ES1249294U - PANEL FOR SOLAR THERMAL COLLECTORS AND HEAT PUMPS - Google Patents

Abstract

Panel for solar thermal collectors and heat pumps, which captures the heat energy produced by solar radiation, wind particles, water particles or any other environmental energy that is in its environment, this energy being transmitted to an exchanger that it has itself solar thermal collector or heat pump where the panel of the invention is connected, in which the panel (p) is characterized by comprising a plate (1) of anodized aluminum with flexible, reversible lacquer and which has a circuit inside (2) closed and formed using the "Roll-Bond" technique; so that this circuit (2) comprises inside at least three distributors (21, 22 and 23) located in line inside the plate (1), so that the plate (1) as a whole captures all the environmental heat energy from its surroundings through a fluid that circulates inside the circuit (2); and where this fluid transports the heat energy captured to an exchanger that is connected to the panel (p) through an inlet conduit (11) and an outlet conduit (12) that are located at one of the ends or edges of the plate (1).

Description

DESCRIPTION

PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS

OBJECT OF THE INVENTION

The Invention is designed so that once the panel is connected to an Exchanger of a thermal collector or a heat pump, the panel captures the heat energy produced by solar radiation, wind particles, water particles or any other environmental energy that is in its environment, so that this energy is transmitted to said exchanger through a fluid contained in the panel of the invention, so that this heat energy supply cycle is repeated as many times as necessary until the required temperature is reached.

To do this, the panel of the invention is made up of an anodized aluminum plate with a flexible, reversible lacquer that has a closed circuit inside it and is formed by the uRoll-Boncf technique, so that this circuit comprises at least three distributors that they distribute a fluid over the entire section of the plate, so that the set captures all the environmental heat energy from its surroundings and transports it to an Exchanger that has the solar collector or heat pump itself where the panel of the invention is connected.

The field of application of the invention is included within the sector of the manufacture and marketing of panels, intended to be located in thermal solar collectors and heat pumps.

BACKGROUND OF THE INVENTION

At present, numerous heat generation devices are known that take advantage of solar thermal energy to satisfy an energy demand in different areas. This is the case, for example, of solar thermal collectors, which are devices that are designed to collect the energy received from the sun and raise the temperature of a network with a view to its exploitation; or, for example, heat pumps, which are devices or machines that take heat from a cold space and transfer it to a hotter one by means of energy supplied from the outside.In both cases, this generation of heat is produced by the capture of radiation solar in different ways.

Well, the present invention defines a type of panel that is insertable or adaptable to both solar thermal collectors and heat pumps, so that both devices improve the levels of heat energy capture, and therefore improve the level of contribution of energy to the outside in the form of heat to the user. For this, the panel of the invention captures all the heat energy from the environment that is in its surroundings, that is, it captures both solar radiation and the heat energy produced by the wind particles and by the water particles that are in its vicinity. around, and takes advantage of it to supply calorific energy to the equipment that contains it in a different and improved way than the conventional devices that currently have thermal collectors or known heat pumps.

In the case of conventional solar thermal collectors, we highlight that, among others, they require an electric pump so that the fluid to be heated reaches from an accumulator to the panel or device, so that the fluid medium passes through collectors to the exchanger and subsequently performs his return. All of this means that the electrical consumption of said pump by having to push the fluid through the circuit reduces the profitability of the energy generated, and therefore increases the maintenance of the equipment. On the contrary, the panel of the Invention does not need an electric pump since, since it has at least three distributors in its circuit and also the plate is made of anodized aluminum with a flexible and reversible lacquer, it is the heat energy itself collected from the environment that distributes, it expands and evaporates the fluid uniformly throughout the section of the plate quickly, and avoiding energy costs that an electric pump would produce, as is currently the case in other equipment.

In the same way, in the case of heat pumps that incorporate the panel of the invention, the fluid introduced in its internal circuit, which in this case It is preferably a refrigerant gas of the type "R134A, R410 and R407C" \ the fluid when it comes into contact with solar radiation, the heat energy of the particles of the wind and water, increases its temperature, managing to transport said heat to the exchanger. Thus, since the boiling temperature of these refrigerant gases is approximately -30 ° C, the panel of the invention works even with total absence of sunlight and even at night, offering hot water at approximately 55 ° C throughout the hours of the Thus, with the panel object of the invention it is achieved that the heat pumps produce a greater contribution of heat energy to a user, for example in a home or shop, even in the absence of solar thermal radiation.

For all this, with the panel for solar thermal collectors and heat pumps object of the present invention, heat is generated even in the days of solar absence, being able to thermally supply an energy demand for different uses and needs, such as sanitary hot water and air conditioning, among others, in an improved way to conventional panels; and in addition, production costs are reduced in all the equipment that make up the panel of the invention, since the panel of the invention avoids the need for electric pumps and fans, affecting energy savings in the hot water preparation processes for industrial, sanitary and domestic use. All this, by means of a defined structural configuration that combines a type of reversible aluminum plate that has previously been subjected to an electrochemical process, and has a closed internal circuit formed by the uRoll-BoncT technique that comprises at least three distributors, which They distribute a liquid or gaseous fluid throughout the entire circuit to an exchanger, the solar collector or heat pump itself, where all the energy captured from the environment is transported, in a different and improved way to the panels known so far at this time. sector.

Thus, and in accordance with the above, with the panel for thermal solar collectors and heat pumps object of the present invention, it goes a step further in the sector of manufacturing energy capturing panels, since by means of a defined configuration a different and improved type of panel is obtained than what is known so far in this industrial sector.

The following is a detailed description of the invention that completes these general ideas introduced at this point.

DESCRIPTION OF THE INVENTION

The panel of the invention is made up of an aluminum plate, preferably rectangular in shape, this plate being reversible and previously subjected to an electrochemical process or anodized with flexible lacquer, which has a closed circuit inside and formed by the "Roll" technique. -Bond ", so that this circuit comprises at least three distributors located along the plate, so that the plate as a whole captures all the environmental heat energy from its surroundings and transports it through the fluid to an exchanger connected to the panel, which repeats the cycle all the times required until reaching the temperature desired by the user.

The "Roll Bond" technique consists of the union by lamination by means of cold solid state welding, which is obtained through the flat rolling of metal sheets. In this technique two or more layers of different metals are joined through a pair of flat rollers under sufficient pressure to join the layers, so that when the pressure is high enough the metals deform reducing their combined thickness both sheets.Specifying that the joining of the sheets can be controlled, as well as the portion not which can inflate if the sheet is heated and the coating vaporizes.

In the case of the panel of the invention, the aluminum plate that is anodized with a flexible lacquer, internally has a circuit that occupies the entire internal section of the plate. This circuit is preferably achieved with the "Roll Bond" technique and comprises inside at least three distributors that distribute or distribute a fluid such as water or gas throughout the plate. The inlet and outlet of the fluid from the plate are positioned at the same end or edge of the plate, so that on the same face the plate has an inlet circuit for the liquid or gas fluid, which once it passes through all the distributors and go through all the conduits exit through a conduit parallel to the inlet conduit, both being connected to an exchanger, which has the solar thermal collector equipment or the heat pump equipment where the panel of the invention is positioned. Emphasizing that the fluid inlet and outlet cycle is repeated by means of the exchanger, all the times required until reaching the temperature desired by the user.

It is believed convenient to emphasize that because the plate that makes up the panel is made of aluminum, its resistance to overpressures generated by constant exposure and excessive ultraviolet "UV" radiation, improves the heating of a fluid such as water; in addition, this Aluminum plate does not undergo changes in its thickness even with an overpressure in the panel, all due to its properties such as lightness, high resistance, great versatility, ease of machining, excellent resistance to corrosion, excellent conductor of heat and recyclable. For all these reasons, the plate that makes up the panel of the invention, which is made of aluminum and is also anodized with a flexible lacquer, captures and collects all the environmental heat energy from its surroundings and transmits it to the fluid that enters the circuit of the plate, it captures both solar radiation and the heat energy produced by wind particles and water particles that are around it.

Thus, the fluid as it enters the interior of the plate runs through the closed circuit and passes through several distributors that expand it as they suffer the action of the sun, rain, wind and ambient temperature, that is, the fluid expands As it captures solar radiation, the heat energy produced by the wind particles and by the water particles, which are around the plate. That is why as the fluid is introduced inside the plate a thermodynamic cycle is generated, where a fluid enters the circuit that undergoes a change of state along its path through the different distributors so that in turn outlet, this fluid has a higher temperature than it had at its inlet.

The fluid used in the panel of the invention is water and gas, so that in the equipment of the thermal solar collector type the fluid used is water; and in the teams For the heat pump, the fluid used is gas, preferably refrigerant gas of the type " R134A , R410 and R407C '.

Another detail of the invention is that the internal circuit of the board is made up of two types of lines that are a liquid line and a suction or gas-vapor line. The liquid line is the part of the circuit between the fluid inlet to the upper half of the circuit, so that this liquid line runs through half of all the distributors on the plate; and the suction line is the part of the circuit comprised between the lower half of the circuit until the fluid outlet, so that this suction line runs through the other half of all the distributors that the plate has.

In a preferred embodiment in which the panel of the invention is connected to a conventional heat pump, the refrigerant gas being of the type "134A " or "407C \ as the boiling temperature of this type of gases is approximately -30 ° C, The panel works even with total absence of sunlight and even at night, offering the exchanger a temperature at the outlet of the suction line of the plate of up to 55 ° C.

Therefore, with the panel for solar thermal collectors and heat pumps object of the invention, the expansion of a fluid and its change of state using at least three distributors in an internal and closed circuit, makes the equipment where this panel is connected be effective, has a high level of heat transmission on both sides and at the same time has a high level of expansion of the internal fluid, compared to all the panels known to date in this sector.

To complete the description that is being made and in order to help a better understanding of the characteristics of the invention, a set of drawings is attached as an integral part of the same, in which the following has been represented for illustrative and non-limiting purposes:

Figure 1 is a longitudinal section of the panel for solar thermal collectors and heat pumps object of the invention.

Figure 1A is a cross section of one of the conduits that make up the internal circuit of the panel of the invention, according to section A-A 'of Figure 1.

Figure 2 is a representation of the rear part of the panel of the invention, where the machining for the vertical and horizontal adaptation of the panel in a solar thermal collector or a heat pump is shown.

Figure 2A is a cross section of one of the sides of the panel, according to section B-B 'of Figure 2.

DESCRIPTION OF THE DRAWINGS

As can be seen in figure 1, the panel (p) of the invention is made up of a rectangular-shaped aluminum plate (1), this plate being reversible and subjected to an electrochemical or anodized process with flexible lacquer, which has inside a circuit (2) closed and formed by the "Roll-Bond" technique , so that this circuit (2) comprises inside three distributors (21, 22, 23) located along the plate (1 ), so that the plate (1) as a whole captures all the environmental heat energy from its surroundings through a fluid that circulates inside the circuit (2), which transports the heat energy captured to an exchanger that is It is connected to the panel (p) at one of its ends or edges (not shown).

As shown in figure 1, the inlet and outlet of the fluid in the plate (1) is located at the same end or edge of this; so that on the same edge, the plate (1) has an inlet conduit (11) for the fluid of the liquid or gas type, which once passes through all the distributors (21, 22 and 23) and runs through all the conduits From the circuit (2), it exits through an outlet conduit (12) parallel to the inlet conduit (11), both being connected to an exchanger (not shown). Furthermore, it is believed convenient to specify that this exchanger forms part of the solar thermal collector equipment or the heat pump equipment where the panel of the invention is adapted or fixed; and that the cycle of Inlet and outlet of the fluid is repeated through the exchanger all the times required, until reaching the desired temperature.

Thus, the fluid as it enters the plate (1) runs through the closed circuit (2) and passes through several distributors (21, 22 and 23) located in line with each other, where the fluid expands as it undergoes the action of the sun, rain, wind and ambient temperature. Thus, as the fluid is introduced inside the plate (1), it undergoes a thermodynamic cycle since a fluid enters the circuit that is subjected to a change of state along its path through the different distributors ( 21, 22 and 23) so that when the fluid passes through the outlet conduit (12), this fluid has a higher temperature than it had in the inlet conduit (11).

Another detail of the invention is that the internal circuit (2) of the plate (1) is divided into two types of lines that are a liquid line (L) and a suction line (S) or gas-vapor. The liquid line (L) is the part of the circuit (2) between the inlet duct (11) to the upper half of the circuit (1), so that this liquid line (L) runs through the lower half of all the distributors (21, 22 and 23) that the plate (1) has. For its part, the suction line (S) is the part of the circuit (2) comprised between the lower half of the circuit (2) to the fluid outlet conduit (12), so that this suction line (S) it runs through the upper half of all the distributors (21, 22 and 23) that the plate (1) has.

As previously mentioned, and seen in Figure 1, the fluid passes through three distributors (21, 22 and 23). This fact causes that the fluid does not crowd all in a single passage section and can be distributed in three different distribution zones, so its expansion and evaporation speed in the suction line is carried out quickly. Everything being also favored because the capture of heat energy occurs on the entire surface of the plate (1).

For its part, figure 1A is a cross section of one of the conduits that make up the internal circuit (2) of the panel of the invention, according to section AA 'of figure 1, which shows the polygonal shape of the conduits of the circuit (2) internally.

Figure 2 shows the back of the panel (p) where the machining (3) that the panel (p) has in its four corners is shown, as well as two slits (31) located near one of its smaller sides, by means of which the panel assembly (p) is adapted or fixed both vertically and horizontally to a solar thermal collector type equipment or to a heat pump.

Finally, figure 2A is a cross section of one of the sides of the panel (p), according to section BB 'of figure 2. This figure shows the fold that one of the sides of the panel (p) has, highlighting that all four sides of the panel (p) have the same section, that is, all these folds have an inverted "U" shaped section.

Claims (11)

1- PANEL FOR SOLAR THERMAL COLLECTORS AND HEAT PUMPS, which captures the heat energy produced by solar radiation, wind particles, water particles or any other environmental energy that is in its environment, this energy being transmitted to an exchanger that it has the solar thermal collector or heat pump itself where the panel of the invention is connected, in which the panel (p) is CHARACTERIZED by comprising a plate (1) of anodized aluminum with flexible, reversible lacquer and that has inside a circuit (2) closed and formed by the "Roll-Boncf ' technique " so that this circuit (2) comprises inside at least three distributors (21, 22 and 23) located in line inside the plate ( 1), so that the plate (1) as a whole captures all the environmental heat energy from its surroundings through a fluid that circulates inside the circuit (2); and where this fluid transports the heat energy captured to an exchanger that is connected to the panel (p) through an inlet conduit (11) and an outlet conduit (12) that are located at one of the ends or edges of the plate (1). 2.- PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to claim 1, which is CHARACTERIZED by the fact that the internal circuit (2) of the plate (1) is divided into two lines, which are: - a liquid line (L) which is the part of the circuit (2) between the inlet conduit (11) to the upper half of the circuit (1), so that this liquid line (L) runs through the lower half of all the distributors (21, 22 and 23) that the plate (1) has; and - join the suction line (S) which is the part of the circuit (2) between the lower half of the circuit (2) to the fluid outlet conduit (12), so that this suction line (S) runs the upper half of all the distributors (21, 22 and 23) that the plate (1) has. 3 - PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to any of the preceding claims, which is CHARACTERIZES because the inlet duct (11) and the outlet duct (12) are in parallel. 4 - PANEL FOR SOLAR THERMAL COLLECTORS AND HEAT PUMPS, according to claim 1, which is CHARACTERIZED in that the fluid is a liquid. 5.- PANEL FOR SOLAR THERMAL COLLECTORS AND HEAT PUMPS, according to claim 4, which is CHARACTERIZED in that the liquid is water. 6 - PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to claim 1, which is CHARACTERIZED in that the fluid is a gas. 7. - PANEL FOR SOLAR THERMAL COLLECTORS AND HEAT PUMPS, according to claim 6, which is CHARACTERIZED by the fact that the fluid is a refrigerant gas of the type " R134A , R410 or R407C". 8. - PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to any of the preceding claims, which is CHARACTERIZED by the fact that the temperature of the fluid in the outlet conduit (12) after passing through the circuit (2) and through the distributors ( 21, 22 and 23), is higher than the temperature of the fluid in the inlet conduit (11). 9. - PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to claim, which is CHARACTERIZED by the fact that the plate (1) is rectangular. 10. - PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to claim 1, which is CHARACTERIZED by the fact that the back of the panel (p) has a machining (3) in its corners and also has two slits (31) located next to one of its smaller sides, where produces the fixing to a solar thermal collector equipment and to a heat pump equipment. 11.- PANEL FOR THERMAL SOLAR COLLECTORS AND HEAT PUMPS, according to claim 1, which is CHARACTERIZED in that the panel (p) has a fold with an inverted “U” -shaped section on each of its sides.