NL1013874C2 - System and method for collecting solar energy. - Google Patents

Description

SYSTEM AND METHOD FOR RECOVERING SOLAR ENERGY

The invention relates to a system for collecting near a space accessible to persons and converting solar energy into electrical energy, in order to supply that electrical energy to the electricity grid as present in the relevant space 10, comprising a outdoor panel that captures sunlight and converts it into DC power, an inverter that converts the DC power into AC power, and an electrical connection cable to transport the DC power from the panel to the inverter.

Such a system can be used to supply electrical energy to a building in which the space in question is located, but also to supply the.

20 to supply collected energy to the network with which electrical energy is transported to the relevant space, and possibly other buildings. The direct current from the panel is converted by means of the inverter into alternating current corresponding to the alternating current customary in the building, for instance 220 Volt and 50 Hertz.

It is common for the inverter to be mounted near or on the panel, so that the usable alternating current is directly available from the panel / inverter 30 unit. The energy to be delivered by several panels / inverters can here be dissipated as directly usable alternating current via a cable arranged along the inverters.

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The inverter can be mounted on the back of the panel, so that on the one hand the collection of sunlight is not hindered and on the other hand the inverter is somewhat sheltered. However, it is necessary to make the inverter watertight or splashproof.

In addition, the inverter must be able to withstand relatively large temperature changes, not only the normal temperature changes that occur in the outside air, but also relatively high temperatures that the panel assumes, also at the rear. In practice this can rise to 70 ° C.

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Another drawback of installing the inverter behind or under the panel is the difficult accessibility of the inverter. Not only because the space behind the panel is often limited, but also because the panel 15 is often mounted high, for example on the roof of the building

The object of the invention is a system for collecting and converting solar energy into electrical energy 20 which can be made cheaper and / or simpler and which can be maintained more easily.

For this purpose, according to the invention, the inverter is not located outside, but within the space and the connecting cable runs from the outside to within the space. The panel and the connecting cable, which transports a DC with a relatively low voltage, are the only parts of the system that are outdoors, while the inverter and the part 30 of the system where a higher AC voltage is present within the system. building, so in a place with much lower requirements for the protection of parts.

In preferred embodiments, multiple panels are connected to the inverter with a common connection cable or multiple panels are each with: Ö1 SEi; 3 connection cable connected to an inverter.

Preferably, the inverter is located in a room accessible to people in a building, so that the inverter is easily accessible for maintenance and the like.

Because the inverter is installed within the building, the inverter does not have to be waterproof, or splash-proof, and the inverter is not exposed to extremely large temperature fluctuations or high temperatures. This makes the inverter much smaller and easier to design, especially if the inverter converts direct current into 15 alternating current for only one panel. The inverter is preferably connected to a plug which can be plugged into a wall socket present in the room. It is thereby possible to integrate the inverter into the plug, so that a combined plug / inverter is obtained, as is known with an adapter for an electrical appliance, wherein the adapter is provided with a plug that can be plugged into a wall socket. stabbed.

The inverter is thus preferably built into a plug 25 which can be plugged into a wall socket present in the building. This in itself can be regarded as an invention.

Also preferably, the connecting cable is manually detachably connected to the inverter, so that the inverter can be easily replaced by the user or given for repair if it is broken.

The housing of the inverter is preferably not made watertight, so that it can be produced more cheaply. It is particularly advantageous here that holes for air cooling of the electronic 1013874 4 components can be arranged in the housing.

In a preferred embodiment, the inverter is provided with an indicator which indicates the functioning of the inverter 5, which indicator may consist of a display, or a lamp or other light-emitting element in or on the inverter. Such an indicator can be used advantageously because the inverter can be mounted in a visible place, and has the psychological advantage that the user can see when he saves costs because electricity is supplied by the solar panel.

The use of an indicator in an inverter for the system described in the introduction can also be regarded as a separate invention.

The invention also relates to a device for collecting and converting solar energy into electrical energy, comprising a panel that can collect sunlight and convert it into direct current, an inverter that can convert the direct current into an alternating current and an electric connecting cable to transport the direct current from the panel to the inverter, the inverter being connected to a plug which can be plugged into a wall socket.

The invention also relates to a method for collecting solar energy close to a space accessible to persons and converting solar energy into electrical energy, wherein a panel which is arranged in the open air captures sunlight and converts it into direct current, wherein an electrical connecting cable direct current transports from the panel to an inverter which converts the direct current into an alternating current, the connecting cable transporting the direct current from outside the room into the room where the inverter 1013874 5 is located.

The invention further relates to a method for installing a system for collecting solar energy and converting solar energy into electrical energy, wherein a panel is arranged in the open air which captures sunlight and converts it into direct current, wherein an inverter converts direct current into an alternating current and an electrical connection cable to transport the direct current from the panel to the inverter is placed, characterized in that the inverter is placed within a room accessible to persons and that the connection cable between the panel arranged outside the room and the inverter placed within the space is arranged.

The invention particularly relates to the use of panels with an output power of up to 150 W and of which the direct current output has a voltage 20 of maximum 50 V.

To clarify the invention, with reference to the drawing, an exemplary embodiment of a system for collecting solar energy will be described.

Figure 1 shows a conventional system, and Figure 2 shows a system according to the invention.

The figures are only simplified and schematic representations of an exemplary embodiment.

Figure 1 shows a conventional device, which is referred to as "AC module", indicating that it is an AC power supply unit. This alternating current is obtained because the panel 1, which is provided with solar cells at the front, captures sunlight, which sunlight is converted into a direct current by the solar cells. The figure shows the rear side of the panel 1, and an inverter 2 is mounted against that rear side.

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The direct current is fed directly from the panel into the inverter via a connecting cable (not shown). For this purpose, the inverter can be attached to the panel where the connection cable leaves panel 1, but a longer connection cable can also be used between that output and the input of the inverter, so that the inverter is at some distance from the panel 1 can be placed.

According to figure 1, an outgoing connecting cable 3 is attached to the inverter 2, which drains the alternating current coming from the inverter 2, for instance to a socket in the building to which the panel is attached. For this purpose, a plug 4 is attached to the connecting cable, which plug can be inserted into the socket.

In this way, the collected solar energy can be supplied directly to the electricity grid which provides the power supply for the building in question.

Disadvantages of this system are the requirement that the inverter must be watertight, the large temperature fluctuations and the high temperature around the inverter, the poor accessibility or accessibility of the inverter in case of service, the higher installation costs because not only a flat panel on the roof of a building must be placed, and the safety requirements with which the parts of the system must comply, including the 35 parts where there is a relatively large alternating voltage.

1013874 7

Figure 2 shows a system according to the invention. The back of panel 1 is also shown here. A connecting cable 6 extends from the exit 5 of the panel 1, which may be as long as necessary to reach up to 5 inside the building to which the panel is mounted. At the end of the connecting cable 6, an integrated combination 7 of an inverter and a plug is provided, which are housed in a common housing.

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The housing of the combined plug / inverter 7 is provided with an indicator 8 which indicates whether an electric current is being supplied by the system.

15 Because the inverter is located inside a building, the inverter can be simpler and smaller in size, allowing integration with a plug.

The illustrated embodiment is only an example, other embodiments are also possible.

1013874

Claims (13)

1. System for collecting near a room accessible to persons and converting solar energy into electrical energy, in particular for supplying the electrical energy to the existing electricity grid, comprising an outdoor panel that collects sunlight and converts to direct current, an inverter that converts the direct current into an alternating current and an electrical connection cable to transport the direct current from the panel to the inverter, the connection cable running from the outside to the room and the inverter being in the room . System according to claim 1, characterized in that several panels are connected to the inverter with a common connecting cable. 20 System according to claim 1, characterized in that several panels are each connected to an inverter with a connecting cable. System according to any one of the preceding claims, characterized in that the space accessible to persons comprises a room of a building. 5. System as claimed in any of the foregoing claims, characterized in that the inverter is connected to a plug which can be inserted into a wall socket present in the room. 6. System according to claim 5, characterized in that the inverter is built into the plug. System according to any one of the preceding claims, with; i! "0! 3.8? 4 4 characterized in that the connecting cable is manually detachably connected to the inverter. 8. System according to any one of the preceding claims, characterized in that the converter comprises a housing with electronic components, the housing not being watertight in order to be arranged within the space. System according to claim 8, characterized in that the housing is provided with openings for air cooling of the electronic components. 10. System according to any one of the preceding claims, characterized in that the inverter is provided with an indicator which indicates the functioning of the inverter. 11. Device for collecting and converting solar energy into electrical energy, comprising a panel that can receive sunlight and convert it into direct current, an inverter that can convert the direct current into an alternating current and an electric connecting cable to transport the direct current from the panel to the inverter, where the inverter is connected to a plug which can be plugged into a wall socket. 12. A method for collecting near an area accessible to persons 30 and converting solar energy into electrical energy, wherein a panel which is arranged in the open air captures sunlight and converts it into direct current, wherein an electrical connecting cable transports the direct current from the panel to an inverter that converts the direct current into an alternating current, and where the connecting cable transports the direct current ~ Γ) Ί *: ƒ V vi U i from outside the room into the room where the inverter is placed. 13. Method for installing a system for collecting and converting solar energy into electric energy, wherein a panel is arranged in the open air which captures sunlight and converts it into direct current, wherein an inverter converts the direct current into an alternating current and an electrical connection cable for transporting the direct current from the panel to the inverter is placed, the inverter being placed within a space accessible to persons and the connection cable between the panel positioned outside the space and the inverter placed within the space applied. J. j I -