CN108317043A - Wind-force photoelectricity driving device - Google Patents

Abstract

The present invention relates to a kind of wind-force photoelectricity driving devices, it includes a wind force driving device, one hydraulic pressure managing device, one solar cell array, one management and control module, one first hydraulic motor, one unilateral bearing, one motor generator and an application apparatus, the hydraulic pressure managing device is connected with the wind force driving device, the solar cell array is electrically connected by the management and control module and the hydraulic pressure managing device, the unilateral bearing is connected with first hydraulic motor, the motor generator is connected with the unilateral bearing, and the motor generator is electrically connected with the management and control module, the application apparatus is electrically connected with the motor generator；Wind force driving device is integrated into a system with the solar cell array as a result, and wind-force is allowed to form complementary effect with solar energy.

Description

Wind-force photoelectricity driving device

Technical field

The present invention relates to a kind of driving device, espespecially a kind of wind-force photoelectricity driving device.

Background technology

The existing energy is broadly divided into non-green such as thermal power generation or the nuclear energy of capable of generating electricity with green energy, non-green energy according to origin classification Power generation etc., thermal power generation need fire coal, and the exhaust gas such as sulfur dioxide can be generated in coal-fired process, and be easy to cause the dirt in air Haze, and then lead to air pollution, the nuke rubbish of nuclear energy power generation has its degree of difficulty on storage, can if nuclear waste storage is improper Permanent injury can be caused to environment, therefore, green can generate electricity is gradually then big well-established and is gradually universal.

However, green can generate electricity has its unpredictability, as solar power generation or wind-power electricity generation all have its limitation, solar energy hair Electricity can not be operated at cloudy day and rainy day, and wind-power electricity generation can not operate under no wind regime, therefore existing green energy power generation is sincere There is improved necessity.

Invention content

For solve it is existing it is green can be about the defect for having its unpredictability, the present invention is mainly providing a kind of wind-force photoelectricity Driving device conducts hydraulic oil by conduct energy by variable flow pump, the wind-driven generator is allowed not influenced by wind direction, and The problem of not overloading, and the wind force driving device and the solar cell array are integrated into a system, allows wind-force and solar energy Form complementary effect.

The present invention solves the wind-force photoelectricity driving device that prior art problem is proposed comprising：

One wind force driving device, the wind force driving device include a wind-driven generator, a variable flow pump and a hydraulic pressure Fuel tank, the variable flow pump are installed on inside the wind-driven generator, which is set to the bottom of the wind-driven generator, and It is connected with the variable flow pump by a connecting line；

One hydraulic pressure managing device, the hydraulic pressure managing device are connected with the variable flow pump, and the hydraulic pressure managing device with The hydraulic oil container is connected；

One solar cell array；

One management and control module, wherein the solar cell array is electrically connected by the management and control module and the hydraulic pressure managing device；

One first hydraulic motor, first hydraulic motor are connected with the hydraulic pressure managing device；

One unilateral bearing, the unilateral bearing are connected with first hydraulic motor；

One motor generator, the motor generator are connected with the unilateral bearing, and the motor generator and the management and control mould Block is electrically connected；And

One application apparatus, the application apparatus are electrically connected with the motor generator.

Wind-force photoelectricity driving device above-mentioned, wherein the axle center phase of the shell of the unilateral bearing and first hydraulic motor In conjunction with the axle center of the motor generator is arranged in the shell side of the unilateral bearing.

Wind-force photoelectricity driving device above-mentioned, wherein the motor generator is one without frame motor, and the unilateral bearing is then It is set to the inside of the motor generator.

Wind-force photoelectricity driving device above-mentioned, wherein the management and control module includes a hydraulic control module and an automatically controlled mould Block, the hydraulic control module are electrically connected with the hydraulic pressure managing device, and the motor generator is electrically connected with the electronic control module.

Wind-force photoelectricity driving device above-mentioned, wherein the wind-force photoelectricity driving device includes one second hydraulic motor, this Two hydraulic motors are connected with the hydraulic pressure managing device.

Wind-force photoelectricity driving device above-mentioned, wherein the wind-force photoelectricity driving device includes a direct driving machine device hydraulic pressure Cylinder, this directly drives Machine hydraulic cylinder and is connected with the hydraulic pressure managing device.

Effect obtained by the technological means of the present invention, which is promoted, includes：

1. the wind force driving device and the solar cell array are integrated into a system by the present invention, wind-force and solar energy shape are allowed At complementary effect.

2. the conduct energy via variable flow pump conduction hydraulic oil of the wind-driven generator in the present invention, allows the wind-force to send out Motor is not influenced by wind direction, and the problem of overload, and the energy conduction of the present invention is effectively subtracted by hydraulic system transfers The consumption of few conversion energy.

Description of the drawings

Fig. 1 is the connection diagram of the first preferred embodiment of the invention.

Fig. 2 is the plane of the first hydraulic motor of the first preferred embodiment of the invention, unilateral bearing and motor generator Schematic diagram.

Fig. 3 is the plane of the first hydraulic motor of the second preferred embodiment of the invention, unilateral bearing and motor generator Schematic diagram.

Reference sign：

10 wind force driving device, 11 wind-driven generator

111 pedestal, 112 fan blade

113 mandrel, 12 variable flow pump

13 hydraulic oil container, 131 connecting line

20 hydraulic pressure managing device, 21 first fluid pressure line

22 second fluid pressure line, 30 solar cell array

40 management and control module, 41 hydraulic control module

42 electronic control module, 50 first hydraulic motor

The 4th fluid pressure line of 51 third fluid pressure line 52

60 unilateral bearing, 70 motor generator

80 application apparatus, 90 second hydraulic motor

The 6th fluid pressure line of 91 the 5th fluid pressure line 92

100 directly drive the 7th fluid pressure line of Machine hydraulic cylinder 101

102 the 8th fluid pressure lines.

Specific implementation mode

It for the technical characteristic and practical effect of the present invention can be understood in detail, and can be realized according to invention content, hereby into one Step is described in detail with preferred embodiment as shown in drawings as after：

First preferred embodiment of wind-force photoelectricity driving device provided by the present invention is as shown in Figures 1 and 2, the wind-force light Electric driver includes a wind force driving device 10, a hydraulic pressure managing device 20, a solar cell array 30, a management and control module 40, one first hydraulic motor 50, a unilateral bearing 60, a motor generator 70, an application apparatus 80, one second hydraulic motor 90, a direct driving machine device hydraulic cylinder 100, wherein：

The wind force driving device 10 includes a wind-driven generator 11, a variable flow pump 12 and a hydraulic oil container 13, is somebody's turn to do Wind-driven generator 11 is equipped with the fan blade 112 that a pedestal 111 and one is rotatablely arranged at 111 top of pedestal, the wind Fan leaf 112 is equipped with a mandrel 113, which is installed on inside the wind-driven generator 11, and the variable flow pump 12 are connected with the mandrel 113 of the fan blade 112, wherein because the wind-driven generator 11 is installed with the variable flow pump 12, allow The wind-driven generator 11 has the problem of not influenced by wind direction and being overloaded without electricity, the hydraulic oil container 13 to be set to wind-force hair 111 bottom of pedestal of motor 11, and be connected with the variable flow pump 12 by a connecting line 131.

The hydraulic pressure managing device 20 is connected by one first fluid pressure line 21 with the variable flow pump 12, and the hydraulic tube Reason device 20 is connected by one second fluid pressure line 22 with the hydraulic oil container 13, which passes through the management and control mould Block 40 is electrically connected with the hydraulic pressure managing device 20, which includes 41 (Hydraulic of a hydraulic control module Control Unit；) and 42 (Electricity Control Unit of an electronic control module HCU；ECU), the hydraulic control mould Block 41 is electrically connected with the hydraulic pressure managing device 20, which passes through a third fluid pressure line 51 and one the 4th Fluid pressure line 52 is connected with the hydraulic pressure managing device 20, a shell 61 and first hydraulic motor 50 of the unilateral bearing 60 One axle center 53 is combined, and an axle center 71 of the motor generator 70 is arranged in 61 side of shell of the unilateral bearing 60, and the horse It is electrically connected up to generator 70 and the electronic control module 42, which is electrically connected with the motor generator 70, wherein should Application apparatus 80 can be air-conditioning, cooling water machine, water pumper or fan blade structure etc..

Second hydraulic motor 90 passes through one the 5th fluid pressure line 91 and the 6th fluid pressure line 92 and the hydraulic pressure managing device 20 are connected, this directly drives Machine hydraulic cylinder 100 by one the 7th fluid pressure line 101 and one the 8th fluid pressure line 102 and is somebody's turn to do Hydraulic pressure managing device 20 is connected.

As shown in Figures 1 and 2, when first embodiment of the invention operates with, in the case where wind-force is enough, wind-force hair Motor 11 conducts hydraulic oil to the hydraulic pressure managing device 20, the hydraulic control mould of the management and control module 40 via the variable flow pump 12 Block 41 controls the hydraulic oil in the hydraulic pressure managing device 20 and enters in first hydraulic motor 50, then the inner shaft of the unilateral bearing 60 It drives the inner axes of the motor generator 70 to rotate, allows the axle center 71 of motor generator 70 with respect to a shell of motor generator 70 72 rotations, and electromagnetic induction is generated, and then the application apparatus 80 can directly be driven by the motor generator 70, it is identical, it should Second hydraulic motor 90 directly drives Machine hydraulic cylinder 100 with this and can be driven by the transmission of the hydraulic oil in the hydraulic pressure managing device 20 It is dynamic.

However, in the case where wind-force is weaker, it is assumed that motor generator 70 needs 300 turns of energy to drive, and first liquid The energy that pressure motor 50 is only capable of providing because wind-force is weaker 100 turns with the unilateral bearing 60 drives, then the solar cell array 30 can 200 turns of energy of residue needed for the motor generator 70 are transmitted by the electronic control module 42, at this point, the axis of the motor generator 70 The heart 71 rotates, and because the axle center 53 of the first hydraulic motor 50 is combined with the shell 61 of the unilateral bearing 60, allows the motor generator 70 axle center 71 does not drive the axle center 53 of first hydraulic motor 50 to rotate when rotating, even and if then allowing the application apparatus 80 in wind It still can be used in the case that power is weaker.

Then the first preferred embodiment of the invention is that the wind-driven generator 11 in the present invention is via the changeable flow with characteristic Pump 12 conduction hydraulic oil and conduct energy, the problem of allowing the wind-driven generator not influenced by wind direction, and do not overload, in addition, The energy conduction of the present invention effectively reduces the consumption of conversion energy, further, the present invention drives the wind-force by hydraulic system transfers Dynamic device 10 is integrated into a system with the solar cell array 30, and wind-force is allowed to form complementary effect with solar energy, compared to existing Having solar power generation or wind-power electricity generation all has its limitation, and solar power generation can not be operated at cloudy day and rainy day, and wind-power electricity generation It can not be operated under no wind regime, even if the present invention still can allow solar cell array 30 in the case where wind-force is weaker and make With making environment workable for the present invention relatively broad.

The structure design of the second preferred embodiment of the present invention as shown in Figure 3, the embodiment is substantially preferable with aforementioned first Embodiment is identical, and the difference section of the present embodiment is：Motor generator 70A is one without frame motor, and the unilateral bearing 60A is then set to the inside of motor generator 70A；The mode of operation phase of the mode of operation of the present embodiment and first embodiment Together, appearance repeats no more.

The above is only presently preferred embodiments of the present invention, is not intended to limit the present invention in any form, Ren Hesuo Belong to those skilled in the art, if in the range of not departing from carried technical characteristic of the invention, utilization is disclosed The equivalent embodiment for locally changing or modifying made by technology contents, in the range of still falling within the technology of the present invention feature.

Claims (6)

1. a kind of wind-force photoelectricity driving device comprising：

One wind force driving device, the wind force driving device include a wind-driven generator, a variable flow pump and a hydraulic oil container, The variable flow pump is installed on inside the wind-driven generator, which is set to the bottom of the wind-driven generator, and passes through One connecting line is connected with the variable flow pump；

One hydraulic pressure managing device, the hydraulic pressure managing device are connected with the variable flow pump, and the hydraulic pressure managing device and the liquid Pressure oil case is connected；

One solar cell array；

One management and control module, wherein the solar cell array is electrically connected by the management and control module and the hydraulic pressure managing device；

One first hydraulic motor, first hydraulic motor are connected with the hydraulic pressure managing device；

One unilateral bearing, the unilateral bearing are connected with first hydraulic motor；

One motor generator, the motor generator are connected with the unilateral bearing, and the motor generator and the management and control module phase Electrical connection；And

One application apparatus, the application apparatus are electrically connected with the motor generator.

2. wind-force photoelectricity driving device as described in claim 1, wherein the shell of the unilateral bearing and first hydraulic motor Axle center be combined, the axle center of the motor generator is arranged in the shell side of the unilateral bearing.

3. wind-force photoelectricity driving device as described in claim 1, wherein the motor generator is and to be somebody's turn to do one without frame motor Unilateral bearing is then set to the inside of the motor generator.

4. wind-force photoelectricity driving device as claimed any one in claims 1 to 3, wherein the management and control module includes a hydraulic pressure Control module and an electronic control module, which is electrically connected with the hydraulic pressure managing device, and the motor generator It is electrically connected with the electronic control module.

5. wind-force photoelectricity driving device as claimed in claim 4, wherein the wind-force photoelectricity driving device includes one second hydraulic pressure Motor, second hydraulic motor are connected with the hydraulic pressure managing device.

6. wind-force photoelectricity driving device as claimed in claim 5, wherein the wind-force photoelectricity driving device directly drives including one Machine hydraulic cylinder, this directly drives Machine hydraulic cylinder and is connected with the hydraulic pressure managing device.