CN219087028U - A portable wind-solar-oil-storage integrated power generation device - Google Patents

Abstract

A portable wind-light-oil-storage integrated power generation device relates to a portable integrated power generation device. The utility model aims to solve the problems that in the prior art, when a small-sized fuel generator is adopted for power supply in paddy fields, fish ponds and the like, the fuel consumption is large and the environment is not protected; the large-scale power generation car or the erection circuit is adopted to supply power, and the power generation car has the problems of large volume and high cost. According to the utility model, the lifting unit is lifted by sliding the lifting rod and the sliding block along the length direction of the sliding rail, so that the volume of the lifting unit is reduced, and the lifting unit is convenient to move and transport; the solar power generation plate is rotationally connected to the telescopic rods of two adjacent groups, so that the angle between the solar power generation plate and the horizontal plane can be conveniently adjusted, and the maximum electric energy conversion rate of the solar power generation plate is realized. The electric energy generated by the wind driven generator and the solar power generation panel is stored in the storage battery pack through the rectifier and the wind-light complementary controller, so that the electric energy is provided for the electric appliance, and the stable power supply is provided for the electric appliance. The utility model belongs to the technical field of power generation devices.

Description

A portable wind-solar-oil-storage integrated power generation device

technical field

The utility model relates to a portable integrated power generation device, in particular to a portable wind-solar-oil-storage integrated power generation device, which belongs to the technical field of power generation devices.

Background technique

Most of the paddy fields and fish ponds are located outside the village, far away from the power supply. There are problems of inconvenient power supply for paddy field irrigation and fish pond oxygenation. At present, most of the small fuel generators are used for power supply, but this kind of small generator can only be used immediately. In order to maintain continuous power supply to the electrical equipment, the generator needs to run continuously, which consumes a lot of fuel and is not environmentally friendly; Large-scale generating vehicles or erecting lines for power supply take up land space due to their bulky size, high construction costs, and consume a lot of construction time.

Over the years, many agricultural technicians have carried out various attempts, but cannot find a kind of suitable method to overcome above-mentioned difficulty all the time. Therefore, providing a portable power generating device for the above-mentioned technical difficulties has become an urgent problem to be solved by those skilled in the art.

Utility model content

The purpose of this utility model is to solve the problem of large fuel consumption and not environmental protection when using small fuel generators for power supply in paddy fields and fish ponds in the prior art; and the problems of large volume and high cost when using large generator cars or erecting lines for power supply . Furthermore, a portable wind-solar-oil-storage integrated power generation device is provided.

The technical solution of the utility model is: a portable wind-solar-oil-storage integrated power generation device, including a frame, a lifting unit, a wind generator and several solar power generation panels.

The frame is equipped with a gasoline generator and a battery pack; the lifting unit includes a bottom plate, a top plate, two support rods and three sets of telescopic rods arranged side by side; Each group of telescopic rods includes a fixed rod and a lifting rod. One end of the fixed rod is fixedly connected to the bottom plate, and one side of the fixed rod is provided with a slide rail. One end of the lifting rod is fixedly connected to the top plate. A slider that is slidably connected to a slide rail.

The wind generator is connected to the top plate by bolts, and the solar power generation panels are rotatably connected to two adjacent sets of telescopic rods.

Furthermore, several angle adjustment holes are provided on the fixed pole and the lifting pole.

Further, a hook is provided on the solar power generation board, one end of the hook is hinged to the solar power generation board, and the other end of the hook is hinged to the angle adjustment hole.

Compared with the prior art, the utility model has the following effects:

1. The telescopic rod 2-2 of the present utility model includes a fixed rod 2-2-1 and a lifting rod 2-2-3, and passes through the lifting rod 2-2-3 and the slider 2-2-4 along the slide rail 2-2 -2 The sliding in the longitudinal direction realizes the lifting of the lifting unit 2, thereby reducing the volume of the utility model and facilitating movement and transportation.

2. The bottom plate 2-1 of the present utility model is rotatably connected with the frame 1, which is convenient for adjusting the angle of the lifting unit 2, and avoids that when the season changes, the time period of the maximum light intensity is different from affecting the power generation efficiency of the solar power generation panel 4; solar power generation The board 4 is rotatably connected to two adjacent telescopic rods 2-2, so as to adjust the angle between the solar power generation board 4 and the horizontal plane, so as to realize the maximum electric energy conversion rate of the solar power generation board 4 .

3. The utility model has a simple structure, and the electric energy generated by the wind generator 3 and the solar power generation panel 4 is stored in the battery pack 1-2 through the rectifier and the wind-solar complementary controller 1-3, so as to provide electric energy for the electrical appliances; when the weather is windless or cloudy One day, the wind power generator 3 and the solar power generation panel 4 cannot generate electricity normally, and when the electric energy in the battery pack 1-2 is 20% of the remaining full power, the battery pack 1-2 stops supplying power to the consumer, and the ATS switch 1-4 switches the circuit To the gasoline generator 1-1, the circuit breaker is connected, and the gasoline generator 1-1 is started by the remaining electric energy in the battery pack 1-2, so as to provide a stable power supply for the electrical appliances.

Description of drawings

Fig. 1 is the first axonometric view of the utility model;

Fig. 2 is the second axonometric view of the utility model;

Fig. 3 is an axonometric view of the lifting unit 2 of the present invention;

Fig. 4 is a partial enlarged view of place I in Fig. 2;

Fig. 5 is a partial enlarged view of II in Fig. 3;

Fig. 6 is a schematic diagram of the utility model after being packed;

Fig. 7 is a program block diagram when the utility model supplies power to an electrical appliance.

In the figure: 1. rack, 1-1, gasoline generator, 1-2, storage battery pack, 1-3, wind and solar hybrid controller, 1-4, ATS switch, 2-1, base plate, 2-2, telescopic Rod, 2-2-1, fixed rod, 2-2-2, slide rail, 2-2-3, lifting rod, 2-2-4, slider, 2-2-5, angle adjustment hole, 2- 3. Support rods, 2-4, top plate, 3. wind power generator, 4. solar power generation panel.

Detailed ways

In order to make the purpose, features, and advantages of the utility model more obvious and understandable, the technical solutions in the implementation of the utility model will be clearly and completely described below in conjunction with the accompanying drawings in the implementation of the utility model.

Specific Embodiment 1: This embodiment is described with reference to FIG. 1 to FIG. 6 . A portable wind-solar-oil-storage integrated power generation device in this embodiment includes a frame 1 , a lifting unit 2 , a wind generator 3 and several solar power generation panels 4 .

The frame 1 is provided with a gasoline generator 1-1 and a battery pack 1-2. The lifting unit 2 includes a base plate 2-1, a top plate 2-4, two support rods 2-3 and three groups of telescopic rods 2-2 arranged side by side; the base plate 2-1 is rotatably connected with the frame 1, and the The two ends are threadedly connected with the bottom plate 2-1 and the top plate 2-4 respectively, and each set of telescopic rods 2-2 includes a fixed rod 2-2-1 and a lifting rod 2-2-3, and one end of the fixed rod 2-2-1 It is fixedly connected with the bottom plate 2-1, and one side of the fixed rod 2-2-1 is provided with a slide rail 2-2-2, and one end of the lifting rod 2-2-3 is fixedly connected with the top plate 2-4, and the lifting rod 2-2- The other end of the 2-3 is provided with a slide block 2-2-4 which is slidably connected with the slide rail 2-2-2.

The wind-driven generator 3 is connected to the top plate 2-4 by bolts, and the solar power generation panels 4 are rotatably connected to two adjacent groups of expansion rods 2-2.

The lifting of the lifting unit 2 in this embodiment is realized by sliding the lifting rod 2-2-3 and the slider 2-2-4 along the length direction of the slide rail 2-2-2. Small size, easy to move and transport.

In this embodiment, the bottom plate 2-1 is rotatably connected with the frame 1, so that it is convenient to adjust the angle of the lifting unit 2, and avoid the influence of the time period of the maximum light intensity on the power generation efficiency of the solar power generation panel 4 during seasonal changes.

The frame 1 of this embodiment is also provided with a wind-solar hybrid controller 1-3, an inverter and an ATS switch 1-4 (Automatic Transfer Switch, dual power switch). In this way, the electric energy generated by the wind power generator 3 and the solar power generation panel 4 is stored in the storage battery pack 1-2 through the rectifier and the wind-solar complementary controller 1-3 to provide electric energy for the electrical appliances; the inverter and the ATS switch 1-4 are set In the connection circuit between the battery pack 1-2 and the electrical appliance, when there is no wind or cloudy weather, the wind generator 3 and the solar power panel 4 cannot generate electricity normally, and the electric energy remaining in the battery pack 1-2 is 20% of the full power. , the battery pack 1-2 stops supplying power to the electrical appliances, the ATS switch 1-4 switches the circuit to the gasoline generator 1-1, the circuit breaker is connected, and the gasoline generator 1-1 is started by the remaining electric energy in the battery pack 1-2. 1. Provide stable power supply for electrical appliances.

When the wind generator 3 and the solar power panel 4 can generate electricity normally and the storage battery pack 1-2 is recharged to a certain degree (such as 60% of full power), the ATS switch 1-4 switches the circuit to the storage battery pack 1-2, and continues The electrical appliances are supplied with power through the storage battery pack 1-2, while the circuit breaker is disconnected, and the gasoline generator 1-1 is shut down. Such setting saves energy and reduces costs.

Specific Embodiment 2: This embodiment is described with reference to FIG. 2 and FIG. 4 . In this embodiment, the fixed rod 2-2-1 and the lifting rod 2-2-3 are provided with several angle adjustment holes 2-2-5. Preferably, three angle adjustment holes 2-2-5 are provided, which are respectively 30° hole position, 45° hole position and 60° hole position. Such setting facilitates the adjustment of the angle between the solar power generation panel 4 and the horizontal plane, so as to realize the maximum electric energy conversion rate of the solar power generation panel 4 . Other compositions and connection methods are the same as those in Embodiment 1.

Specific embodiment three: this embodiment is described in conjunction with Fig. 2 and Fig. 4, the solar power generation panel 4 of this embodiment is provided with a hook 4-1, one end of the hook 4-1 is hinged with the solar power generation panel 4, and the hook 4-1 The other end is hinged with the angle adjustment hole 2-2-5. Such setting ensures that the connection of the solar power generation panel 4 is stable. Other compositions and connection modes are the same as those in Embodiment 1 or 2.

Embodiment 4: This embodiment is described with reference to FIG. 3 and FIG. 5 . The materials of the fixed rod 2-2-1 and the lifting rod 2-2-3 in this embodiment are both aluminum alloy. Such setting reduces the quality of the structure while ensuring the overall rigidity of the structure. Other compositions and connection relations are the same as those of the specific embodiment 1, 2 or 3.

Embodiment 5: This embodiment is described with reference to FIG. 1 and FIG. 3 . In this embodiment, the screw threads at both ends of the support rod 2 - 3 have opposite directions of rotation. Such setting is convenient for installation; when the telescopic rod 2-2 is raised, the support rod 2-3 is screwed between the bottom plate 2-1 and the top plate 2-4 to provide stable support for the telescopic rod 2-2. The other components and connections are the same as those in Embodiment 1, 2, 3 or 4.

working principle

Firstly, each component is assembled according to the connection relationship in Embodiment 1 to Embodiment 5.

After the utility model is transported to the destination, push the top plate 2-4 upwards, and then drive the lifting rod 2-2-3 and the slider 2-2-4 to slide along the length direction of the slide rail 2-2-2, and wait for the top plate 2-2-4 to slide along the length direction of the slide rail 2-2-2. 4 After rising upwards, tighten the support rods 2-3 to support the lifting unit; adjust the angle of the lifting unit 2 and the solar power generation panel 4, and the electric energy generated by the wind power generator 3 and the solar power generation panel 4 is controlled by the rectifier and wind-solar hybrid The device 1-3 is stored in the battery pack 1-2 to provide power for the electrical appliance.

When the weather is windless or cloudy, the wind generator 3 and the solar power generation panel 4 cannot generate electricity normally, and the electric energy in the battery pack 1-2 is 20% of the remaining full power, the battery pack 1-2 stops supplying power to the consumer, and the ATS switch 1-4 switches the circuit to the gasoline generator 1-1, connects the circuit breaker, and starts the gasoline generator 1-1 through the remaining electric energy in the battery pack 1-2, so as to provide a stable power supply for the electrical appliances.

When the wind generator 3 and the solar power panel 4 can generate electricity normally and the storage battery pack 1-2 is recharged to a certain degree (such as 60% of full power), the ATS switch 1-4 switches the circuit to the storage battery pack 1-2, and continues The electrical appliances are supplied with power through the storage battery pack 1-2, while the circuit breaker is disconnected, and the gasoline generator 1-1 is shut down.

The utility model has been disclosed as above with a preferred embodiment, but it is not intended to limit the utility model. Any person familiar with the art does not deviate from the content of the technical solution of the utility model. According to the technical essence of the utility model, the above implementation cases Any simple modifications, equivalent changes and modifications made still belong to the scope of the technical solutions of the present utility model.

Claims (5)

1. A portable wind-light-oil-storage integrated power generation device is characterized in that: comprises a frame (1), a lifting unit (2), a wind driven generator (3) and a plurality of solar power generation panels (4);

a gasoline engine generator (1-1) and a storage battery pack (1-2) are arranged in the frame (1);

the lifting unit (2) comprises a bottom plate (2-1), a top plate (2-4), two support rods (2-3) and three groups of telescopic rods (2-2) which are arranged side by side; the lifting device comprises a bottom plate (2-1) and a frame (1), wherein two ends of a supporting rod (2-3) are respectively connected with the bottom plate (2-1) and a top plate (2-4) in a threaded mode, each group of telescopic rods (2-2) comprises a fixed rod (2-2-1) and a lifting rod (2-2-3), one end of each fixed rod (2-2-1) is fixedly connected with the bottom plate (2-1), a sliding rail (2-2-2) is arranged on one side face of each fixed rod (2-2-1), one end of each lifting rod (2-2-3) is fixedly connected with the top plate (2-4), and a sliding block (2-2-4) which is in sliding connection with the sliding rail (2-2-2) is arranged at the other end of each lifting rod (2-2-3);

the wind driven generator (3) is connected to the top plate (2-4) through bolts, and the solar power generation plate (4) is connected to the two adjacent groups of telescopic rods (2-2) in a rotating mode.

2. The portable wind-light-oil-storage integrated power generation device according to claim 1, wherein: the fixed rod (2-2-1) and the lifting rod (2-2-3) are provided with a plurality of angle adjusting holes (2-2-5).

3. The portable wind-light-oil-storage integrated power generation device according to claim 2, wherein: the solar power generation device is characterized in that a hook (4-1) is arranged on the solar power generation plate (4), one end of the hook (4-1) is hinged with the solar power generation plate (4), and the other end of the hook (4-1) is hinged with the angle adjusting hole (2-2-5).

4. The portable wind-light-oil-storage integrated power generation device according to claim 2, wherein: the fixing rod (2-2-1) and the lifting rod (2-2-3) are made of aluminum alloy.

5. The portable wind-light-oil-storage integrated power generation device according to claim 1, wherein: threads at two ends of the supporting rod (2-3) are opposite in rotation direction.

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