CN216198643U - Communication base station power station based on wind-solar hybrid - Google Patents

Abstract

The utility model discloses a communication base station power station based on wind-solar complementation, which comprises a base, a communication tower mast, a base station machine room, a wind power generation device and a solar power generation device, wherein the base is provided with a wind-solar complementary base; the foundation base comprises a ground anchor hole, a tower mast base and a fan base, wherein the ground anchor hole is used for fixing the foundation base on the ground, the tower mast base is used for fixedly connecting a communication tower mast, and the fan base is used for fixing the wind power generation device; the base station machine room is arranged on the base and comprises a cloud control center, the cloud control center is used for controlling the wind power generation device and the solar power generation device to generate power and supplying power to the communication tower mast by utilizing the generated electric energy. The wind-solar hybrid power generation system has the advantages that the solar energy and the wind energy are complementary in time, so that the wind-solar hybrid power generation system has the best matching performance in terms of resources, and can well supply power to the communication base station, and thus, a power supply grid with long distance and small load is avoided being specially arranged for the communication base station.

Description

Communication base station power station based on wind-solar hybrid

Technical Field

The utility model relates to the technical field of communication, in particular to a communication base station power station based on wind-solar hybrid.

Background

With the continuous development of mobile terminal users, the coverage area of a base station is also continuously expanded, in order to ensure the continuous and safe operation of base station equipment, an uninterrupted power supply and the guarantee of a normal use environment are required, and the power consumption of the base station is in huge demand, and becomes an important component part of the network operation cost.

At present, a communication base station mainly adopts commercial power for power supply, but the situation that the commercial power is difficult to introduce or even cannot be introduced at all is often encountered under special natural geographic conditions in certain regions, so that the power supply work of the base station cannot be completed at a selected place or at a high cost.

SUMMERY OF THE UTILITY MODEL

In view of the above problems in the prior art, an object of the present invention is to provide a communication base station power station based on wind-solar hybrid, which is used for avoiding the problem of difficult power supply of the communication base station.

In order to achieve the purpose, the utility model adopts the following technical scheme;

a wind-solar complementary based communication base station power station, the power station comprising: the system comprises a base, a communication tower mast, a base station machine room, a wind power generation device and a solar power generation device;

the foundation base comprises a ground anchor hole, a tower mast base and a fan base, the ground anchor hole is used for fixing the foundation base on the ground, the tower mast base is used for fixedly connecting the communication tower mast, and the fan base is used for fixing the wind power generation device;

the base station machine room is arranged on the foundation base and comprises a cloud control center, and the cloud control center is used for controlling the wind power generation device and the solar power generation device to generate power and supplying power to the communication tower mast by using the generated electric energy.

Optionally, the power plant further comprises: a concentrator and a wind-light complementary controller;

the wind power generation device and the solar power generation device are respectively electrically connected with the wind-solar complementary controller, and the wind-solar complementary controller is used for performing energy storage control on electric energy generated by the wind power generation device and the solar power generation device;

the concentrator is connected with the cloud control center through wireless transmission equipment, and the concentrator is used for sending the operation state data of the wind and light complementary controller to the cloud control center through a wireless transmission mode and controlling the wind and light complementary controller based on the acquired control instruction.

Optionally, the power plant may include a plurality of concentrators arranged in a mesh;

the cloud control center is wirelessly connected with the plurality of concentrators and is used for acquiring the operation state data sent by the plurality of concentrators and sending a control instruction to the plurality of concentrators.

Optionally, the power station further includes an energy storage cabinet, and the energy storage cabinet is electrically connected to the wind and light complementary controller, and is configured to store the electric energy generated by the wind power generation device and the solar power generation device.

Optionally, the power station further comprises an LED module, and the LED module is electrically connected to the wind and light hybrid controller and is used for LED display of the working state of the wind and light hybrid controller.

Optionally, the uplink of the wireless transmission device communicates in a GPRS manner, the downlink communicates in an LORa wireless manner, and the communication frequency is 490/868/915 Mhz.

Optionally, the wind power generation device includes two wind power generators, and the wind power generators are mounted on the fan base through support rods.

Optionally, the solar power generation device comprises a solar panel and a solar bracket, and the solar panel is supported and connected to the support rod of the wind power generation device through the solar bracket.

Optionally, the foundation is a concrete foundation of frame construction.

The communication base station power station based on wind-solar complementation comprises a base, a communication tower mast, a base station machine room, a wind power generation device and a solar power generation device; the foundation base comprises a ground anchor hole, a tower mast base and a fan base, wherein the ground anchor hole is used for fixing the foundation base on the ground, the tower mast base is used for fixedly connecting a communication tower mast, and the fan base is used for fixing the wind power generation device; the base station machine room is arranged on the base and comprises a cloud control center, the cloud control center is used for controlling the wind power generation device and the solar power generation device to generate power and supplying power to the communication tower mast by utilizing the generated electric energy.

It can be seen that the beneficial effects of this application lie in:

firstly, the wind-solar hybrid system effectively utilizes solar energy and wind energy, is suitable for remote areas with abundant solar energy and wind energy resources, and can selectively use the solar energy or the wind energy aiming at different areas.

And secondly, each system of the base station is modularized, is convenient to transport and quick to install, and can be selectively installed according to needs.

And thirdly, the foundation base is specially manufactured to install the base station machine room, the tower mast and the wind driven generator, so that the anti-overturning and convenient transportation are realized.

And fourthly, the cloud control center can carry out multi-project partition piece management and control and single-machine equipment operation investigation, can carry out management according to a macroscopic level, and can realize real-time monitoring, real-time awareness and real-time management.

Drawings

FIG. 1 is a schematic diagram of a wind-solar complementary based communication base station power station provided by an embodiment of the utility model;

FIG. 2 is a schematic structural diagram of a part of a communication base station power station based on wind-solar hybrid according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a wind power generation device and a solar power generation device provided by an embodiment of the utility model;

fig. 4 is a schematic structural diagram of a cloud control center controlling a plurality of concentrators according to an embodiment of the present invention.

Reference numerals:

101-tower mast base, 102-communication tower mast, 103-cloud control center, 104-wind power generation device, 105-solar power generation device, 106-fan base;

201-support bar, 202-wind generator, 203-solar panel, 204-solar support.

Detailed Description

In order to make the objects, technical solutions and advantages of the present application more apparent, the present application is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

In the description of the present invention, unless otherwise specified, a plurality means two or more. The terms "first," "second," "third," "fourth," and the like in the description and claims of the present invention and in the above-described drawings (if any) are intended to distinguish between the referenced items. For a scheme with a time sequence flow, the term expression does not need to be understood as describing a specific sequence or a sequence order, and for a scheme of a device structure, the term expression does not have distinction of importance degree, position relation and the like.

Furthermore, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, system, article, or apparatus that comprises a list of steps or elements is not necessarily limited to those steps or elements specifically listed, but may include other steps or elements not expressly listed that are inherent to such process, method, article, or apparatus or that are added to a further optimization scheme based on the present inventive concept.

The solar energy and wind energy have strong complementarity in time and region, and the wind is small when the sunlight is the strongest in the daytime, and the solar energy is used for generating electricity at the moment; at night, the illumination becomes weak, but the wind becomes large due to large change of the temperature difference of the earth surface, and at the moment, the wind energy is utilized to generate electricity; in addition, in summer, the sunlight intensity is high and the wind is low, in winter, the sunlight intensity is low and the wind is high, and the solar energy and the wind energy can be reasonably utilized to generate electricity according to the climate characteristics in different seasons. The solar energy and wind energy complementarity in time enables the wind-solar complementary power generation system to have the best matching performance in terms of resources, and can well supply power to the communication base station, so that a power supply grid with long distance and small load is prevented from being specially arranged for the communication base station, the energy is saved, and the environmental pollution is reduced.

According to the above purpose, the present application provides a communication base station power station based on wind-solar hybrid, which includes: the system comprises a base seat, a communication tower mast, a base station machine room, a wind power generation device and a solar power generation device.

The foundation base is a frame-type structural concrete foundation base and comprises a ground anchor hole, a tower mast base and a fan base, wherein the ground anchor hole is used for fixing the foundation base on the ground, the tower mast base is used for fixedly connecting a communication tower mast, and the fan base is used for fixing the wind power generation device;

the base station machine room is arranged on the base, the base station machine room comprises a cloud control center, the cloud control center is used for carrying out power generation control on the wind power generation device and the solar power generation device, the generated electric energy is used for supplying power for a communication tower mast, the cloud control center is assembled in the base station machine room, the cloud control center can carry out multi-project partition slice management and control and single-machine equipment operation investigation, can be managed according to a macroscopic level, and can realize real-time monitoring, real-time awareness and real-time management.

In an embodiment of the present application, as shown in fig. 2, in the embodiment of the present application, the wind power generation device and the solar power generation device may be integrated, specifically:

the wind power generation device comprises two wind power generators which are arranged on the base through a supporting rod. Solar power system includes solar cell panel and solar rack, and solar cell panel passes through solar rack support connection on wind power system's bracing piece, and solar cell panel can set up to the daylighting that double-sided panel can carry out more abundant woolen cloth.

The power station further comprises a concentrator and a wind-light complementary controller, as shown in fig. 3, wherein the wind power generation device and the solar power generation device are electrically connected with the wind-light complementary controller respectively, and the wind-light complementary controller is used for performing energy storage control on electric energy generated by the wind power generation device and the solar power generation device, wherein in an optional embodiment of the present application, the power station further comprises an energy storage cabinet which is electrically connected with the wind-light complementary controller and is used for storing energy on the electric energy generated by the wind power generation device and the solar power generation device. The energy storage cabinet can also comprise an inverter, and the energy storage cabinet is electrically connected with the electric equipment through the inverter. And the LED module of the power station is electrically connected with the wind-solar complementary controller and used for LED display of the working state of the wind-solar complementary controller and the energy storage state of the energy storage cabinet.

As shown in fig. 4, the concentrator is connected with the cloud control center through a wireless transmission device, and is configured to send the operation state data of the wind and photovoltaic hybrid controller to the cloud control center through a wireless transmission mode, and is further configured to control the wind and photovoltaic hybrid controller based on the obtained control instruction, where the wireless transmission device communicates in an uplink GPRS mode and in a downlink in an LORa wireless mode, and the communication frequency is 490/868/915 Mhz.

In the embodiment of the application, the power station can comprise a plurality of concentrators which are arranged in a net shape; the cloud control center is in wireless connection with the plurality of concentrators and is used for acquiring the operation state data sent by the plurality of concentrators and sending a control instruction to the plurality of concentrators. The visual program of the control platform in the cloud control center knows the operation condition of product equipment, the service life and the part management, and can accelerate troubleshooting of fault reasons and efficiency of after-sale maintenance according to system prompts.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above-mentioned embodiments only express several embodiments of the present application, and the description thereof is more specific and detailed, but not construed as limiting the claims. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the concept of the present application, which falls within the scope of protection of the present application. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (9)

1. A communication base station power station based on wind-solar hybrid, the power station comprising: the system comprises a base, a communication tower mast, a base station machine room, a wind power generation device and a solar power generation device;

the foundation base comprises a ground anchor hole, a tower mast base and a fan base, the ground anchor hole is used for fixing the foundation base on the ground, the tower mast base is used for fixedly connecting the communication tower mast, and the fan base is used for fixing the wind power generation device;

the base station machine room is arranged on the foundation base and comprises a cloud control center, and the cloud control center is used for controlling the wind power generation device and the solar power generation device to generate power and supplying power to the communication tower mast by using the generated electric energy.

2. The power plant of claim 1, characterized in that the power plant further comprises: a concentrator and a wind-light complementary controller;

the wind power generation device and the solar power generation device are respectively electrically connected with the wind-solar complementary controller, and the wind-solar complementary controller is used for performing energy storage control on electric energy generated by the wind power generation device and the solar power generation device;

the concentrator is connected with the cloud control center through wireless transmission equipment, and the concentrator is used for sending the operation state data of the wind and light complementary controller to the cloud control center through a wireless transmission mode and controlling the wind and light complementary controller based on the acquired control instruction.

3. The plant according to claim 2, characterized in that it comprises a plurality of concentrators in a mesh arrangement;

the cloud control center is wirelessly connected with the plurality of concentrators and is used for acquiring the operation state data sent by the plurality of concentrators and sending a control instruction to the plurality of concentrators.

4. The power plant of claim 2, further comprising an energy storage cabinet electrically connected to the wind-solar hybrid controller for storing energy generated by the wind power generation device and the solar power generation device.

5. The power generation station of claim 2, further comprising an LED module electrically connected with the wind-solar hybrid controller for LED display of the working state of the wind-solar hybrid controller.

6. The plant according to claim 2, characterized in that the wireless transmission device communicates in GPRS mode upstream and in LORa mode downstream at 490/868/915 Mhz.

7. The power plant of claim 1, characterized in that the wind power plant comprises two wind power generators, which are mounted on the wind base by means of support bars.

8. The plant according to claim 7, characterized in that the solar power plant comprises a solar panel and a solar rack, the solar panel being connected by support to a support bar of the wind power plant.

9. The power plant of claim 1, characterized in that the foundation base is a frame construction concrete foundation base.

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