CN1789701A - Power device using floating body to make water pump suck and drain water to drive mechanical movement - Google Patents
Power device using floating body to make water pump suck and drain water to drive mechanical movement Download PDFInfo
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- CN1789701A CN1789701A CN 200410104201 CN200410104201A CN1789701A CN 1789701 A CN1789701 A CN 1789701A CN 200410104201 CN200410104201 CN 200410104201 CN 200410104201 A CN200410104201 A CN 200410104201A CN 1789701 A CN1789701 A CN 1789701A
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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
- Y02E10/20—Hydro energy
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Abstract
This invention relates to float elevate drainage drive mechanic motion power device, which comprises platform, column, water turbine set, floater, work pump, energy pump, drainage web, absorptive web, high level pool, drainage tube, absorptive tube, wind compression machine, gas storage, wheel axle and adhesive parts, Wherein, the floater is composted of water case, float cylinder and adhesive parts; The water set is composed of turbine set and gears; The gear axle is composed of clutch, blades and axles. The invention relates to one principle of water and boat to drive water pump drainage rotation and the water turbine drives gears to push device rotation as Power source of the mechanic operation.
Description
Technical field
The invention relates to and utilize buoyancy aid, drive the power plant of mechanical motion again along with the water fluctuation drives the rotation of water pump suction water-driven water turbine.
Background technique
At present the various mechanical major part of using is all with current energy and heat energy or change electric energy into by these energy and drive.The exploitation of these energy, the engineering construction cycle is long, cost is high, complex process, and certain narrow limitation is arranged.Especially produce High Temperature High Pressure heat energy with fuel combustion, will consume a large amount of resources, the operating cost height, safety in production requires high, environment is polluted, and the energy can not be regenerated.
Summary of the invention
Based on the problem that above-mentioned prior art exists, the invention provides the principle of a kind of utilization " when the river rises the boat goes up ", " water fall ship low ", drive pump sump and extrusion drainage and drive the water turbine rotation, drive the power plant of mechanical motion again.
The present invention solves the technological scheme that its technical problem takes and is made up of buoyancy aid, platform, column (or body of wall), head-tank, gas holder, water wheels unit, some working pumps, some storage pumps, drainage pipeline networks, suction pipe network, speed governing wheel shaft, some typhoon engine-driven air compressors and appurtenances.Buoyancy aid is made up of water tank, floating drum and appurtenances; The water wheels unit is made up of water turbine and gear; The speed governing wheel shaft is made up of clutch, leaf (or tooth) wheel and axle.It is characterized in that: after every working pump discharge channel is communicated with, is communicated with the hydroturbine water intake mouth with pipe again and forms drainage pipeline networks; After every working pump inlet channel is communicated with, is communicated with the water turbine water outlet with pipe again and forms the suction pipe network.Platform is equipped with guide rail or guide groove by column or body of wall support fixation on column or the body of wall.Valve is installed in the buoyancy aid water tank bottom, and floating drum and roller or slide block are equipped with in the water tank outside.Buoyancy aid is installed in the platform below, swims on the water surface.Water wheels unit and speed governing wheel shaft are installed on the platform, also can be installed on the buoyancy aid.Gas holder, pneumatic air compressor are installed on the platform.The clutch end of speed governing wheel shaft is connected with water wheels unit gear shaft, the other end of speed governing wheel shaft be connected by the driven equipment axle.The air outlet flue of pneumatic air compressor is communicated with gas holder.Head-tank is located at the position that is higher than platform.Working pump and storage pump are installed in the bottom.Water tank is communicated with a water turbine water outlet by waste pipe; Water tank is communicated with another hydroturbine water intake mouth by suction sleeve.The intake pipe of head-tank is communicated with the storage pump discharge channel, and offlet is communicated with suction sleeve or drainage pipeline networks.The storage pump inlet channel is communicated with suction pipe network or water tank through valve.The pump piston connecting rod is vertically fixed on the buoyancy aid bottom.When the wind moving vane rotates, air compressor with air compression in gas holder.When water level went up, buoyancy aid moved upward and drives the working pump suction, and the water in the water tank enters the hydroturbine water intake mouth through suction sleeve and drives water turbine work.When water level fell after rise, buoyancy aid moved downward and drives the working pump draining, and water enters the hydroturbine water intake mouth through drainage pipeline networks and drives water turbine work.The buoyancy aid storage pump that moves up and down is gone into head-tank accumulation of energy (or suction pump in) with hydraulic pressure.When fluctuation in stage arrived the highest or minimum point, the high drop water of head-tank was discharged and is driven water turbine work, and the water of hydraulic turbine outlet is discharged in storage pump inlet channel or the water tank.Water turbine drives the speed governing wheel shaft and rotates, or the speed governing wheel shaft is by the compressed air-driven wheel rotation, or is rotated by other drive power source gear.The speed governing wheel shaft drives and is rotated by driven equipment.
With working pump in the technical solution of the present invention or storage pump or all or part of being installed on platform bottom or the column (or body of wall).The single-acting reciprocating pump can change double action for reciprocating pump into.Buoyancy aid can be made up of several floating drums that are connected as a single entity and appurtenances.The water wheels unit can be a water turbine.The pump piston connecting rod is vertically fixed on buoyancy aid bottom or top.Head-tank can change several water pots into.Each water pot top feeds the gas tube that is communicated with gas holder, is filled with air in jar.After in hydraulic pressure is gone into jar, air is compressed, and the water pot internal pressure increases, thus the pressure during the increase draining.Water pot can be installed on the platform.When fluctuation in stage, the buoyancy aid driven pump work that moves up and down.The water-driven water turbine rotation that working pump pumps, the water of hydraulic turbine outlet is sucked by pump again.
Technical solution of the present invention should satisfy: the platform bottom level is greater than the maximum height that rises on the buoyancy aid top; The stroke of pump piston is greater than the stroke of buoyancy aid; The gravity of buoyancy aid is greater than the power that drives pump piston downwards; The gravity of buoyancy 〉=buoyancy aid that buoyancy aid is subjected in water and the power sum that upwards drives pump piston.
The invention has the beneficial effects as follows: the fluctuation with water is a power, drives the buoyancy aid liter and falls, and drives the rotation of water pump suction water-driven water turbine again, thereby drives mechanical motion.This invention is pollution-free, the energy is renewable, simple in structure, safe and reliable, operating cost is low, applied widely.
Description of drawings
The invention will be further described below in conjunction with drawings and Examples.
Fig. 1 is technical solution of the present invention embodiment one schematic representation.
Fig. 2 is technical solution of the present invention embodiment two schematic representation.
Fig. 3 is speed governing wheel shaft of the present invention and water wheels unit transmission schematic representation.
Embodiment
Technical solution of the present invention embodiment one shown in Figure 1 is made up of platform (5), several columns (10) (or body of wall), buoyancy aid, water wheels unit (1), some working pumps, drainage pipeline networks (8), suction pipe network (2), waste pipe (6), suction sleeve (7), head-tank (22), some storage pumps, some typhoon engine-driven air compressors, gas holder, speed governing wheel shaft and appurtenances.Buoyancy aid is made up of water tank (9), floating drum (13) and appurtenances.Water wheels unit (1) is formed (becoming example by two water turbine and gear train with the water wheels unit) by many water turbine and gear.After every working pump discharge channel (18) is communicated with, is communicated with the hydroturbine water intake mouth with pipe again and forms drainage pipeline networks (8); After every working pump inlet channel (20) is communicated with, is communicated with the water turbine water outlet with pipe again and forms suction pipe network (2).In the present embodiment, platform (5) is by several columns (10) or the body of wall support fixation that are vertically fixed on the bottom (21).On column (10) or the body of wall guide rail or guide groove are housed.Water tank (9) outside be equipped with several floating drums (13) and with column (10) or body of wall on guide rail or the guide groove roller or the slide block that roll or be slidingly matched, valve (14) is equipped with in water tank (9) bottom.Buoyancy aid is installed in platform (5) below, swims on the water surface (11), and can move up and down along with the fluctuation of water by roller or slide block guide rail or the guide groove on column (10) or the body of wall.Some working pumps and the storage pump be made up of pumping cylinder (17), piston (16), piston rod (15) (or replace piston and piston rod by plunger) are installed in the bottom (21).Working pump is the single-acting reciprocating pump, and storage pump is a double action for reciprocating pump.Water tank (9) is communicated with a water turbine water outlet through waste pipe (6); Cistern valve (14) is communicated with another hydroturbine water intake mouth through suction sleeve (7).Piston (16) is installed in the pumping cylinder (17), and an end of piston rod (15) or plunger is vertically fixed on the buoyancy aid bottom, and the other end of piston rod (15) is connected with piston (16).Water wheels unit (1) and speed governing wheel shaft are installed on the platform (5), also can be installed on the buoyancy aid.Gas holder and some typhoon engine-driven air compressors of being made up of blade (3), air compressor (4) are installed on the platform (5).The air outlet flue of air compressor (4) is communicated with gas holder, and blade (3) is installed on the main shaft of air compressor (4).Head-tank (22) is located at the position that is higher than platform (5).Every storage pump discharge channel (18) is communicated with intake pipe (23) after being communicated with again.Offlet (24) is communicated with suction sleeve (7).After being communicated with, every storage pump inlet channel (20) is communicated with suction pipe network (2) through valve (25) again.When wind moving vane (3) rotates, blade (3) drive air compressor (4) with air compression in gas holder.When the water surface (11) fluctuation, buoyancy aid moves up and down along with the fluctuation of water by roller or slide block guide rail or the guide groove on column (10) or the body of wall, drives pump work.Storage pump is gone into head-tank (22) through intake pipe (23) with hydraulic pressure.During the working pump suction, the water in the water tank (9) enters a hydroturbine water intake mouth through valve (14), suction sleeve (7) and drives water turbine work, is drawn onto in the working pump through suction pipe network (2) again; During the working pump draining, water enters another hydroturbine water intake mouth through drainage pipeline networks (8) and drives water turbine work, and water is discharged in the water tank (9) through waste pipe (6).Water tank (9) is used to increase buoyancy aid weight and increases the distance that buoyancy aid rises with respect to water-bed (21).In the process that the water surface (11) falls after rise, throttle down (14), the water that water turbine is discharged is discharged in the water tank (9) and can increases buoyancy aid weight; In the process that the water surface (11) goes up, open valve (14), the water of extracting out in the water tank (9) by water pump (12) can reduce buoyancy aid weight.During to the highest or minimum point, valve (25) is opened in the water surface (11) fluctuation, and the water of [otherwise buoyancy aid is when moving up and down, valve (25) is closed ,] head-tank (22) is discharged and driven water turbine work, and the water of hydraulic turbine outlet is discharged into storage pump inlet channel (20).Storage pump inlet channel (20) can hold the water that head-tank (22) is once discharged.Double action for reciprocating pump top suction valve is by suction pipe (19) suction.Waste pipe (6) and suction sleeve (7) are selected the water pipe of energy natural torsion and anti-certain pressure for use.Seal with waterproof bag between water-bed pumping cylinder (17) and the buoyancy aid.
Storage pump can be the single-acting reciprocating pump among Fig. 1.Head-tank (22) offlet (24) can be communicated with drainage pipeline networks (8).Storage pump inlet channel (20) can be communicated with water tank (9) through valve (14).After the water-driven water turbine work that head-tank (22) is discharged, water is discharged in the water tank (9) through waste pipe (6).During the storage pump suction, the water in the water tank (9) is sucked through valve (14).
Technical solution of the present invention embodiment two shown in Figure 2 is made up of platform (5), several columns (10) (or body of wall), buoyancy aid, water wheels unit (1), some working pumps, some storage pumps, drainage pipeline networks (8), suction pipe network (2), head-tank (22), some typhoon engine-driven air compressors, gas holder, speed governing wheel shaft and appurtenances.Buoyancy aid is made up of several floating drums that are connected as a single entity (13) and appurtenances.Water wheels unit (1) is made up of many water turbine and gear, or a water turbine (is that a water turbine is an example with the water wheels unit).After every working pump discharge channel (18) is communicated with, is communicated with the hydroturbine water intake mouth with pipe again and forms drainage pipeline networks (8); After every working pump inlet channel (20) is communicated with, is communicated with the water turbine water outlet with pipe again and forms suction pipe network (2).In the present embodiment, platform (5) is by several columns (10) or the body of wall support fixation that are vertically fixed on the bottom (21).On column (10) or the body of wall guide rail or guide groove are housed.Be equipped with on the buoyancy aid with column (10) or body of wall on guide rail or the guide groove roller or the slide block that roll or be slidingly matched.Buoyancy aid is installed in platform (5) below, swims on the water surface (11), and can move up and down along with the fluctuation of water by roller or slide block guide rail or the guide groove on column (10) or the body of wall.Some working pumps and the storage pump be made up of pumping cylinder (17), piston (16), piston rod (15) are installed in the bottom (21).Working pump and storage pump are double action for reciprocating pump.Piston (16) is installed in the pumping cylinder (17), and an end of piston rod (15) is vertically fixed on the bottom of buoyancy aid, and the other end of piston rod (15) is connected with piston (16).Water turbine and speed governing wheel shaft are installed on the platform (5), also can be installed on the buoyancy aid.Gas holder and some typhoon engine-driven air compressors of being made up of blade (3), air compressor (4) are installed on the platform (5).The air outlet flue of air compressor (4) is communicated with gas holder, and blade (3) is installed on the main shaft of air compressor (4).Head-tank (22) is located at the position that is higher than platform (5).Every storage pump discharge channel (18) is communicated with intake pipe (23) after being communicated with again; After being communicated with, every storage pump inlet channel (20) is communicated with suction pipe network (2) through valve (25) again.Offlet (24) is communicated with drainage pipeline networks (8).When wind moving vane (3) rotates, blade (3) drive air compressor (4) with air compression in gas holder.When the water surface (11) fluctuation, buoyancy aid moves up and down along with the fluctuation of water by roller or slide block guide rail or the guide groove on column (10) or the body of wall, drives pump work.After the water-driven water turbine rotation that working pump is discharged, sucked by working pump again through suction pipe network (2).Storage pump is gone into head-tank (22) through intake pipe (23) with hydraulic pressure.During to the highest or minimum point, valve (25) is opened in the water surface (11) fluctuation, and the water of [otherwise buoyancy aid is when moving up and down, valve (25) is closed ,] head-tank (22) is discharged and driven water turbine work, and the water of hydraulic turbine outlet is discharged into storage pump inlet channel (20).Storage pump inlet channel (20) can hold the water that head-tank (22) is once discharged.Double action for reciprocating pump top suction valve is by suction pipe (19) suction.Seal with waterproof bag between water-bed pumping cylinder (17) and the buoyancy aid.
Working pump among Fig. 1, Fig. 2 or storage pump can all or part ofly be installed on platform (5) bottom or the column (10) (or body of wall).Working pump or storage pump can be the single-acting reciprocating pumps, or double action for reciprocating pump, and pump piston connecting rod (15) can be vertically fixed on the bottom or the top of buoyancy aid.Head-tank (22) can change several water pots into, and water pot can be installed on the platform (5).The offlet of each water pot (24) is interconnected, and the intake pipe of each water pot (23) is interconnected, and each water pot top feeds the gas tube that is communicated with gas holder, is filled with air in jar.After in hydraulic pressure is gone into water pot, air is compressed, and jar internal pressure strengthens, thus the pressure when increasing draining.
In Fig. 3, an end of the speed governing wheel shaft of forming by clutch (27), leaf (or tooth) wheel (28) and axle be connected by the driven equipment axle, (water turbine) clutch (27) is held and directly is connected with the hydraulic turbine main shaft axle; Or (many water turbine) clutch (27) end is connected with gear (29) axle, and gear (29) and gear (26) mesh, and gear (26) is housed respectively on the main shaft of every water turbine.Leaf (or tooth) wheel (28) can be impeller (28) or gear (28).When the water wheels unit was worked, clutch (27) engaged, and the speed governing wheel shaft is directly driven by water turbine, or is driven by water turbine driven gear (29).When the water wheels unit quit work, clutch (27) separated, and the speed governing wheel shaft is rotated by compressed air-driven impeller (28), or was rotated by other drive power source gear (28).The speed governing wheel shaft drives and is rotated by driven equipment.Carry out speed governing but adjust compressed-air atomizer discharge capacity drives impeller (28), or carry out speed governing with other drive power source gear (28).
Claims (10)
1. the power plant of using floating body to make water pump suck motivation tool motion are made up of platform (5), several columns (10) (or body of wall), water wheels unit (1), buoyancy aid, some working pumps, some storage pumps, head-tank (22) (or several water pots), drainage pipeline networks (8), suction pipe network (2), some typhoon engine-driven air compressors, gas holder, speed governing wheel shaft and appurtenances, wherein:
(1.1) platform (5) is by several columns (10) or the body of wall support fixation that are vertically fixed on the bottom (21);
(1.2) on column (10) or the body of wall guide rail or guide groove are housed;
(1.3) gas holder and be installed on the platform (5) by some typhoon engine-driven air compressors that blade (3) and air compressor (4) are formed,
(1.3.1) air outlet flue of air compressor (4) is communicated with gas holder,
(1.3.2) blade (3) is installed on the main shaft of air compressor (4);
(1.4) water wheels unit (1) is installed on the platform (5), also can be installed on the buoyancy aid,
(1.4.1) water wheels unit (1) can be a water turbine,
(1.4.2) also can form by many water turbine and gear (29),
(1.4.2.1) gear (26) is housed respectively on the main shaft of every water turbine,
(1.4.2.2) gear (29) and gear (26) engagement;
(1.5) the speed governing wheel shaft of being made up of clutch (27), leaf (or tooth) wheel (28) and axle is installed on the platform (5), also can be installed on the buoyancy aid, wherein:
(1.5.1) end of speed governing wheel shaft be connected by the driven equipment axle,
(1.5.2) clutch (27) end is connected with gear (29) axle, or directly is connected with the hydraulic turbine main shaft axle,
(1.5.3) hydraulic turbine main shaft can directly drive the speed governing wheel shaft, also can drive through gear (29),
(1.5.4) impeller (28) is by compressed air-driven, or gear (28) is by other drive power source;
(1.6) working pump or storage pump are the single-acting reciprocating pump, or are double action for reciprocating pump, wherein:
(1.6.1) working pump and storage pump are installed in the bottom (21), or:
(1.6.1.1) be installed in platform (5) bottom,
(1.6.1.2) part is installed in the bottom (21), and part is installed in platform (5) bottom,
(1.6.1.3) partly or entirely be installed on the column (10) (or body of wall),
After (1.6.2) every storage pump inlet channel (20) is communicated with, is communicated with suction pipe network (2) through valve (25), or is communicated with water tank (9) through valve (14),
(1.6.3) double action for reciprocating pump top suction valve absorbs water by suction pipe (19),
(1.6.4) storage pump inlet channel (20) can hold the water that head-tank (22) or water pot are once discharged,
(1.6.5) end of piston rod (15) or plunger is vertically fixed on the buoyancy aid bottom, or the buoyancy aid top;
(1.7) buoyancy aid is made up of water tank (9), several floating drums (13) and appurtenances, or is made up of several floating drums that are connected as a single entity and appurtenances,
(1.7.1) valve (14) is equipped with in water tank (9) bottom, and several floating drums (13) are equipped with in the outside,
(1.7.2) buoyancy aid is installed in platform (5) below, swim on the water surface (11),
(1.7.3) roller or slide block are housed on the buoyancy aid,
(1.7.4) buoyancy aid can move up and down along with the fluctuation of water,
When (1.7.5) buoyancy aid moved up and down, valve (25) was closed, otherwise valve (25) is opened;
(1.8) after every working pump discharge channel (18) is communicated with, is communicated with the hydroturbine water intake mouth again and forms drainage pipeline networks (8);
(1.9) after every working pump inlet channel (20) is communicated with, is communicated with the water turbine water outlet again and forms suction pipe network (2);
(1.10) the water turbine water outlet is communicated with water tank (9) through waste pipe (6);
(1.11) the hydroturbine water intake mouth is communicated with Cistern valve (14) through suction sleeve (7);
When (1.12) water wheels unit (1) was worked, clutch (27) engaged, otherwise clutch (27) separates;
(1.13) platform (5) bottom level is greater than the maximum height that rises on the buoyancy aid top;
(1.14) stroke of pump piston (16) is greater than the stroke of buoyancy aid;
(1.15) gravity of buoyancy aid is greater than the power that drives pump piston (16) downwards;
(1.16) gravity of buoyancy 〉=buoyancy aid of in water, being subjected to of buoyancy aid and the power sum that upwards drives pump piston (16);
(1.17) head-tank (22) or several water pots are located at the position that is higher than platform (5), and water pot can be installed on the platform (5),
After (1.17.1) every storage pump discharge channel (18) is communicated with, be communicated with intake pipe (23),
(1.17.2) offlet (24) is communicated with drainage pipeline networks (8) or with suction sleeve (7),
(1.17.3) each water pot top feeds gas tube, is filled with air in jar,
(1.17.4) offlet of each water pot (24) is interconnected,
(1.17.5) intake pipe of each water pot (23) is interconnected.
2. power plant according to claim 1 is characterized in that: water tank (9) is used to increase buoyancy aid weight and increases the distance that buoyancy aid rises with respect to water-bed (21).
3. power plant according to claim 1 is characterized in that: the water that working pump is discharged drives water turbine work through drainage pipeline networks (8), or:
(4.1) working pump sucks the water turbine work that drives with the water in the water tank (9) through valve (14), suction sleeve (7),
(4.2) water in head-tank (22) or the water pot is discharged the water turbine work that drives through offlet (24).
4. power plant according to claim 1 is characterized in that: the water of hydraulic turbine outlet sucks in the working pump through the pipe network (2) that absorbs water, or:
(5.1) enter water tank (9) through waste pipe (6),
(5.2) enter in the storage pump through valve (25).
5. power plant according to claim 1 is characterized in that: storage pump sucks the water of water tank (9) through valve (14).
6. power plant according to claim 1 is characterized in that: storage pump is gone into head-tank (22) or water pot with hydraulic pressure.
7. power plant according to claim 1 is characterized in that: hydraulic pressure is gone in the water pot, and air is compressed, and jar internal pressure strengthens, thus the pressure when increasing draining.
8. power plant according to claim 1 is characterized in that: waste pipe (6) and suction sleeve (7) are selected the water pipe of energy natural torsion and anti-certain pressure for use.
9. power plant according to claim 1 is characterized in that: carry out speed governing but adjust compressed-air atomizer discharge capacity drives impeller (28), or carry out speed governing with other drive power source gear (28).
10. power plant according to claim 1 is characterized in that: seal with waterproof bag between water-bed pumping cylinder (17) and the buoyancy aid.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200410104201 CN1789701A (en) | 2004-12-15 | 2004-12-15 | Power device using floating body to make water pump suck and drain water to drive mechanical movement |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN 200410104201 CN1789701A (en) | 2004-12-15 | 2004-12-15 | Power device using floating body to make water pump suck and drain water to drive mechanical movement |
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| Publication Number | Publication Date |
|---|---|
| CN1789701A true CN1789701A (en) | 2006-06-21 |
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Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| CN 200410104201 Pending CN1789701A (en) | 2004-12-15 | 2004-12-15 | Power device using floating body to make water pump suck and drain water to drive mechanical movement |
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| CN (1) | CN1789701A (en) |
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| CN1892070B (en) * | 2005-04-26 | 2012-08-29 | 张文 | Fluid closed-cycle torque converter |
| CN102661229A (en) * | 2012-01-24 | 2012-09-12 | 曹玉升 | Electric generation environmental protection machine composed of column, quadrangular and floating ball geometrical body |
| CN102725705A (en) * | 2010-01-22 | 2012-10-10 | 艾格赛尔工业集团 | Method for controlling a system for metering and mixing a product having a plurality of components, metering and mixing system and spraying or extrusion facility comprising same |
| CN101617118B (en) * | 2007-01-25 | 2012-10-24 | 达特默斯波能有限公司 | Hydro column |
| CN103388568A (en) * | 2013-08-03 | 2013-11-13 | 马灼明 | Energy accumulation and power generation system by pumping water through oceanic tide high-low positions |
| CN103397996A (en) * | 2013-08-03 | 2013-11-20 | 马灼明 | Movable ocean tide fall pumping device |
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| CN103470439A (en) * | 2013-09-01 | 2013-12-25 | 马进中 | Land reservoir power generation system utilizing ocean tide fall to pump water |
| CN103527391A (en) * | 2012-07-05 | 2014-01-22 | 郑涛 | Ocean wave power generation system |
| CN106499607A (en) * | 2016-11-30 | 2017-03-15 | 桂林电子科技大学 | A kind of automatic-lifting type waterpower feed pump |
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| Publication number | Priority date | Publication date | Assignee | Title |
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| CN1892070B (en) * | 2005-04-26 | 2012-08-29 | 张文 | Fluid closed-cycle torque converter |
| CN101617118B (en) * | 2007-01-25 | 2012-10-24 | 达特默斯波能有限公司 | Hydro column |
| CN102725705A (en) * | 2010-01-22 | 2012-10-10 | 艾格赛尔工业集团 | Method for controlling a system for metering and mixing a product having a plurality of components, metering and mixing system and spraying or extrusion facility comprising same |
| CN102725705B (en) * | 2010-01-22 | 2014-12-17 | 艾格赛尔工业集团 | Method for controlling a system for metering and mixing a product having a plurality of components, metering and mixing system and spraying or extrusion facility comprising same |
| CN102661229A (en) * | 2012-01-24 | 2012-09-12 | 曹玉升 | Electric generation environmental protection machine composed of column, quadrangular and floating ball geometrical body |
| CN103527391A (en) * | 2012-07-05 | 2014-01-22 | 郑涛 | Ocean wave power generation system |
| CN103527391B (en) * | 2012-07-05 | 2016-12-21 | 郑涛 | Ocean wave power generation system |
| CN103388568A (en) * | 2013-08-03 | 2013-11-13 | 马灼明 | Energy accumulation and power generation system by pumping water through oceanic tide high-low positions |
| CN103388568B (en) * | 2013-08-03 | 2016-08-31 | 马灼明 | Oceanic tide high-low-position pump water energy-storing and power-generating system |
| CN103397996A (en) * | 2013-08-03 | 2013-11-20 | 马灼明 | Movable ocean tide fall pumping device |
| CN103470439A (en) * | 2013-09-01 | 2013-12-25 | 马进中 | Land reservoir power generation system utilizing ocean tide fall to pump water |
| CN103452744A (en) * | 2013-09-01 | 2013-12-18 | 马进中 | Ocean tide fall water pumping accumulation energy generating system capable of being installed in moving way |
| CN103470439B (en) * | 2013-09-01 | 2016-08-31 | 马进中 | A kind of land reservoir power generation system utilizing ocean tide fall to pump water |
| CN103452744B (en) * | 2013-09-01 | 2016-08-31 | 马进中 | A kind of oceanic tide drop pump water energy-storing and power-generating system of removable installation |
| CN106499607A (en) * | 2016-11-30 | 2017-03-15 | 桂林电子科技大学 | A kind of automatic-lifting type waterpower feed pump |
| CN113030412A (en) * | 2021-03-04 | 2021-06-25 | 王美燕 | Marine environment monitoring and detecting equipment |
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