TW201210043A - Solar panel with base station antenna - Google Patents

Abstract

The present invention relates to a solar panel having a base station antenna. The solar panel includes a solar module and a base station antenna. The solar module has two substrates facing each other and at least one solar cell. The solar cell is mounted on a substrate of the solar module. The base station antenna is mounted on the other substrate of the solar module. The present invention uses the characteristics of the solar module always keeping an elevation and the base station needed to incline with a declination. When mounting them on two opposite facing substrates, solar cell can absorb solar energy, and the base station antenna can achieve signal coverage. It is not only can save mounted space but reduce mounting cost.

Description

201210043 VI. Description of the Invention: [Technical Field of the Invention] [0001] The present invention relates to a solar panel, and more particularly to a solar panel equipped with a base station antenna. [Prior Art] [0002] At present, there are separate devices in solar panel and base station communication, which belong to different structural devices. The main factors are wireless communication and solar power generation belong to different professional fields, and involve two fields. There are very few professionals. In general, solar panels need to be tilted at an angle to allow the solar panel to absorb maximum light energy during the day, and to prevent shadows from being blocked by buildings, solar panels are mostly installed in high places or in open spaces. In the field of base station communication, microwave radiation base stations, such as Global System for Mobile Communications (GSM) or Global Interoperability for Microwave Access (WiMAX), etc., the antennas used by the base stations need to be tilted downwards to a certain angle of depression, and must be installed in A certain height or above can reach the coverage of the demand. Q It can be seen from the above that most of the solar panels and base station antennas need to be installed at high places. Therefore, in the installation space, devices that occupy each other space are not installed, and solar panels and base stations cannot be installed in the same area at the same time. Moreover, when two devices need to be installed, only one device can be installed at a time, which cannot save time and save space. SUMMARY OF THE INVENTION [0003] The main object of the present invention is to provide a solar panel with a base station antenna, which is designed to solve the space problem of installing a solar panel and a base station antenna, and save installation time and cost. 099128753 Form No. A0101 Page 3 of 9 0992050495-0 201210043 In order to achieve the above, the present invention provides a solar panel with a base station antenna, comprising: a solar template having two opposite plates and at least one solar energy a battery, the solar cell is mounted on a board surface; and a base station antenna, the base station antenna is mounted on a surface of the solar template, relative to the solar module of the solar module. It can be known from the above that the present invention installs a solar cell on one surface of a solar panel, and mounts a base station antenna on the other opposite surface, and the solar template is used to achieve an elevation angle of the maximum energy of the solar cell. The other opposite surface is presented with a depression angle, thereby achieving mutual complementation function, which not only enables the solar cell to have the best light energy conversion electrical efficiency, but also enables the base station antenna to reach the optimal coverage when receiving or transmitting radio waves. The invention combines the design of the solar cell and the base station antenna, thereby saving the installation space, so that two originally unrelated devices can be installed at the same time and installed at the same place, thereby saving installation space, installation time and cost. effect. [0004] Referring to the first and second figures, the present invention mainly relates to a solar panel with a base station antenna, comprising: a solar module (10) having a first a board surface (11), a second board surface (12) and at least one solar cell (13), the second board surface (12) being located on the opposite side of the first board surface (11), the solar cell (13) The solar cell (13) has a plurality of electrodes (131) disposed on the first plate surface (11). In the preferred embodiment, the solar cell (13) is disposed on the first plate surface (11). The electrode (131) is used to receive photon impact 099128753 to generate electrons and holes, thereby generating current; and Form No. A0101 Page 4 of 9 0992050495-0 201210043 A base station antenna (20) for transmitting and receiving electric waves and Electrically connected to the base station, the base station antenna (20) is mounted on the second board surface (12) of the solar module (1〇). In the preferred embodiment, the base station antenna (2〇) Having an antenna electrode (21) and a ground electrode (22), the antenna electrode (21) and the ground electrode (22) Provided on the second board surface (12), the base station antenna (20) receives and transmits radio waves through the antenna electrode (21), and the antenna electrode (21) is electrically connected to the base station. The electrode (22) is electrically connected to a ground. In the above, the solar cell (13) may be a single-crystal solar cell, ::.;;:;, a multi-crystal solar cell or a non-dream crystal sun. The base station antenna (20) may be a global mobile communication system. (GSM) or Global Interoperability for Microwave Access (WiMAX). The present invention is mainly provided with a solar cell (13) and a base station antenna (20) by the first plate surface (11) and the second plate surface (12) of the solar template (10) at opposite positions, respectively, The solar panel (1〇)-the board surface (11) is located at an elevation angle, the second board surface (12) at the relative position and the elevation angle of the first board surface (11) The solar cell (13) absorbs light energy to convert electrical energy, and the depression angle of the second plate surface (12) gives the antenna electrode (21) of the base station antenna (20) toward the main radiation direction to provide gain, and achieves the most in transmitting and receiving microwave information. With the coverage of the solar energy and the base station to be installed at a high place, the space, time and cost of installing the solar panel and the base station can be saved through the design of the present invention. Progressive. BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a preferred embodiment of a solar panel with a base station antenna of the present invention. 099128753 Form No. A0101 Page 5 of 9 0992050495-0 [0005] 201210043 Embodiments of the first board Stereoscopic view. Figure 2 is a perspective view of a preferred embodiment of a solar panel with a base station antenna of the present invention on a second panel. [Main component symbol description] [0006] (10) Solar template (11) First board surface (12) Second board surface (13) Solar cell (131) Electrode (20) Base station antenna (21) Antenna electrode (22) Grounding electrode 099128753 Form number A0101 Page 6 / Total 9 pages 0992050495-0

Claims (1)

201210043 VII. Patent application scope: 1. A solar panel with a base station antenna, comprising: a solar template having two opposite plates and at least one solar cell, wherein the solar cell is mounted on a surface; A base station antenna is mounted on a surface of the solar template, opposite to the solar module of the solar module. 2. The solar panel with a base station antenna according to the first aspect of the invention, wherein the solar cell is a single crystal solar cell. _ 3. The solar panel with a base station antenna according to the first item of the patent scope, wherein the solar cell is a polycrystalline solar cell. 4. The solar panel with a base station antenna according to the first aspect of the patent, wherein the solar cell is an amorphous chopped solar cell. The solar panel with a base station antenna according to any one of claims 1 to 4, wherein the base station antenna is a base station antenna of a global mobile communication system. The solar panel with a base station antenna Q according to any one of the preceding claims, wherein the base station antenna is a base station antenna of a global interoperable microwave access system. 099128753 Form No. A0101 Page 7 of 9 0992050495-0