CN106593776A - Wind energy waterwheel - Google Patents

Abstract

The invention discloses a wind energy waterwheel. The wind energy waterwheel comprises a wind wing system, a driving system and a waterwheel system. The wind wing system comprises a U-shaped bracket and wind wing shafts arranged at the two ends of the U-shaped bracket in a penetrating mode, and wind wings are fixedly arranged at the second ends of the wind wing shafts. A first bevel gear is fixedly arranged in the middle of the U-shaped bracket. The driving system comprises a fixing bracket and a driving shaft. A second bevel gear is fixedly arranged at the first end of the driving shaft, and a third bevel gear is fixedly arranged at the second end of the driving shaft. The waterwheel system comprises a driven shaft, a waterwheel driving shaft and a waterwheel bottom shaft. A fourth bevel gear is fixedly arranged at the first end of the driven shaft. A first gear is fixedly arranged in the middle of the driven shaft. A second gear is fixedly arranged on the waterwheel driving shaft. The first gear drives the second gear. A third gear is fixedly arranged on the waterwheel driving shaft. A fourth gear is arranged on the waterwheel bottom shaft. The third gear drives the fourth gear through a first chain. A plurality of water tanks are uniformly arranged on the first chain. According to the wind energy waterwheel, the structure is compact and reasonable, and water supply and irrigation of farmland can be achieved by effectively utilizing wind energy.

Description

Wind energy watermill

Technical field

The present invention relates to water conservancy equipment, and in particular to a kind of wind energy water for realizing the functions such as agricultural water supply, irrigation, generating Car.

Background technology

Wind waterlift is otherwise known as sail waterwheel, is used by people early in Later Han Dynasty's period.Generally occur to the Tang Dynasty By the Li of individual channels sea, the water extraction liter of horizontal plane is will be less than, introduced in channel, for the irrigation in farmland.The waterwheel of early stage is equal It is foot-operated for manpower, with the development of science and technology, there are electric power, bavin, gasoline engine etc. to instead of manpower as the waterwheel of power source Waterwheel, but price is high, it is high to consume energy, it is foot-operated to drive plus sail type direction and location formula due to being limited by condition, drive dragon Bone formula waterwheel turns over water, choke water sail widespread development, lifts effect also less substantially, and woodenware structure is also easily damaged, using model Enclose and also limited by certain.

The content of the invention

It is an object of the invention to provide it is a kind of promote the wind wing that water extraction is raised to into eminence using natural wind speed to irrigate realizing or The wind energy watermill of generating.

To reach above-mentioned purpose, the technical solution used in the present invention is：Wind energy watermill, including wind wing system, drive system, Waterwheel system, the wind wing system includes U-bracket, is located in the wing shaft at the U-bracket two ends, the wing shaft first End is rotatably connected on described U-bracket one end, the second end and arranges through the U-bracket other end, the end of the wing shaft second On be fixedly installed the wind wing, the U-bracket middle part is fixedly installed the first bevel gear；The drive system includes fixed Frame, the drive shaft being rotatably arranged in the fixed support, the drive shaft first end is fixedly installed and first umbrella shape The second bevel gear that gear is meshed, the end of the drive shaft second is fixedly installed the 3rd bevel gear；The waterwheel system Including driven shaft, waterwheel drive shaft, waterwheel lower shaft, the driven shaft first end is fixedly installed and the 3rd bevel gear phase 4th bevel gear of engagement, the driven shaft middle part is fixedly installed first gear, is fixedly installed in the waterwheel drive shaft There is second gear, the first gear drives the second gear, the 3rd gear, institute are fixedly installed in the waterwheel drive shaft State and the 4th gear is provided with waterwheel lower shaft, the 3rd gear drives the 4th gear, institute by the first chain with described State and multiple water tanks are evenly arranged with the first chain.

In above-mentioned technical proposal, the wind wing can 360 ° rotation, the wind wing rotarily drive wing shaft rotation.

Water inlet is offered away from the side of chain in water tank, and the side of nearly chain is closing.Thus prevent from working as water Water can overflow from nearly first chain when case overturns at the 3rd gear upper end arc, precisely in order to making water outlet of the water from side Mouth flows out, so as to ensure that the collection of water, while the lifting effect for also improving whole device reaches water lift efficiency.

The conduit for stretching out is fixed with tank outlet so that can flow out to exchange flow along conduit during water tank water outlet, In making the follow-up water receiving tank of water inflow as much as possible, to avoid waste of being scattered.

Preferred technical scheme, the wind wing system also includes wind vane, and the wind vane is fixedly installed on the wind wing Axle first end end.

In above-mentioned technical proposal, wind vane is rotated according to wind direction, makes the wind wing to receive wind drive all the time.

Preferred technical scheme, the wing shaft is rotated with the U-bracket by bearing and is connected.

Preferred technical scheme, the driving outer shaft sleeve is provided with the first auxiliary sleeve axle, and the drive shaft is auxiliary with described first Help set axle to rotate by bearing to connect.

Further technical scheme, the first auxiliary sleeve axle is fixed through the U-bracket base plate and with the U-bracket Arrange.

Further technical scheme, the first auxiliary sleeve axle bottom is arranged with the second auxiliary sleeve axle, first auxiliary Set axle is rotated by bearing with the second auxiliary sleeve axle and is connected, and the second auxiliary sleeve axle is fixedly installed on the fixed support On.

Preferred technical scheme, is fixedly installed two driven shaft fixtures on the fixed support, the driven shaft leads to Cross bearing to be rotatably arranged on two driven shaft fixtures.

Preferred technical scheme, is fixedly installed two waterwheel drive shaft fixtures, the waterwheel on the fixed support Drive shaft is rotatably arranged on two waterwheel drive shaft fixtures by bearing.

Preferred technical scheme, is fixedly installed two waterwheel lower shaft fixtures, the waterwheel bottom on the fixed support Axle is rotatably arranged on two waterwheel lower shaft fixtures by bearing.

Preferred technical scheme, the first gear passes through second gear described in chain drive.

In above-mentioned technical proposal, first gear diameter is less than second gear diameter, defines reducing gear, works as ambient wind When less, the wind wing is rolled relatively slowly, and due to the setting of reducing gear, the speed of water tank hoisting is slow, so as to bring rotation at a high speed Turn, drive and draw motionless or quick rotation so as to injury device.

The operation principle of the present invention：Wind direction is found in wind vane control, and the wind wing is rotated so as to drive wing shaft by Wind power propelling Rotation, wing shaft rotarily drives the rotation of the first bevel gear, so as to drive the second bevel gear and drive shaft rotation, drive shaft rotation Turn to drive the rotation of the 3rd bevel gear, so as to drive the 4th bevel gear and driven shaft rotation, driven shaft to rotarily drive the first tooth Wheel rotation, by chain drive second gear, second gear drives the rotation of the 3rd gear, the 3rd gear to pass through chain to first gear Drive the 4th gear and each water tank motion.The water tank for being in lowest order is maintained at underwater, when each water tank is moved, is in The water tank of lowest order fills water by water inlet, is then driven by the wind wing and is moved upwards, after crossing the 3rd gear highest order, reaches pre- If being derived water along conduit by delivery port during position, so as to realizing supplying water or the function such as irrigating.

Because above-mentioned technical proposal is used, the present invention has compared with prior art following advantages：

1. present configuration compact and reasonable, can the water supply and irrigation of realizing to farmland of effectively utilizes wind energy；

2. deceleration device is provided with the waterwheel system of the present invention, can effectively adjust the speed of waterwheel motion, it is ensured that waterwheel Run in a relatively stable speed, the overall service life of wind energy watermill can be effectively improved；

3. the architectural feature of water tank of the present invention is caused when in use, and the water in water tank is difficult to spill and can flow according to conduit guiding To, it is to avoid waste of being scattered；

4. the present invention needs not rely on electric power, bavin, gasoline engine etc. as power source, clean environment firendly.

Description of the drawings

Fig. 1 is embodiment of the present invention side view diagram；

Fig. 2 is the partial perspective view of the embodiment of the present invention one；

Fig. 3 is the front view of the embodiment of the present invention one.

Wherein：1st, U-bracket；2nd, wing shaft；3rd, the first bevel gear；4th, fixed support；5th, drive shaft；6th, the second umbrella shape Gear；7th, the 3rd bevel gear；8th, driven shaft；9th, waterwheel drive shaft；10th, waterwheel lower shaft；11st, the 4th bevel gear；12nd, first Gear；13rd, second gear；14th, the 3rd gear；15th, the 4th gear；16th, the first chain；17th, water tank.

Specific embodiment

Below in conjunction with the accompanying drawings and embodiment the invention will be further described：

Embodiment one：

As Figure 1-3, wind energy watermill, including wind wing system, drive system, waterwheel system, wind wing system include U-bracket 1, The wing shaft 2 at the two ends of U-bracket 1 is located in, the first end of wing shaft 2 is rotatably connected on the one end of U-bracket 1, the second end and passes through U-shaped The other end of support 1 is arranged, and the wind wing is fixedly installed on the end of wing shaft 2 second, and the middle part of U-bracket 1 is fixedly installed the first umbrella shape Gear 3；Drive system includes fixed support 4, the drive shaft 5 being rotatably arranged in fixed support 4, and the first end of drive shaft 5 is fixed The second bevel gear 6 being meshed with the first bevel gear 3 is provided with, the end of drive shaft 5 second is fixedly installed the 3rd umbrella shape tooth Wheel 7；Waterwheel system includes driven shaft 8, waterwheel drive shaft 9, waterwheel lower shaft 10, and the first end of driven shaft 8 is fixedly installed and the 3rd The 4th bevel gear 11 that bevel gear 7 is meshed, the middle part of driven shaft 8 is fixedly installed first gear 12, in waterwheel drive shaft 9 Second gear 13 is fixedly installed, first gear 12 drives second gear 13, the 3rd gear is fixedly installed in waterwheel drive shaft 9 14, the 4th gear 15 is provided with waterwheel lower shaft 10, the 3rd gear 14 is by the first chain 16 and drives the 4th gear 15, and first 10 water tanks 17 are evenly arranged with chain 16.

The wind wing can 360 ° of rotations, the wind wing rotarily drives wing shaft 2 and rotates.

Water inlet is offered away from the side of chain in water tank 17, and the side of nearly chain is closing.Thus prevent from working as Water can overflow from nearly first chain 16 when water tank 17 overturns at the upper end arc of the 3rd gear 14, precisely in order to making water from side The delivery port in face flows out, so as to ensure that the collection of water, while the lifting effect for also improving whole device reaches water lift effect Rate.

The exit of water tank 17 is fixed with the conduit for stretching out so that can be along conduit to exchange flow stream during 17 water outlet of water tank Go out, in making the follow-up water receiving tank of water inflow as much as possible, to avoid waste of being scattered.

Wind wing system also includes wind vane, and wind vane is fixedly installed on the first end end of wing shaft 2.

Wind vane is rotated according to wind direction, makes the wind wing to receive wind drive all the time.

Wing shaft 2 is rotated with U-bracket 1 by bearing and is connected.

The first auxiliary sleeve axle is arranged with outside drive shaft 5, drive shaft 5 is rotated by bearing with the first auxiliary sleeve axle and is connected.

First auxiliary sleeve axle is fixedly installed through the base plate of U-bracket 1 and with U-bracket 1.

First auxiliary sleeve axle bottom is arranged with the second auxiliary sleeve axle, and the first auxiliary sleeve axle and the second auxiliary sleeve axle pass through axle Dynamic connection is forwarded, the second auxiliary sleeve axle is fixedly installed on fixed support 4.

Two fixtures of driven shaft 8 are fixedly installed on fixed support 4, driven shaft 8 is rotatably arranged on two by bearing On the fixture of driven shaft 8.

Two fixtures of waterwheel drive shaft 9 are fixedly installed on fixed support 4, waterwheel drive shaft 9 is rotated by bearing and set Put on two fixtures of waterwheel drive shaft 9.

Two fixtures of waterwheel lower shaft 10 are fixedly installed on fixed support 4, waterwheel lower shaft 10 is rotated by bearing and arranged On two fixtures of waterwheel lower shaft 10.

First gear 12 passes through chain drive second gear 13.

The diameter of first gear 12 is less than the diameter of second gear 13, defines reducing gear, when ambient wind is less, the wind wing Roll relatively slowly, due to the setting of reducing gear, the speed that water tank 17 is lifted is slow, so as to rotation at a high speed, drive will not be brought to draw not Move or quickly rotate so as to injury device.

The using method of the present embodiment：

Wind direction is found in wind vane control, and the wind wing is rotated so as to drive wing shaft 2 to rotate by Wind power propelling, and wing shaft 2 rotarily drives First bevel gear 3 rotates, and so as to drive the second bevel gear 6 and drive shaft 5 to rotate, drive shaft 5 rotarily drives the 3rd umbrella shape Gear 7 rotates, and so as to drive the 4th bevel gear 11 and driven shaft 8 to rotate, driven shaft 8 rotarily drives first gear 12 and rotates, By chain drive second gear 13, second gear 13 drives the 3rd gear 14 to rotate to first gear 12, and the 3rd gear 14 passes through The gear 15 of chain-driving the 4th and each water tank 17 are moved.The water tank 17 for being in lowest order is maintained at underwater, when each water tank During 17 motion, the water tank 17 for being in lowest order fills water by water inlet, is then driven by the wind wing and is moved upwards, crosses the 3rd gear After 14 highest orders, when reaching predeterminated position water is derived along conduit by delivery port, so as to realizing supplying water or the function such as irrigating.

Claims (10)

1. wind energy watermill, it is characterised in that：Including wind wing system, drive system, waterwheel system, the wind wing system includes U-shaped Support, the wing shaft for being located in the U-bracket two ends, the wing shaft first end be rotatably connected on described U-bracket one end, Second end is arranged through the U-bracket other end, and the wind wing, the U-bracket are fixedly installed on the end of the wing shaft second Middle part is fixedly installed the first bevel gear；The drive system includes fixed support, is rotatably arranged in the fixed support Drive shaft, the drive shaft first end is fixedly installed the second bevel gear being meshed with first bevel gear, institute State the end of drive shaft second and be fixedly installed the 3rd bevel gear；The waterwheel system includes driven shaft, waterwheel drive shaft, waterwheel bottom Axle, the driven shaft first end is fixedly installed the 4th bevel gear being meshed with the 3rd bevel gear, described driven Axle middle part is fixedly installed first gear, and second gear is fixedly installed in the waterwheel drive shaft, and the first gear drives The second gear, is fixedly installed the 3rd gear in the waterwheel drive shaft, on the waterwheel lower shaft the 4th gear is provided with, 3rd gear drives the 4th gear by the first chain with described, and on first chain multiple water are evenly arranged with Case.

2. wind energy watermill according to claim 1, it is characterised in that：The wind wing system also includes wind vane, the wind The wing shaft first end end is fixedly installed on to mark.

3. wind energy watermill according to claim 1, it is characterised in that：The wing shaft is by bearing and the U-bracket Rotate connection.

4. wind energy watermill according to claim 1, it is characterised in that：The driving outer shaft sleeve is provided with the first auxiliary sleeve axle, The drive shaft is rotated by bearing with the first auxiliary sleeve axle and is connected.

5. wind energy watermill according to claim 4, it is characterised in that：The first auxiliary sleeve axle passes through the U-bracket Base plate and it is fixedly installed with the U-bracket.

6. the wind energy watermill according to claim 4 or 5, it is characterised in that：The first auxiliary sleeve axle bottom is arranged with Second auxiliary sleeve axle, the first auxiliary sleeve axle is rotated by bearing with the second auxiliary sleeve axle and is connected, second auxiliary Set axle is fixedly installed on the fixed support.

7. wind energy watermill according to claim 1, it is characterised in that：Be fixedly installed on the fixed support two it is driven Axle fixture, the driven shaft is rotatably arranged on two driven shaft fixtures by bearing.

8. wind energy watermill according to claim 1, it is characterised in that：Two waterwheels are fixedly installed on the fixed support Drive shaft fixture, the waterwheel drive shaft is rotatably arranged on two waterwheel drive shaft fixtures by bearing.

9. wind energy watermill according to claim 1, it is characterised in that：Two waterwheels are fixedly installed on the fixed support Lower shaft fixture, the waterwheel lower shaft is rotatably arranged on two waterwheel lower shaft fixtures by bearing.

10. wind energy watermill according to claim 1, it is characterised in that：The first gear is by described in chain drive the Two gears.