CN106812678A - A kind of wind energy deep water oxygen increasing machine and its control system - Google Patents

Abstract

The invention discloses a kind of wind energy deep water oxygen increasing machine and its control system, including frame, impeller, impeller axle, ball float and motor, impeller axle it is vertical in frame, impeller axle is provided with the first conical gear, the second conical gear, impeller, the first hollow transverse tube and the second hollow transverse tube from top to bottom；The impeller axle is hollow；The first hollow transverse tube and the second hollow transverse tube middle part are vertical with impeller axle and connected with cavity in impeller axle, and transverse tube is provided with steam vent.Air pump is fixed on upper rack, and air pump is connected by an appendix with impeller axle, and appendix is stretched into impeller axle in cavity；Second roller gear is installed, the second roller gear is engaged with the first roller gear in air pump.The aerator is powered by motor and blower fan, and the access of motor and blower fan is controlled by clutch.The aerator effectively can carry out oxygenation to fish pond bottom, can expand oxygenation area, and save energy, and the control system can allow the working automation of aerator.

Description

A kind of wind energy deep water oxygen increasing machine and its control system

Technical field

The present invention relates to a kind of wind energy deep water oxygen increasing machine and its control system.

Background technology

Dissolved oxygen situation is that influence culturing fish and shrimp food ration and feed eat rear digestibility, and the speed of growth, the key factor of feed coefficient height.It then becomes necessary to have enough oxygen content in ensureing fishpond water.

Existing frequently-used aerator is, by wheel rotation, to evoke spray, allows water to be contacted with the oxygen in air and carrys out oxygenation.But this aerator, can only evoke the water on surface to carry out oxygenation, and the oxygenation effect at pool bottom is bad.And the oxygenation area of aerator is small, impeller can only evoke the water near impeller, if fish pond area is big to be accomplished by setting multiple aerators.

The content of the invention

It is an object of the invention to：For above-mentioned problem, there is provided a kind of wind energy deep water oxygen increasing machine and its control system, the aerator effectively can carry out oxygenation to fish pond bottom, can expand oxygenation area, and save energy, and the control system can allow the working automation of aerator.

The technical solution adopted by the present invention is as follows：

The invention discloses a kind of wind energy deep water oxygen increasing machine, including frame, impeller, impeller axle, ball float and motor, impeller axle it is vertical in frame, impeller axle is provided with the first conical gear, the second conical gear, impeller, the first hollow transverse tube and the second hollow transverse tube from top to bottom；The impeller axle is hollow, cavity in having in it, upper end open, lower end sealing；

The first hollow transverse tube and the second hollow transverse tube middle part are vertical with impeller axle and connected with cavity in impeller axle, hollow transverse tube closed at both ends, and the first hollow transverse tube and the second hollow transverse tube are arranged at an angle of 90；First hollow transverse tube and the second hollow transverse tube are provided with some steam vents, and rectangular paddle is additionally provided with cross bar；The blade face of rectangular paddle is parallel with transverse tube and impeller axle；

First power transmission shaft from left to right, is sequentially connected the 3rd conical gear, the first roller gear and first clutch left end；First power transmission shaft is arranged in frame by bearing；

Second driving shaft from left to right, is sequentially connected first clutch right-hand member, and gear case of blower, fan blade is connected on gear case of blower；

3rd power transmission shaft left end connects the 4th conical gear, right-hand member connection second clutch left end；3rd power transmission shaft is arranged in frame by bearing；

Motor output shaft left end connects second clutch right-hand member, and right-hand member connection motor, motor is fixed in frame；

Air pump is fixed on upper rack, and air pump is connected by an appendix with impeller axle, and appendix is stretched into impeller axle in cavity；Second roller gear is installed, the second roller gear is engaged with the first roller gear in air pump.

Battery and ball float are also equipped with the frame；The ball float has 4, is respectively symmetrically and is uniformly fixed on frame surrounding, for supporting whole aerator to swim in the water surface.

Due to said structure, the wind energy deep water oxygen increasing machine can be driven using blower fan and motor drives two ways.When the oxygenation by the way of blower fan drive, first clutch closure, second clutch disconnects, and blower fan drives the 3rd conical gear to rotate, and the first conical gear is engaged with the 3rd conical gear, and impeller axle is rotated, so that impeller and the first, the second transverse tube are rotated.Because the first roller gear and the second roller gear are engaged, therefore the power that air pump is also produced by blower fan drives, and then to air is injected in impeller axle and first, second hollow transverse tube, it is then by the steam vent on hollow transverse tube, air is soluble in water.When being driven using motor, then first clutch is disconnected, and second clutch closure, the 4th conical gear is rotated, and drives the second conical gear, so that impeller, the first, the second hollow cross bar are rotated and air pump work.

Because using air pump, to injecting air in hollow transverse tube, hollow transverse tube stretches into the bottom, air by the steam vent on hollow transverse tube with it is soluble in water, so can be good at solving the problems, such as fish pond bottom dissolved oxygen deficiency.And the diameter of hollow tube is significantly larger than impeller diameter, can so increase the oxygenation area in fish pond.Meanwhile, the blade on hollow transverse tube can drive the water of fish pond bottom to flow, and increase dissolved oxygen efficiency.By the way of wind-force drive, energy can be saved, oxygenation at any time can be accomplished.Avoid artificially forgetting the generation of oxygenation.

Further, the gear-box is fixed in frame, and low-speed gear and high gear are provided with gear-box；High gear is engaged with low-speed gear, and high gear is connected with second driving shaft, and low-speed gear is connected with fan blade.

Further, generator is installed, the generator is engaged by generator gear with high gear in the gear-box；Generator is connected with lifting voltage rectifier, energy supply control module and battery successively；After generator transforms wind energy into electric energy, energy supply control module is given by electric energy by boost rectifying circuit, electric energy is given battery by energy supply control module again, and then battery is charged；The battery is used for the power supply of motor and control system.

Due to said structure, wind-force can be good at application.It is not only able to drive the work of wind energy deep water oxygen increasing machine, moreover it is possible to for battery charges, reached the purpose of energy-conservation.

Further, the wind energy deep water oxygen increasing machine control system is by MCU, energy supply control module, first clutch control module, second clutch control module, motor drive block, wind speed measurement module, measurement of oxygen content module composition；

The energy supply control module is used to detect the electricity of battery, and the electricity that will be detected is sent to MCU in the form of analog quantity, while also receive the feedback information of MCU, for generator to the charge control of battery；

The first clutch control module and second clutch control module receive the signal that MCU sends, for first clutch and the folding control of second clutch；

The motor drive module receives the signal that MUC sends, for the start-up and shut-down control of motor；

The wind speed measurement module is used to detect wind speed, and the wind speed that will be detected is sent to MCU in the form of analog quantity.

Due to said structure, the startup aerator that control system can be at any time carries out oxygenation, and switching aerator that can be at any time working condition.The control system ensure that fish pond oxygen content, and can to greatest extent carry out energy-conservation.

Further, the step of aerator control method is as follows：

（1）During not oxygenation, first clutch is in closure state, and second clutch is off, and the automated randomized oxygen supply of aerator is driven by wind-force, meanwhile, generator transforms wind energy into electric energy for battery charges；

（2）The battery electric quantity signal that energy supply control module will be detected is sent to MCU, and MCU is after processing, then control signal is fed back into energy supply control module, and as electricity Q=100%, battery disconnects and charging；When electricity Q≤80%, battery charges；

（3）The fish pond water oxygen level information of detection is sent to MCU by measurement of oxygen content module, MUC by after treatment, judge aerator whether active oxygenation；As oxygen content C<During 5mg/L, aerator carries out active oxygenation；As oxygen content C >=5mg/L, aerator does not carry out active oxygenation；

（4）The mode of active oxygenation is divided into two kinds of wind power oxygenation and motor oxygenation；

The wind velocity signal of detection is sent to MCU by wind speed measurement module, and MCU is by selecting active oxygenation pattern after treatment；

As wind speed V >=3m/s, using wind power oxygenation pattern；MCU sends control signals to first clutch control module, first clutch is in closure state；MCU sends control signals to second clutch, is off second clutch；

As wind speed V<During 3m/s, using motor oxygenation pattern, MCU sends control signals to first clutch control module, is off first clutch；MCU sends control signals to second clutch, second clutch is in closure state；MCU sends control signals to motor drive module, rotates motor；

Further, after the motor oxygenation pattern starts, the motor working time have to be larger than 5min；If after 5min, wind speed V >=3m/s could use wind power oxygenation pattern；As wind speed V<During 3m/s, to be again started up motor oxygenation pattern, motor must can just be again started up after last time shutdown 2min.

Due to above-mentioned control method, it is to ensure the life-span of motor to make limitation to working time of motor, it is to avoid motor short time frequent starting and damage motor.

In sum, by adopting the above-described technical solution, the beneficial effects of the invention are as follows：

1st, present invention employs hollow transverse tube, aeration in deep water can be effectively solved the problems, such as, while the area of oxygenation can be increased.

2nd, the present invention is driven using blower fan, can be good at carrying out energy-conservation, and wind-force can be used for the power supply of battery.

3rd, the startup aerator that control system of the invention can be at any time carries out oxygenation, and switching aerator that can be at any time working condition.The control system ensure that fish pond oxygen content, and can to greatest extent carry out energy-conservation.

Brief description of the drawings

Fig. 1 is structure chart of the invention；

Fig. 2 is system authority of the invention；

Marked in figure：1- frames, 2- appendixs, 3- air pumps, the conical gears of 4- the 3rd, the roller gears of 5- second, the roller gears of 6- first, 7- first clutches, 8- gear case of blower, 9- fan blades, 10- second clutches, 11- motors, 12- impellers, the hollow cross bars of 13- second, the hollow transverse tubes of 14- first, 15- rectangular paddles, 16- ball floats, 17- second bores stud wheel, the roller gears of 18- the 4th, 19- impeller axles, the conical gears of 20- first, the power transmission shafts of 21- first, 22- second driving shafts, the power transmission shafts of 23- the 3rd.

Specific embodiment

Below in conjunction with the accompanying drawings, the present invention is described in detail.

In order to make the purpose , technical scheme and advantage of the present invention be clearer, below in conjunction with drawings and Examples, the present invention will be described in further detail.It should be appreciated that the specific embodiments described herein are merely illustrative of the present invention, it is not intended to limit the present invention.

Specific embodiment 1：

As shown in Figure 1-2, the invention discloses a kind of wind energy deep water oxygen increasing machine, including frame 1, impeller 12, impeller axle 19, ball float 16 and motor 11, impeller axle 19 it is vertical in frame 1, impeller axle 19 is provided with the first conical gear 20, the second conical gear 17, impeller 12, the first hollow transverse tube 14 and the second hollow transverse tube 13 from top to bottom；The impeller axle 19 is hollow, cavity in having in it, upper end open, lower end sealing；

The first hollow transverse tube 14 and the middle part of the second hollow transverse tube 13 are vertical with impeller axle 19 and connected with cavity in impeller axle 19, hollow transverse tube closed at both ends, and the first hollow transverse tube 14 and the second hollow transverse tube 13 are arranged at an angle of 90；First hollow transverse tube 14 and the second hollow transverse tube 13 are provided with some steam vents, and rectangular paddle 15 is additionally provided with cross bar；The blade face of rectangular paddle 15 is parallel with transverse tube and impeller axle 19；

First power transmission shaft 21 from left to right, is sequentially connected the 3rd conical gear 4, the first roller gear 6 and the left end of first clutch 7；First power transmission shaft is arranged in frame 1 by bearing；

Second driving shaft 22 from left to right, is sequentially connected the right-hand member of first clutch 7, and the case of blower fan gear 8, fan blade 9 is connected on gear case of blower 8；

The left end of 3rd power transmission shaft 23 connects the 4th conical gear 18, the right-hand member connection left end of second clutch 10；3rd power transmission shaft 23 is arranged in frame 1 by bearing；

Motor output shaft left end connects the right-hand member of second clutch 10, and right-hand member connection motor 11, motor 11 is fixed in frame 1；

Air pump 3 is fixed on the top of frame 1, and air pump 3 is connected by an appendix 2 with impeller axle 19, and appendix 2 is stretched into impeller axle 19 in cavity；Second roller gear 4 is installed, the second roller gear 4 is engaged with the first roller gear 6 in air pump 3.

Battery and ball float 16 are also equipped with the frame 1；The ball float 16 has 4, is respectively symmetrically and is uniformly fixed on the surrounding of frame 1, for supporting whole aerator to swim in the water surface.

Further, the gear-box 8 is fixed in frame 1, and low-speed gear and high gear are provided with gear-box 8；High gear is engaged with low-speed gear, and high gear is connected 22 with second driving shaft, and low-speed gear is connected with fan blade 9.

Further, generator is installed in the gear-box 8, the generator is engaged by generator gear with high gear；Generator is connected with lifting voltage rectifier, energy supply control module and battery successively；After generator transforms wind energy into electric energy, energy supply control module is given by electric energy by boost rectifying circuit, electric energy is given battery by energy supply control module again, and then battery is charged；The battery is used for the power supply of motor and control system.

Further, the wind energy deep water oxygen increasing machine control system is by MCU, energy supply control module, first clutch control module, second clutch control module, motor drive block, wind speed measurement module, measurement of oxygen content module composition；

The energy supply control module is used to detect the electricity of battery, and the electricity that will be detected is sent to MCU in the form of analog quantity, while also receive the feedback information of MCU, for generator to the charge control of battery；

The first clutch control module and second clutch control module receive the signal that MCU sends, for first clutch and the folding control of second clutch；

The motor drive module receives the signal that MUC sends, for the start-up and shut-down control of motor；

The wind speed measurement module is used to detect wind speed, and the wind speed that will be detected is sent to MCU in the form of analog quantity.

Further, the step of aerator control method is as follows：

（1）During not oxygenation, first clutch 7 is in closure state, and second clutch 10 is off, and the automated randomized oxygen supply of aerator is driven by wind-force, meanwhile, generator transforms wind energy into electric energy for battery charges；

（2）The battery electric quantity signal that energy supply control module will be detected is sent to MCU, and MCU is after processing, then control signal is fed back into energy supply control module, and as electricity Q=100%, battery disconnects and charging；When electricity Q≤80%, battery charges；

（3）The fish pond water oxygen level information of detection is sent to MCU by measurement of oxygen content module, MUC by after treatment, judge aerator whether active oxygenation；As oxygen content C<During 5mg/L, aerator carries out active oxygenation；As oxygen content C >=5mg/L, aerator does not carry out active oxygenation；

（4）The mode of active oxygenation is divided into two kinds of wind power oxygenation and motor oxygenation；

The wind velocity signal of detection is sent to MCU by wind speed measurement module, and MCU is by selecting active oxygenation pattern after treatment；As wind speed V >=3m/s, using wind power oxygenation pattern；MCU sends control signals to first clutch control module, first clutch 7 is in closure state；MCU sends control signals to second clutch, is off second clutch 10；

As wind speed V<During 3m/s, using motor oxygenation pattern, MCU sends control signals to first clutch control module, is off first clutch 7；MCU sends control signals to second clutch, second clutch 10 is in closure state；MCU sends control signals to motor drive module, rotates motor 11；

Further, after the motor oxygenation pattern starts, the working time of motor 11 have to be larger than 5min；If after 5min, wind speed V >=3m/s could use wind power oxygenation pattern；As wind speed V<During 3m/s, to be again started up motor oxygenation pattern, motor 11 must can just be again started up after last time shutdown 2min.

Presently preferred embodiments of the present invention is the foregoing is only, is not intended to limit the invention, all any modification, equivalent and improvement made within the spirit and principles in the present invention etc. should be included within the scope of the present invention.

Claims (6)

1. a kind of wind energy deep water oxygen increasing machine, including frame, impeller, impeller axle, ball float and motor, it is characterized in that, impeller axle it is vertical in frame, impeller axle is provided with the first conical gear, the second conical gear, impeller, the first hollow transverse tube and the second hollow transverse tube from top to bottom；The impeller axle is hollow, cavity in having in it, upper end open, lower end sealing；

The first hollow transverse tube and the second hollow transverse tube middle part are vertical with impeller axle and connected with cavity in impeller axle, hollow transverse tube closed at both ends, and the first hollow transverse tube and the second hollow transverse tube are arranged at an angle of 90；First hollow transverse tube and the second hollow transverse tube are provided with some steam vents, and rectangular paddle is additionally provided with cross bar；The blade face of rectangular paddle is parallel with transverse tube and impeller axle；

First power transmission shaft from left to right, is sequentially connected the 3rd conical gear, the first roller gear and first clutch left end；First power transmission shaft is arranged in frame by bearing；

Second driving shaft from left to right, is sequentially connected first clutch right-hand member, and gear case of blower, fan blade is connected on gear case of blower；

3rd power transmission shaft left end connects the 4th conical gear, right-hand member connection second clutch left end；3rd power transmission shaft is arranged in frame by bearing；

Motor output shaft left end connects second clutch right-hand member, and right-hand member connection motor, motor is fixed in frame；

Air pump is fixed on upper rack, and air pump is connected by an appendix with impeller axle, and appendix is stretched into impeller axle in cavity；Second roller gear is installed, the second roller gear is engaged with the first roller gear in air pump；

Battery and ball float are also equipped with the frame；The ball float has 4, is respectively symmetrically and is uniformly fixed on frame surrounding, for supporting whole aerator to swim in the water surface.

2. wind energy deep water oxygen increasing machine according to claim 1, it is characterized in that, the gear-box is fixed in frame, and low-speed gear and high gear are provided with gear-box；High gear is engaged with low-speed gear, and high gear is connected with second driving shaft, and low-speed gear is connected with fan blade.

3. wind energy deep water oxygen increasing machine according to claim 1 and 2, it is characterized in that, generator is installed in the gear-box, the generator is engaged by generator gear with high gear；Generator is connected with lifting voltage rectifier, energy supply control module and battery successively；After generator transforms wind energy into electric energy, energy supply control module is given by electric energy by boost rectifying circuit, electric energy is given battery by energy supply control module again, and then battery is charged；The battery is used for the power supply of motor and control system.

4. the wind energy deep water oxygen increasing machine control system according to claim 1 or 2 or 3, it is characterized in that, the aerator control system is by MCU, energy supply control module, first clutch control module, second clutch control module, motor drive block, wind speed measurement module, measurement of oxygen content module composition；

The energy supply control module is used to detect the electricity of battery, and the electricity that will be detected is sent to MCU in the form of analog quantity, while also receive the feedback information of MCU, for generator to the charge control of battery；

The first clutch control module and second clutch control module receive the signal that MCU sends, for first clutch and the folding control of second clutch；

The motor drive module receives the signal that MUC sends, for the start-up and shut-down control of motor；

The wind speed measurement module is used to detect wind speed, and the wind speed that will be detected is sent to MCU in the form of analog quantity.

5. the control method of wind energy deep water oxygen increasing machine control system according to claim 4, it is characterized in that, it is as follows the step of the aerator control method：

（1）During not oxygenation, first clutch is in closure state, and second clutch is off, and the automated randomized oxygen supply of aerator is driven by wind-force, meanwhile, generator transforms wind energy into electric energy for battery charges；

（2）The battery electric quantity signal that energy supply control module will be detected is sent to MCU, and MCU is after processing, then control signal is fed back into energy supply control module, and as electricity Q=100%, battery disconnects and charging；When electricity Q≤80%, battery charges；

（3）The fish pond water oxygen level information of detection is sent to MCU by measurement of oxygen content module, MUC by after treatment, judge aerator whether active oxygenation；As oxygen content C<During 5mg/L, aerator carries out active oxygenation；As oxygen content C >=5mg/L, aerator does not carry out active oxygenation；

（4）The mode of active oxygenation is divided into two kinds of wind power oxygenation and motor oxygenation；

The wind velocity signal of detection is sent to MCU by wind speed measurement module, and MCU is by selecting active oxygenation pattern after treatment；

As wind speed V >=3m/s, using wind power oxygenation pattern；MCU sends control signals to first clutch control module, first clutch is in closure state；MCU sends control signals to second clutch, is off second clutch；

As wind speed V<During 3m/s, using motor oxygenation pattern, MCU sends control signals to first clutch control module, is off first clutch；MCU sends control signals to second clutch, second clutch is in closure state；MCU sends control signals to motor drive module, rotates motor.

6. the control method of wind energy deep water oxygen increasing machine according to claim 5, it is characterized in that, after the motor oxygenation pattern starts, the motor working time have to be larger than 5min；If after 5min, wind speed V >=3m/s could use wind power oxygenation pattern；As wind speed V<During 3m/s, to be again started up motor oxygenation pattern, motor must can just be again started up after last time shutdown 2min.