WO2018056929A2 - Panel radiator system working with solar collector - Google Patents

Abstract

Invention; (2) consists of elements of a frame (2.1) a rear cover (2.2), an insulating base (2.3), an absorbent plate (2.4), a main tube (2.5), a carrier pipe (2.6) and a glass cover (2.7); a panel radiator (3) for heating the building using hot liquid obtained from the solar collector (2); at least one iron profile (4) for securing the solar collector (2) to the surface of the building with the aid of fasteners; insulated pipes (5) for transmitting the liquid heated by the solar collector (2) to the panel radiator (3); an expansion tank (6) which prevents problems due to expansion due to temperature; At least one valve (7) for opening and closing the fluid flow in the panel radiator (3); and a thermostat valve (8) for closing the fluid flow in relation to the room temperature between the solar collector (2) and the panel radiator (3); relates to a panel radiator system (1) which ensures that houses are heated by heating the panel radiators (3) in the house by passing the hot liquids obtained from the solar collectors (2) located on the outer surfaces of the buildings with insulated pipes (5) and the building wall (D) through the shortest path.

Description

PANEL RADIATOR SYSTEM WORKING WITH SOLAR COLLECTOR

Technical Field

The invention relates to a panel radiator system operating with a solar collector which allows hot liquids obtained from solar collectors located on exterior surfaces of buildings passing through isolated pipes on the shortest path from the building wall to heat the houses by heating the panel radiators in the house.

Known Status of Technique

The most widely used tools in homes and buildings today are radiators and systems consisting of these radiators. In these systems, water coming from the heating system is usually passed through the pipes to be conveyed to the radiators and the heating of the environment is ensured.

Today, as a widespread heating system, solar energy systems placed in the buildings' roofs are used. Solar energy systems use natural energy sources and do not harm the environment. Therefore, the water heated by solar energy systems placed in the roofs of the buildings is transported to the radiators through the pipes connected to the radiators in the houses. In the present technique; the water heated by the solar energy systems placed in the roofs of the buildings goes a long way to reach the radiators. This, in turn, lowers the value of heating (efficiency).

In the present technique; the time of water for reaching every house in the building from energy systems placed in the roofs of buildings is different. The radiator in the house closest to the solar energy system heats the house with the colder state of the water. But the radiator in the farthest house to the solar energy system tries to heat the house with the coldest state of the water. This causes the houses not to be heated evenly. Another known case of technique is the utility model application entitled "Panel Radiator" reference TR200504070, developed for use in domestic heating systems. The summary of this application is as follows: "Said panel radiator has following characteristics: (1) It has two side covers (2), on front faces (3)and one back face (4); in order to reduce the surface temperature, and increase resistance against corrosion both ends of the side covers (3) are bonded with silicone-based adhesives, (1) the front side facing the room is characterized by a protective piece (5) produced from a flat sheet, which allows printing and coloring on the circularly curved inwardly at least 270 ° (6). This utility model refers to developments that improve the appearance of the radiator inside the house and reduce the heat on the outside surface. That is, the system has only been developed in the panel radiator section. There is no information about how the panel radiator heats the house. This utility model application does not solve the problems that our analysis resolves.

Another known case of technique is the utility model application entitled "Solar glass radiator" reference TR201009811 , developed for use in house heating systems. The summary of this application is as follows: It is a solar glass radiator (1) which is used for heating interiors. It has two glass surfaces on the front part (1), a laminated double glass heat resistant layer )2) with two tempered glass surfaces (4). It has a heating equipment which is located inside the glass radiator (1 ) and which heats the laminated double glass layer (2) via infrared rays and radiates heat through laminated double glass layer homogeneously. Said heating equipment (6), includes liquid oil located in particular order (7) and cartridge resistance located between liquid oil providing equal distribution of heat (8). This utility model provides heating of the house with glass radiator infrared radiation. However, this system is located in the house and does not yield enough power from sunlight. This causes the house not to warm up to the capacity. This utility model application does not solve the problem we intend to solve with our invention. The above utility model applications does not solve the case which we intend to solve with our invention, and they have no similarities with our invention.

As a result, due to the above-mentioned drawbacks and the inadequacy of existing solutions, it is necessary to make a panel radiator system working with the solar collector.

Brief Description of Invention Present invention relates to a panel radiator system operating with a solar collector that meets above-mentioned requirements, removes all the disadvantages and adds some additional advantages.

The primary purpose of the invention is to heat the houses by heating the panel radiators in the house by passing the shortest path through the building wall with the insulated pipes of the hot liquids obtained from the solar collectors placed on the outer surfaces of the buildings. In this way, the house is heated efficiently.

One of the objects of the invention is to ensure that the liquid heated by solar energy reaches the radiator in the house through the shortest way. In this way, the liquid passes through the shorter pipes instead of passing through the pipes of lengths of meters and maintains its heat. This ensures that the heat from solar energy is used more efficiently. One object of the invention is to provide a solar collector with a minimum amount of solar energy system located closer to the house panel radiator. In this case the cost of the entire heating system is reduced. This encourages people to use this system.

Another object of the invention is to terminate the use of the pump to ensure circulation of the liquid by providing less heat to the heated liquid. After the liquid is heated, liquid can return with the same pressure because the distance from the solar power system to the panel radiator is shorter. In other words, the liquid can self-circulate because the pressure value of the liquid does not decrease much. In addition, there is no need for large liquid storage tanks to be able to heat the house with this system.

In our invention, the solar collectors are located in the house panel under the parapet below the window closest to the radiator and in the best yield from sunlight. The solar collectors used in our invention are produced in a shape that will not disturb the exterior appearance of the building.

The structural and characteristic features of the invention and all advantages thereof will be more clearly understood by means of the following figures and detailed descriptions which are given by referring to these figures. For this reason, evaluation should be done taking these forms and detailed explanation into consideration.

Shapes to Assist in Understanding the Present Invention

The subject of this application; "solar collector-operated panel radiator system" is shown in the following figures:

Figure 1 : A representation of the panel radiator system (1 ) which is a representation of the "solar collector working panel radiator system" from outside the building. Figure 2: A side view representation of the panel radiator system (1) for the "solar collector working panel radiator system".

Figure 3: A representative image of the solar collector (2) of the panel radiator system (1) with respect to the "solar collector working panel radiator system".

Figure 4: A representation of the elements of the panel radiator (3), valve (7) and thermostat valve (8) of the panel radiator system (1 ) of the "solar collector panel radiator system". Figure 5: A representative image of the iron profile (4) of the panel radiator system (1) with respect to the "solar collector working panel radiator system".

Figure 6: A representative image of the isolated pipe (5) of the panel radiator system (1) with respect to the "solar collector working panel radiator system".

Figure 7: A representative image of the expansion tank (6) of the panel radiator system (1) with respect to the "solar collector working panel radiator system".

"Drawings are generally representations and do not need absolute scaling. Details that are not necessary to understand the present invention may be omitted. Furthermore, elements which are substantially identical or at least have substantially identical functions are indicated by the same number. "

Explanation of Part References

Our invention entitled "Panel collector system working with solar collector", which is the subject of this application, is numbered as shown in the attached figures, the corresponding part names being given below;

1. Panel radiator system

2. Solar collector

2.1stframe

2.2nd Rear cover

2.3rd Insulating base

2.4thAbsorber plate

2.5thMain pipe

2.6thCarrier pipe

2.7thGlass cover

3. Panel radiator

4. Iron profile

5. Insulated pipe

6. Expansion tank

7. Valve 8. Thermostat valve

D. Wall

P1. Parapet

P2. Window

Detailed Explanation of Invention

In this detailed description, our invention , panel radiator system operating with the sun collector is disclosed only for the sake of better understanding of the subject and without any limiting effect.

In addition, some elements or process steps prepared to provide a better understanding of the invention may have been used in various ways to provide meaningful completeness within sentences. Elements used in different expressions and either the steps of the process actually represent the same numbered element or process step.

The inventive panel radiator system (1) comprises the following elements:

• Solar collector (2) consisting of frame (2.1 ), Rear cover (2.2), insulating base (2.3), absorber plate (2.4), main pipe (2.5), carrier pipe (2.6) and glass cover

(2.7),

• Panel radiator (3), which provides heating of the building using hot liquid obtained from the solar collector (2),

• At least one iron profile (4) for securing the solar collector (2) to the surface of the building with the aid of fasteners,

• Insulated pipes (5), through which the liquid heated by the solar collector (2) communicates with the panel radiator (3)

• The expansion tank (6), which prevents problems due to expansion because of temperature,

· At least one valve (7) for opening and closing the fluid flow in the panel radiator (3),

• A thermostat valve (8) for closing the fluid flow between the solar collector (2) and the panel radiator (3) according to room temperature,

Solar connector (2) consists of; frame (2.1), back rear (2.2), insulating base (2.3), absorbent plate (2.4), main pipe (2.5), carrier pipe (2.6)

• frame (2.1) is the place which includes the parts (2) of the solar collector (2) and surrounds the solar collector (2). The frame (2.1) is connected to the L- shaped iron profiles (4) mounted on the wall (D) at an angle of 30 ° with the fasteners. The frame is made of (2.1) square or rectangular shaped sheet iron.

• Rear cover (2.2) has an insulating base (2.3) and forms the lowest part of the solar collector (2). Rear cover (2.2) is mounted at the bottom of the frame (2.1). Rear cover (2.2) is made up of sheet iron.

• The insulating base (2.3) is located between rear cover (2.2) and absorbent plate (2.4). The insulating base (2.3) is made from an insulating material that prevents heat loss.

• Absorbent plate (2.4) absorbs sunlight, transforms to heat and provides heat transfer to the liquid. On the absorber plate (2.4), there are main pipes (2.5) and carrier pipes (2.6).

• The main pipe (2.5) conveys the heated liquid to carrier pipes (2.6) and panel radiator (3) in the solar collector (2). The main pipe (2.5) is at least one.

• Carrier pipe (2.6) conveys the heated liquid to 6) and panel radiator (3) in the solar collector (2). Carrier pipe (2.6) is at least one.

• Glass cover (2.7) reduces heat losses on the solar collector (2) to the minimum and prevents solar radiation. Glass cover (2.7) is made up of glass.

Dimensions of solar collector (2) are directly proportional to the dimensions of the panel radiator (3). Solar collector (2) is positioned under the parapet (P1) under the window (P2) at the building wall (D) so as to receive the sunlight vertically. Solar collector (2) is constructed in such a way that it does not disturb the building's exterior view or in different geometric shapes.

Iron profile (4) allows the solar collector (2) to be attached to the surface of the building with the aid of fasteners. Iron profile (4) is of L shape and is at least one piece. Parapet (P1), is the ledge below the window (P2) on the building wall (D). Parapet (P1) is made of marble, cast granite and similar materials.

Claims

1. Invention relates to a panel radiator system (1) having an element of a panel radiator (3) for heating the interior of a building using hot liquid obtained from the solar collector (2);

• A frame (2.1 ) containing parts of the solar collector (2) and surrounding the solar collector (2); a rear cover (2.2) having an insulating base (2.3) on it and forming the lowest part of the solar collector (2); an insulating base (2.3) located between the rear cover (2.2) and absorbent plate (2.4); an absorbent plate (2.4) that absorbs sunlight and transforms to heat and transfers the heat to the liquid; main pipe (2.5), carrier pipe (2.6); and a solar collector (2) consisting of elements of a glass cover (2.7) which minimizes the heat losses on the solar collector (2) and does not interfere solar radiation,

• At least one iron profile (4) for securing the solar collector (2) to the surface of the building with the aid of fasteners,

• Insulated pipes (5), through which the liquid heated by the solar collector (2) communicates with the panel radiator (3)

• The expansion tank (6), which prevents problems due to expansion because of temperature,

• At least one valve (7) for opening and closing the fluid flow in the panel radiator (3),

• It comprises a thermostat valve (8) for opening and closing the flow of liquid between the solar collector (2) and the panel radiator (3) according to room temperature.

2. A panel radiator system (1 ) according to claim 1 , characterized in that: is the solar collector (2) located at the building wall (D) below the parapet (P1 ) under the window (P2) to receive the sun rays vertically.

3. A panel radiator system (1) according to claim 1 or claim 2, characterized in that;

Wherein the dimensions of said solar collector (2) are directly proportional to the ©of the panel radiator (3).

4. A panel radiator system (1) according to claim 1 or claim 2, characterized in that: said solar collector (2), is of a different geometry or shape so as not to disturb the appearance of the building from outside.

5. A panel radiator system (1) according to claim 1 , characterized in that: Said solar collector (2) comprises a frame (2.1) connected to the wall (D) by means of the L-shaped iron profiles (4) via 30° angle.

6. A panel radiator system (1) according to claim 1 or claim 5, characterized by;

said frame (2.1) is made from square or rectangular shaped sheet iron.

7. A panel radiator system (1 ) according to claim 1 , characterized in that: Wherein said solar collector (2) comprises a rear cover (2.2) mounted at the bottom of the frame (2.1 ).

8. A panel radiator system (1) according to claim 1 or claim 7, characterized by;

said rear cover (2.2) is made of sheet iron.

9. A panel radiator system (1 ) according to claim 1 , characterized in that: wherein said solar collector (2) comprises an insulating base (2.3) made up of an insulating material that prevents heat loss.

10. A panel radiator system (1) according to claim 1 , characterized in that: wherein said solar collector (2) comprises an absorbent plate (2.4) on which main pipes (2.5) and carrier pipes (2.6) are located.

11. A panel radiator system (1 ) according to claim 1 , characterized in that: Said solar collector (2) comprises a main pipe (2.5) which conveys the liquid heated in the solar collector (2) to panel radiator (3).

12. A panel radiator system (1) according to claim 1 or claim 11 , characterized by:

said main pipe (2.5) being at least one.

13. A panel radiator system (1 ) according to claim 1 , characterized in that: wherein said solar collector (2) comprises a carrier pipe (2.6) which conveys the heated liquid in the solar collector (2) to panel radiator (3).

14. A panel radiator system (1 ) according to claim 1 or claim 13, characterized by: said carrier pipes (2.6) being at least two.

15. A panel radiator system (1 ) according to claim 1 , characterized in that: said iron profile (4) being L-shaped.

16. A panel radiator system (1) according to claim 1 or claim 15, characterized by;

said iron profile (4) being at least one.