TR202021973A2 - A drain line connector. - Google Patents

Abstract

With the present invention, a connection apparatus is disclosed which enables at least one discharge line (D) of a cooling device to be connected to at least one wall (B) of the cooling device. Said connection apparatus, at least one inlet slot (1b) suitable for the placement of said discharge line (D), at least one inlet port (1b) on at least one side, and at least one side located on the said wall (B). at least one connecting projection (1c) suitable for passing through the connection opening, at least one first connecting piece (with at least one first plate (1a) which contacts at least a portion of the wall (B) when said connecting projection (1c) passes through said connection opening) one); having at least one connection socket (2b) to which the connection projection (1c) passing through the connection opening is connected, and at least one plate (2a) that contacts at least one other part of the said wall (B) when said connection projection (1c) is connected to the connection socket (2b). comprising at least one second connecting piece (2).

Description

DESCRIPTION A DRAIN LINE CONNECTION DEVICE The present invention relates to a connection apparatus for the discharge lines of refrigerating devices. Cooling devices such as refrigerators are used to cool various products, especially food products. Cooling devices include at least one 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 said internal compartment, and at least one cooling system that provides cooling of the internal compartment. Said cooling system generally includes at least one compressor, at least one condenser, at least one capillary tube, at least one evaporator and at least one refrigerant. The mentioned refrigerant is pressurized by the compressor and sent to the condenser, then it passes through the capillary tube and its pressure is reduced. The refrigerant, whose pressure is reduced, evaporates as it passes through the evaporator and in the meantime absorbs heat from its surroundings. Thus, cooling of the evaporator is ensured. When the refrigerant is pressurized by the compressor, it gives off heat to its surroundings. This heat is sent to the external environment by the said condenser. Thus, while the evaporator cools, the condenser heats up and the environment where the evaporator is located is cooled. The evaporator cools down during the operation of the cooling device, causing the surrounding water vapor to solidify and turn into snow. Snow formed on the evaporator negatively affects the heat exchange with the evaporator. In order to solve this problem, no-frost cooling devices have been developed in which the snow on the evaporator is cleaned. In cooling devices with no-frost feature, after the formation of snow on the evaporator is detected at certain intervals or by a sensor, the evaporator is heated by a heater and the snow formed on the evaporator is melted. The water formed by melting snow is sent to an evaporation chamber located outside the cooling device through a drainage system. The mentioned 4777ITR evaporation chamber, for example, evaporates the water coming with the heat of the condenser and ensures that it is sent to the environment where the cooling device is located. Here, if the installation of the discharge line that carries water from the environment where the evaporator is located to the evaporation compartment in question is not done correctly, problems such as the discharge line coming into contact with the evaporation compartment and creating noise or the discharge line clogging are encountered. Brief Description of the Invention The present invention discloses a connection apparatus that enables the connection of at least one discharge line of a cooling device to at least one wall in the cooling device. Said connection apparatus consists of at least one entrance slot suitable for the placement of the said drain line, at least one connection protrusion that is connected to said entry slot on at least one side and is suitable for passing through at least one connection opening located in the said wall, at least one side. at least one first connecting member having at least one first plate contacting at least a portion of the wall when the connecting protrusion passes through said connecting opening; It includes at least one connection slot to which the connection protrusion passing through the connection opening is connected, and at least one second connection piece with at least one plate contacting at least one other part of said wall when said connection protrusion is connected to the connection slot. The connection apparatus developed with the present invention includes a first connection piece and a second connection piece that enable a wall opening to the evaporation chamber to be connected to said wall by compressing it from two sides. Thus, the connection apparatus to which the said drain line is connected is connected to the said wall in a reliable and practical way, thus ensuring that the drain line is connected to the wall in a practical and reliable way. Purpose of the Invention The purpose of the present invention is to develop a connection apparatus for the discharge lines of cooling devices. Another aim of the present invention is to develop a practical and reliable connection apparatus. 4777ITR Another purpose of the present invention is to develop a connection apparatus that prevents quality problems caused by the discharge hose entering the steam container too much, by keeping the outlet length of the water discharge system from the rear wall at a standard size. Explanation of Figures Application examples of the connection apparatus developed with the present invention are shown in the attached figures, and from these figures; Figure 1; It is a side sectional view of a usage version of the developed connection apparatus. Figure 2; is a perspective view of a first connection part of the developed connection apparatus. Figure 3; It is a side sectional view of the first connection part of the developed connection apparatus. Figure 4; is a side view of a second connection part of the developed connection apparatus. Figure 5; It is a top view of the second connection part of the developed connection apparatus. The parts in the figures are numbered one by one and the equivalents of these numbers are given below: Discharge line (D) Wall (B) First connection piece (1) First plate (la) Inlet slot (1 b) Connection protrusion (lc) Second connection piece (2) Second plate (2a) Connection slot (2b) Contact protrusion (2c) 4777ITR Description of the Invention During the operation of cooling devices such as refrigerators, snow/ice may form on cooling components such as the evaporator. Since this snow/ice negatively affects the operating performance of the cooling device, it is melted and removed from the cooling component. Liquid snow/ice is generally conveyed to an evaporation chamber via a discharge line. With the present invention, a connection apparatus has been developed that ensures the reliable connection of the said discharge line to the evaporation chamber. The connection apparatus developed with the present invention and sample views of which are given in Figure 1-5, enables the connection of at least one discharge line (D) of a cooling device to at least one wall (B) in the cooling device, and at least one drain line suitable for the placement of the said discharge line (D). the entrance slot (1b), at least one connection protrusion (tc), which is connected to the said entrance slot (1b) from at least one side and is suitable for passing through at least one connection opening located on the said wall (B), at least one side of which is connected to the said connection. at least one first connection piece (1) having at least one first plate (ta) contacting at least one part of the wall (B) when its protrusion (1c) passes through the said connection opening; It has at least one connection slot (2b) to which the connection protrusion (1c) passing through the connection opening is connected and at least one plate (2a) that contacts at least one other part of the said wall (B) when said connection protrusion (tc) is connected to the connection slot (2b). It contains at least one second connection part (2). Here, when the said connection protrusion (1c) passes through the connection opening on the wall (B) and is connected to the connection slot (2b), the said wall (B) remains between the first plate (1a) and the second plate (2a). In an exemplary embodiment of the invention, the wall (B) mentioned is in the form of a ceiling plate or side plate opening to an evaporation chamber located in the cooling device. Here, the connection apparatus that connects the said discharge line (D) to the evaporation vessel is connected to the discharge line (D) through the inlet slot (1b) located in the first connection piece (1). When the connection protrusion (1c) passes through the connection opening on the wall (B) and is connected to the connection slot (2b), the connection apparatus is fixed to the said wall (B). Here, the connection protrusion (1c) connected to the inlet slot (1b) ensures that the liquid coming from the discharge 4777ITR line (D) to the inlet slot (1b) passes through the connection opening on the wall (B) and reaches the evaporation chamber. In this way, the discharge line (D) is connected to the wall (B) in a reliable and practical manner, while the liquid coming from the discharge line (D) passes through the connection opening in the wall (B) and reaches the evaporation chamber. In a preferred embodiment of the invention, the said entrance slot (1a) is in the form of a hollow cylinder. In this way, the discharge line (D), which is generally in the form of a pipe, can be connected to the inlet slot (ta) in an easy and practical way. Here, the side of the entrance slot (la) closest to the connection protrusion (10) is preferably in a narrowing form. Thus, the discharge line (D) is prevented from reaching the evaporation chamber by passing through the connection protrusion (10). In another preferred embodiment of the invention, the said connection protrusion (10) includes at least one tab. In this application, the connection slot (2b) is in the form of a hollow cylinder. Here, the connection protrusion (10) is connected to the connection slot (2b) with a claw fit. In an alternative embodiment, the said connection protrusion (10) is in the form of a hollow cylinder with a groove on its outer surface. Here, the said connection slot (2b) is in the form of a hollow cylinder with a groove on its inner surface. In this way, the connection protrusion (10) is connected to the said connection slot (2b) by rotating like a screw-nut connection. In a preferred embodiment of the invention, the second connection part (2) includes at least two (preferably eight) contact protrusions (20) located on the side of the second plate (Za) facing the wall (B). Said contact protrusions (20) are preferably in hemispherical form. When the connection apparatus is connected to the said wall (B), the contact protrusions (20) contact a part of the wall (B). Thus, it is ensured that the connection apparatus is securely connected to walls (B) made of different materials such as polypropylene, paper and sheet metal. The connection apparatus developed with the present invention includes the first connection piece (1) and the second connection piece (2), which enable a wall (B) opening to the evaporation chamber to be connected to the said wall (B) by compressing it from two sides. Thus, the connection apparatus to which the said drain line (D) is connected is connected to the said wall 4777ITR (B) in a reliable and practical way, thus ensuring that the drain line (D) is connected to the wall (B) in a practical and reliable way. TR TR TR TR TR TR

Claims (9)

1. It is a connection apparatus that enables the connection of at least one discharge line (D) of a cooling device to at least one wall (B) in the cooling device, and its feature is; - at least one entrance slot (1b) suitable for the placement of the said discharge line (D), connected to the said inlet slot (1b) on at least one side and passing through at least one connection opening located on the said wall (B) on at least one side. at least one suitable connection protrusion (10), at least one first connection piece (1) having at least one first plate (1a) that contacts at least a part of the wall (B) when said connection protrusion ('1c) passes through the said connection opening. ; - at least one connection slot (2b) to which the connection protrusion (10) passing through the connection opening is connected, and at least one plate (2a) that contacts at least one other part of the said wall (B) when said connection protrusion (1c) is connected to the connection slot (2b). It contains at least one second connection piece (2). 2. It is a connection apparatus in accordance with claim 1 and its feature is; The said entrance slot ('la) is in the form of a hollow cylinder. 3. It is a connection apparatus according to claim 1 or 2 and its feature is; The side of the input slot (1a) closest to the connection protrusion (10) is in a narrowing form. 4. It is a connection apparatus conforming to any of the above claims and its feature is; said connection protrusion (1c) contains at least one tab. 5. It is a connection apparatus in accordance with claim 4 and its feature is; The said connection slot (2b) is in the form of a hollow cylinder. 6. It is a connection apparatus according to any one of the claims 1 to 3 and its feature is; The said connection protrusion (1c) is in the form of a hollow cylinder with a groove on its outer surface. 7. Iste Giya is a suitable connection apparatus and its feature is; of the said connection slot (2b). It is in the form of a hollow cylinder with a groove on its inner surface. 8. It is a connection apparatus conforming to any of the above claims and its feature is; The second 5 connection parts (2) contain at least two contact protrusions (20) located on the side of the second plate (2a) facing the wall (B). 9. It is a connection apparatus according to claim 8 and its feature is; The said contact protrusions (2c) are in hemispherical form.