CN104454291A

CN104454291A - Gas-liquid motion kinetic energy receiver

Info

Publication number: CN104454291A
Application number: CN201410676069.6A
Authority: CN
Inventors: 陈广民
Original assignee: Individual
Current assignee: Individual
Priority date: 2014-11-24
Filing date: 2014-11-24
Publication date: 2015-03-25

Abstract

The invention relates to a gas-liquid motion kinetic energy receiver. The main structure comprises a stator shaft erected and fixed to a foundation, a middle worktable integrated with the stator shaft, a differential mechanism installed on the worktable through a bearing contact relationship, a pneumatic rotor shaft, a hydraulic rotor shaft, four sets of pneumatic semi-conductor plates and four sets of hydraulic semi-conductor plates, wherein two input shafts of the differential mechanism are meshed with the pneumatic rotor shaft and the hydraulic rotor shaft in a gear rotation mode, a kinetic energy output shaft of the differential mechanism is connected with energy using equipment fixed to the workable, the pneumatic rotor shaft is arranged on the upper portion of the stator shaft in a sleeving mode through the bearing contact relationship, the hydraulic rotor shaft is arranged in the middle of the stator shaft in a sleeving mode through the bearing contact relationship, the four sets of pneumatic semi-conductor plates are fixedly installed on the pneumatic rotor shaft, and the four sets of hydraulic semi-conductor plates are fixedly installed on the hydraulic rotor shaft. In the work process, the pneumatic semi-conductor plates and the hydraulic semi-conductor plates are arranged in the uniform rotation direction with the rotor shafts as the centers according to the positive surfaces and negative surfaces and then can selectively receive pressure of gas flow and water flow, the two rotor shafts are pushed towards the same direction, and two forces are combined and output to the energy using equipment through the differential mechanism.

Description

Gas-liquid movement energy receiving machine

Technical field

The present invention relates to the gas-liquid movement energy receiving machine of similar windmill, be suitable for air-flow, current, gas gushes, surge kinetic transformation is the mechanical energy promoting machine rotation, can be used as generator, machine, civilian boats etc. are all needs the power driving running, its air-flow and water flow energy dash receiver refer to gas-liquid flow half waveguide technology, and (natural energy receives semiconductor, application for a patent for invention publication No. CN103758716A), capacity for work is more powerful, typhoon protection ability is stronger, utilize differential mechanism that wind energy can be utilized to utilize water energy again if it is placed on sea, river simultaneously, if gas-liquid movement energy receiving machine is approved use by people, not complete as the inexhaustible use of spendable power resources of the ripple (gravity wave) that human use's cosmos motion so will be made to produce, it is a kind of new energy transforming machine, it is exactly perpetuum mobile, if at China's Shanghai Changjiang River estuary cloth some gas-liquid movements energy receiving machine, the water surface above wind energy river motion energy of there and marine stream spring up and can will provide power generation energy resource endlessly to Shanghai.

Background technique

The energy that the current mankind use is mostly from organic energy and wind-power hydraulic and solar energy, but organic energy is limited, the utilization of stablizing air water stream has again limitation utilization ratio low, and the energy that sunlight produces is limited again, so people can permanent prospect of the application pessimistic to known energy source.Gas-liquid movement energy receiving machine is exactly invent in this case, its predecessor is ripple vibration force machine (patent No. ZL201010188966.4), but ripple vibration force machine utilizes during gas-liquid movement energy at the water surface a foul simultaneously, air and water sports speed, direction at one time might not be identical, the wind-force be opposite in air receives half guide plate and the waterpower being placed in water body, and to receive the pressure that half guide plate produces not identical yet, delayed wind-force receives half guide plate or waterpower and receives half guide plate and will produce resistance to whole rotor and can consume part energy in vain, for this reason, gas-liquid movement energy receiving machine changes the asynchronous waste brought, the same rotor that gas-liquid movement can drive is divided into the rotor and the water rotor that can drive that wind energy drives, then the energy utilizing differential mechanism that two asynchronous rotors are exported combines and is loaded on driving force receiver, the asynchronous gas-liquid movement energy of efficiency utilization.Certainly, gas-liquid movement energy receiving machine also can be arranged in separately land and only utilize air movement energy, also can a Selection utilization water sports energy separately, as long as select suitable a kind of kinetic energy receive rotor and save differential mechanism.The vertical placement of gas-liquid movement energy receiving machine rotor shaft, it to stand fixing foundation can be at the bottom of shallow sea bed, extra large treadle-operated tilt hammer for hulling rice, riverbed, river, also can be fixed in the soil layer of Plain or on the rock of mountain area, can certainly be fixed on moveable carrier, as hull, it is its motion-promotion force.

Summary of the invention

Gas-liquid movement energy receiving machine main structure of the present invention comprises: stand the middle part worktable being fixed on stator axis in foundation and one, with bearing touch relation installation differential mechanism on the table, gear fixing on an input shaft of differential mechanism and the gear rotating clutch of Pneumatic rotor axle, fixed gear on another input shaft of differential mechanism and the gear rotating clutch of hydrodynamic(al) rotor shaft, the kinetic energy output shaft of differential mechanism and fixing connecting with energy equipment on the table, the Pneumatic rotor axle on stator axis top is enclosed within bearing touch relation, be fixedly mounted on the strut on Pneumatic rotor axle, be fixedly mounted on pneumatic half guide plate on strut, with the lower end gear of Pneumatic rotor axle one, the hydrodynamic(al) rotor shaft in the middle part of stator axis is enclosed within bearing touch relation, with spin axis contact relation can vertical variations angle strut and be fixed on the gear of hydrodynamic(al) rotor shaft upper end, skeleton on strut can be arranged on by vertical rotating 360 degrees with spin axis contact relation parallel strut, be fixedly mounted on hydrodynamic(al) half guide plate on skeleton, be fixedly mounted on the water buoyancy aid of hydrodynamic(al) half guide plate upper top.

Accompanying drawing explanation

Fig. 1 be gas-liquid movement energy receiving machine stator implement structure and with rotor marriage relation side-looking sectional schematic diagram;

Fig. 2 is that gas-liquid movement energy receiving machine Pneumatic rotor implements structure schematic side view;

Fig. 3 is that structure schematic side view implemented by gas-liquid movement energy receiving machine hydrodynamic(al) rotor;

Fig. 4 is that gas-liquid movement energy receiving machine Pneumatic rotor implements that structure and working principle is attached looks schematic diagram.

Mode of execution

As shown in Figure 1, gas-liquid movement energy receiving machine main structure comprises: stand the middle part worktable 2 being fixed on stator axis in foundation 8 (sea bed, riverbed, soil layer, rock, rock treadle-operated tilt hammer for hulling rice or sport equipment) 1 and one, the differential mechanism 3 on worktable 2 is arranged on bearing touch relation, gear 10 rotating clutch of fixed gear 4 and Pneumatic rotor axle 15 on an input shaft of differential mechanism 3, gear 11 rotating clutch of fixed gear 5 and hydrodynamic(al) rotor shaft 16 on another input shaft of differential mechanism 3, the kinetic energy output shaft 6 of differential mechanism 3 be fixed on worktable 2 with connecting by equipment 7.

As shown in Figure 2, gas-liquid movement energy receiving machine Pneumatic rotor is implemented structure and is comprised: the Pneumatic rotor axle 15 being enclosed within stator axis 1 top with bearing 12 contact relation, be fixedly mounted on the strut 14 on Pneumatic rotor axle 15, be fixedly mounted on pneumatic half guide plate 13 on strut 14, with the lower end gear 10 of Pneumatic rotor axle 15 one.

As shown in Figure 3, gas-liquid movement energy receiving machine hydrodynamic(al) rotor is implemented structure and is comprised: be enclosed within the hydrodynamic(al) rotor shaft 16 in the middle part of stator axis 1 with bearing 17 contact relation, with spin axis 18 contact relation can vertical variations angle 23 strut 19 and be fixed on the gear 11 of hydrodynamic(al) rotor shaft 16 upper end, skeleton 24 on strut 19 can be arranged on by vertical rotating 360 degrees with spin axis 20 contact relation parallel strut 19, be fixedly mounted on hydrodynamic(al) half guide plate 21 on skeleton 24, be fixedly mounted on the water buoyancy aid 22 of hydrodynamic(al) half guide plate 21 upper top.

As shown in Figure 4, gas-liquid movement energy receiving machine Pneumatic rotor whole implementation structure comprises: vertical gas Yunnan-Guizhou rotor shaft 15 is sleeved in stator axis 1 so that bearing 12 contact relation is vertical, divides four direction equally and is fixed as one and is arranged on four direction strut on Pneumatic rotor axle 15 14 and pneumatic half guide plate 13 of four of being arranged on strut 14 that is fixed as one.

Certainly, a gas-liquid movement energy receiving machine also can be selected to divide three directions equally and install three groups of struts 14 and pneumatic half guide plate 13, but select divide equally four direction install four groups of struts 14 and pneumatic half guide plate 13 work in more stable.Gas-liquid movement energy receiving machine hydrodynamic(al) rotor is implemented structure and is implemented structure substantially identical (as shown in Figure 3) with Pneumatic rotor, just hydrodynamic(al) rotor can the strut 19 of vertical break-in and hydrodynamic(al) half guide plate 21 of vertical variable high and low position and skeleton 24 in order to answer Heshui face 9 height to be changing into, many again four water buoyancy aids 22 pull hydrodynamic(al) half guide plate 21 and skeleton 24 to be always in the water surface 9 position, do not repeat them here.

As Fig. 1, 2, 3, shown in 4, during gas-liquid movement energy operation of receiver, under air ambient, receiver gases motion can working principle be: when air-flow 26 flows to gas-liquid movement energy receiving machine, pneumatic half guide plate 13 be fixedly mounted on Pneumatic rotor axle 15 have front 27 and negative 28 point, the pressure that direction arrangement selectively will accept air-flow 26 is unified by rotation direction in front 27 and negative 28 centered by Pneumatic rotor axle 15, for pneumatic half guide plate 13 in two, left and right, when air-flow 26 diffluence from bottom to top, the front 27 of pneumatic half guide plate 13 on the right side of stator axis 1 is met air-flow 26 and the pressure of all half guide plate closed gas flows 26 all will be pressed to pneumatic half guide plate 13 front 27, pneumatic half guide plate 13 25 is advanced counterclockwise centered by stator axis 1, and pneumatic half guide plate 13 on the left of stator axis 1 has all been pressed on negative 28 because of the pressure of air-flow 26, then all half guide plates are opened and let slip all without hindrance for the pressure of air-flow 26, therefore pneumatic half guide plate 13 in left side does not have rotary impetus, therefore whole Pneumatic rotor axle 15 25 rotations counterclockwise under air-flow 26 acts on.Gas-liquid movement energy receiving machine hydrodynamic(al) working rotor principle is identical, if by identical with negative 28 placement directions with pneumatic half guide plate 13 front 27 on Pneumatic rotor axle 15 with negative for the front of hydrodynamic(al) half guide plate 21 be arranged on hydrodynamic(al) rotor shaft 16, so it will 25 advance in the counterclockwise direction under the current of any direction, swelling effect, and Pneumatic rotor axle 15 and hydrodynamic(al) rotor shaft 16 two bursts of strength merge to transfer to and will significantly improve natural energy utilization ratio with energy equipment 7 by the differential mechanism 3 on worktable 2.

Claims

1. gas-liquid movement energy receiving machine, it is characterized in that: stand the middle part worktable 2 being fixed on stator axis in foundation 81 and one, the differential mechanism 3 on worktable 2 is arranged on bearing touch relation, gear 10 rotating clutch of fixed gear 4 and Pneumatic rotor axle 15 on an input shaft of differential mechanism 3, gear 11 rotating clutch of fixed gear 5 and hydrodynamic(al) rotor shaft 16 on another input shaft of differential mechanism 3, the kinetic energy output shaft 6 of differential mechanism 3 be fixed on worktable 2 with connecting by equipment 7.

2. gas-liquid movement energy receiving machine according to claim 1, it is characterized in that: the Pneumatic rotor axle 15 being enclosed within stator axis 1 top with bearing 12 contact relation, be fixedly mounted on the strut 14 on Pneumatic rotor axle 15, be fixedly mounted on pneumatic half guide plate 13 on strut 14, with the lower end gear 10 of Pneumatic rotor axle 15 one.

3. gas-liquid movement energy receiving machine according to claim 1, it is characterized in that: be enclosed within the hydrodynamic(al) rotor shaft 16 in the middle part of stator axis 1 with bearing 17 contact relation, with spin axis 18 contact relation can vertical variations angle 23 strut 19 and be fixed on the gear 11 of hydrodynamic(al) rotor shaft 16 upper end, skeleton 24 on strut 19 can be arranged on by vertical rotating 360 degrees with spin axis 20 contact relation parallel strut 19, be fixedly mounted on hydrodynamic(al) half guide plate 21 on skeleton 24, be fixedly mounted on the water buoyancy aid 22 of hydrodynamic(al) half guide plate 21 upper top.

4. gas-liquid movement energy receiving machine according to claim 1, is characterized in that: pneumatic half guide plate 13 is formed by many platelet-like half pilot valve door splicing-ins.

5. gas-liquid movement energy receiving machine according to claim 1, is characterized in that: hydrodynamic(al) half guide plate 21 is formed by many platelet-like half pilot valve door splicing-ins.

6. gas-liquid movement energy receiving machine according to claim 1, is characterized in that: utilize differential mechanism 3 to be synchronized to by the different rotating speeds that Pneumatic rotor axle 15 and hydrodynamic(al) rotor shaft 16 input and be integrally transported to in energy equipment 7.