CN109958580A - A kind of energy-saving building wind generator system - Google Patents

Abstract

A kind of energy-saving building wind generator system, it includes several building roof wind-tunnel, several wind power generating sets in the building roof wind-tunnel are arranged in equidistant arranged distribution, charge controller, battery group, inverter and cable, the wind power generating set, the charge controller, the battery group passes through the cable series connection with the inverter respectively and connects, ultrasonic wind speed sensor and shift device are installed in each wind power generating set, the ultrasonic wind speed sensor is electrically connected the shift device and triggers the shift device movement, each wind power generating set also passes through the shift device and is sequentially connected with air compressor.The energy-saving building wind generator system has the advantages that design science, raising wind energy utilization, reduction wind power generating set low-power consumption, service life are higher, more energy efficient.

Description

A kind of energy-saving building wind generator system

Technical field

The present invention relates to field of energy-saving technology, specifically, are related to a kind of energy-saving building wind generator system.

Background technique

Wind energy is a kind of reproducible clean natural energy resources, since traditional chemical energy source is increasingly reduced, and can not Regeneration, therefore, there is an urgent need to find the new reproducible stable energy and improved utilization to natural energy resources.Wind energy is general For generating electricity, wind power generation plant space occupied is big, and building roof is capable of providing more wind-power electricity generation space, however wind energy is It is unstable, it is also unable to control, generated output is too low at low wind speeds for wind power generation plant, far smaller than wind power generation plant Rated power both caused to be lost to wind-driven generator, and the service life is low, and utilized generation waste to wind energy.

In order to solve the above problems, people are seeking always a kind of ideal technical solution.

Summary of the invention

The purpose of the present invention is in view of the deficiencies of the prior art, thus provide a kind of design science, improve wind energy utilization, Reduce wind power generating set low-power consumption, the energy-saving building wind generator system that the service life is higher, more energy efficient.

To achieve the goals above, the technical scheme adopted by the invention is that: a kind of energy-saving building wind generator system, It includes several wind-driven generators that several building roof wind-tunnel, equidistant arranged distribution are arranged in the building roof wind-tunnel Group, charge controller, battery group, inverter and cable, the wind power generating set, the charge controller, the electric power storage Inverter described in Chi Zuhe passes through the cable series connection respectively and connects, and ultrasonic wind speed sensing is equipped in each wind power generating set Device and shift device, the ultrasonic wind speed sensor are electrically connected the shift device and trigger the gear change Device action, each wind power generating set are sequentially connected with air compressor by the shift device.

Described on base, the wind power generating set includes windmill steel tower, wind mill rotor blade, windmill cabin, booster engine, tune Fast mechanism and generator, the windmill steel tower are fixed in the building roof wind-tunnel, the ultrasonic wind speed sensor It installs on the windmill steel tower, the top of the windmill steel tower is equipped with wind-power electricity generation rack, before the wind-power electricity generation rack End is equipped with bearing block, rotating shaft is equipped in the bearing block, the wind mill rotor blade is mounted on the rotating shaft, institute The rear end that windmill cabin is mounted on the wind-power electricity generation rack is stated, the booster engine, the speed adjusting gear and the generator are equal It is mounted in the windmill cabin, the tail end of the rotating shaft is sequentially connected the speedup respectively by the shift device Machine and the air compressor, the output end transmission connection speed adjusting gear of the booster engine, the output of the speed adjusting gear The end transmission connection generator, the generator, the charge controller, the battery group and the inverter lead to respectively The cable is crossed to be sequentially connected in series.

Described on base, the shift device includes oil cylinder, solenoid valve, oil cylinder controller, the first vertical guide rail, second Vertical guide rail, sliding are in the second cunning of the first sliding block, sliding on second vertical guide rail on first vertical guide rail Block, the first gear being mounted on first sliding block and the second gear being mounted on second sliding block, described first hangs down The corresponding underface being fixed between the tail end of the rotating shaft and the active shaft end of the booster engine of straight guide, described the Two vertical guide rails are corresponding be fixed between the tail end of the rotating shaft and the active shaft end of the air compressor just under Side, the first gear first sliding block drives lower slider to first vertical guide rail top and the rotating shaft Tail end and the active shaft end of the booster engine homogeneously engage, the second gear second sliding block drive lower slider extremely The top of second vertical guide rail is homogeneously engaged with the active shaft end of the tail end of the rotating shaft and the air compressor, institute It states ultrasonic wind speed sensor to connect the oil cylinder controller and trigger the oil cylinder controller action, the oil cylinder controller connects The solenoid valve is connect to control the switch of the solenoid valve, the solenoid valve is arranged on the oil pipe pipeline of the oil cylinder to control The cylinder action, the oil cylinder drive first sliding block to slide up and down along first vertical guide rail, while described in driving Second sliding block upper sliding, first sliding block under second vertical guide rail reversely link with second sliding block.

Described on base, the air compressor is piston compressor.

Described on base, the wind power generating set is also connected with lightning protection device to protect the wind power generating set.

The present invention has substantive distinguishing features outstanding and significant progress compared with the prior art, specifically, of the invention Wind speed in building roof wind-tunnel described in the ultrasonic wind speed sensor real-time monitoring, the shift device is according to wind speed It is acted, low wind speeds make the tail end of the rotating shaft be sequentially connected the master of the air compressor by the second gear Moving axis end is stored into the wind energy of low wind speed in the air compressor, and the air compressor can be applied to building In central air conditioner system, wind energy utilization is improved, wind generator system is more energy efficient；Wind speed reaches/is higher than the wind-driven generator When the incision wind speed of group requires, the tail end of the rotating shaft is made to be sequentially connected the active of the booster engine by the first gear Shaft end, the booster engine are driven the speed adjusting gear, and the speed adjusting gear is driven the generator, the generator operation hair Electricity, under the wind speed, it is ensured that the generated output of the wind power generating set reaches power rating requirements, to reduce the hair The loss of motor and the charge controller under low generated output, service life are higher.

Further, the lightning protection device avoids wind-power electricity generation described in thundery sky for protecting the wind power generating set Unit is damaged by thunder and lightning.

Its with design science, improve that wind energy utilization, to reduce wind power generating set low-power consumption, service life higher, more The advantage of energy conservation.

Detailed description of the invention

Fig. 1 is structural schematic diagram of the invention.

In figure: 1. charge controllers；2. battery group；3. inverter；4. cable；5. ultrasonic wind speed sensor； 6. shift device；7. air compressor；8. windmill steel tower；9. wind mill rotor blade；10. windmill cabin；11. increasing Fast machine；12. speed adjusting gear；13. generator；14. wind-power electricity generation rack；15. bearing block；16. rotating shaft.

Specific embodiment

Below by specific embodiment, technical scheme of the present invention will be described in further detail.

As shown in Figure 1, a kind of energy-saving building wind generator system, it includes several building roof wind-tunnel, equidistant row Several wind power generating sets, charge controller 1, battery group 2, inverter in the building roof wind-tunnel is arranged in column distribution 3 and cable 4, the wind power generating set, the charge controller 1, the battery group 2 and the inverter 3 pass through respectively The cable 4 is connected in series, and is equipped with ultrasonic wind speed sensor 5 and shift device 6 in each wind power generating set, described Ultrasonic wind speed sensor 5 is electrically connected the shift device 6 and triggers the shift device 6 and acts, each wind-force hair Motor group is sequentially connected with air compressor 7 by the shift device 6.

The wind power generating set includes windmill steel tower 8, wind mill rotor blade 9, windmill cabin 10, booster engine 11, speed regulation Mechanism 12 and generator 13, the windmill steel tower 8 are fixed in the building roof wind-tunnel, the ultrasonic wind speed sensing Device 5 is installed on the windmill steel tower 8, and the top of the windmill steel tower 8 is equipped with wind-power electricity generation rack 14, the wind-driven generator The front end of frame 14 is equipped with bearing block 15, and rotating shaft 16 is equipped in the bearing block 15, and the wind mill rotor blade 9 is mounted on On the rotating shaft 16, the windmill cabin 10 is mounted on the rear end of the wind-power electricity generation rack 14, the booster engine 11, described Speed adjusting gear 12 and the generator 13 are installed in the windmill cabin 10, and the tail end of the rotating shaft 16 passes through the tooth Round transformation device 6 is sequentially connected the booster engine 11 and the air compressor 7 respectively, the output end transmission of the booster engine 11 Connect the speed adjusting gear 12, the output end transmission connection generator 13 of the speed adjusting gear 12, the generator 13, institute Charge controller 1, the battery group 2 and the inverter 3 is stated to be sequentially connected in series by the cable 4 respectively.

The shift device 6 is vertically led including oil cylinder, solenoid valve, oil cylinder controller, the first vertical guide rail, second Rail, sliding are in the first sliding block on first vertical guide rail, the second sliding block slided on second vertical guide rail, installation In the first gear on first sliding block and the second gear being mounted on second sliding block, first vertical guide rail pair It should be fixed at the underface between the tail end of the rotating shaft 16 and the active shaft end of the booster engine 11, described second hangs down Straight guide is corresponding be fixed between the tail end of the rotating shaft 16 and the active shaft end of the air compressor 7 just under Side, the first gear first sliding block drives lower slider to first vertical guide rail top and the rotating shaft The active shaft end of 16 tail end and the booster engine 11 is homogeneously engaged, and the second gear glides in the drive of second sliding block It moves homogeneous to the top of second vertical guide rail and the tail end of the rotating shaft 16 and the active shaft end of the air compressor 7 Engagement, the ultrasonic wind speed sensor 5 connect the oil cylinder controller and trigger the oil cylinder controller action, the oil cylinder Controller connects the solenoid valve to control the switch of the solenoid valve, and the oil pipe pipeline of the oil cylinder is arranged in the solenoid valve On to control the cylinder action, the oil cylinder drives first sliding block to slide up and down along first vertical guide rail, simultaneously Second sliding block upper sliding, first sliding block under second vertical guide rail is driven reversely to join with second sliding block It is dynamic.

The air compressor 7 is piston compressor.

The wind power generating set is also connected with lightning protection device to protect the wind power generating set.

The working process and principle of energy-saving building wind generator system of the invention: the ultrasonic wind speed sensor 5 Wind speed in building roof wind-tunnel described in real-time monitoring, the oil cylinder controller are believed according to the monitoring of ultrasonic wind speed sensor 5 Number control cylinder action, the low wind speeds, the second gear upward sliding to the top of second vertical guide rail Homogeneously engaged with the active shaft end of the tail end of the rotating shaft 16 and the air compressor 7, the corresponding first gear to For lower slider to the end of first vertical guide rail, the wind mill rotor blade 9 drives the rotating shaft 16 slow at low wind speeds Slow-speed is dynamic, and the tail end of the rotating shaft 16 is driven the active shaft end of the air compressor 7, arrives the wind energy storage under low wind speed In the air compressor 7, the air compressor 7 be can be applied in the central air conditioner system of building, improve wind energy utilization Rate, wind generator system are more energy efficient；When wind speed reaches/is higher than the incision wind speed requirement of the wind power generating set, described first Gear upward sliding to the top of first vertical guide rail and the tail end and the booster engine 11 of the rotating shaft 16 active Shaft end is meshed, and the corresponding second gear slides down to the end of second vertical guide rail, the wind mill rotor Blade 9 drives 16 high-speed rotation of rotating shaft under the wind speed, and the tail end of the rotating shaft 16 is driven the booster engine 11 Active shaft end, the booster engine 11 are driven the speed adjusting gear 12, and the speed adjusting gear 12 is driven the generator 13, the hair The operating power generation of motor 13, under the wind speed, it is ensured that the generated output of the wind power generating set reaches power rating requirements, from And reducing the loss of the generator 13 and the charge controller 1 under low generated output, the service life is higher；The lightning protection device For protecting the wind power generating set, wind power generating set described in thundery sky is avoided to damage by thunder and lightning.

Finally it should be noted that: the above embodiments are merely illustrative of the technical scheme of the present invention and are not intended to be limiting thereof；To the greatest extent The present invention is described in detail with reference to preferred embodiments for pipe, it should be understood by those ordinary skilled in the art that: still It can modify to a specific embodiment of the invention or some technical features can be equivalently replaced；Without departing from this hair The spirit of bright technical solution should all cover within the scope of the technical scheme claimed by the invention.

Claims (5)

1. a kind of energy-saving building wind generator system, it is characterised in that: it includes several building roof wind-tunnel, equidistant arrangement It is distributed several wind power generating sets, charge controller, battery group, inverter and the electricity being arranged in the building roof wind-tunnel Cable, the wind power generating set, the charge controller, the battery group and the inverter pass through the cable string respectively Connection connects, and ultrasonic wind speed sensor and shift device are equipped in each wind power generating set, and the ultrasonic wind speed passes Sensor is electrically connected the shift device and triggers the shift device movement, and each wind power generating set passes through the tooth Round transformation device is sequentially connected with air compressor.

2. energy-saving building wind generator system according to claim 1, it is characterised in that: the wind power generating set packet Include windmill steel tower, wind mill rotor blade, windmill cabin, booster engine, speed adjusting gear and generator, the windmill steel tower fixed setting In the building roof wind-tunnel, the ultrasonic wind speed sensor is installed on the windmill steel tower, the top of the windmill steel tower End is equipped with wind-power electricity generation rack, and the front end of the wind-power electricity generation rack is equipped with bearing block, is equipped with back in the bearing block Shaft, the wind mill rotor blade are mounted on the rotating shaft, and the windmill cabin is mounted on the wind-power electricity generation rack Rear end, the booster engine, the speed adjusting gear and the generator are installed in the windmill cabin, the tail of the rotating shaft End is sequentially connected the booster engine and the air compressor respectively by the shift device, the output of the booster engine End is sequentially connected the speed adjusting gear, and the output end of the speed adjusting gear is sequentially connected the generator, the generator, described Charge controller, the battery group and the inverter pass through the cable respectively and are sequentially connected in series.

3. energy-saving building wind generator system according to claim 2, it is characterised in that: the shift device packet Oil cylinder, solenoid valve, oil cylinder controller, the first vertical guide rail, the second vertical guide rail, sliding are included on first vertical guide rail First sliding block, sliding on second vertical guide rail the second sliding block, the first gear that is mounted on first sliding block and The second gear being mounted on second sliding block, the corresponding tail end for being fixed at the rotating shaft of first vertical guide rail Underface between the active shaft end of the booster engine, the second vertical guide rail correspondence are fixed at the rotating shaft Underface between tail end and the active shaft end of the air compressor, the first gear is under the drive of first sliding block The top for sliding into first vertical guide rail is homogeneously engaged with the active shaft end of the tail end of the rotating shaft and the booster engine, The second gear is on top and the rotating shaft of the drive lower slider to second vertical guide rail of second sliding block The active shaft end of tail end and the air compressor is homogeneously engaged, and the ultrasonic wind speed sensor connects the oil cylinder controller And the oil cylinder controller action is triggered, the oil cylinder controller connects the solenoid valve to control the switch of the solenoid valve, The solenoid valve is arranged on the oil pipe pipeline of the oil cylinder to control the cylinder action, and the oil cylinder driving described first is sliding Block is slided up and down along first vertical guide rail, while driving second sliding block upper sliding under second vertical guide rail, First sliding block reversely links with second sliding block.

4. energy-saving building wind generator system according to claim 3, it is characterised in that: the air compressor is to live Plug compressor.

5. energy-saving building wind generator system according to claim 4, it is characterised in that: the wind power generating set is also It is connected with lightning protection device.