CH706871A2 - Mobile charging center for electric car, has solar power system generating power by photovoltaic plate, where photovoltaic plate forms cover that is three-dimensionally, movably supported on frame in central bearing in center - Google Patents

Abstract

The charging center (1) has a solar power system generating power by a photovoltaic plate. The photovoltaic plate forms a cover (40) that is three-dimensionally, movably supported on a frame (4) in a central bearing (3) in the center. The cover is homokinetically supported in the bearing in the center. An electrical controller (30) is connected with a light sensor (2) and with a wind measuring system (12). The wind measuring system measures wind direction. Weight of a battery (20) corresponds to two times weight of the cover.

Description

The present invention relates to a mobile charging center for electric vehicles according to the preamble of patent claim 1.

Charging stations for electric vehicles are known since there are accumulators and / or battery operated devices. They are usually connected to the public electricity grid for charging. Today, a variety of electrical and electronic equipment is equipped with accumulators that need to be recharged at short or longer intervals.

A special challenge is the electrical equipment, which consume relatively much power. These include bicycles and electric cars. The trend to produce electricity as decentrally as possible has made wind power and solar power systems popular, so that meanwhile components for such power production plants can also be used meaningfully under economic criteria and in many situations.

Previously known chargers, especially for small devices such as phones, navigation devices and computers, but also for bicycles and cars with electric drive relate the electricity as described above, either entirely from the public grid, or are connected to wind or solar power systems, which only provide energy as long as the sun is shining or the wind is blowing. They switch over to the grid as soon as there is no electricity from the photovoltaic or wind turbine.

The central problem is the caching of the power generated when wind or solar power systems are used. There are possibilities for heat storage, gas production or batteries. Although the latter allow the storage of electricity, but are limited in their performance. Only modern batteries together with sophisticated electronic controls allow the use of batteries as power storage for the later charging of devices of greater power.

The present invention now has the task to build a mobile charging center for various electrically powered vehicles and / or equipment, which temporarily stores the energy generated by solar energy and / or wind in batteries, so that electric vehicles at every day and night with only This, medium sun and / or wind generated energy can be recharged. It also sets itself and at the same time the task of building this loading center in lightweight construction, so that it is transportable and can be used at any suitable location.

This object is achieved by a mobile charging center for electric vehicles with the features of claim 1. Further inventive features will become apparent from the dependent claims and the advantages thereof are explained in the following description.

In the drawing shows: <Tb> FIG. 1 <SEP> view mobile loading center. <Tb> FIG. 2 <September> persp. View from above mobile loading center. <Tb> FIG. 3 <SEP> Mobile loading center side view. <Tb> FIG. 4 <SEP> Side view Detail view Storage. <Tb> FIG. 5 <SEP> supervision mobile charging center. <Tb> FIG. 6 <SEP> Top view Detail view Storage. <Tb> FIG. 7 <SEP> Floor plan mobile charging center. <Tb> FIG. 8 <SEP> supervision mobile charging center. <Tb> FIG. 9 <SEP> Open mobile loading center. <Tb> FIG. 10 <SEP> Inclined mobile loading center. <Tb> FIG. 11 <SEP> Supervision prepared for transport mobile loading center. <Tb> FIG. 12 <SEP> Side view prepared for transportation mobile loading center. <Tb> FIG. 13 <SEP> Perspective view of a mobile loading center prepared for transport.

The figures represent possible embodiments, which will be explained in the following description.

The presented, mobile charging center 1 for electric vehicles produced by wind and solar energy regardless of a public power grid enough power, and thus recharges batteries 20, 20, from which then bicycles and / or cars at any time of day or night obtain the electricity for their batteries and can be recharged.

The system is constructed on a lightweight construction frame 4 (Fig. 1). On this frame 1 batteries 20, 20, a cover 40 and a wind turbine 11 are made firm. The covering 40 can be folded together for transport in such a way that it fits into the profile prescribed for road traffic (FIGS. 12, 13). The cover 40, which consists of at least one photovoltaic plate 5, with which power is generated from solar energy, can be brought into the storage 3 in all positions necessary for the absorption of solar rays for the efficient picking up of the light (FIGS. 8, 9, 10). ,

The mobile charging center 1 can be used independently of location, i. it can e.g. be transported on a trailer. In areas where there is enough sunshine and / or wind, this charging center 1 offers the possibility to recharge electric vehicles independently and outside the reach of public power grids. This independence is achieved by two battery units, which in turn are charged by solar power system 10 or wind turbine 11.

The solar power plant 10 operates with solar cells which use light energy, e.g. Sunlight, converted into electrical energy. Several plate-shaped photovoltaic solar cells form the solar power system 10 and offer the vehicles to be charged at the same time an overlap 40, so that the vehicle to be charged almost finds place under a roof. The wind power plant 11 harvests the energy of the wind with its rotor and converts it via a generator 5 into electrical energy. The electrical energy generated by photovoltaic or wind turbine is used to charge the batteries 20, 20.

By means of a light sensor, the position of the sun is checked at short intervals or continuously. This makes it possible, via an electric control, to mount in a storage 3 (Fig. 4, 6) e.g. Homokinetically overlaid cover 40 automatically bring the solar power system in the correct position in which they can achieve the highest efficiency in the conversion of light into electricity due to time and situation.

Likewise, the wind gauge 12 will align the wind turbine 13 to the wind. If the wind is too strong, the generator 5 connected to the wind turbine 13 is disconnected from the wind turbine by the electrical control so that the generator 5 and the electrical control system are not damaged.

Central importance of course, the electrical control of the charging center 1 to. It regulates the production, the storage in the batteries of the mobile charging center and also the charging process of the vehicle accumulators connected to these batteries and to be charged.

The construction of the charging center 1 was carried out taking into account and control of the statically balanced weights. On the one hand, the lightweight construction holds the flexible cover 40 at a safe height. On the other hand, the batteries 20, 20, which are integrated into the lightweight construction, guarantee a statically balanced design with their weight, which is safe even without a foundation. Normal wind forces and their buoyancy are absorbed and trapped. Just to protect the loading center from gusts and storms, anchorages are also proposed. However, foundations are not required because the two batteries 20, 20 have at least twice the weight of the cover 40. Further, the batteries 20, 20 are mounted on rollers so that they can be moved laterally outwards relative to the frame 4 to provide enough space for each vehicle. For transport they are moved inwards, so that the charging center 1 corresponds to the prescribed profile of the traffic regulations.

Special attention has also been given to the interaction of the higher wind power plant 11 and the associated wind measurement system 12. By skillful arrangement of the flexible adjustment and construction system and the matching control a procuring the solar power system 10 is largely avoided by the existing wind turbine 13 and wind turbine 12 wind turbine 11.

Claims (7)

1. Mobile charging center for electric vehicles, characterized in that the charging center (1) at least one battery (20), at least one solar power system (10), at least one wind turbine (11), at least one light sensor (2), at least one wind gauge (12) and at least one electrical controller (30). 2. Mobile charging center (1) according to claim 1, characterized in that the solar power system (10) generates the power by means of at least one photovoltaic panel (5) which simultaneously forms an overlap (40) on a frame (4) in a central Storage (3) center of the device is mounted three-dimensionally movable, 3. Mobile charging center according to claim 1 and 2, characterized in that in each possible position for optimal power generation movably mounted cover (40) always a rectangular volume of at least 4m length, at least 1.5m width and at least 1.5m height remains free. 4. Mobile charging center for electric vehicles according to claim 2, characterized in that the overlap in a storage (3) in the center, is mounted homokinetic. 5. Mobile charging center for electric vehicles according to claim 1, characterized in that the electrical control (30) is connected to the light sensor (2) which reports the position of the sun, so that in a storage (3) movably mounted cover (40) by the appropriate command of the electrical control (30) via appropriate engines and gearbox at any time the sun's position for optimal performance is tracked. 6. A mobile charging center for electric vehicles according to claim 1, characterized in that the electrical controller (30) is connected to the wind measuring system (12) which measures the wind direction, so that the wind power plant (11) is tracked to the wind direction to the optimum performance to provide, and in excessive wind by means of electrical control (30) the generator (5) separates from the wind turbine. 7. A mobile charging center for electric vehicles according to claim 1, characterized in that the weight of the batteries (20, 20) at least twice the weight of the cover (40).