TR2022000407A1 - A panel condenser and its manufacturing method. - Google Patents

Abstract

With the present invention, a panel condenser suitable for use in cooling devices and a production method for said panel condenser are disclosed. Panel condenser consists of at least one wall panel (1); at least one condenser pipe (2) located on the said wall panel (1); at least one adhesive tape (3) attached to the wall panel (1) and the condenser pipe (2) so that at least one part of the said condenser pipe (2) remains between it and the wall panel (1); connected to the wall panel (1), condenser pipe (2) and adhesive tape (3) in such a way that the said adhesive tape (3) and the part of the condenser pipe (2) other than the adhesive tape (3) remain between itself and the wall panel (1), at least one fabric layer (4) of non-woven structure; It contains at least one insulation layer (5) located on the said fabric layer (4). The production method is to position at least one condenser pipe (2) on at least one wall panel (1); sticking at least one adhesive tape (3) to the wall panel (1) so as to cover at least one part of the said condenser pipe (2); gluing at least one non-woven fabric layer (4) to the wall panel (1) so as to cover the entire said condenser pipe (2); It includes the steps of creating at least one insulation layer (5) on the fabric layer (4).

Description

DESCRIPTION A PANEL CONDENSER AND ITS PRODUCTION METHOD The present invention relates to panel condensers used in refrigeration appliances and the production method of these panel condensers. Refrigerating appliances such as refrigerators include at least a body, at least one internal compartment within the body where the products to be cooled are placed, at least one door providing access to the internal compartment, and at least one cooling system for cooling said internal compartment. In particular, in household refrigerating appliances, said cooling system includes at least one compressor, at least one condenser, at least one evaporator, at least one capillary tube, and at least one refrigerant. Here, the condenser heats up while the evaporator cools by changing the refrigerant pressure by the compressor and the capillary tube. In other words, cooling is achieved by transferring the heat energy from the evaporator to the condenser. In conventional cooling applications, the condenser is located on the inward-facing surface of a rear wall of the cooling device. This increases heat exchange with the outside environment, ensuring efficient operation of the cooling device. However, in such applications, the marks left by the condenser on the cooling device walls not only create an unsightly appearance, but also lead to product performance losses due to the condenser tubes separating from the walls after polyurethane application, which users can clearly see. To address this problem, the known technique utilizes applications where the condenser is attached to the inside of the cooling device walls (e.g., side walls and/or rear walls). In such applications, the condenser is directly attached to the wall, and due to the high thermal conductivity of the metal wall, the 51 OßITR cooling device can operate effectively. Such applications are also technically known as panel condensers (skin condensers). During the production of panel condensers, the tubes comprising the condenser are glued to the wall panel. However, due to the push-pull forces applied to the tubes after the polyurethane printing process, this creates pipe marks and waviness on the wall surfaces. This not only compromises the visual integrity of the wall panel, reduces its mechanical strength, and leads to a loss of cooling performance. Therefore, a panel condenser structure and a manufacturing method that addresses this problem are needed. Brief Description of the Invention The present invention discloses a panel condenser suitable for use in cooling devices and a production method for said panel condenser. The panel condenser comprises at least one wall panel; at least one condenser pipe positioned on said wall panel; at least one adhesive tape connected to the wall panel and the condenser pipe such that at least one section of said condenser pipe remains between it and the wall panel; at least one non-woven fabric layer connected to the wall panel, the condenser pipe and the adhesive tape such that the section of said adhesive tape and the condenser pipe other than the adhesive tape remains between it and the wall panel; at least one insulation layer positioned on said fabric layer. The production method comprises positioning at least one condenser pipe on at least one wall panel; It includes the steps of adhering at least one adhesive tape to the wall panel so as to cover at least a portion of said condenser pipe; adhering at least one fabric layer of non-woven structure to the wall panel so as to cover the entirety of said condenser pipe; forming at least one insulation layer on the fabric layer. In the panel condenser developed with the present invention, thanks to the use of said fabric layer, absorption of the forces applied towards the wall panel, especially during the formation of the insulation layer, is ensured. Thus, the formation of a mark by the condenser pipe on the wall panel is prevented. In addition, thanks to the non-woven structure of said fabric 51 OßITR layer, the formation of air bubbles is prevented and deterioration of the thermal insulation is also prevented. Purpose of the Invention The purpose of the present invention is to develop a panel condenser for cooling devices and a production method for said panel condenser. Another purpose of the present invention is to develop a panel condenser that prevents the formation of marks on the wall panel it includes and a production method for said panel condenser. Another purpose of the present invention is to develop a practical and reliable panel condenser production method. Description of the Figures Application examples of the panel condenser developed by the present invention are shown in the attached figures, and from these figures; Figure 1 is a perspective view of a semi-finished state of the developed panel condenser. Figure 2 is a front view of a semi-finished state of the developed panel condenser. Figure 3 is a top sectional view of the developed panel condenser. The parts in the figures are numbered one by one and the correspondences of these numbers are given below: Wall panel ('l) Condenser tube (2) Adhesive tape (3) Fabric layer (4) Insulation layer (5) 5103ITR Description of the Invention Thanks to the components such as compressor, condenser, evaporator, capillary tube and refrigerant used in cooling devices such as refrigerators, the evaporator heat is absorbed and this heat is discharged to the outside environment through the condenser. The mentioned condensers can be positioned in the inside of a wall panel of the cooling device in order to ensure both visual integrity and to make the cooling device more reliable. In these applications, called panel condensers, problems such as the condenser tubes leaving marks on the wall panel are encountered during the production of the panel condenser. For this reason, the present invention discloses a panel condenser that provides a solution to the said problem and a production method for said panel condenser. The panel condenser developed with the present invention, example views of which are given in Figures 1-3, comprises at least one wall panel (1); at least one condenser tube (2) positioned on said wall panel (1); at least one adhesive tape (3) connected to the wall panel (1) and the condenser tube (2) in such a way that at least one part of said condenser tube (2) remains between itself and the wall panel (1); at least one fabric layer (4) of non-woven structure connected to the wall panel (1), the condenser tube (2) and the adhesive tape (3) in such a way that the part of said adhesive tape (3) and the condenser tube (2) remaining outside the adhesive tape (3) remains between itself and the wall panel (1); The panel condenser production method developed with the present invention comprises the steps of: positioning at least one condenser pipe (2) on at least one wall panel (1); adhering at least one adhesive tape (3) to the wall panel (1) so as to cover at least a portion of said condenser pipe (2); adhering at least one fabric layer (4) of non-woven structure to the wall panel (1) so as to cover the entirety of said condenser pipe (2) (so as to cover the portions covered and not covered by said adhesive tape (3)); forming at least one insulation layer (5) on the fabric layer (4). 51 OßITR In a preferred embodiment of the invention, said adhesive tape (3). It has a metal tape (e.g. aluminum tape) structure. Thus, higher heat conduction between the condenser tube (2) and the wall panel (1) is provided. In another preferred embodiment of the invention, said condenser tube (2) comprises at least two straight sections that are parallel to each other and at least one inclined section that connects said straight sections to each other at their ends. Here, by using the inclined and straight sections, a condenser tube (2) with a twisted structure is obtained. Thus, a relatively long condenser tube (2) can be used on a limited surface area. In this embodiment, said adhesive tape (3) is preferably located on said straight section. Here, a different adhesive tape (3) is attached to each of the two straight sections that are parallel to each other. The width of the adhesive tapes (3) mentioned is preferably 3.8 cm, and in this way, the contact of the adhesive tapes (3) adjacent to each other and, accordingly, the formation of air bubbles under the adhesive tape (3) are prevented. In another preferred embodiment of the invention, the said method uses at least one roller adhesive head in the step of adhering at least one adhesive tape (3) to the wall panel (1) in a way that covers at least a portion of the said condenser pipe (2). Here, the said roller adhesive head ensures that the adhesive tape (3) is adhered to the wall panel (1) over the condenser pipe (2). In another preferred embodiment of the invention, the said method. In the step of adhering at least one fabric layer (4) of non-woven structure to the wall panel (1) so as to cover the entirety of the said condenser pipe (2), it includes the steps of spraying at least one adhesive on the wall panel (1), the condenser pipe (2) and the adhesive tape (3), pressing the said fabric layer (4) on the sprayed adhesive and adhering it to the wall panel. In a different preferred embodiment of the invention, the said method includes the steps of printing polyurethane raw material on the fabric layer (4) in the step of forming at least one insulation layer (5) on the fabric layer (4); curing the polyurethane raw material. 51 OßITR In an exemplary embodiment of the invention, the said panel condenser is used on at least one side wall of a cooling device. Here, the panel forming the side wall of the refrigerator is used as the wall panel (1). To manufacture the panel condenser, the condenser tube (2), which carries refrigerant fluid, is positioned on the wall panel (1) in contact with the wall panel (1). The condenser tube (2) mentioned here is preferably made of galvanized steel pipe. After this positioning, an adhesive tape (3) is applied over the condenser tube (2) to adhere the condenser tube (2) to the wall panel (1). Following this process, a layer of non-woven fabric (4) is adhered to the wall panel (1) to completely cover the condenser tube (2). Finally, an insulation layer (5), which provides thermal insulation properties to the side wall of the cooling device, is formed on the fabric layer (4). Here, the insulation layer (5) is preferably made of expanded foam. To use the expanded foam as the insulation layer (5), a liquid raw material (e.g., polyurethane) is poured (or sprayed) onto the fabric layer (4), and then the raw material is cured. During this curing process, the raw material expands and solidifies. During this expansion and solidification process, a pushing-pulling force is also generated towards the wall panel (1). Here, the use of the fabric layer (4) ensures that at least some of this pushing-pulling force applied to the wall panel (1) is absorbed. Thus, the force applied to the wall panel (1) is prevented from leaving a mark on the wall panel (1) by compressing the condenser tube (2) located on the wall panel (1). Furthermore, thanks to the non-woven structure of the fabric layer (4), the expansion of the insulation element in the expanded foam structure prevents air bubbles from forming between the fabric layer (4) and the wall panel (1). Thus, proper thermal insulation is ensured when the panel condenser is used as a cooling device wall. In the panel condenser developed with the present invention, the use of the fabric layer (5) absorbs the forces applied to the wall panel (1), especially during the formation of the insulation layer (5). This prevents the condenser pipe (2) from leaving a mark on the wall panel (1). Furthermore, the non-woven structure of the fabric layer (4) prevents air bubbles from forming, thus preventing thermal insulation from deteriorating.

Claims (1)

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