ES1295740U - DEVICE FOR COOLING AND/OR CLEANING OF PHOTOVOLTAIC SOLAR PANELS (Machine-translation by Google Translate, not legally binding) - Google Patents

Abstract

A device for cooling and cleaning photovoltaic solar panels, comprising: first means (11) configured for installation above at least one photovoltaic solar panel (20) to provide water (5) to said photovoltaic solar panel (20), which is at least one; second means (12) configured to be installed below the photovoltaic solar panel (20) to recover water received by a surface (23) of the photovoltaic solar panel (20); a first temperature probe (31) configured to detect a temperature of the surface (23) of the photovoltaic solar panel (20); a second temperature probe (32) configured to detect a temperature of the water (5) provided to the first means (11); a control unit (30) that includes at least one controller (33), said controller (33) being configured to operate at least one solenoid valve (35) for passing the water (5) provided to the first means (11) according to a or more temperature signals received from said first and/or second temperature probe (31, 32); and a microturbine (7) configured to power the controller (33) electrically. (Machine-translation by Google Translate, not legally binding)

Description

DESCRIPTION

SOLAR PANEL COOLING AND/OR CLEANING DEVICE

PHOTOVOLTAIC

technique field

This utility model relates, in general, to the field of photovoltaic solar panels. In particular, the invention concerns a device for cooling and/or cleaning photovoltaic solar panels, particularly using water.

state of the art

From document KR20110053610A a device is known for improving the efficiency of a solar power generation facility and thus protecting water resources and saving energy by recycling water.

The present invention presents an alternative to the previously mentioned document by including a microturbine that generates enough electricity for the operation of the device.

Brief description of the invention

The present invention provides a device for cleaning and/or cooling photovoltaic solar panels. The device comprises first means configured to be installed above at least one photovoltaic solar panel to provide water to it; second means configured for installation below the photovoltaic solar panel to recover water received by a surface of the photovoltaic solar panel; a first temperature probe configured to detect the surface temperature of the photovoltaic solar panel; and a second temperature probe configured to detect the temperature of the water provided to the first media.

Furthermore, the device comprises a control unit with at least one controller. The controller is configured to operate a solenoid valve for the passage of the water provided to the first means according to temperature readings received from the first and/or second temperature probe.

Similarly, the device comprises a microturbine to power the controller electrically.

In some embodiments, the control unit also includes an electrical energy storage element, for example, a supercapacitor, capacitor, batteries, etc. Alternatively, the electrical energy storage element may be included in the microturbine.

In some embodiments, the device also has a water tank to store the water recovered by the second means, such as a gutter or gutter. The recovered water can be both from the water provided to the first media and from rain. Optionally, a water pump, level probes, etc. can also be included.

In some embodiments, the first means comprise a tube with perforations along its length for the outlet of the water towards the photovoltaic solar panel.

In some embodiments, the device has a water softener configured to soften the water supplied to the first media.

In some embodiments, the photovoltaic solar panel is made up of a first panel portion and a second panel portion, joined to the first panel portion by means of an elastic joining element such as a rubber or silicone profile. In this way, the water is allowed to flow from one portion to another and prevents it from falling off the surface of the same, maximizing the water recovered.

The control unit allows configuring the times as well as the communications for the correct operation of the device. The control unit also allows the device to be operated remotely.

Therefore, the present invention provides an autonomous device for the cooling and/or cleaning of photovoltaic solar panels by means of water or other liquid elements.

Brief description of the figures

The foregoing and other advantages and characteristics will be more fully understood from the following detailed description of an embodiment with reference to the attached drawings, which should be taken for illustrative and non-limiting purposes, in which:

Fig. 1 schematically shows the elements comprising the proposed device, according to an example of embodiment.

Detailed description of an exemplary embodiment

Fig.1 illustrates an embodiment of the proposed device for cooling and/or cleaning photovoltaic solar panels (20). According to this embodiment, the device comprises first means (11), in this case implemented by means of a tube with perforations (9), to provide water (5), by gravity, to the photovoltaic solar panel (20), and second means (12), implemented by means of a gutter, to recover/collect the water received by a surface (23) of the photovoltaic solar panel (20).

The device also has a first temperature probe (31) to detect the temperature of the surface (23) of the photovoltaic solar panel (20) and a second temperature probe (32) to detect the temperature of the water (5) provided to the first means (11).

Likewise, the device comprises a control unit (30) that includes at least one controller (33). The controller is operationally connected to a solenoid valve (35) for the passage of water to the first media (11) and allows it to be operated remotely. The controller can open/close the solenoid valve (35) based on temperature signals received by the temperature probes (31, 32). For example, when the temperature of the water (5) provided to the first means (11) is greater than 10°C and the temperature of the surface (23) of the photovoltaic solar panel (20) is greater than 30°C (that is, , the photovoltaic solar panel needs to reduce the heat on its surface to operate in optimal temperature conditions and to make the most of the performance of the photovoltaic solar panel), the controller (33) will activate the aforementioned solenoid valve (35) to allow the passage of water (5) towards the first means (11). This can be done for a certain and configurable period of time, for example, for 15-60 seconds.

The device of this exemplary embodiment also comprises a water tank (40) to store the water recovered by the second means (12) and a softener (42) to soften the water (5) provided to the first means (11). ). It should be noted that both the water tank (40) and the softener (42) are optional and in other embodiments they may not be included.

The proposed device is self-powered by generating its own electrical energy. For this, the device includes a microturbine (7) that, when the water (5) passes through it, generates the electrical energy necessary to power the device.

Optionally, in some embodiments, an electrical energy storage element (34, 34') can also be included in the control unit (30) and/or in the microturbine (7). In this way, the control unit (30) can continue to function, even if there has been no passage of water (5) through the microturbine (7) for a very long time. Said electrical energy storage elements (34, 34') can be of the condenser, supercapacitor, battery or electric accumulator type, among others.

The photovoltaic solar panel(s) (20) may/n be formed by a single portion or by two portions, as illustrated in Fig. 1. In the latter case, the two portions (21 , 22) are connected to each other by means of an elastic connecting element (25), for example a rubber profile or a silicone. The elastic joining element (25) allows the water to flow easily from one portion to another and also prevents the water from falling off the surface (23).

The scope of the present invention is defined by the appended claims.

Claims (8)

1. A device for cooling and cleaning photovoltaic solar panels, comprising: first means (11) configured to be installed above at least one photovoltaic solar panel (20) to provide water (5) to said photovoltaic solar panel (20), which is at least one; second means (12) configured to be installed below the photovoltaic solar panel (20) to recover water received by a surface (23) of the photovoltaic solar panel (20); a first temperature probe (31) configured to detect a temperature of the surface (23) of the photovoltaic solar panel (20); a second temperature probe (32) configured to detect a temperature of the water (5) provided to the first means (11); a control unit (30) that includes at least one controller (33), said controller (33) being configured to operate at least one solenoid valve (35) for passing the water (5) provided to the first means (11) according to a or more temperature signals received from said first and/or second temperature probe (31, 32); Y a microturbine (7) configured to power the controller (33). The device according to claim 1, wherein the control unit (30) further includes an electrical energy storage element (34). The device according to claim 1, wherein the microturbine (7) further includes an electrical energy storage element (34'). The device according to any one of the preceding claims, wherein the first means (11) comprise a tube with perforations (9) along its length for the outlet of water. The device according to any one of the preceding claims, further comprising a water tank (40) for storing the water recovered by the second means (12). The device according to any one of the preceding claims, further comprising a water softener (42) configured to soften the water (5) provided to the first means (11). The device according to any one of the preceding claims, wherein the photovoltaic solar panel (20) is formed by a first panel portion (21) and a second panel portion (22) joined together by an elastic joining element. (25). The device according to claim 7, wherein the elastic joining element (25) comprises a rubber or a silicone.