TR201606912A2 - A REFRIGERANT WITH CONDENSER COVER - Google Patents

Abstract

The present invention is a cooling device comprising a heat-insulated body (1), a machine room (10) in which a compressor (60) is placed, connected to a refrigeration cycle that cools an internal volume surrounded by the body (1). The cooling device is a tubular condenser cover (which is connected to a compressor outlet 62) of the compressor (60) so as to provide fluid conduction and is attached to the body (1) at least partially covering an externally accessible open outer face (14) delimited by the machine room (10). 40).

Description

DESCRIPTION A COOLING DEVICE WITH CONDENSER COVER The invention consists of a compressor connected to a refrigeration cycle and a heat-insulated wall. relates to coolers containing condensers.

Refrigerating appliances, especially refrigerators, condenser connected to a cooling cycle and the compressor is included. absorbed during condenser cooling are heat exchangers where the heat is released into the surrounding air. Different refrigerator Condensers of different structures are used according to their designs. One of these It is the static condenser extended on the back wall of the cooling device. Also a compact Coil condenser with forced convection due to its structure is used. In coil condenser coolers, a fan provides air flow. The coil provides cooling of the condenser. Ensuring effective heat transfer The condenser, which is produced in the form of wire (Wire-on-tube) on the tube, It consists of a tube bent parallel to it and tandem wires extending perpendicularly thereto.

Patent publication TR200900786 states that the compressor and condenser should preferably be placed at the bottom of the body. working in the area called the bottom of the cabinet, located in the explains the cooler. It is removed from the outside by means of a fan in the compartment. The air is taken into the chamber by being sucked, and it consists of nested bodies and It is sent on a condenser housing located in the condenser.

The air leaving the condenser enclosure is sent over the compressor. It provides cooling of the compressor. a second integrated into the first portion provided in mortal circles around it. Describes a refrigerant device containing a condenser with a section. condenser helical refrigerant tube and wires wrapped around it in a cage structure contains.

The aim of the invention is to increase the heat transfer efficiency in the machine room in cooling devices. is to be increased.

In order to achieve the aforementioned purpose, the invention is a heat-insulated body, of a compressor connected to a refrigeration cycle that cools an internal volume it surrounds. It is a cooling device that contains a machine room in which it is located. Invention preferred application, which is connected to an outlet of the compressor so as to provide fluid transmission and at least an open exterior accessible from the outside delimited by the machine room A tubular condenser cover attached to the body in a partially covering manner contains. In this way, the condenser needed for heat transfer is at least some of it acts as a cover and covers the open outer face in the machine room. It also supports the cooling cycle by providing heat transfer to the external environment.

In a preferred application, the condenser cover is easily disassembled from the body. fastened properly. Thus, by removing the condenser cover, the machine room Access can be provided for maintenance purposes. condenser cover, fluid connection to compressor outlet, direct connection as well as cooling also through the interconnection of other functional elements that support the can be attached. The open outer face, as an outer face of the body facing the outer environment, for example the rear wall of the body can be provided at the bottom.

Condenser cover aligned parallel to an outer wall of the housing. has been extended. In this case, the condenser cover adapts to the outer lines of the body. provides easy packaging of the cooling device.

In a possible embodiment, the closure is attached to the body wall to which the body is to be adapted. It is possible that it has a following form. Thus, the condenser cover It does not disturb the visual integrity of the body it is attached to.

The condenser cover has a grill-like configuration. In this way, the condenser Entry of foreign objects into the machine room through the opening covered by the cover. It also makes it difficult for air transfer.

A fan cools the compressor on the one hand and the condenser cover on the other. adjusted and fixed in the machine room. Fan, ambient from open external face It creates forced convection by taking the air and circulating it to the machine room and It is possible to use a more compact condenser with the cooling it provides. it builds.

A coil condenser is fixed in the machine room near the fan and connected to the compressor. It is connected between the condenser cover to provide fluid transmission. This In this case, the hot fluid coming out of the compressor is first in the coil condenser. It is cooled, then exposed to outside temperature on the condenser cover. is brought. Condenser cover, two-piece condenser in the cooling cycle and a bobbin produced using less material. It is possible to use the condenser in the machine room.

The position of the fan in the machine room, the air circulation it provides, respectively. condenser, compressor and condenser are adjusted to advance to the cover. Like this, When the ambient air is taken from the outer opening, first of all, the most of the fluid in the cooling cycle The hot coil cools the condenser. Air inside the fan's machine room The blowing direction is essentially parallel to the condenser cover. This situation, fan, dis Let the ambient air suction from one end of the opening and discharge from the other end. so that the ambient air from one end of the condenser cover, it allows the machine room air to pass through its end, thus ensuring that the entire ensures a forced heat transfer throughout.

The machine room is the outer surface of the body, which is opened in the lower part of one rear wall and with its mouth open. It is in the form of a defining cavity. The cavity is hidden in the lower part of the rear wall and It is prevented from being easily seen from the outside and the sound in the cooling cycle is prevented. from the front of the functional elements that produce, for example, the noise of the compressor. It helps to be heard less.

A preferred application is fixed at one end to the rear wall and at the other end. It includes a holder that holds the condenser cover. Holder, condenser cover rear attaches to the wall. Thus, mounting the condenser cover in the opening it gets easier. Holding the compressor cover parallel to the rear wall is configured. In addition, the holder is attached to the open outer face on the rear wall. is fixed. With this configuration, the cap condenser is easy on the disc opening. It extends as a continuation of the rear wall, allowing packaging.

The arms extending parallel to each other in the transverse direction of the condenser cover are in forms. It consists of a bent monolithic tube. The tube is at a distance to cover the opening, e.g. the cooler by bending at the transverse distance of the two opposite sides of the rear wall. The distance that the fluid will travel is increased. Besides, parallel arms It helps the condenser cover to cover the opening in the transverse direction.

The condenser cover provides fluid conduction to one outlet of the compressor. It includes an entrance that connects and extends into the machine room. In this way, the machine reaching into the machine and another element related to the refrigerant cycle inside the machine. It can be connected directly to an output.

A household appliance realized to achieve the purpose of this invention is in the attached figures. shown and from these figures; Figure 1 - House type containing a representative configuration of the inventive condenser cover It is a rear perspective illustration of a refrigerator.

Figure 2 - is the detail display of the refrigerator machine room in Figure II.

Figure 3 - a cooling device machine to which the condenser cover of the invention is attached It is the sematic representation of the layout plan of the room.

The parts in the figures are numbered one by one and the corresponding numbers are given below. 1 Body 2 Back wall 3 Sidewall machine room 12 Base plate 14 Open outer face 16 Air intake gap Conservative 22 First latch 24 Second latch 26 Flexible extension coil condenser 32 condenser inputs 34 condenser outlet 36 Coil tube 40 Condenser cover 42 Introduction 44 Exit 46 Tube 48 Wires 50 Fans 60 Compressors 62 Compressor output 64 Compressor input 66 Dryer A domestic no-frost refrigerator in Figure 1 as a rear perspective is shown. The refrigerator will be cooled through a cooling cycle. heat in the cabinet structure that limits an interior volume in which the elements are placed includes an insulated body (1). The base of a rear wall (2) of the body (1) The machine room (10) is formed in a hollow structure close to its part. Machine chamber (10), the lower edge of the rear wall (2) from above, a baseplate (12) from below an open outer face delimited from the sides by the opposing side wall (3) It can be accessed via (14). Open outer face (14) wire on tube (wire-on-tube, WOT) to the machine room (10) with a condenser cover (40) in the form of a panel. access is restricted. The condenser cap (40) consists of a solid tube (46) bending in a U-shape forming successive transverse tandem extensions obtained with. Heat transfer and sequentially lined up on the tube (46) The wires (48) that increase the area are fixed. Wires (48) with tube (46) open tooth Therefore (14) the machine room (10) allows air to pass but has access to it. It forms a grid-like structure that prevents

In Figure 2, the machine room (10) is shown zoomed in. a holder (20) condenser cover (40) parallel to and adjacent to the rear wall (2) It attaches it to the body (1) from its end. The holder (20) is attached from one end of the sidewall (3). mounted on its rear edge and extending over the condenser cover (40) The cover is attached to the condenser (40) by passing it crosswise through its vertical wires (48). a flexible first buffalo] (22) and a similar structure but extending in the opposite direction contains two second buffaloes] (24) at a distance from each other.

The holder (20) is detachably mounted to the body (1). to the machine room (10) cover condenser (40) by removing the holder (20) when access is desired it can be easily removed, allowing access to the machine room (10). this much Remove the first latch (22) from where it is mounted on the side wall (3) to ensure Dismantling is sufficient. Thus, the condenser cover (40) is moved to the side and the wires are (48) is released from the second latches (24) and the condenser cover (40) is largely free. A flexible extension (26) to the wires (48)] (22) It is passed in such a way that it remains behind the wires (48). Condenser for assembly the cover (40) is slid transversely in a reverse motion and the wires (48) are attached to the second latches. (24) is inserted and the first buffalo] (22) is attached to the side wall (3) from the rear. my screw is on.

The cover on the base plate (12) is the inlet (42) and the outlet of the condenser (40). A radial fan (50) is fixed on one side where (44) is located in close proximity.

The radial fan (50) circulates the air in the transverse direction of the machine room. (10) is located near one end. Fan (50), open outer of condenser cover (40) from an air intake gap (16) on the face (14) near the side wall (3) and the medium drawn by the condenser cover (40) from the air suction gap (16) blows its air in the machine room (10) in the transverse direction. ambient air machine It moves towards the other end of the chamber (10) and the functional of the cooling cycle the machine through the condenser cover (40) from the remote part, by cooling the elements. leaves his room (10).

A coil condenser (30) standing against the airflow direction near the fan (50) fixed to the base plate (12). The coil condenser (30) consists of a coil tube (36) bending the ends and the panels obtained are interconnected to form a coil. It is in the form of a three-dimensional matrix obtained by arranging them in parallel order. Coil a condenser outlet (34) end of the condenser (30) carrying the refrigerant, it is attached to the inlet (42) of the condenser cover (40). Coil close to condenser (30) the refrigerant of a compressor (60) fixed to the base plate (12) as A compressor outlet (62) is connected to a condenser inlet of the coil condenser (30). (32) is attached. The refrigerant, which is heated by increasing pressure in the compressor (60), is first The coil adjacent to the fan (50) is sent to the condenser (30). In this way, the fan (50) the air drawn from the outside environment first goes to the coil condenser (30) after the fan (50). is reaching. Compressor outlet (62) connects coil condenser (30) to a dryer (66). reaches through. The drier (66) is the refrigerant from the compressor (60). filters the fluid. If a compressor inlet (64) is connected to the evaporator (fig. not shown) sucks the gas from the evaporator depending on the

In Figure 3, the machine room (10) is shown schematically from above. Machine open outer face (14) respectively according to the ambient air flow direction in the chamber (10) an air created by the condenser cover (40) being partially exposed in the transverse direction with the intake cavity (16) behind the air intake cavity (16) The air blowing fan (50) is located next to the fan (50) against the direction of air flow. Coil condenser (30) and coil condenser (30) behind the fan (50) the compressor (60) is lined up.

The temperature distribution in the machine room (10) is the most intense in the compressor (60). It is in the region close to a compressor outlet (62) leaving the refrigerant. For the compressor (60) compresses the gas coming from the evaporator, thereby reducing its pressure and temperature. is increasing. The refrigerant gas is first placed in the coil condenser (30) inside the fan (50). It is cooled by the ambient air it accelerates. Condenser cover (40) grill As its structure moves transversely, the ambient air exits completely from the open outer face (14). it obscures the air to a great extent. Condenser cover (40) refrigerant inlet (42) close to air intake gap (16). is located. Thus, by pulling from the air suction gap (16) of the fan (50), the coil The ambient air conveyed to the condenser (30) is firstly the inlet (42) and its The condenser cover (40) around it cools. ambient air coil After the condenser (30), pass around the compressor (60) and open the outside. (14) close the machine chamber (10) near the opposite side to the air intake gap (16) is leaving. Condenser cover (40) as well as largely open outer face (14) It provides the machine room (10) to be closed in a way that prevents access by covering it. and with outdoor air in an area as much as the part covered by the open outer surface (14) before sending the refrigerant to the evaporator thanks to the contact it provides cooling. A vertical outlet (44) of the condenser cover (40) on the other hand, it passes through the insulation layer and enters the evaporator through the body (l). is reaching. The fan (50) draws air along the inner wall of the condenser cover (40). It provides circulation and accelerates cooling. On the other hand, fan (50) The condenser cover (40) blows by the fan (50), increasing the cooling efficiency. it reduces the escape of air from the open outer face (14). 40 66 32 36 SeHdlZ 36 12 50" 4- ' vf\50 40 66 46 42

Claims (13)

REQUESTS l - A heat-insulated body (1) is a cooling device containing a machine room (10) in which a compressor (60) is placed, connected to a cooling cycle that cools an interior volume surrounded by the body (1), and its feature is to provide fluid conduction to the compressor (60). It comprises a condenser cover (40) in tubular structure, which is attached to the body (1), at least partially covering an externally accessible open outer face (14) connected to a compressor outlet (62) and limited by the machine room (10). 2- It is a cooling device according to claim 1, in which the condenser cover (40) is extended parallel to an outer wall of the body (1). 3- A cooling device according to any one of the preceding claims, characterized in that the condenser cover (40) has a grid-like configuration. 4- A cooling device according to any one of the preceding claims, characterized in that it contains a fan (50) which is adjusted to cool the compressor (60) on the one hand and the condenser cover (40) on the other hand and fixed in the machine room (10). 5- It is a cooling device according to claim 4, characterized in that it contains a coil condenser (30) that is fixed in the machine room (10) close to the fan (50) and connected between the compressor (60) and the condenser cover (40) in a way that ensures fluid transmission. 6- It is a cooling device according to Claim 5, its feature being adjusted so that the position of the fan (50) in the machine room (10) moves to the coil condenser (30), compressor (60) and condenser cover (40), respectively, with the air circulation. 7- It is a cooling device according to any one of claims 4-6, characterized in that the air blowing direction of the fan (50) inside the machine room (10) is essentially parallel to the condenser cover (40). 8- A cooling device according to any one of the preceding claims, characterized in that the machine room (10) is in the form of a cavity opening on the lower part of a rear wall (2) of the body (1) and defining the open-mouthed outer face (14). 9- It is a cooling device according to claim 8, characterized in that it contains a holder (20) which is fixed to the rear wall (2) from one end and holds the condenser cover (40) from the other end. 10- It is a cooling device according to claim 9, in which the holder (20) is configured to keep the compressor cover (40) parallel to the rear wall (2). 11- It is a cooling device according to claim 10, characterized in that the holder (20) is fixed on the rear wall (2) adjacent to the open outer surface (14). 12- A cooling device according to any one of the preceding claims, characterized in that the condenser cover (40) includes a monolithic tube (46) whose arms extend parallel to each other in the transverse direction and are bent into forms. 13- It is a cooling device according to claim 129, characterized in that the condenser cover (40) contains an inlet (42) that is connected to an outlet (44) of the compressor (60) in a fluid conduction manner and extends towards the machine room (10).