; with the pure-mechanical float type, the device and system can be mounted and used with right waves; with the spring as the energy buffer element, the energy can be output stably.
Description
Technical field
The present invention relates to wave-activated power generation technical field, relate to the cursory pure mechanical power generation system of a kind of pure machinery floating combined type wave energy collection conveying means and composition thereof specifically.
Background technique
Mostly existing wave-type electric generator is to adopt large-scale hydraulic system as energy collecting device, and hydraulic system needs to set up corresponding basis instrument at the bottom, and equipment energy consumption is high, and construction cost is high; The energy that hydraulic system is collected is very unstable, time large time little, need to be equipped with electronic regulation system and carry out stable energy and export, generating efficiency is low; Existing wave energy collection device is placed in underwater operation more, and be easily corroded, maintenance difficulty is large.It is the acomia business-like bottleneck place of wave-activated power generation.
The present invention adopts the buffer element of spring energy, and do not have large-scale hydraulic system and complicated electronics, equipment energy consumption is low, not fragile, and easy care, is not afraid of billow.Pure mechanical secondary conversion power generation, solve existing wave energy collection device energy absorbing efficiency low, equipment energy consumption is high, fragile, the problem that difficult maintenance cost is high.
Summary of the invention
The technical problem to be solved in the present invention is high for existing wave energy collection device cost of electricity-generating, maintenance difficulties is large, electric energy exports jiggly problem, a kind of pure machinery, combined type are proposed, cost is low, the pure machinery floating combined type wave energy collection conveying means of easy care, output energy stabilization, recycles pure machinery floating combined type wave energy collection conveying means and is combined into a kind of cursory pure mechanical power generation system.
The cursory pure mechanical power generation system of a kind of pure machinery of the present invention floating combined type wave energy collection conveying means and composition thereof completes by following technical solution: pure machinery floating combined type wave energy collection conveying means is by support (1), short multidiameter shaft driving gear (2), short multidiameter shaft spring fixed base (3), long multidiameter shaft driving gear (4), long multidiameter shaft spring fixed base (5), long multidiameter shaft ratchet wheel (6), long multidiameter shaft ratchet (7), long multidiameter shaft bearing support (8), long multidiameter shaft (9), bevel gear (10), arm shaft bearing support (11), arm shaft (12), arm shaft gear (13), float (14), swing arm (15), ratchet position-limited lever (16), short multidiameter shaft (17), short multidiameter shaft bearing support (18), short multidiameter shaft ratchet (19), short multidiameter shaft ratchet wheel (20), short multidiameter shaft spring (21), long multidiameter shaft spring (22), short multidiameter shaft spring mobile base (23), long multidiameter shaft spring mobile base (24), short multidiameter shaft axle sleeve (25), long multidiameter shaft axle sleeve (26) composition, wherein, long multidiameter shaft bearing support (8), arm shaft bearing support (11), short multidiameter shaft bearing support (18) are arranged on support (1) by bolt, arm shaft (12) is arranged on arm shaft bearing support (11) by bearing, swing arm (15) is fixed on arm shaft (12), float (14) is fixed in swing arm (14), and arm shaft gear (13) is fixed on arm shaft (12), short multidiameter shaft (17) is arranged on short multidiameter shaft bearing support (18) by bearing, short multidiameter shaft driving gear (2) is fixed on short multidiameter shaft (17), short multidiameter shaft spring fixed base (3) is fixed on short multidiameter shaft, short multidiameter shaft axle sleeve (25) is arranged on short multidiameter shaft (17), short multidiameter shaft ratchet (19) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft ratchet wheel (20) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft spring mobile base (23) is fixed on short multidiameter shaft axle sleeve (25), the two ends of short multidiameter shaft spring (21) are separately fixed on short multidiameter shaft spring mobile base (23) and short multidiameter shaft spring fixed base (3), long multidiameter shaft (9) is arranged on long multidiameter shaft bearing support (8) by bearing, long multidiameter shaft driving gear (4) is fixed on long multidiameter shaft (9), long multidiameter shaft spring fixed base (5) is fixed on long multidiameter shaft (9), long multidiameter shaft axle sleeve (26) is arranged on long multidiameter shaft (9), long multidiameter shaft ratchet wheel (6) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft ratchet (7) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft spring mobile base (24) is fixed on long multidiameter shaft axle sleeve (26), the two ends of long multidiameter shaft spring (22) are separately fixed on long multidiameter shaft spring fixed base (5) and long multidiameter shaft spring mobile base (24), short multidiameter shaft driving gear (2) is matched with long multidiameter shaft driving gear (4), and arm shaft gear (13) matches with long multidiameter shaft ratchet wheel (6), and arm shaft gear (13) and short multidiameter shaft ratchet wheel (20) are to coordinating, bevel gear (10) is fixed on long multidiameter shaft (9).
Described long multidiameter shaft ratchet wheel (6) is by long multidiameter shaft ratchet wheel outer shroud (601), long multidiameter shaft ratchet wheel inner ring (602), long multidiameter shaft ratchet wheel ratchet (603), long multidiameter shaft ratchet wheel spring sheet (604) composition, described long multidiameter shaft ratchet (7) is by long multidiameter shaft ratchet outer shroud (701), long multidiameter shaft ratchet inner ring (702), long multidiameter shaft click (703), long multidiameter shaft ratchet spring sheet (704) composition, described short multidiameter shaft ratchet (19) is by short multidiameter shaft ratchet outer shroud (1901), short multidiameter shaft ratchet inner ring (1902), short multidiameter shaft click (1903), short multidiameter shaft ratchet spring sheet (1904) composition, described short multidiameter shaft ratchet wheel (20) is by short multidiameter shaft ratchet wheel outer shroud (2001), short multidiameter shaft ratchet wheel inner ring (2002), short multidiameter shaft ratchet wheel ratchet (2003), short multidiameter shaft ratchet wheel spring sheet (2004) composition.
Described short multidiameter shaft ratchet (19) is identical with the structure of long multidiameter shaft ratchet (7), and short multidiameter shaft ratchet wheel (20) is identical with the structure of long multidiameter shaft ratchet wheel (6); Wherein, short multidiameter shaft ratchet outer shroud (1901) is hinged on short multidiameter shaft ratchet inner ring (1902), short multidiameter shaft click (1903) is hinged on short multidiameter shaft ratchet inner ring (1902), the two ends of short multidiameter shaft ratchet spring sheet (1904) are hinged on short multidiameter shaft click (1903) and are hinged on short multidiameter shaft ratchet inner ring (1902), under the effect of short multidiameter shaft click (1903) and short multidiameter shaft ratchet spring sheet (1904), short multidiameter shaft ratchet outer shroud (1901) can only around short multidiameter shaft ratchet inner ring (1902) one-way rotation; Long multidiameter shaft ratchet outer shroud (2001) is hinged on long multidiameter shaft ratchet inner ring (2002), long multidiameter shaft click (2003) is hinged on long multidiameter shaft ratchet inner ring (2002), the two ends of long multidiameter shaft ratchet spring sheet (2004) are hinged on long multidiameter shaft click (2003) and are hinged on long multidiameter shaft ratchet inner ring (2002), under the effect of long multidiameter shaft click (2003) and long multidiameter shaft ratchet spring sheet (2004), long multidiameter shaft ratchet outer shroud (2001) can only around long multidiameter shaft ratchet inner ring (2002) one-way rotation; Short multidiameter shaft ratchet (19) is identical with the one-way rotation direction of short multidiameter shaft ratchet wheel (20), long multidiameter shaft ratchet (7) is identical with the one-way rotation direction of long multidiameter shaft ratchet wheel (6), and the one-way rotation direction of short multidiameter shaft ratchet wheel (20) and long multidiameter shaft ratchet wheel (6) is contrary.
Described short multidiameter shaft axle sleeve (25) is arranged on short multidiameter shaft (17), long multidiameter shaft axle sleeve (26) is arranged on long multidiameter shaft (9), short multidiameter shaft axle sleeve (25) can rotate around short multidiameter shaft (17), and long multidiameter shaft axle sleeve (26) can rotate around long multidiameter shaft (9), short multidiameter shaft spring mobile base (30) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft spring fixed base (3) is fixed on short multidiameter shaft (17), the two ends of short multidiameter shaft spring (21) are separately fixed on short multidiameter shaft spring mobile base (23) and short multidiameter shaft spring fixed base (3), long multidiameter shaft spring mobile base (24) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft spring fixed base (5) is fixed on long multidiameter shaft (9), the two ends of long multidiameter shaft spring (22) are separately fixed on long multidiameter shaft spring mobile base (24) and long multidiameter shaft spring fixed base (5), short multidiameter shaft axle sleeve (25) can not directly drive short multidiameter shaft (17) to rotate, but successively by short multidiameter shaft spring mobile base (23), short multidiameter shaft spring (21), short multidiameter shaft spring fixed base (3) drives short multidiameter shaft (17) to rotate, long multidiameter shaft axle sleeve (26) can not directly drive long multidiameter shaft (9) to rotate, but successively by driving long multidiameter shaft spring mobile base (24), long multidiameter shaft spring (22), long multidiameter shaft spring fixed base (5) drives long multidiameter shaft (9) to rotate, long multidiameter shaft spring (22) is different with the rotation direction of short multidiameter shaft spring (21).
Described short multidiameter shaft driving gear (2) is arranged on short multidiameter shaft (17) by keyway cooperation, long multidiameter shaft driving gear (4) is arranged on long multidiameter shaft (9), long multidiameter shaft driving gear (4) and short multidiameter shaft driving gear (2) match, and the short multidiameter shaft (17) of separate unit energy collecting device and the Double-directional rotary of long multidiameter shaft (9) are combined together and become one-way rotation.
Cursory pure mechanical power generation system is by wave ballast system, several pure machinery floating combined type wave energy collection conveying means and power facility composition, wherein power facility is made up of long multidiameter shaft generating gear (32), gearbox input gear (33), gearbox (34), gearbox output gear (35), generator gear (36) and generator (37), gearbox (34) and generator (37) are mounted in frame (27) respectively by bolt, long multidiameter shaft generating gear (32) is arranged on long multidiameter shaft (9) by keyway cooperation, gearbox input gear (33) is arranged on the input shaft of gearbox (34) by keyway cooperation, gearbox input gear (33) and long multidiameter shaft generating gear (32) match, gearbox output gear (35) is arranged on the output shaft of gearbox (34) by keyway cooperation, generator gear (36) is arranged on the axle of generator (37) by keyway cooperation, gearbox output gear (35) and generator gear (36) match, wave ballast system is made up of frame (27), keg float (28), counterweight chain (29), counterweight (30), wherein keg float (28) is arranged in frame, and one end of counterweight chain (29) is arranged on keg float (28), and the other end of counterweight chain and counterweight (30) link together.
The present invention adopts conventional anti-corrosion material to be made.
A kind of pure machinery of the present invention floating combined type wave energy collection conveying means compared with prior art has following beneficial effect:
1, collection of energy conveying means does not have large-scale hydraulic equipment and electronics, and cost of electricity-generating is low.
2, adopt spring as being energy element, output energy that can be stable.
3, energy gathering devices works on the water, reduces the speed be corroded, reduces maintenance difficulty.
4, this equipment only has keg float and float in water, and other parts are 4-5 rice on the water surface all, and major part has protective housing.
Accompanying drawing explanation
Fig. 1 is the schematic perspective view one of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 2 is the schematic perspective view two of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 3 is the schematic perspective view three of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 4 is that schematic diagram is looked on a left side for the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 5 is that schematic diagram is looked on the right side of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 6 is the A position cross-sectional schematic of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 7 is the B position enlarged diagram of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 8 is the front-view schematic diagram of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Fig. 9 is the K position enlarged diagram of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Figure 10 is the E position cross-sectional schematic of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Figure 11 is the C position enlarged diagram of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Figure 12 is the F position cross-sectional schematic of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Figure 13 is the D position enlarged diagram of the pure machinery of the present invention floating combined type wave energy collection conveying means structure.
Figure 14 is the schematic perspective view of the long multidiameter shaft ratchet wheel of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 15 is the front-view schematic diagram of the long multidiameter shaft ratchet wheel of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 16 is the cross-sectional schematic of the long multidiameter shaft ratchet wheel of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 17 is the G position cross-sectional schematic of the long multidiameter shaft ratchet wheel of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 18 is the schematic perspective view of the long multidiameter shaft ratchet of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 19 is the front-view schematic diagram of the long multidiameter shaft ratchet of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 20 is the cross-sectional schematic of the long multidiameter shaft ratchet of the pure machinery of the present invention floating combined type wave energy collection conveying means.
Figure 21 is that the pure machinery of the present invention floating combined type wave energy collection dress transmits the H position cross-sectional schematic of putting long multidiameter shaft ratchet.
Figure 22 is the schematic perspective view of cursory pure mechanical power generation system structure in the embodiment of the present invention 2.
Figure 23 is the close-up schematic view of the M position of cursory pure mechanical power generation system structure in the embodiment of the present invention 2.
Figure 24 is the side schematic view of cursory pure mechanical power generation system structure in the embodiment of the present invention 2.
Figure 25 is the schematic top plan view of cursory pure mechanical power generation system structure in the embodiment of the present invention 2.
In figure: 1-support, the short multidiameter shaft driving gear of 2-, 3-short multidiameter shaft spring fixed base, the long multidiameter shaft driving gear of 4-, 5-long multidiameter shaft spring fixed base, the long multidiameter shaft ratchet wheel of 6-, the long multidiameter shaft ratchet of 7-, the long multidiameter shaft bearing support of 8-, the long multidiameter shaft of 9-, 10-bevel gear, 11-arm shaft bearing support, 12-arm shaft, 13-arm shaft gear, 14-float, 15-swing arm, 16-ratchet position-limited lever, the short multidiameter shaft of 17-, the short multidiameter shaft bearing support of 18-, the short multidiameter shaft ratchet of 19-, the short multidiameter shaft ratchet wheel of 20-, the short multidiameter shaft spring of 21-, the long multidiameter shaft spring of 22-, 23-short multidiameter shaft spring mobile base, 24-long multidiameter shaft spring mobile base, the short multidiameter shaft axle sleeve of 25-, the long multidiameter shaft axle sleeve of 26-, 27-frame, 28-keg float, 29-counterweight chain, 30-counterweight, 31-coupling, 32-long multidiameter shaft generating gear, 33-gearbox input gear, 34-gearbox, 35-gearbox output gear, 36-generator gear, 37-generator, 38-water,
601-long multidiameter shaft ratchet wheel outer shroud, 602-long multidiameter shaft ratchet wheel inner ring, 603-long multidiameter shaft ratchet wheel ratchet, 604-long multidiameter shaft ratchet wheel spring sheet, 701-long multidiameter shaft ratchet outer shroud, 702-long multidiameter shaft ratchet inner ring, the long multidiameter shaft click of 703-, 704-long multidiameter shaft ratchet spring sheet, 1901-short multidiameter shaft ratchet outer shroud, 1902-short multidiameter shaft ratchet inner ring, the short multidiameter shaft click of 1903-, 1904-short multidiameter shaft ratchet spring sheet, 2001-short multidiameter shaft ratchet wheel outer shroud, 2002-short multidiameter shaft ratchet wheel inner ring, 2003-short multidiameter shaft ratchet wheel ratchet, 2004-short multidiameter shaft ratchet wheel spring sheet,
A-cross-sectional schematic A, B-close-up schematic view B, C-close-up schematic view C, C-close-up schematic view C, D-close-up schematic view D, E-cross-sectional schematic E, F-cross-sectional schematic F, G-cross-sectional schematic G, H-cross-sectional schematic H, K-close-up schematic view K, M-close-up schematic view M.
Embodiment
Below in conjunction with accompanying drawing and working procedure, the cursory pure mechanical power generation system technological scheme to a kind of pure machinery of the present invention floating combined type wave energy collection conveying means and composition thereof is further described.
the single pure machinery of embodiment 1(floating combined type wave energy collection conveying means structure):as shown in Fig. 1-Figure 21, the pure machinery of the present invention floating combined type wave energy collection conveying means is by support 1, short multidiameter shaft driving gear 2, short multidiameter shaft spring fixed base 3, long multidiameter shaft driving gear 4, long multidiameter shaft spring fixed base 5, long multidiameter shaft ratchet wheel 6, long multidiameter shaft ratchet 7, long multidiameter shaft bearing support 8, long multidiameter shaft 9, bevel gear 10, arm shaft bearing support 11, arm shaft 12, arm shaft gear 13, float 14, swing arm 15, ratchet position-limited lever 16, short multidiameter shaft 17, short multidiameter shaft bearing support 18, short multidiameter shaft ratchet 19, short multidiameter shaft ratchet wheel 20, short multidiameter shaft spring 21, long multidiameter shaft spring 22, short multidiameter shaft spring mobile base 23, long multidiameter shaft spring mobile base 24, short multidiameter shaft axle sleeve 25, long multidiameter shaft axle sleeve 26 forms, long multidiameter shaft ratchet wheel 6 is by long multidiameter shaft ratchet wheel outer shroud 601, long multidiameter shaft ratchet wheel inner ring 602, long multidiameter shaft ratchet wheel ratchet 603, long multidiameter shaft ratchet wheel spring sheet 604 forms, long multidiameter shaft ratchet 7 is by long multidiameter shaft ratchet outer shroud 701, long multidiameter shaft ratchet inner ring 702, long multidiameter shaft click 703, long multidiameter shaft ratchet spring sheet 704 forms, short multidiameter shaft ratchet 19 is by short multidiameter shaft ratchet outer shroud 1901, short multidiameter shaft ratchet inner ring 1902, short multidiameter shaft click 1903, short multidiameter shaft ratchet spring sheet 1904 forms, short multidiameter shaft ratchet wheel 20 is by short multidiameter shaft ratchet wheel outer shroud 2001, short multidiameter shaft ratchet wheel inner ring 2002, short multidiameter shaft ratchet wheel ratchet 2003, short multidiameter shaft ratchet wheel spring sheet 2004 forms, wherein, long multidiameter shaft bearing support 8, arm shaft bearing support 11, short multidiameter shaft bearing support 18 are arranged on support 1 by bolt, arm shaft 12 is arranged on arm shaft bearing support 11 by bearing, swing arm 15 is fixed on arm shaft 12, float 14 is fixed in swing arm 14, and arm shaft gear 13 is fixed on arm shaft 12, short multidiameter shaft 17 is arranged on short multidiameter shaft bearing support 18 by bearing, short multidiameter shaft driving gear 2 is fixed on short multidiameter shaft 17, short multidiameter shaft spring fixed base 3 is fixed on short multidiameter shaft, short multidiameter shaft axle sleeve 25 is arranged on short multidiameter shaft 17, short multidiameter shaft ratchet 19 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft ratchet wheel 20 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft spring mobile base 23 is fixed on short multidiameter shaft axle sleeve 25, the two ends of short multidiameter shaft spring 21 are separately fixed on short multidiameter shaft spring mobile base 23 and short multidiameter shaft spring fixed base 3, long multidiameter shaft 9 is arranged on long multidiameter shaft bearing support 8 by bearing, long multidiameter shaft driving gear 4 is fixed on long multidiameter shaft 9, long multidiameter shaft spring fixed base 5 is fixed on long multidiameter shaft 9, long multidiameter shaft axle sleeve 26 is arranged on long multidiameter shaft 9, long multidiameter shaft ratchet wheel 6 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft ratchet 7 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft spring mobile base 24 is fixed on long multidiameter shaft axle sleeve 26, the two ends of long multidiameter shaft spring 22 are separately fixed in long multidiameter shaft spring fixed base 5 and long multidiameter shaft spring mobile base 24, short multidiameter shaft driving gear 2 matches with long multidiameter shaft driving gear 4, and arm shaft gear 13 matches with long multidiameter shaft ratchet wheel 6, and arm shaft gear 13 and short multidiameter shaft ratchet wheel 20 are to coordinating, bevel gear 10 is fixed on long multidiameter shaft 9.
Described short multidiameter shaft ratchet 19 and the structure of long multidiameter shaft ratchet 7 are identical, and the structure of short multidiameter shaft ratchet wheel 20 and long multidiameter shaft ratchet wheel 6 is identical, wherein, short multidiameter shaft ratchet outer shroud 1901 is hinged in short multidiameter shaft ratchet inner ring 1902, short multidiameter shaft click 1903 is hinged in short multidiameter shaft ratchet inner ring 1902, the two ends of short multidiameter shaft ratchet spring sheet 1904 are hinged on short multidiameter shaft click 1903 and are hinged in short multidiameter shaft ratchet inner ring 1902, under the effect of short multidiameter shaft click 1903 and short multidiameter shaft ratchet spring sheet 1904, short multidiameter shaft ratchet outer shroud 1901 can only around short multidiameter shaft ratchet inner ring 1902 one-way rotation, long multidiameter shaft ratchet outer shroud 2001 is hinged in long multidiameter shaft ratchet inner ring 2002, long multidiameter shaft click 2003 is hinged in long multidiameter shaft ratchet inner ring 2002, the two ends of long multidiameter shaft ratchet spring sheet 2004 are hinged on long multidiameter shaft click 2003 and are hinged in long multidiameter shaft ratchet inner ring 2002, under the effect of long multidiameter shaft click 2003 and long multidiameter shaft ratchet spring sheet 2004, long multidiameter shaft ratchet outer shroud 2001 can only around long multidiameter shaft ratchet inner ring 2002 one-way rotation, short multidiameter shaft ratchet 19 is identical with the one-way rotation direction of short multidiameter shaft ratchet wheel 20, and long multidiameter shaft ratchet 7 is identical with the one-way rotation direction of long multidiameter shaft ratchet wheel 6, and the one-way rotation direction of short multidiameter shaft ratchet wheel 20 and long multidiameter shaft ratchet wheel 6 is contrary.
Described short multidiameter shaft axle sleeve 25 is arranged on short multidiameter shaft 17, and long multidiameter shaft axle sleeve 26 is arranged on long multidiameter shaft 9, and short multidiameter shaft axle sleeve 25 can rotate around short multidiameter shaft 17, and long multidiameter shaft axle sleeve 26 can rotate around long multidiameter shaft 9, short multidiameter shaft spring mobile base 30 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft spring fixed base 3 is fixed on short multidiameter shaft 17, the two ends of short multidiameter shaft spring 21 are separately fixed on short multidiameter shaft spring mobile base 23 and short multidiameter shaft spring fixed base 3, long multidiameter shaft spring mobile base 24 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft spring fixed base 5 is fixed on long multidiameter shaft 9, the two ends of long multidiameter shaft spring 22 are separately fixed on long multidiameter shaft spring mobile base 24 and long multidiameter shaft spring fixed base 5, short multidiameter shaft axle sleeve 25 can not directly drive short multidiameter shaft 17 to rotate, but successively by short multidiameter shaft spring mobile base 23, short multidiameter shaft spring 21, short multidiameter shaft spring fixed base 3 drives short multidiameter shaft 17 to rotate, long multidiameter shaft axle sleeve 26 can not directly drive long multidiameter shaft 9 to rotate, but successively by driving long multidiameter shaft spring mobile base 24, long multidiameter shaft spring 22, long multidiameter shaft spring fixed base 5 drives long multidiameter shaft 9 to rotate, long multidiameter shaft spring 22 is left-handed spring, and short multidiameter shaft spring 21 is dextrorotation spring.
Described short multidiameter shaft driving gear 2 is arranged on short multidiameter shaft 17 by keyway cooperation, long multidiameter shaft driving gear 4 is arranged on long multidiameter shaft 9, long multidiameter shaft driving gear 4 and short multidiameter shaft driving gear 2 match, and the short multidiameter shaft 17 of separate unit energy collecting device and the Double-directional rotary of long multidiameter shaft 9 are combined together and become one-way rotation.
Working procedure of the present invention is as follows: be installed to by support 1 on the shelf floated on the surface, now float 14 floats on the surface.
When there being wave stroke to arrive float 14, float 14 floats, float 14 drives swing arm 15 to float, swing arm 15 drives arm shaft 12 to rotate a certain angle, arm shaft 12 drives arm shaft gear 13 to rotate to an angle, arm shaft gear 13 drives long multidiameter shaft ratchet wheel outer shroud 601 and short multidiameter shaft ratchet wheel outer shroud 2001 to rotate a certain angle, due to the single direction rotation effect of long multidiameter shaft ratchet wheel 6 and short multidiameter shaft ratchet wheel 20, when float 14 floats, long multidiameter shaft ratchet wheel inner ring 602 can only be made to rotate, long multidiameter shaft ratchet wheel inner ring 602 drives long multidiameter shaft axle sleeve 26 successively, long multidiameter shaft spring mobile base 24, long multidiameter shaft spring 22, long multidiameter shaft spring fixed base 5, long multidiameter shaft 9, long multidiameter shaft driving gear 4 rotates, at long multidiameter shaft ratchet wheel 6, short multidiameter shaft ratchet 19, under the effect of ratchet position-limited lever 16, long multidiameter shaft spring mobile base 24 can only be rotated along a direction.
When float 14 declines under gravity, float 14 drives swing arm 15 to decline, swing arm 15 drives arm shaft 12 to rotate a certain angle, arm shaft 12 drives arm shaft gear 13 to rotate to an angle, arm shaft gear 13 drives long multidiameter shaft ratchet wheel outer shroud 601 and short multidiameter shaft ratchet wheel outer shroud 2001 to rotate a certain angle, due to the single direction rotation effect of long multidiameter shaft ratchet wheel 6 and short multidiameter shaft ratchet wheel 20, when float 14 declines, short multidiameter shaft ratchet wheel inner ring 2002 can only be made to rotate, short multidiameter shaft ratchet wheel inner ring 2002 drives short multidiameter shaft axle sleeve 25 successively, short multidiameter shaft spring mobile base 23, short multidiameter shaft spring 21, short multidiameter shaft spring fixed base 3, short multidiameter shaft 17, short multidiameter shaft driving gear 2 rotates, at long multidiameter shaft ratchet wheel 6, short multidiameter shaft ratchet 19, under the effect of ratchet position-limited lever 16, short multidiameter shaft spring fixed base 3 can only rotate along a direction.
Short multidiameter shaft driving gear 2 and long multidiameter shaft driving gear 4 match, float 14 is floated with decline time collect energy hybrid together with, because spring has pooling feature, the output energy that the pure machinery of the present invention floating combined type wave energy collection conveying means can be stable.
embodiment 2(is by 18 pure machineriesfloating
combined type wave energy collection conveying means forms the cursory pure mechanical power generation system of two Hexagon circles):as shown in Figure 22-Figure 25, the cursory pure mechanical power generation system of the present invention is by wave ballast system, pure machinery floating combined type wave energy collection conveying means and power facility composition, the shape that each electricity generating device lines up two annulus nested by 18 pure machinery floating combined type wave energy collection conveying meanss is arranged on wave ballast system, wherein contain six pure machinery floating combined type wave energy collection conveying meanss in inner ring, these six pure machinery floating combined type wave energy collection conveying meanss form a generating set, containing 12 pure machinery floating combined type wave energy collection conveying meanss in outer shroud, the floating box-like wave energy collection conveying means of the pure machinery group of every six adjacent outer shrouds forms a generating set, each generating set is furnished with a power facility, wave ballast system is made up of frame 27, keg float 28, counterweight chain 29, counterweight 30, pure machinery floating combined type wave energy collection conveying means is by support 1, short multidiameter shaft driving gear 2, short multidiameter shaft spring fixed base 3, long multidiameter shaft driving gear 4, long multidiameter shaft spring fixed base 5, long multidiameter shaft ratchet wheel 6, long multidiameter shaft ratchet 7, long multidiameter shaft bearing support 8, long multidiameter shaft 9, bevel gear 10, arm shaft bearing support 11, arm shaft 12, arm shaft gear 13, float 14, swing arm 15, ratchet position-limited lever 16, short multidiameter shaft 17, short multidiameter shaft bearing support 18, short multidiameter shaft ratchet 19, short multidiameter shaft ratchet wheel 20, short multidiameter shaft spring 21, long multidiameter shaft spring 22, short multidiameter shaft spring mobile base 23, long multidiameter shaft spring mobile base 24, short multidiameter shaft axle sleeve 25, long multidiameter shaft axle sleeve 26 forms, power facility is made up of generated electricity by long multidiameter shaft gear 32, gearbox input gear 33, gearbox 34, gearbox output gear 35, generator gear 36 and generator 37, wherein, keg float 28 is arranged in frame 27, and one end of counterweight chain 29 is arranged on keg float 28, and the other end and the counterweight 30 of counterweight chain link together, long multidiameter shaft bearing support 8, arm shaft bearing support 11, short multidiameter shaft bearing support 18 are arranged on support 1 by bolt, arm shaft 12 is arranged on arm shaft bearing support 11 by bearing, swing arm 15 is fixed on arm shaft 12, float 14 is fixed in swing arm 15, and arm shaft gear 13 is fixed on arm shaft 12, short multidiameter shaft 17 is arranged on short multidiameter shaft bearing support 18 by bearing, short multidiameter shaft driving gear 2 is fixed on short multidiameter shaft 17, short multidiameter shaft spring fixed base 3 is fixed on short multidiameter shaft, short multidiameter shaft axle sleeve 25 is arranged on short multidiameter shaft 17, short multidiameter shaft ratchet 19 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft ratchet wheel 20 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft spring mobile base 23 is fixed on short multidiameter shaft axle sleeve 25, the two ends of short multidiameter shaft spring 21 are separately fixed on short multidiameter shaft spring mobile base 23 and short multidiameter shaft spring fixed base 3, long multidiameter shaft 9 is arranged on long multidiameter shaft bearing support 8 by bearing, long multidiameter shaft driving gear 4 is fixed on long multidiameter shaft 9, long multidiameter shaft spring fixed base 5 is fixed on long multidiameter shaft 9, long multidiameter shaft axle sleeve 26 is arranged on long multidiameter shaft 9, long multidiameter shaft ratchet wheel 6 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft ratchet 7 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft spring mobile base 24 is fixed on long multidiameter shaft axle sleeve 26, the two ends of long multidiameter shaft spring 22 are separately fixed in long multidiameter shaft spring fixed base 5 and long multidiameter shaft spring mobile base 24, short multidiameter shaft driving gear 2 matches with long multidiameter shaft driving gear 4, and arm shaft gear 13 matches with long multidiameter shaft ratchet wheel 6, and arm shaft gear 13 and short multidiameter shaft ratchet wheel 20 are to coordinating, bevel gear 10 is fixed on long multidiameter shaft 9, long multidiameter shaft bevel gear 10 is arranged on long multidiameter shaft 9 by keyway cooperation, long multidiameter shaft bevel gear 10 on different long multidiameter shaft 9 is matched, the two ends of coupling 31 are connected on two different long multidiameter shafts 9, long multidiameter shaft 9 in same generating set is linked together by coupling 31 and bevel gear 10, does not connect between the long multidiameter shaft 9 of same generating set, gearbox 34 and generator 37 are mounted in frame 27 respectively by bolt, long multidiameter shaft generating gear 32 is arranged on long multidiameter shaft 9 by keyway cooperation, gearbox input gear 33 is arranged on the input shaft of gearbox 34 by keyway cooperation, gearbox input gear 33 and long multidiameter shaft generating gear 32 match, gearbox output gear 35 is arranged on the output shaft of gearbox 34 by keyway cooperation, generator gear 36 is arranged on the axle of generator 37 by keyway cooperation, and gearbox output gear 35 and generator gear 36 match.
Described short multidiameter shaft ratchet 19 and the structure of long multidiameter shaft ratchet 7 are identical, and the structure of short multidiameter shaft ratchet wheel 20 and long multidiameter shaft ratchet wheel 6 is identical, wherein, short multidiameter shaft ratchet outer shroud 1901 is hinged in short multidiameter shaft ratchet inner ring 1902, short multidiameter shaft click 1903 is hinged in short multidiameter shaft ratchet inner ring 1902, the two ends of short multidiameter shaft ratchet spring sheet 1904 are hinged on short multidiameter shaft click 1903 and are hinged in short multidiameter shaft ratchet inner ring 1902, under the effect of short multidiameter shaft click 1903 and short multidiameter shaft ratchet spring sheet 1904, short multidiameter shaft ratchet outer shroud 1901 can only around short multidiameter shaft ratchet inner ring 1902 one-way rotation, long multidiameter shaft ratchet outer shroud 2001 is hinged in long multidiameter shaft ratchet inner ring 2002, long multidiameter shaft click 2003 is hinged in long multidiameter shaft ratchet inner ring 2002, the two ends of long multidiameter shaft ratchet spring sheet 2004 are hinged on long multidiameter shaft click 2003 and are hinged in long multidiameter shaft ratchet inner ring 2002, under the effect of long multidiameter shaft click 2003 and long multidiameter shaft ratchet spring sheet 2004, long multidiameter shaft ratchet outer shroud 2001 can only around long multidiameter shaft ratchet inner ring 2002 one-way rotation, short multidiameter shaft ratchet 19 is identical with the one-way rotation direction of short multidiameter shaft ratchet wheel 20, and long multidiameter shaft ratchet 7 is identical with the one-way rotation direction of long multidiameter shaft ratchet wheel 6, and the one-way rotation direction of short multidiameter shaft ratchet wheel 20 and long multidiameter shaft ratchet wheel 6 is contrary.
Described short multidiameter shaft axle sleeve 25 is arranged on short multidiameter shaft 17, and long multidiameter shaft axle sleeve 26 is arranged on long multidiameter shaft 9, and short multidiameter shaft axle sleeve 25 can rotate around short multidiameter shaft 17, and long multidiameter shaft axle sleeve 26 can rotate around long multidiameter shaft 9, short multidiameter shaft spring mobile base 30 is fixed on short multidiameter shaft axle sleeve 25, short multidiameter shaft spring fixed base 3 is fixed on short multidiameter shaft 17, the two ends of short multidiameter shaft spring 21 are separately fixed on short multidiameter shaft spring mobile base 23 and short multidiameter shaft spring fixed base 3, long multidiameter shaft spring mobile base 24 is fixed on long multidiameter shaft axle sleeve 26, long multidiameter shaft spring fixed base 5 is fixed on long multidiameter shaft 9, the two ends of long multidiameter shaft spring 22 are separately fixed on long multidiameter shaft spring mobile base 24 and long multidiameter shaft spring fixed base 5, short multidiameter shaft axle sleeve 25 can not directly drive short multidiameter shaft 17 to rotate, but successively by short multidiameter shaft spring mobile base 23, short multidiameter shaft spring 21, short multidiameter shaft spring fixed base 3 drives short multidiameter shaft 17 to rotate, long multidiameter shaft axle sleeve 26 can not directly drive long multidiameter shaft 9 to rotate, but successively by driving long multidiameter shaft spring mobile base 24, long multidiameter shaft spring 22, long multidiameter shaft spring fixed base 5 drives long multidiameter shaft 9 to rotate, long multidiameter shaft spring 22 is left-handed spring, and short multidiameter shaft spring 21 is dextrorotation spring.
Described short multidiameter shaft driving gear 2 is arranged on short multidiameter shaft 17 by keyway cooperation, long multidiameter shaft driving gear 4 is arranged on long multidiameter shaft 9, long multidiameter shaft driving gear 4 and short multidiameter shaft driving gear 2 match, and the short multidiameter shaft 17 of separate unit energy collecting device and the Double-directional rotary of long multidiameter shaft 9 are combined together and become one-way rotation.
Described long multidiameter shaft bevel gear 10 is arranged on long multidiameter shaft 9 by keyway cooperation, long multidiameter shaft bevel gear 10 on different long multidiameter shaft 9 is matched, the two ends of coupling 31 are connected on two different long multidiameter shafts 9, coupling 31 and long multidiameter shaft bevel gear 10 are by together with being rotatably assorted of the long multidiameter shaft 9 of the pure mechanical energy combined type wave energy collection conveying means of same group, the energy group of multiple pure machineries floating combined type wave energy collection conveying means is combined, mutual mixing, can send stable electric energy.
Described gearbox 34 and generator 37 are mounted in frame 27 respectively by bolt, long multidiameter shaft generating gear 32 is arranged on long multidiameter shaft 9 by keyway cooperation, gearbox input gear 33 is arranged on the input shaft of gearbox 34 by keyway cooperation, gearbox input gear 33 and long multidiameter shaft generating gear 32 match, gearbox output gear 35 is arranged on the output shaft of gearbox 34 by keyway cooperation, generator gear 36 is arranged on the axle of generator 37 by keyway cooperation, gearbox output gear 35 and generator gear 36 match, pass through energy absorption device, energy all focuses on long multidiameter shaft 9, long multidiameter shaft 9 rotates, drive long multidiameter shaft generating gear 32 successively, gearbox input gear 33, gearbox 34 internal gear, gearbox output gear 35, generator gear 36 rotates, and then drive electrical generators 37 rotates generating.
Working procedure of the present invention is as follows: be put into by electricity generating device on horizontal plane, and as shown in Figure 3, now the major part of keg float 28 is immersed in water 38, and counterweight 30 is immersed in water 38 completely, and float 14 swims in the surface of water.
Because the electricity generating device of the present embodiment is made up of multiple pure machineries floating combined type wave energy collection conveying means, the working procedure of each pure machinery floating combined type wave energy collection conveying means is identical, so be only described the working procedure of a pure machinery floating combined type wave energy collection conveying means, when there being wave stroke to arrive float 14, float 14 floats, float 14 drives swing arm 15 to float, swing arm 15 drives arm shaft 12 to rotate a certain angle, arm shaft 12 drives arm shaft gear 13 to rotate to an angle, arm shaft gear 13 drives long multidiameter shaft ratchet wheel outer shroud 601 and short multidiameter shaft ratchet wheel outer shroud 2001 to rotate a certain angle, due to the single direction rotation effect of long multidiameter shaft ratchet wheel 6 and short multidiameter shaft ratchet wheel 20, when float 14 floats, long multidiameter shaft ratchet wheel inner ring 602 can only be made to rotate, long multidiameter shaft ratchet wheel inner ring 602 drives long multidiameter shaft axle sleeve 26 successively, long multidiameter shaft spring mobile base 24, long multidiameter shaft spring 22, long multidiameter shaft spring fixed base 5, long multidiameter shaft 9, long multidiameter shaft driving gear 4 rotates, at long multidiameter shaft ratchet wheel 6, short multidiameter shaft ratchet 19, under the effect of ratchet position-limited lever 16, long multidiameter shaft spring mobile base 24 can only be rotated along a direction.
When float 14 declines under gravity, float 14 drives swing arm 15 to decline, swing arm 15 drives arm shaft 12 to rotate a certain angle, arm shaft 12 drives arm shaft gear 13 to rotate to an angle, arm shaft gear 13 drives long multidiameter shaft ratchet wheel outer shroud 601 and short multidiameter shaft ratchet wheel outer shroud 2001 to rotate a certain angle, due to the single direction rotation effect of long multidiameter shaft ratchet wheel 6 and short multidiameter shaft ratchet wheel 20, when float 14 declines, short multidiameter shaft ratchet wheel inner ring 2002 can only be made to rotate, short multidiameter shaft ratchet wheel inner ring 2002 drives short multidiameter shaft axle sleeve 25 successively, short multidiameter shaft spring mobile base 23, short multidiameter shaft spring 21, short multidiameter shaft spring fixed base 3, short multidiameter shaft 17, short multidiameter shaft driving gear 2 rotates, at long multidiameter shaft ratchet wheel 6, short multidiameter shaft ratchet 19, under the effect of ratchet position-limited lever 16, short multidiameter shaft spring fixed base 3 can only rotate along a direction.
Short multidiameter shaft driving gear 2 and long multidiameter shaft driving gear 4 match, float 14 is floated with decline time collect energy hybrid together with, due to the long multidiameter shaft bevel gear 10 of the pure machinery of difference floating combined type wave energy collection conveying means and the mating reaction of the coupling 31 of difference pure machinery floating combined type wave energy collection conveying means, the energy hybrid of the pure machinery of the difference in same generating set floating combined type wave energy collection conveying means together.
Long multidiameter shaft 9 drives long multidiameter shaft generating gear 32, gearbox input gear 33, gearbox 34 internal gear, gearbox output gear 35, generator gear 36 to rotate successively, and then drive electrical generators 37 rotates generating.
Embodiment 2 is only a kind of form that the pure machinery of the present invention floating combined type wave energy collection conveying means combinationally uses, and collection of energy conveying means also can form the power generation system of other shapes, such as: in-line, two fonts, rectangular, polygonal; A kind of Placement between the collection of energy conveying means that the coupling 31 connecting long multidiameter shaft 9 is just different with bevel gear 10, the long multidiameter shaft 9 of different-energy collecting conveyor connects by other Placement, such as, chain, spur gear.
Claims (6)
1. a pure machinery floating combined type wave energy collection conveying means, it is characterized in that this energy collecting device is by support (1), short multidiameter shaft driving gear (2), short multidiameter shaft spring fixed base (3), long multidiameter shaft driving gear (4), long multidiameter shaft spring fixed base (5), long multidiameter shaft ratchet wheel (6), long multidiameter shaft ratchet (7), long multidiameter shaft bearing support (8), long multidiameter shaft (9), bevel gear (10), arm shaft bearing support (11), arm shaft (12), arm shaft gear (13), float (14), swing arm (15), ratchet position-limited lever (16), short multidiameter shaft (17), short multidiameter shaft bearing support (18), short multidiameter shaft ratchet (19), short multidiameter shaft ratchet wheel (20), short multidiameter shaft spring (21), long multidiameter shaft spring (22), short multidiameter shaft spring mobile base (23), long multidiameter shaft spring mobile base (24), short multidiameter shaft axle sleeve (25), long multidiameter shaft axle sleeve (26) composition,
Wherein, long multidiameter shaft bearing support (8), arm shaft bearing support (11), short multidiameter shaft bearing support (18) are arranged on support (1) by bolt, arm shaft (12) is arranged on arm shaft bearing support (11) by bearing, swing arm (15) is fixed on arm shaft (12), float (14) is fixed in swing arm (14), and arm shaft gear (13) is fixed on arm shaft (12), short multidiameter shaft (17) is arranged on short multidiameter shaft bearing support (18) by bearing, short multidiameter shaft driving gear (2) is fixed on short multidiameter shaft (17), short multidiameter shaft spring fixed base (3) is fixed on short multidiameter shaft, short multidiameter shaft axle sleeve (25) is arranged on short multidiameter shaft (17), short multidiameter shaft ratchet (19) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft ratchet wheel (20) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft spring mobile base (23) is fixed on short multidiameter shaft axle sleeve (25), the two ends of short multidiameter shaft spring (21) are separately fixed on short multidiameter shaft spring mobile base (23) and short multidiameter shaft spring fixed base (3), long multidiameter shaft (9) is arranged on long multidiameter shaft bearing support (8) by bearing, long multidiameter shaft driving gear (4) is fixed on long multidiameter shaft (9), long multidiameter shaft spring fixed base (5) is fixed on long multidiameter shaft (9), long multidiameter shaft axle sleeve (26) is arranged on long multidiameter shaft (9), long multidiameter shaft ratchet wheel (6) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft ratchet (7) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft spring mobile base (24) is fixed on long multidiameter shaft axle sleeve (26), the two ends of long multidiameter shaft spring (22) are separately fixed on long multidiameter shaft spring fixed base (5) and long multidiameter shaft spring mobile base (24), short multidiameter shaft driving gear (2) is matched with long multidiameter shaft driving gear (4), and arm shaft gear (13) matches with long multidiameter shaft ratchet wheel (6), and arm shaft gear (13) and short multidiameter shaft ratchet wheel (20) are to coordinating, bevel gear (10) is fixed on long multidiameter shaft (9).
2. the pure machinery floating combined type wave energy collection conveying means according to claims 1, is characterized in that long multidiameter shaft ratchet wheel (6) is by long multidiameter shaft ratchet wheel outer shroud (601), long multidiameter shaft ratchet wheel inner ring (602), long multidiameter shaft ratchet wheel ratchet (603), long multidiameter shaft ratchet wheel spring sheet (604) composition, described long multidiameter shaft ratchet (7) is by long multidiameter shaft ratchet outer shroud (701), long multidiameter shaft ratchet inner ring (702), long multidiameter shaft click (703), long multidiameter shaft ratchet spring sheet (704) composition, described short multidiameter shaft ratchet (19) is by short multidiameter shaft ratchet outer shroud (1901), short multidiameter shaft ratchet inner ring (1902), short multidiameter shaft click (1903), short multidiameter shaft ratchet spring sheet (1904) composition, described short multidiameter shaft ratchet wheel (20) is by short multidiameter shaft ratchet wheel outer shroud (2001), short multidiameter shaft ratchet wheel inner ring (2002), short multidiameter shaft ratchet wheel ratchet (2003), short multidiameter shaft ratchet wheel spring sheet (2004) composition.
3. the floating box-like wave energy collection conveying means of pure machinery group according to claims 1, it is characterized in that short multidiameter shaft ratchet (19) is identical with the structure of long multidiameter shaft ratchet (7), short multidiameter shaft ratchet wheel (20) is identical with the structure of long multidiameter shaft ratchet wheel (6); Wherein, short multidiameter shaft ratchet outer shroud (1901) is hinged on short multidiameter shaft ratchet inner ring (1902), short multidiameter shaft click (1903) is hinged on short multidiameter shaft ratchet inner ring (1902), the two ends of short multidiameter shaft ratchet spring sheet (1904) are hinged on short multidiameter shaft click (1903) and are hinged on short multidiameter shaft ratchet inner ring (1902), under the effect of short multidiameter shaft click (1903) and short multidiameter shaft ratchet spring sheet (1904), short multidiameter shaft ratchet outer shroud (1901) can only around short multidiameter shaft ratchet inner ring (1902) one-way rotation; Long multidiameter shaft ratchet outer shroud (2001) is hinged on long multidiameter shaft ratchet inner ring (2002), long multidiameter shaft click (2003) is hinged on long multidiameter shaft ratchet inner ring (2002), the two ends of long multidiameter shaft ratchet spring sheet (2004) are hinged on long multidiameter shaft click (2003) and are hinged on long multidiameter shaft ratchet inner ring (2002), under the effect of long multidiameter shaft click (2003) and long multidiameter shaft ratchet spring sheet (2004), long multidiameter shaft ratchet outer shroud (2001) can only around long multidiameter shaft ratchet inner ring (2002) one-way rotation; Short multidiameter shaft ratchet (19) is identical with the one-way rotation direction of short multidiameter shaft ratchet wheel (20), long multidiameter shaft ratchet (7) is identical with the one-way rotation direction of long multidiameter shaft ratchet wheel (6), and the one-way rotation direction of short multidiameter shaft ratchet wheel (20) and long multidiameter shaft ratchet wheel (6) is contrary.
4. the pure machinery floating combined type wave energy collection conveying means according to claims 1, it is characterized in that short multidiameter shaft axle sleeve (25) is arranged on short multidiameter shaft (17), long multidiameter shaft axle sleeve (26) is arranged on long multidiameter shaft (9), short multidiameter shaft axle sleeve (25) can rotate around short multidiameter shaft (17), and long multidiameter shaft axle sleeve (26) can rotate around long multidiameter shaft (9), short multidiameter shaft spring mobile base (30) is fixed on short multidiameter shaft axle sleeve (25), short multidiameter shaft spring fixed base (3) is fixed on short multidiameter shaft (17), the two ends of short multidiameter shaft spring (21) are separately fixed on short multidiameter shaft spring mobile base (23) and short multidiameter shaft spring fixed base (3), long multidiameter shaft spring mobile base (24) is fixed on long multidiameter shaft axle sleeve (26), long multidiameter shaft spring fixed base (5) is fixed on long multidiameter shaft (9), the two ends of long multidiameter shaft spring (22) are separately fixed on long multidiameter shaft spring mobile base (24) and long multidiameter shaft spring fixed base (5), short multidiameter shaft axle sleeve (25) can not directly drive short multidiameter shaft (17) to rotate, but successively by short multidiameter shaft spring mobile base (23), short multidiameter shaft spring (21), short multidiameter shaft spring fixed base (3) drives short multidiameter shaft (17) to rotate, long multidiameter shaft axle sleeve (26) can not directly drive long multidiameter shaft (9) to rotate, but successively by driving long multidiameter shaft spring mobile base (24), long multidiameter shaft spring (22), long multidiameter shaft spring fixed base (5) drives long multidiameter shaft (9) to rotate, long multidiameter shaft spring (22) is different with the rotation direction of short multidiameter shaft spring (21).
5. the pure machinery floating combined type wave energy collection conveying means according to claims 1, it is characterized in that short multidiameter shaft driving gear (2) is coordinated by keyway is arranged on short multidiameter shaft (17), long multidiameter shaft driving gear (4) is arranged on long multidiameter shaft (9), long multidiameter shaft driving gear (4) and short multidiameter shaft driving gear (2) match, and the short multidiameter shaft (17) of separate unit energy collecting device and the Double-directional rotary of long multidiameter shaft (9) are combined together and become one-way rotation.
6. use the floating pure mechanical power generation system that described in claim 1, pure machinery floating combined type wave energy collection conveying means is formed, it is characterized in that floating pure mechanical power generation system is made up of wave ballast system, several pure machinery floating combined type wave energy collection conveying means and power facility, wherein power facility is made up of long multidiameter shaft generating gear (32), gearbox input gear (33), gearbox (34), gearbox output gear (35), generator gear (36) and generator (37), gearbox (34) and generator (37) are mounted in frame (27) respectively by bolt, long multidiameter shaft generating gear (32) is arranged on long multidiameter shaft (9) by keyway cooperation, gearbox input gear (33) is arranged on the input shaft of gearbox (34) by keyway cooperation, gearbox input gear (33) and long multidiameter shaft generating gear (32) match, gearbox output gear (35) is arranged on the output shaft of gearbox (34) by keyway cooperation, generator gear (36) is arranged on the axle of generator (37) by keyway cooperation, gearbox output gear (35) and generator gear (36) match, wave ballast system is made up of frame (27), keg float (28), counterweight chain (29), counterweight (30), wherein keg float (28) is arranged in frame, and one end of counterweight chain (29) is arranged on keg float (28), and the other end of counterweight chain and counterweight (30) link together.
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN112610391A (en) * | 2020-12-16 | 2021-04-06 | 王兴奎 | Single-gear-ring double-rotation-driven wave energy collecting device |
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| CN110285009B (en) * | 2019-07-11 | 2021-12-14 | 安徽新宇数字能源技术有限公司 | Energy conversion device for marine environment monitoring station |
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