JP3087467U - Series wind power generator - Google Patents

Abstract

(57) [Summary] [PROBLEMS] To be self-sufficient in electricity and to supply extra electricity to others, not affected by the environment and weather, and to be a clean energy that is free from any pollution, yet has a high economy. To provide a series wind power generation device that can also achieve a profit. SOLUTION: It comprises a hollow pressure cabin including an exhaust valve and a pressure meter, an intake device installed at one or more pairs at an inlet of the pressure cabin, and a generator unit installed at an outlet of the pressure cabin. The generator unit is formed by connecting a number of spring wind generators in series. After the air intake device feeds the airflow into the pressure cabin, it opens the control lock gate in the air outlet, the airflow passes through the wind power generator unit, interlocks each wind power generator, and rotates the wind generator splash. Generate electricity. The current generated by each wind power generator is transmitted to a bus transmission line, and is used after being rectified.

Description

[Detailed description of the invention]

[0001]

[Technical field to which the invention belongs]

 The present invention relates to a kind of series wind power generator. In particular, in addition to being able to provide a kind of private power generation and use for private use, extra power can be supplied to other uses, and while using nature, it is not affected by the environment and weather, and it is free from any pollution. It relates to a series wind power generator that can achieve high economic benefits while being clean energy that is free of energy.

[0002]

[Prior art]

 Current power generation methods include nuclear power, thermal power, hydropower, and wind power. Among them, nuclear power generation and thermal power generation have pollution problems, and construction costs are expensive. On the other hand, there is no concern about pollution in hydropower and wind power, but hydropower cannot be easily developed because of the topography and water resources.

[0003]

[Problems to be solved by the invention]

 Conventional wind power generation uses wind power to generate power using a generator. However, widespread use is difficult due to the lack of wind power, the influence of topography and soil, the effects of weather, and high costs. In addition, power generation cannot be carried out without wind, so it is limited to outdoor operations. In the event of a typhoon, operation is not possible due to the effects of the typhoon. In order to solve the above-mentioned drawbacks of the known structure, an object of the present invention is to provide a series wind power generator.

[0004]

[Means for Solving the Problems]

 In order to solve the above problems, the present invention provides the following series wind power generator. It consists mainly of a hollow pressure cabin including an exhaust valve and a pressure meter, an intake device installed at one or more sets at the inlet of the pressure cabin, and a generator unit installed at the outlet of the pressure cabin. The intake device is a blower such as a turbine, an air compressor, a blast fan, an air pump, and the like. The generator unit is configured by connecting a number of spring wind generators in series. After the intake device has pumped the airflow into the pressure cabin, the airflow passes through the control lock gate and into the generator unit, interlocking the springs of each wind generator, and the generator body is Start power generation. The current generated by each wind generator is transmitted to the bus transmission line, and is used after rectification. The amount of power generated by this device is determined according to the required amount.

[0005] The sum of the power generated by each wind generator of the wind power generator of the present invention is several times the power consumption of the intake device, that is, a small amount of power consumption consumes several times the electric energy. It is very economical to produce, self-sufficient in electrical energy, and free of environmental pollution. In addition, the pressure cabin of the wind turbine generator of the present invention has an exhaust valve and a pressure release function, so that when the pressure increase in the pressure cabin exceeds the upper limit of the set value, the excess airflow is automatically exhausted. It discharges from the valve to achieve the safety maintenance function. Further, the wind power generator of the present invention is provided with a maintenance hole cover in the wind power generator, and the maintenance staff can enter the generator unit from the maintenance hole cover to perform maintenance work. In addition, the wind power generator of the present invention has control lock gates at both the inlet and outlet of the pressure cabin, and if the control lock gate of the inlet is closed, the airflow in the pressure cabin flows back and out. If the control lock gate of the vent is closed, maintenance personnel can enter the generator unit and perform maintenance work.

[0006]

[Embodiment of the invention]

 As shown in FIG. 1, the series wind power generator 100 of the present invention mainly includes a sealed pressure cabin 5 having a pressure meter 4 and an exhaust valve 6, an intake device 1 installed at one or more sets at one end of the pressure cabin 5, It consists of a single caliber generator unit 9 installed at the opposite end of the pressure cabin 5.

Several inlets 51 are installed at one end of the pressure cabin 5, and a single outlet 52 is installed at the opposite end. The control lock gate 2 is installed in the inlet 51, and the control lock gate 7 is also installed in the outlet 52. In this structure, after the airflow enters the suction device 1, the control lock gate 2 in the air inlet 51 is opened, and the air enters the pressure cabin 5. On the other hand, when the airflow does not enter the intake device 1, the control lock gate 2 does not open. Since the pressure in the pressure cabin 5 is higher than the pressure in the generator unit 9, the air flow opens the control lock gate 7 in the outlet 52, and conversely, the pressure cabin 5 and the pressure in the generator unit 9. When the pressure equilibrates, the control lock gate 7 closes spontaneously. Therefore, when the operator needs to perform maintenance of the generator unit 9, the control lock gate 7 is always closed first, and the operator can enter the machine for the first time. In order to introduce an air flow into the pressure cabin 5, the rear part of the air inlet 51 has an expanded shape. On the other hand, in order to accelerate the air flow in the generator unit 9, the outlet 52 has a convergent shape.

The operator monitors the internal pressure of the pressure cabin 5 with the pressure meter 4. The exhaust valve 6 has a pressure release function. When the pressure increase in the pressure cabin 5 exceeds the upper limit of the set value, an excess airflow is automatically discharged from the exhaust valve 6 to achieve a safety maintaining function.

The intake device 1 is a blower such as a turbine, an air compressor, a blast fan, and an air pump. The generator unit 9 is configured by connecting a number of wind power generators 8 in series. 2, 3 and 4, as shown in FIGS. 2, 3 and 4, the two protruding outer edges 81 and 82 at the front and rear of the housing of the two wind power generators 8 are connected, and then the nut 84 is screwed with the screw 83. And fix it. As shown in FIG. 2, the wind power generator 8 is connected to the pressure cabin 5 by connecting the protruding outer edge 81 and the protruding outer edge 53 at the tip of the air outlet 52, and then screwing and fixing a nut 84 with a screw 83. . A motor fixing frame 13 is installed in the wind generator 8, and a generator body 11 is fixed in the center of the motor fixing frame 13, thereby rotating the spring 12 of the generator. Further, at least one set of the wind power generators 8 is provided with a maintenance hole cover 18 and the motor fixing frame 13 and the generator main body 11 are not provided. The installation position is set to an appropriate position of the generator unit 9 according to the necessity of use. The maintenance personnel can open the hole cover 18 only by removing the fixing screw 17 of the maintenance hole cover 18, and can enter the generator unit 9 to perform maintenance work.

In the present invention, when a plurality of wind power generators 8 are connected in series and the power generator unit 9 is configured, the combination quantity is freely determined according to the necessity of use. The generator unit 9 is of a single caliber (i.e., there is only one outlet 19), and after the airflow enters the generator unit 9, all the generator bodies 11 including the wind generator 8 are provided. The splash 12 rotates and generates electricity. Therefore, as long as the airflow enters the intake device 1, the generator unit 9 can continue power generation. However, in order to increase the electric power, it is better that the rotation of the splash is faster, and it is necessary to increase the amount of intake of the intake device 1 or the number of the intake device 1. For example, if 500 watts of power are required, a single blower of the suction device 1 is sufficient, but if 1500 watts of power is required, two to three of the suction devices 1 are required. Wind power is required. Basically, the difference in airflow required by the wind power generator 8 is not large, whether it is several or thousands. Naturally, the wind resistance affects the forward flow of the air flow, but since the generator unit 9 has a single caliber, the air flow is only slightly worn and no large loss occurs. Therefore, regardless of whether the number of wind power generators 8 is several or several thousand, the loss of the amount of air flowing therethrough is almost the same. Since the air flow enters from the intake device 1, the intake device 1 consumes electric energy. However, the total amount of current generated by the wind power generator 8 having many units is several times the consumed electric energy. In other words, the amount of regeneration current generated by the single-diameter generator unit 9 is several times the amount of consumption current of one intake device 1. Furthermore, the economic benefit of the power generation according to the present invention is enormous because the consumption current does not increase as the number of wind power generators 8 increases.

In the process of implementing the present invention, before the air flow 20 is fed into the pressure cabin 5, the intake device 1 opens the control lock gate 2 in the air inlet 51 in advance, and A stream 20 enters the pressure cabin 5. Subsequently, the control lock gate 7 in the air outlet 52 is opened following the air flow 21, and the air flow 21 enters the generator unit 9. Thereby, the splash 12 in the wind power generator 8 rotates, and the power generator main body 11 rotates to generate power. Finally, the power generated by each wind generator 8 is transmitted via an output line 14 to a bus transmission line 15. In addition, the output line 14 and the bus power transmission line 15 are fixed by a contact 16, and the bus power transmission line 15 further transmits current to a power rectification substation to perform voltage rectification. Thus, the electric power is used, and a part of the electric power is supplied to the suction device 1 and used.

Next, as shown in FIG. 5, the present invention can be implemented in parallel connection. Although the series wind power generator 100 of FIG. 1 is a single implementation, in the case of a parallel connection implementation, two or more sets of series wind power generators 100 are implemented in parallel. The parallel system connects two pressure cabs 5. As a result, the quantity of the intake device 1 naturally increases, and the intake amount also increases. At the time of implementation, it is possible to select a system in which all units are operated at the same time, or some units are operated and the others are not operated, and maintenance can be performed on the generator unit 9 which is not operated. When the pressure in the pressure cabin 5 is excessive, the operation of one or several intake devices 1 can be stopped. At this time, the stopped lock device 2 of the intake device 1 is automatically closed. Otherwise, the air flow in the pressure cabin 5 will flow backward from the control lock gate 2 and flow out. Furthermore, when the pressure in the pressure cabin 5 reaches the upper limit of the set value, it is necessary to reduce the pressure appropriately, but if one intake device 1 is reduced, the cabin pressure may be insufficient. At this time, the pressure is released by using the exhaust valve 6, and the pressure is reduced and the safety of use is achieved.

[0013]

[Effect of the invention]

 As described above, the present invention can generate power for private use and use it for own use, and can also supply extra power for other uses. While using nature, it is not affected by the environment and weather, and can achieve high economic benefits while being clean energy free of any pollution.

[Brief description of the drawings]

FIG. 1 is a sectional view of the series wind power generator of the present invention.

FIG. 2 is a partial cross-sectional view illustrating a connection state of a protruding outer edge of the wind power generator according to the present invention.

FIG. 3 is a sectional view of the wind power generator of the present invention.

FIG. 4 is a front view of the wind power generator of the present invention.

FIG. 5 is a cross-sectional view of a parallel implementation of the series wind power generator of the present invention.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 Intake device 2 Control lock gate 4 Pressure meter 5 Pressure cabin 51 Inlet 52 Outlet 53 Projection outer edge 6 Exhaust valve 7 Control lockgate 8 Wind power generator 81 Projection outer edge 82 Projection outer edge 83 Screw 84 Nut 9 Generator unit 11 Generator Main body 12 Spring 13 Motor fixed frame 14 Output line 15 Bus power transmission line 16 Contact 17 Screw 18 Maintenance hole cover 19 Outlet 20 Inlet airflow 21 Outlet airflow 100 Series wind power generator

Claims (12)

[Utility model registration claims] 1. A pressure cabin mainly comprising a closed pressure cabin, an air intake device, and a generator unit. The pressure cabin is capable of accommodating an air flow, and the air intake device is installed at one or more sets at an inlet of the pressure cabin. The generator unit is installed at a single outlet of the pressure cabin, and a number of splash-type wind power generators are connected in series to form a power generator. After being sent into the pressure cabin, the air flow enters the series-connected wind generator unit, and the springs of many wind generators rotate, the generator body starts generating electricity, and after the current transmission, the transformer is transformed. A series wind power generator that is used after being rectified. 2. The series wind power generator according to claim 1, wherein the intake device is a turbine. 3. The series wind power generator according to claim 1, wherein the intake device is an air compressor. 4. The series wind power generator according to claim 1, wherein the intake device is a blast fan. 5. The series wind power generator according to claim 1, wherein the intake device is an air pump. 6. After connecting the projecting outer edge between the wind power generator and the pressure cabin, a nut is screwed and fixed with a screw,
2. The series wind power generator according to claim 1, wherein the protruding outer edge is also connected between the wind power generators, and then a nut is screwed and fixed with a screw. 7. The series wind power generator according to claim 1, wherein a control lock gate is installed at both an inlet and an outlet of the pressure cabin. 8. The series wind power generator according to claim 1, wherein an exhaust valve and a pressure meter are installed in the pressure cabin. 9. A motor fixing frame is installed in the wind power generator, and a generator main body is installed in the center of the motor fixing frame, and a spring is provided in front of the main body, and is separately connected by a power output line and a bus power transmission line. The series wind power generator according to claim 1, wherein: 10. The series wind power generator according to claim 1, wherein a maintenance hole cover is provided on at least one set of the wind power generators of the power generator unit so that maintenance personnel can enter and exit the wind power generator. 11. The series wind power generator according to claim 1, wherein the outlet of the pressure cabin has a convergent shape. 12. The series wind turbine generator according to claim 1, wherein when the series wind turbine generators are connected in parallel, a plurality of the pressure cabins are connected and configured.