A system for charging EV with sun light that shines onto a solar panel, the sun light is absorbed by the PV cells in the panel. This energy creates electrical charges that move in response to an internal electrical field in the cell causing electricity to flow, includes a solar panel that passes the electricity through a converter to a charge controller. A charge controller accepts the electricity from the solar panel feed into the charge controller, and manages the electricity for distribution to other components. A battery bank is connected to the charge controller outputs, feeding electricity to the batteries. A inverter is connected to the batteries and converts the DC 12 volts current to AC 220 volts. The EV charging cable is plugged into the inverter, and the EV is connected to the EV charging cable and the car is charging with solar power from the sun.

BACKGROUND OF THE INVENTION

Using the off grid system of solar power with the combination of solar panels, sewing, magnets, and custom design. This enables you to take the solar system with you on the road; adding cooling and comfort to the privacy of your car.

Solar Shield6is a combination of, reflective material for the foundation that is custom fitted to each window of a car. Next the magnets are encased with twill tape and machine sewn. Then the solar panels are attached to reflective material. This is what allows the Solar Shield6to snap to the steel in the car.

As the solar panels collects the sunlight they create electricity and pass the electricity through a converter to a solar charging system which I developed. Enabling charging the electric vehicle, any where you go.

BRIEF SUMMARY OF THE INVENTION

Solar Shields6will make charging your Electric Vehicle free after you make the purchase. The shortage of Electric Vehicle charger station will be a thing of the pass. You will be able to charge your EV anywhere.

ABSTRACT OF THE DISCLOSURE

A system for charging electric vehicles with solar panels inside the car. Making it possible to charge your vehicle any where. Eliminating some of the expense of charging the electric vehicle. The solar system can power your house when the power goes out. Plug into the sun.

DETAILED DESCRIPTION

System for Powering Electric Vehicles with Solar Power

The inventor provides a unique system for charging electric vehicles with solar panels inside the vehicle. This mobile charging system can be installed when the car is parked. The solar panel are sewn to a reflective material that is constructed to hold the solar panels against the car window and absorb the sunlight to the PV cells in the panel. This energy creates electrical charges that move in response to an internal electrical field in the cell causing electricity to flow. The present invention is described in enabling detail in the following examples, which may represent more than one embodiment of the present invention.

FIG.1is a perspective view of a car11with a front window Solar Shield panel4installed in the car11, attached to the sun visor hooks45, according to an embodiment of the present invention. In one embodiment a Solar Shield5is installed in the car11, and supported by magnets41according to an embodiment of the present invention. Car11in this example has a Solar Shield6in the passenger back window, held up by magnets41. As illustrated inFIG.7, according to an embodiment of the present invention.

According to an embodiment of the present invention, Car11in this example has a electric vehicle charging cable9charging the car.

FIG.2is inside the car11view with the front driver window, a Solar Shield12installed and held up to the window with magnets41as shown inFIG.7, according to an embodiment of the present invention. When operating, in one embodiment a electric energy converter14is charging the negative wire15and positive wire16and feeding a solar charging system2through a circuit breaker17. Car11back driver side window in this example, is a Solar Shield13installed and held up to the window with magnet41to the steel in the car11according to an embodiment of the present invention. Car11in this example has a solar charging system2that takes the 12 volts DC from the Solar Shields and converts it to 220 volts AC and power a electric vehicle charging cable9, that plugs into a inverter23with a plug42that charges the car11with a plug43.

FIG.3is a top view of the solar charging system2with the wiring and components in this example, a circuit breaker17is where the 12 volts DC electricity enters the solar charging system2from the Solar Shields,4,5,6,8,12and13, moving through wire21positive and wire22negative to a charge controller20that manages the electricity.

Charge controller20sends the electricity out wire24positive and wire25negative to a circuit breaker18to charge a battery46. Wire29positive leaves a circuit breaker18to charge a battery28, and branches off to a circuit breaker19and fuse31. Wire30negative leaves circuit breaker18and charges the battery46, and branches off to circuit breaker19and fuse47. When in operation in one embodiment circuit breaker19is the on and off switch for the electricity moving to a inverter23. Circuit breaker19feeds electricity through wires26negative to the inverter. Circuit breaker19feeds electricity through wires27positive to the inverter. The inverter23takes the electricity it receives and converts the 12 volts DC to 220 volts AC according to an embodiment of the present invention. In this example a electric vehicle charging cable9inFIG.9plugs into the inverter23, and plugs into the car11inFIG.1according to an embodiment of the present invention. The solar charging system2is constructed on a wooden frame32in this example.

FIG.4In this example a front window Solar Shield4consist of reflective material35, a solar panel34, and is attached to the reflective material with stitching37to the eyelets44. When in operation in one embodiment the solar panel34converts electricity, with a converter14sending electricity to a negative wire15and a positive wire16to a circuit breaker17of the solar charging system2.

In this example the Solar Shield4is supported through a opening36that a hooks45passes through to holds the Solar Shield4in place.

FIG.5in this example, a passenger front window Solar Shield5is constructed, with reflective material35as the base for the solar panel34, that is attached with stitching37through eyelets44to the reflective material35. In one embodiment a twill tape40is sewn to the reflective material35that encases the magnets41to the reflective material35that snaps the Solar Shield5to the steel in the car pressing the Solar Shield5against the window collecting sunlight to create electricity, according to an embodiment of the present invention.

FIG.6in this example, a passenger back window Solar Shield6is constructed, with reflective material35as the base for the solar panel34, that is attached with stitching37through eyelets44to the reflective material35. The twill tape40is sewn to the reflective material35that encases the magnets41to the reflective material35that snaps the Solar Shield6to the steel in the car pressing the Solar Shield6against the window collecting sunlight to create electricity, according to an embodiment of the present invention.

FIG.7in this example, shows the insertion of the magnets41between the reflective material35and the twill tape40. The twill tape40is sewn on 4 sides and then diagonal stitched to give the magnets41precise placement along three sides of the Solar Shields, top, left and right sides In this example the solar panel34is attached to the reflective material35with stitching37through the eyelets44. The Solar Shields are fitted to each car11to ensure the best fit for each customer. This solar panels34has the convert14on the back side, the placement depending on the manufacturer. The reflective material35while holding the solar panels34, also block the sun from over heat your car11and adds privacy according to an embodiment of the present invention.

FIG.8is a perspective view of the back window, a Solar Shield8according to an embodiment of the present invention. Solar Shield8has a solar panel support39attached at stitching37top to angle the solar panel34up to the sun. When not is use the solar panel support39folds down flat and out of the way. In this example the reflective material35is the base for the solar panel34that is attached with stitching37through the eyelet44.

FIG.9in this example9is a electric vehicle charging cable, that plugs into the inverter23with plug42and plug43plugs into the car according to an embodiment of the present invention.

FIG.10is a process flow chart illustrating electronic components of the Solar Shield according to another embodiment of the present invention.

FIG.11in this example is a front view of 2 according to an embodiment of the present invention.

It will be apparent to one with skill in the art that the Solar Shield6invention may be provided using some or all of the mentioned features and components without departing from the spirit and scope of the present invention. It will also be apparent to the skilled artisan that the embodiments described above are specific examples of a single broader invention which may have greater scope than any of the singular descriptions taught. There may be many alterations made in the descriptions without departing from the spirit and scope of the present invention.