CN205080655U - Pavilion formula solar energy electric bicycle charging station structure - Google Patents

Abstract

The utility model discloses a pavilion-type solar electric bicycle charging station structure, which comprises an arc-shaped pavilion cover, an arc-shaped pipe frame is installed at both ends of the arc-shaped pavilion cover, and a group of support rods are arranged in the arc-shaped pipe frame , a solar panel is installed on the top of the arc-shaped pavilion cover, and a set of charging piles and battery packs are installed on the bottom plate of the arc-shaped pavilion cover. The positive and negative electrodes of the solar panel are connected to one end of the wire, and the other end of the wire is connected to the After passing through the frame, it is connected with the positive and negative poles of the battery pack to form a loop, and each charging pile is connected in parallel in the loop. The utility model uses solar energy as the power source of the electric bicycle charging station, and does not need to lay wires, so that the charging station becomes a movable charging station, and the construction of the charging station will not affect the existing municipal and electric projects in the city, and can Realize local materials and use local solar energy resources for photoelectric conversion, realize clean energy utilization and improve convenience.

Description

A kiosk-type solar electric bicycle charging station structure

technical field

The utility model relates to a kiosk-type solar electric bicycle charging station structure, which belongs to the technical field of urban infrastructure application and energy saving and environmental protection.

Background technique

At present, the charging of electric bicycles is mainly plugged into the mains for charging, but it cannot be charged when driving in places without mains power. The cruising range of electric bicycles is limited by electric power. How to replenish electricity in time to continue driving under the condition of no mains power It is a problem that needs to be considered in the power supply of electric bicycles. Electric bicycles do not emit pollution, but their power generation process is very likely to have a certain impact on the environment, and using solar energy as a power source is clean, environmentally friendly, economical and practical. Therefore, the use of a single solar power supply within a small range has broad application prospects for small electrical equipment.

Contents of the invention

The purpose of the utility model is to provide a simple structure, energy-saving, environment-friendly, and convenient charging structure of the solar electric bicycle charging station of the kiosk, so as to overcome the deficiencies of the prior art.

The technical scheme of the utility model: a pavilion-type solar electric bicycle charging station structure, including an arc-shaped pavilion cover, an arc-shaped pipe frame is installed at both ends of the arc-shaped pavilion cover, and a group of A pole, a solar panel is installed on the top of the arc-shaped pavilion cover, and a set of charging piles and battery packs are installed on the bottom plate of the arc-shaped pavilion cover. The positive and negative poles of the solar panel are connected to one end of the wire, and the other end of the wire is connected After passing through the shaped tube frame, it is connected with the positive and negative poles of the battery pack to form a loop, and each charging pile is connected in parallel in the loop.

The lower end of the arc-shaped pipe frame is bent into a disc-shaped structure, one end of each strut is welded on the disc-shaped structure, and the other end is fan-shaped welded and supported on the arc-shaped pipe frame.

The arc-shaped pavilion cover is a U-shaped structure made of bent stainless steel plates. The large-plane design of the arc-shaped pavilion cover can block sunlight on sunny days and avoid a large temperature rise caused by direct sunlight when the electric bicycle is charging. In rainy days, it can block rainwater to avoid damage to electric bicycles and charging equipment due to rain, and avoid affecting riding comfort.

The front of the charging pile is provided with a card reader or a coin acceptor, a charging socket is provided on the side, and a display screen is provided on the top of the charging pile. Therefore, the user can choose two consumption modes of swiping a card and inserting coins, and learn about the electric bicycle through the display screen. Information such as the charging status of the phone, the estimated remaining time for charging, and the amount of money spent on charging.

Due to the adoption of the above technical scheme, the utility model has the advantages that: the arc-shaped pavilion cover of the utility model adopts a large plane design, which can block sunlight on sunny days and avoid a large temperature rise caused by direct sunlight when charging an electric bicycle. Block rainwater to avoid damage to electric bicycles and charging equipment due to rain, and avoid affecting riding comfort. At the same time, the utility model can choose two consumption modes of card swiping and coin insertion, and the charging state of the electric bicycle, the estimated remaining time of charging completion, and the consumption amount of the charging completion and other information can be obtained through the display screen. In addition, the utility model adopts solar energy as the power source of the electric bicycle charging station structure, and does not need to lay wires, so that the charging station becomes a mobile charging station, and the construction of the charging station will not cause damage to the city's existing municipal and electric power projects. It can realize local materials and use local solar energy resources for photoelectric conversion, realize clean energy utilization and improve convenience.

Description of drawings

Fig. 1 is a perspective view of a structural schematic diagram of the present utility model.

Explanation of reference signs: 1-curved pavilion cover, 2-curved pipe frame, 3-strut, 4-solar panel, 5-charging pile, 6-charging socket, 7-card reader or coin acceptor, 8 - display screen, 9-disk-shaped structure.

detailed description

In order to make the purpose, technical solution and advantages of the utility model clearer, the utility model will be further described in detail below in conjunction with the accompanying drawings and embodiments.

Embodiment of the present utility model: the schematic diagram of the structure of the kiosk-type solar electric bicycle charging station structure is shown in Figure 1, including an arc-shaped pavilion cover 1, and the arc-shaped pavilion cover 1 is U-shaped by bending a stainless steel plate The arc-shaped pipe frame 2 is installed at both ends of the arc-shaped pavilion cover 1, the lower end of the arc-shaped pipe frame 2 is bent into a disc-shaped structure 9, and one end of each strut 3 is welded to the disc-shaped structure 9 The other end is fan-shaped welded and supported on the arc-shaped pipe frame 2. This design is not only beautiful, but also improves the overall strength of the arc-shaped pavilion cover 1. A solar cell panel 4 is installed on the top of the arc-shaped pavilion cover 1, and a group of charging piles 5 and a battery pack are installed on the bottom plate of the arc-shaped pavilion cover 1. The positive and negative poles of the solar cell panel 4 are connected to one end of the wire, and the other end of the wire After passing through the arc-shaped pipe frame 2, it is connected with the positive and negative poles of the battery pack to form a loop, and each charging pile 5 is connected in parallel in the loop. The charging pile 5 is provided with a card reader or a coin acceptor 7 on the front, a charging socket 6 is provided on the side, and a display screen 8 is provided on the top thereof. Therefore, the user can choose two consumption modes of card swiping and coin insertion, and through the display screen to know the charging status of the electric bicycle, the estimated remaining time of charging, and the amount of consumption after charging.

Claims (4)

1. A pavilion-type solar electric bicycle charging station structure, characterized in that it includes an arc-shaped pavilion cover (1), and arc-shaped pipe frames (2) are installed at both ends of the arc-shaped pavilion cover (1). A set of poles (3) is arranged inside the arc-shaped pipe frame (2), a solar cell panel (4) is installed on the top of the arc-shaped pavilion cover (1), and a set of The charging pile (5) and the battery pack, the positive and negative poles of the solar panel (4) are connected to one end of the wire, and the other end of the wire passes through the arc-shaped tube frame (2) and is connected to the positive and negative poles of the battery pack to form a loop. The charging pile (5) is connected in parallel in the circuit. 2. The kiosk-type solar electric bicycle charging station structure according to claim 1, characterized in that: the lower end of the arc-shaped pipe frame (2) is bent into a disc-shaped structure (9), and each pole (3 ) one end is welded on the disc-shaped structure (9), and the other end is fan-shaped welded and supported on the arc-shaped pipe frame (2). 3. The kiosk-type solar electric bicycle charging station structure according to claim 1, characterized in that: the arc-shaped kiosk cover (1) is a U-shaped structure formed by bending stainless steel plates. 4. The kiosk-type solar electric bicycle charging station structure according to claim 1, characterized in that: the charging pile (5) is provided with a card reader or a coin acceptor (7) on the front, and a charging socket (6) on the side ), and a display screen (8) is arranged on the top thereof.