TR202012072A2 - A COOLING DEVICE - Google Patents

Abstract

This invention includes at least one cabinet (2) in which the food to be cooled is placed, a compressor (3) that compresses a refrigerant, at least one evaporator (4) that provides heat transfer between the refrigerant and the cooled cabinet (2), a 10 that condenses the refrigerant. The condenser (5) is related to a cooling device (1) comprising a fan (6) that ensures forced heat convection by blowing air on the condenser (5), and a chamber (7) in which the defrost water coming from the evaporator (4) is collected for evaporation.

Description

DESCRIPTION A COOLING DEVICE This invention was combined with a refrigerator in which the placement of the elements in the machine room was improved. In the refrigerant cycle carried out in cooling devices, the Thermal energy is forced air supplied by a fan blown over the condenser. It is evacuated via transport. Meanwhile, the effects on the cooling system A defrost operation is performed to dissolve the ice. Melted water during defrost, It is generally collected in a hopper to be evaporated by heat.

In order to ensure evaporation, sufficient heat must be transferred to the chamber.

In applications within the state of the art, the fan and condenser are connected to each other. It is fixed to the bottom of the inhain chamber in close proximity and the chamber is protected from waste heat. It is placed close to the heated refrigerant line elements so that it can be utilized.

However, a problem with the applications in the known state of the technique is the refrigerant line elementsiiiiii due to the waste heat not being transferred to the chamber efficiently is the low evaporation rate. Another problem is the narrow volume of the machine room. due to the restriction of the placement of the refrigerant line elements and the reservoir. In the application, the structural structure between the heat exchanger and the defrost water storage chamber A cooling device is disclosed in which the relationship is improved.

The purpose of this invention is to develop a cooling device in which the amount of heat transferred to the chamber is increased. is to be realised.

The first claim made to achieve the purpose of this invention and the following The cooling device defined in the requests is a chamber filled with defrost water. It is in the form of a tunnel above which the condenser and fan are placed. Includes air duct. Thus, waste heat is used to evaporate the defrost water. It is used efficiently and ease of settlement is provided.

In an embodiment of the invention, the air duct and the chamber move from each other into the chamber. It is separated by a curved wall that forms the entrance. Thus, in its chamber The water accumulated volume surrounds the air duct and the heat transferred to the water in the chamber The amount is increased.

In another embodiment of the invention, the air duct is at least partially in the direction of air flow. It has an increasingly narrow structure. Thus, the air flow in the air duct is transferred to the chamber. It is arranged in such a way that the amount of heat is increased.

Another embodiment of the invention can be found on the inside of the air duct, from the edges of the condenser. There is at least one stage on which it rests. Stage, air duct of condenser It determines its position inside and supports the condenser. Thus, assembly convenience is provided and noise generation is prevented.

In another embodiment of the invention, on the inside of the air duct, different There are multiple levels in width. Thus, the air duct is connected to the cooling device. It is suitable for the placement of condensers of different sizes depending on their capacity. has been brought.

In another embodiment of the invention, the distance between the fan and the condenser is It is attached to the air duct with a movable connection that allows it to be adjusted.

Thus, the position of the fan is determined in accordance with the position of the condenser placed inside the body. and the air flow sent to the condenser can be adjusted.

With this invention, settlement is possible thanks to the monolithic structure of the chamber and air duct. is facilitated and the amount of heat transferred to the chamber is increased.

The cooling device developed to achieve the purpose of this invention is shown in the attached figures. are shown and from these figures; Figure 1 is the rear view of the cooling device belonging to an embodiment of the invention.

Figure 2 7 is the perspective view of the chamber belonging to an embodiment of the invention.

Figure 3 I Schematic of the air duct, condenser and fan belonging to another application of the invention is the appearance.

Figure 4 - is the schematic view of the air duct belonging to another application of the invention.

The parts in the figures are numbered one by one and the equivalent of these numbers is below. has been given. 1. Cooling device 2. Cabin 3. Compressor 4. Evaporator . condenser 6.Fan 7. Hopper 8. Air duct 9. Wall . Level 11. Machine room The cooling device (1) consists of at least one cabinet (2) in which the foods to be cooled are placed, a a compressor (3) that compresses the refrigerant, the cabin cooled by the refrigerant At least one evaporator (4), which provides heat transfer between (2) and the refrigerant a condenser (5) that condenses, forced heat by blowing air on the condenser (5) coming from a fan (6) and evaporator (4) that enable transportation. It contains a chamber (7) in which defrost water is collected to be evaporated.

The chamber (7) is placed inside the machine room (11) of the cooling device (1). Evaporator (4) The defrost water coming from above fills into the chamber (7).

The cooling device (1) of the invention is in the form of a discharge located on the chamber (7). It contains an air duct (8) into which the fan (6) and the colidenser (5) are placed.

The chamber (7) is in the form of an open-top container. The water coming from the evaporator (4) flows into the tank (7). is accumulated inside. The air duct (8) runs from one side of the chamber (7) to the other, It is configured in the form of a discharge extending along the chamber (7). With fan (6) The condenser (5) is fixed inside the air duct (8). Condenser via fan (6) The air passing over (5) and taking the heat of the condenser (5) is in the air duct (8). is flowing. Compact configuration of the chamber (7) and the air duct (8) together Thanks to this, the amount of heat transferred is increased and a location advantage is provided.

In an embodiment of the invention, the air duct (8) creates a recess into the chamber (7). It constitutes. The air duct (8) is located at the bottom of the chamber (7) and It forms an entrance towards the interior of the chamber (7) where it is collected. air duct (8) at least partially surrounding wall (9), a recess towards the interior of the chamber It constitutes. The wall (9) preferably covers the top and sides of the air duct (8). It has a U-shaped section that surrounds it. Insert the air duct (8) into the chamber (7). Thanks to its correctly recessed structure, there is a wide space between the chamber (7) and the air duct (8). surface is obtained, in other words, the volume (7) in which water is accumulated and the air By expanding the surface area of the wall (9) separating the channel (8), water in the chamber (7) The amount of heat transferred is advantageously increased.

In an embodiment of the invention, the air duct (8) runs from the condenser (5) in the air flow direction. The part located after it has a gradually narrowing form. air duct (8) The part located after the condenser (5) has a conical form, gradually narrowing. has. In this way, the air flow is regulated and the noise generated during the operation of the fan (6) is reduced. amount has been reduced.

In another embodiment of the invention, colidenserine is placed on the inner wall of the air duct (8). There is at least one stage (10) on which it rests on the edges of (5). Level (10) has a protrusion on the inner surface of the air duct (8), narrowing the diameter of the air duct (8). forinunda. The condenser (5) is placed inside the air duct (8) against the stage (10'). is placed. Stage (10) provides easy placement of the condenser (5).

In another embodiment of the invention, more than one stage (10) is placed one after the other. is taking. The stages (10) are located on the air duct (8) with different widths. placed one after the other to form throats, narrowing the diameter of the air duct (8). It is in the form of protrusions. Thus, each stage (10) contains a condenser of different size. It allows it to be installed into the air duct (8) so that it rests on (5). This This allows condensers (4) of different sizes to be placed in the air duct (8). has been provided.

In another embodiment of the invention, the fan (6) directs the air sent over the condenser (5). movable on the air duct (8) that will allow the flow to be adjusted. is stuck. The distance between the fan (6) and the air duct (8) and the condenser (5) It can be moved back and forth in the air duct (8) to enable its replacement. and/or allowing the angle of the air sent over the condenser (5) to be changed. A rotational connection is provided to ensure Thus, with fan (6) the distance between the condenser (5) and the angle of the air reaching the condenser (5) Air flow is regulated by adjusting.

With this invention, thanks to the monolithic structure of the chamber (7) and the air duct (8), both settlement and This advantage is provided and the waste heat of the condenser (5) is effectively transferred to the chamber (7). transfer has been provided.

Claims (1)

CLAIMS: At least one cabin (2) in which the food to be cooled is placed, a compressor (3) that compresses a refrigerant fluid, at least one evaporator (4) that provides heat transfer between the refrigerant fluid and the cooled cabin (2), a condenser (5) that condenses the refrigerant fluid. ), a discharge form located on the chamber (7), containing a fan (6) that provides forced heat transfer by blowing air over the condenser (5) and a chamber (7) in which the defrost water coming from the evaporator (4) is accumulated to be evaporated. A cooling device (1) characterized by an air duct (8) into which the fan (6) and condenser (5) are placed. A cooling device (1) as in Claim 1, characterized by an air duct (8) that forms a recess into the chamber (7). A cooling device (1) as in Claim 1 or 2", characterized by an air duct (8) with a gradually narrowing forina located after the condensation (5) in the air flow direction. A cooling device (1) as in any of the above claims, characterized by at least one stage (10) on which the condenser (5) rests, located on the inner wall of the air duct (8). A cooling device (1) as in Isem 4, characterized by multiple stages (10) located one after the other. A cooling device (1) as in any of the above claims, characterized by a fan (6) movably mounted on the air duct (8).