CN203130374U - Wind power water storage generating set - Google Patents

Abstract

The utility model relates to a wind power water storage generating set which is simple in structure, capable of utilizing wind power for generating electricity, and good in water pumping effect. The wind power water storage generating set comprises a machine frame, a wind power transmission mechanism, a water pumping mechanism and a water storage tank. The wind power transmission mechanism is arranged on the machine frame in a rotary mode, and the water pumping mechanism is driven by the wind power transmission mechanism to pump water to a high position. The water pumping mechanism comprises a support, an impeller-shaped driving wheel, an impeller-shaped driven wheel and a conveying belt, wherein the impeller-shaped driving wheel is arranged on the upper portion of the support in a rotary mode, the impeller-shaped driven wheel is arranged on the lower portion of the support in a rotary mode, and the conveying belt is used for being connected with the driving wheel and the driven wheel in a transmitting mode. A wheel shaft of the driving wheel is in transmission connection with the wind power transmission mechanism, and a water pumping cylinder is arranged on the outer side of the periphery of the conveying belt which is located on one side between the driving wheel and the driven wheel. A plurality of water pumping pistons which are limitlessly close to and matched with the inner wall of the water pumping cylinder are evenly distributed on the conveying belt. Impeller blades of the driving wheel and impeller blades of the driven wheel are arranged to be staggered with the water pumping pistons, and the driven wheel is arranged in an external well. A water outlet is arranged at the upper end of the water pumping cylinder, and the water storage tank is communicated with the water outlet.

Description

A kind of wind-force reservoir impoundment power generation device

Technical field

The utility model relates to field of wind energy utilization, relates in particular to a kind of wind-force reservoir impoundment power generation device.

Background technique

At present, wind is utilized by people very early--mainly be by windmill draw water, flour milling etc., and now, people are interested to be how to utilize wind to generate electricity.But the utilization of wind energy all is fairly large, big cost usually, popularize utilization and often be difficult to.Because existing well water supply all needs to be evacuated to the wet pit of house top layer usually, flow downstream into each water outlet by wet pit again and use mouth, and the process that it draws water often needs to utilize motor driving, and after holding completely, wet pit also need control apparatus or personnel to close down motor, process is comparatively loaded down with trivial details, also comparatively waste electric energy, if can utilize wind-force to realize this process, then comparatively environmental protection and energy saving.

Summary of the invention

Therefore, at above-mentioned problem, the utility model proposes a kind of simple in structure, wind-force reservoir impoundment power generation device that can utilize wind-power electricity generation, draw water effective.

For achieving the above object, the utility model has adopted following technological scheme: a kind of wind-force reservoir impoundment power generation device, comprise frame, be located at the wind-force driving mechanism on the frame rotationally, under the wind-force driving mechanism drives, water is taken out the mechanism of drawing water of past eminence, wet pit, the described mechanism of drawing water comprises support, be located at the impeller shape driving wheel on support top rotationally, be located at the impeller shape driven wheel of support bottom rotationally, the line belt of driving wheel and driven wheel is in transmission connection, the wheel shaft of described driving wheel and wind-force driving mechanism are in transmission connection, the periphery of the side line belt between described driving wheel and the driven wheel is provided with water pumping cylinder, be provided with a plurality of and water pumping cylinder inwall on the described line belt evenly distributedly and infinitely approach the piston that draws water that cooperates, the impeller blade of described driving wheel and driven wheel shifts to install with the piston that respectively draws water respectively, described driven wheel is located in the outside well, the upper end of described water pumping cylinder offers water outlet, and described wet pit is connected with water outlet.

Further, the top of described wet pit offers overflow, and the below of described wet pit is provided with hydroelectric generator, and the impeller that described overflow is communicated with hydroelectric generator carries out hydroelectric power to utilize height difference.

Further, described hydroelectric generator is located in the outside well.

Further, described wind-force driving mechanism comprise be located at rotationally on the frame perpendicular to the driving wheel wheel shaft and with driving wheel be in transmission connection the rotatingshaft that cooperates, be located at the supporting frame that is positioned at the rotatingshaft periphery on the frame, be located at rotating turret on the supporting frame rotationally, be located at impeller, coupling shaft on the rotating turret rotationally by rotatingshaft, one end and the impeller of described coupling shaft are in transmission connection, the other end and rotatingshaft are in transmission connection, and described coupling shaft is perpendicular to rotatingshaft.

Further, described rotating turret is provided with for adjusting rotating turret away from an end of impeller and makes rotating turret meet empennage to wind direction.

Further, described driving wheel is provided with first block, described support is provided with to cooperate with first block and prevents that the rotating check device of driving wheel, described check device from comprising the non-return button piece of being located at rotationally on the support, second block of being located at non-return button piece one side, connecting non-return button piece and support and make the spring that non-return button piece can returning position.

By adopting the aforementioned techniques scheme, the beneficial effects of the utility model are: compare with existing wind energy facility, this wind-force reservoir impoundment power generation device can be realized water storage function, and utilize piston and cooperating of water pumping cylinder to draw water and improved the efficient of drawing water, water can not run off in pump process, and it is effective to draw water; Further, utilize overflow to be communicated with the impeller of hydroelectric generator, realize the generating of spilling water, thereby can also generate electricity under the full situation of the wet pit water yield guaranteeing, improved usage ratio of equipment, saved the energy; Further, be provided with check device, realized the same tropism of wind-force running, and also can realize drawing water, generating electricity under the unsettled situation of wind-force, make the stability of equipment better, practicability is stronger.

Description of drawings

Fig. 1 is structural representation of the present utility model.

Fig. 2 is the structural representation of check device.

Embodiment

Now with embodiment the utility model is further specified by reference to the accompanying drawings.

With reference to figure 1, Fig. 2, present embodiment provides a kind of wind-force reservoir impoundment power generation device, comprise frame 1, be located at the wind-force driving mechanism on the frame 1 rotationally, under the wind-force driving mechanism drives, water is taken out the mechanism of drawing water of past eminence, wet pit 4, the described mechanism of drawing water comprises support 31, be located at the impeller shape driving wheel 32 on support 31 tops rotationally, be located at the impeller shape driven wheel 33 of support 31 bottoms rotationally, the line belt 34 of driving wheel 32 and driven wheel 33 is in transmission connection, the wheel shaft of described driving wheel 32 and wind-force driving mechanism are in transmission connection, the periphery of the side line belt 34 between described driving wheel 32 and the driven wheel 33 is provided with water pumping cylinder 35, be provided with a plurality of and water pumping cylinder 35 inwalls on the described line belt 34 evenly distributedly and infinitely approach the piston 36 that draws water that cooperates, described driving wheel 32 shifts to install with the piston 36 that respectively draws water respectively with the impeller blade of driven wheel 33, described driven wheel 33 is located in the outside well, the upper end of described water pumping cylinder 35 offers water outlet 351, and described wet pit 4 is connected with water outlet 351.The top of described wet pit 4 offers overflow 41, and the below of described wet pit 4 is provided with hydroelectric generator 5, and the impeller that described overflow 41 is communicated with hydroelectric generator 5 carries out hydroelectric power to utilize height difference.Described hydroelectric generator 5 is located in the outside well.Described wind-force driving mechanism comprises to be located on the frame 1 rotationally perpendicular to rotatingshaft 21 driving wheel 32 wheel shafts and that be in transmission connection and cooperate with driving wheel 32, be located at the supporting frame 22 that is positioned at the rotatingshaft periphery on the frame 1, be located at rotating turret 23 on the supporting frame 22 rotationally by rotatingshaft 21, be located at the impeller 24 on the rotating turret 23 rotationally, coupling shaft 25, one end and the impeller 24 of described coupling shaft 25 are in transmission connection, the other end and rotatingshaft 21 are in transmission connection, described coupling shaft 25 is perpendicular to rotatingshaft 21, and described rotating turret 23 is provided with for adjusting rotating turret 23 away from an end of impeller 24 and makes rotating turret 23 meet empennage 26 to wind direction.Described driving wheel 32 is provided with first block 321, described support 31 is provided with to cooperate with first block 321 and prevents that driving wheel 32 rotating check devices, described check device from comprising the non-return button piece of being located at rotationally on the support 31 361, second block 362 of being located at non-return button piece 361 1 sides, connecting non-return button piece 361 and support 31 and make the spring 363 that non-return button piece 361 can returning position.

Compare with existing wind energy facility, this wind-force reservoir impoundment power generation device can be realized water storage function, and utilizes piston and cooperating of water pumping cylinder to draw water and improved the efficient of drawing water, and water can not run off in pump process, and it is effective to draw water; Further, utilize overflow to be communicated with the impeller of hydroelectric generator, realize the generating of spilling water, thereby can also generate electricity under the full situation of the wet pit water yield guaranteeing, improved usage ratio of equipment, saved the energy; Further, be provided with check device, realized the same tropism of wind-force running, and also can realize drawing water, generating electricity under the unsettled situation of wind-force, make the stability of equipment better, practicability is stronger.

Although specifically show and introduced the utility model in conjunction with preferred embodiment; but the those skilled in the art should be understood that; in not breaking away from the spirit and scope of the present utility model that appended claims limits; can make a variety of changes the utility model in the form and details, be protection domain of the present utility model.

Claims (6)

1. wind-force reservoir impoundment power generation device, it is characterized in that: comprise frame, be located at the wind-force driving mechanism on the frame rotationally, under the wind-force driving mechanism drives, water is taken out the mechanism of drawing water of past eminence, wet pit, the described mechanism of drawing water comprises support, be located at the impeller shape driving wheel on support top rotationally, be located at the impeller shape driven wheel of support bottom rotationally, the line belt of driving wheel and driven wheel is in transmission connection, the wheel shaft of described driving wheel and wind-force driving mechanism are in transmission connection, the periphery of the side line belt between described driving wheel and the driven wheel is provided with water pumping cylinder, be provided with a plurality of and water pumping cylinder inwall on the described line belt evenly distributedly and infinitely approach the piston that draws water that cooperates, the impeller blade of described driving wheel and driven wheel shifts to install with the piston that respectively draws water respectively, described driven wheel is located in the outside well, the upper end of described water pumping cylinder offers water outlet, and described wet pit is connected with water outlet.

2. wind-force reservoir impoundment power generation device according to claim 1, it is characterized in that: the top of described wet pit offers overflow, the below of described wet pit is provided with hydroelectric generator, and the impeller that described overflow is communicated with hydroelectric generator carries out hydroelectric power to utilize height difference.

3. wind-force reservoir impoundment power generation device according to claim 2, it is characterized in that: described hydroelectric generator is located in the outside well.

4. according to claim 1 or 2 or 3 described wind-force reservoir impoundment power generation devices, it is characterized in that: described wind-force driving mechanism comprise be located at rotationally on the frame perpendicular to the driving wheel wheel shaft and with driving wheel be in transmission connection the rotatingshaft that cooperates, be located at the supporting frame that is positioned at the rotatingshaft periphery on the frame, be located at rotating turret on the supporting frame rotationally, be located at impeller, coupling shaft on the rotating turret rotationally by rotatingshaft, one end and the impeller of described coupling shaft are in transmission connection, the other end and rotatingshaft are in transmission connection, and described coupling shaft is perpendicular to rotatingshaft.

5. wind-force reservoir impoundment power generation device according to claim 4 is characterized in that: described rotating turret is provided with for adjusting rotating turret away from an end of impeller and makes rotating turret meet empennage to wind direction.

6. according to claim 1 or 2 or 3 described wind-force reservoir impoundment power generation devices, it is characterized in that: described driving wheel is provided with first block, described support is provided with to cooperate with first block and prevents that the rotating check device of driving wheel, described check device from comprising the non-return button piece of being located at rotationally on the support, second block of being located at non-return button piece one side, connecting non-return button piece and support and make the spring that non-return button piece can returning position.

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