WO2015030688A1

WO2015030688A1 - Radiator with fluid dispenser

Info

Publication number: WO2015030688A1
Application number: PCT/TR2014/000307
Authority: WO
Inventors: Ahmet Ayan
Original assignee: Ahmet Ayan
Priority date: 2013-08-27
Filing date: 2014-08-27
Publication date: 2015-03-05

Abstract

The present invention relates to radiators (12) comprising of collector (1) which provides the hot or cold fluid to enter into and exit from the panel and/or towel warmer radiator (12) through the fluid inlet section (10) and profiles (2) or tubes which are connected to said collector (1) and spread the fluid to the radiator (12) evenly, wherein it comprises fluid dispenser (3) which interconnects said collector (1) and profile (2) or the tubes; comprises fluid dispenser passage hole (7) and profile fluid passage hole (8) transmitting the fluid in the collector (1) to the profiles (2) or the tubes.

Description

DESCRIPTION

RADIATOR WITH FLUID DISPENSER

TECHNICAL FIELD

The invention relates to panel and towel warmer radiators which will be utilized in the heating and cooling systems of the indoor areas such as home, workplace, school, and hospital.

The invention especially relates to panel and towel warmer radiators which comprise collector providing water transmission in the radiators, water dispenser providing water transmission inside the radiator with ease, and perform the mounting of the profile with ease.

STATE OF THE ART

Today, panel radiators and towel warmers are utilized in the heating and cooling systems in the indoor areas such as home, workplace, school, and hospital. Panel radiators and towel warmers are made by being connected with shrink-fitting and welding principle of the small pins used between the collector and the profile. To perform such a production, specially designed press and welding machine lines are needed.

The investment cost is substantially high due to the press and welding machine lines used in the production of the radiators in the state of the art. Moreover, leaking risk is quite high between each connected profile and collector due to the applied production method. Even the products whose production process is completed and which have passed the sealing tests again become subject to leakage with a slightest tension or impact. This, in turn, causes problems in the product during its use by the end user. In such situations, compensations are paid or customer loss is experienced. Moreover, the trust in such products is lost and market shrinkage is experienced.

When a leakage is observed in the present panel and towel warmer radiators, the product becomes unusable regardless of the section number of the radiator. This is because the connection type of the radiators does not have a structure that can be demountable providing only the problem area to be interfered with. Maintenance of the products are not performed on- site, but performed by taking thereof to the service center, which complicates the maintenance processes and takes long time. The difficulty in the production and mounting processes in the state of the art increases the labor and affects the costs negatively.

Several embodiments with respect to said panel radiators are encountered as a result of the researches in the literature. One of them is the patent No. TR201301487, titled "Panel Radiator". In the abstract of the invention, the following is disclosed; "Panel radiator has two side shells and said side shells are connected to a heating panel. An intermediate piece fills an upper collector in the direction of flow. A smaller vent hole compared to the flow section is provided. When the air of the panel radiator is deflated, said air flows from the rear section of the intermediate piece." As can be understood, the problem aimed to be solved with said invention is to increase the efficiency of the panel radiator by preventing leakage flows.

Another example with respect to said embodiment is the utility model with the application number TR201305255 and titled "Welding method of the tubular elements for the heat- conveying fluid radiators". The invention is designed for towel warmer radiators, wherein it discloses a method for welding at least one heater tube and one collector tube. However, as can be understood, the abovementioned method does not provide a demountable connection. For this reason, it cannot provide any solution for the aforementioned technical problems.

To conclude, improvements are being made in parallel to the developing technology in the panel radiators; therefore, new embodiments which will eliminate the aforementioned disadvantages and offer solution to the present systems are needed. OBJECTS OF THE INVENTION

The present invention relates to panel and towel warmer radiators meeting the aforementioned requirements, eliminating all the disadvantages and offering some additional advantages.

An object of the invention is to reduce the production costs, facilitate the mounting processes with the change in the production method of the panel and towel warmer radiators, thereby presenting a production method which reduces the labor costs and time.

Another object of the invention is to present a production method which provides demountable interconnection of the sections, called profile and collector, of the panel and towel warmer radiators. Thereby, in case of any failure, said failure can be removed by interfering only with the failure area. Yet another object of the invention is to present a new production method which will eliminate the sealing problems between the profile and the collectors.

In order to achieve the objects above, the present invention relates to radiators consisting of collector which provides the hot or cold fluid to enter into and exit from the radiator through the fluid inlet section and profiles which are connected to said collector and spread the fluid to the radiator evenly, wherein it comprises water dispenser which interconnects said collector and profile; comprises collector passage hole and profile passage hole transmitting the liquid in the collector to the profiles. The structural and characteristic features and all the advantages of the present invention will be more clearly understood thanks to the figures below and the detailed description written with reference to those figures. Therefore, the evaluation needs to be done by taking said figures and the detailed description into consideration.

BRIEF DESCRIPTION OF THE FIGURES FACILITATING UNDERSTANDING OF THE INVENTION

Figure 1 is the perspective view of the water dispenser used in the in the radiators (panel type) according to the invention.

Figure 2 is the side cross-sectional view of the radiator (panel type) according to the invention.

Figure 3 is the perspective view of the radiator (panel type) according to the invention. Figure 4 is the upper two-dimensional view of the radiator (panel type) according to the invention.

REFERENCE NUMBERS

1. Collector

2. Profile 3. Fluid dispenser

4. Sealing element (gasket, oring)

5. Screwing section

6. Gear

7. Fluid dispenser passage hole 8. Profile fluid passage hole

9. Upper panel cover

10. Fluid inlet section

11. Side panel cover 12. Radiator

DETAILED DESCRIPTION

In this detailed description, the preferred embodiments of the radiators (12) according to the invention are described only for the subject matter to be understood better without any limiting effect.

The present invention relates to radiator (12) comprising of collector (1) which provides the hot or cold fluid to enter into and exit from the radiator (12) through the fluid inlet section (10) and profiles (2) which are connected to said collector (1) and spread the fluid to the radiator (12) evenly, characterized in comprising fluid dispenser (3) which interconnects said collector (1) and profile (2); comprises fluid dispenser passage hole (7) and profile fluid passage hole (8) transmitting the liquid in the collector (1) to the profiles (2).

The perspective view of the radiator (12) to be used in the heating and cooling systems is seen in Figure 3. The collector (1) provides the fluid which can be hot or cold liquid or gas to enter into the radiator (12). The collector (1) is positioned in the upper section of the radiator (12). According to the type of the radiator (12), the collector (1) can be positioned horizontally or vertically. While collectors (1) in the panel radiators are positioned horizontally, they are positioned vertically in the towel warmer radiators. The distribution of the fluid to the radiator (12) is provided by the fluid dispenser (3). Each fluid dispenser (3) is connected to the profile (2), where ^'fluid distribution is performed, by means of screwing method. Said water dispenser is passed through the slot opened in the collector (1) and fixed to the gear slots opened in the profile (2) by means of the screwing process. The fluid dispenser (3) is driven from the screwing section (5) disposed in the upper section thereof and pressed. Thereby, a demountable connection between the collector (1) and the profiles (2) is provided. In this screwing process, fluid leakage is prevented thanks to the sealing element (4). Figure 1 is the perspective view of the fluid dispenser (3), wherein the gear (6) section fitted to the profile (2) is clearly seen. Figure 2, on the other hand, illustrates the side cross-sectional perspective view of the radiator (12) where mounting is partly completed.

Then, side panel cover (11) is attached on the profiles (2). The side panel cover (1 1) provides a closed tunnel form for the profile (2) where it is used. Thereby, heated air inside the area is circulated. Finally, the upper panel cover (9) is positioned to the upper section and the mounting of the radiator (12) is completed. Figure 4 is the lower two-dimensional view of the radiator (12) whose mounting is completed. Operating principle.

The fluid is fed to the radiator (12) from the fluid inlet section (10). Horizontal or vertical transmission of the fluid is provided by means of the collector fluid dispenser passage hole (7) disposed in the fluid dispenser (3). The fluid is transmitted to the tube and profiles (2) horizontally or vertically positioned to the radiator (12) by means of another section called profile fluid passage hole (8) disposed in the fluid dispenser (3).

Thanks to the developed fluid dispenser (3), the collector (1) and profile (2) or the tube can be easily interconnected, thereby facilitating the distribution of the fluid in the radiator (12). Moreover, providing a demountable interconnection between the collector (1) and the tubes or profiles ensures that in case of any failure, said failure can be removed by interfering only with the failure area.

Claims

1. The present invention relates to radiators (12) comprising of collector (1) which provides the hot or cold fluid to enter into and exit from the radiator (12) through the fluid inlet section (10) and tube or profiles (2) which are connected to said collector (1) and spread the fluid to the radiator (12) evenly, characterized in comprising fluid dispenser (3) which interconnects said collector (1) and tube or profile (2) in a demountable manner; comprises fluid dispenser passage hole (7) and profile fluid passage hole (8) transmitting the liquid in the collector (1) to the profiles (2) or tubes.

2. The radiator (12) according to Claim 1 , characterized in that the points where said fluid dispenser (3) is in contact with the profile (2) or tube comprise a gear (6) structure.

3. The radiator (12) according to Claim 2, characterized in comprising a sealing element (4) which is placed around the gear (6) disposed in said fluid dispenser (3) in order to prevent leakage.

4. The radiator (12) according to Claim 1 , characterized in comprising screwing section (5) which enables said fluid dispenser (3) to be fitted to the collector (1) and profile (2) or the tube.