DE102010029578A1 - Refrigeration unit with internal evaporator - Google Patents

Abstract

In the case of a refrigeration device, in particular a household refrigeration device, an evaporator which is exposed along a vertical wall of a storage chamber is designed as a wire tube evaporator.

Description

The present invention relates to a refrigeration device, in particular a household refrigerating appliance, with a storage chamber and a freely arranged in the storage chamber evaporator. Such a refrigeration device is off, for example EP 0 651 206 A known.

The exposed arrangement allows a highly efficient heat transfer between the storage chamber and the refrigerated goods contained therein on the one hand and the evaporator on the other hand, as compared to a refrigeration unit in Coldwall construction eliminates the heat transfer obstructing inner container wall between storage chamber and evaporator.

The efficiency of the evaporator is further impaired in a coldwall refrigerator in that an insulating material layer covers a main surface of the evaporator, so that heat exchange with the storage chamber is possible only on half of the evaporator surface. This disadvantage is avoidable with an exposed evaporator by providing a gap between it and an adjacent wall of the storage chamber. So the evaporator can also cool the air in the gap. In the case of an evaporator designed as a closed plate, however, the problem arises that air cooled in the gap can escape from the gap only at one edge of the evaporator. As a result, an area of the storage chamber adjacent to this edge is usually very strongly cooled, and a fan is required to distribute this very cold air and to achieve a sufficiently uniform temperature distribution in the storage chamber for practical applications.

At the EP 0 651 206 Known refrigeration device openings are formed with notched baffles on an evaporator plate through which cold air from the evaporator plate and an adjacent wall of the refrigerator housing limited gap can pass through and can be distributed in the storage chamber.

A disadvantage of this solution is that the evaporator can not be manufactured using the customary known production methods, in particular roll-bonding and tube-on-sheet, but an additional processing step is required to produce the openings and guide plates. In particular, in the production by roll-bonding, there is the problem that the two forming the evaporator boards must be connected at the locations where the openings and baffles are formed gap tightly sealed together so that no leaks result when notching the baffles.

Object of the present invention is to provide a refrigerator with an efficient internal evaporator, which can be realized inexpensively with conventional techniques.

The object is achieved by the evaporator is formed as a wire tube evaporator in a refrigerator, in particular a household refrigerator, with a storage chamber and an evaporator exposed along a vertical wall of the storage chamber arranged. Such an evaporator, which is arranged at a distance from the vertical wall within the storage chamber, is permeable to air practically over its entire surface, so that even air which has cooled in a region of the evaporator facing the vertical wall reaches the storage chamber through the evaporator can be distributed in it.

Preferably, the wire tube evaporator is arranged along the rear wall of the storage space to form an air gap spaced from the rear wall.

Advantageously, the wire tube evaporator has a meandering tube for guiding a refrigerant.

According to a first embodiment, the wire tube evaporator has vertical wires connecting horizontal pipe sections. By appropriately connecting the horizontal pipe sections in series, bubbles of gaseous refrigerant in the liquid refrigerant can be prevented from rising inside the pipe sections, and the bubbling operation noises associated with such rising can be prevented.

In addition, the horizontal tube sections prevent cooled air inside the evaporator from flowing freely from top to bottom and at the bottom of the evaporator at an extremely low temperature. Instead, the horizontal tube sections force a deflection of the cooled air in the evaporator transverse to the vertical wall, whereby at least a portion of this cooled air is deflected towards the storage chamber and distributed therein.

If intensive convection of the cooled air at the evaporator air is desired, it may also be appropriate that pipe sections of the wire tube evaporator are oriented vertically and connected to each other by horizontal wires.

The wires can be arranged in one layer, on one side of the pipe sections, or in two layers, on opposite sides of the pipe sections.

In order to increase the surface area at which a heat exchange with the air takes place, the wires may be band-shaped, with an elongate cross section.

Preferably, the band-shaped wires are attached on the narrow side of the pipe sections, so as not to hinder the passage of air through the evaporator.

In order to facilitate cleaning and also the removal of frost on the evaporator, it is expedient if adjacent wires of the wire tube evaporator are each spaced at least finger width from each other.

A gap between the vertical wall and the evaporator can promote the convection and thus the distribution of cooled air at the evaporator in the storage chamber.

If the band-shaped wires protrude into the gap, they can considerably intensify the heat exchange without their accommodation appreciably affecting the usable volume of the storage chamber.

A flow obstruction disposed in the gap that locally narrows or obstructs the gap is useful to promote the passage of cold air out of the gap through the evaporator and its distribution in the storage chamber away from the edges of the evaporator.

Such a flow obstacle may in particular have an air guide surface projecting obliquely downwards from the wall and towards the evaporator.

If the storage chamber is subdivided into compartments in a manner known per se by means of at least one horizontal compartment floor, such a flow obstacle is expediently arranged at the level of the compartment floor or above the compartment floor in order to divert cold air circulating in the gap into a compartment above the compartment floor.

To allow adaptation to different installation heights of shelves, it is expedient if the flow obstacle is adjustable in height.

Such a flow obstruction may be supported on a wire or tube of the wire tube evaporator.

Further features and advantages of the invention will become apparent from the following description of embodiments with reference to the accompanying figures. Show it:

1 a schematic perspective view of a refrigerator according to the invention;

2 a schematic partial section through the evaporator and an adjacent rear wall of the refrigerator 1 ;

3 one too 2 analog section according to a second embodiment of the invention;

4 one too 2 analog section according to a second embodiment;

5 a perspective view of a part of a in the embodiment of 4 acting as a flow obstruction air baffle;

6 one too 2 analog section according to a fourth embodiment of the invention;

7 a perspective view of a piece of an air guide plate according to the fourth embodiment; and

8th a perspective view of a section of the evaporator and the rear wall of a refrigerator according to a fifth embodiment of the invention.

The in 1 in a perspective view shown household refrigerator has a body 1 and a door 2 holding a storage chamber 3 to limit the storage of refrigerated goods. The storage chamber 3 is through several shelves 4 , For example, in the form of enclosed in a frame glass plates, divided into superposed compartments. The shelves 4 do not extend directly to a back wall of the body 1 but just before a front of this rear wall vertically arranged wire tube evaporator 5 , The wire tube evaporator 5 includes a meandering refrigerant pipe over the back wall 6 with horizontally oriented rectilinear sections 7 passing through 180 ° bends 8th are connected in series, as well as in two planes parallel to the rear wall on both sides of the refrigerant pipe 6 arranged, the rectilinear sections 7 firmly interconnecting wires 9 ,

2 shows a piece of here with 10 designated rear wall of the carcass 1 and of parallel to this back wall 10 mounted and from her through a crack 11 spaced wire tube evaporator 5 , Air, which is in a space between two rectilinear sections 7 of the refrigerant pipe 6 and the wires connecting them 9 Cools, as indicated in the figure by arrows, when descending from the lower rectilinear portion 7 distracted and distributed on the one hand on a neighboring shelf 4 and on the other hand in the gap 11 ,

One in 3 shown second embodiment is on the rear wall 10 of the body 1 a lead 12 formed in the form of a horizontally extending rib. The upper area of the projection 12 forms one from the plane of the back wall 10 sloping down and forward, on a straight line section 7 of the refrigerant pipe 6 and the rear edge of an adjacent shelf 4 to projecting air duct 13 , This air duct 13 over her forces in the gap 11 sinking cold air to, forward, between the wires 9 of the evaporator 5 through, dodge and get on the shelf 4 to distribute. The lead 12 is not enough directly to the evaporator 5 approach, so that part of the sinking cold air also between the projection 12 and the evaporator 5 in the gap 11 can pass down to the convection movement below the shelf 4 to promote.

4 shows a third embodiment, in which a deflecting the air forward projection by a formed of sheet metal or plastic elastic plate 14 is formed in 5 is shown in a perspective view. The plate 14 has a waveform in cross-section with two at the rear wall 10 flat-fitting supporting tails 15 and a projecting centerpiece 16 , in each case a wire 9 receiving slots 17 are formed. The middle piece 16 resting on a straight line section 7 of the refrigerant pipe. The plate 14 blocks the gap 11 and forces sinking air through it, through the evaporator 5 through to the front, into the storage room 3 to dodge.

The plate 14 is height adjustable by a user with his fingers between the wires 9 of the evaporator 5 passes through, the middle piece 16 elastic against the back wall 10 presses it so that it from the supporting pipe section 7 comes free, and then it in the gap 11 moves up or down. So can the plate 14 always in one to the height of the shelf 4 be fitted to a suitable height on the shelf 4 to produce forward stroking cold air flow.

One in 6 and 7 shown embodiment, the wave-shaped plate 14 through a comb-shaped plate 18 replaced, from the one upper edge area 19 on the back wall 10 supports, while one in the lower part of the plate 18 forming finger 20 between the wires 9 reach out through the evaporator forward and on a straight pipe section 7 of the evaporator 5 support. For a height adjustment, it is useful if lateral edges 21 the plate 18 right and left over the vertical edges of the evaporator 5 survive, leaving a user the edges 21 grab with your hand and the plate 18 can move. Thus, such a spread over the entire width of the evaporator 5 extending plate 18 the convection in the gap 11 not completely breaks, can in a middle area of the plate 18 window 22 be cut out, which allow an air passage.

It is easily understood that when the evaporator is arranged with vertical straight tube sections and horizontal wires, a flow obstacle in the manner of the plate 14 or 18 on one of the wires in a similar way as above for the pipe section 7 can support described.

8th shows a section of the rear wall 10 of the body 1 and of this back wall 10 mounted evaporator 5 according to a further embodiment of the invention. The back wall 10 facing wires of the evaporator 5 , With 9 ' designated, have a band-shaped cross section and are each a narrow side of the straight pipe sections 7 of the evaporator 5 attached. The band-shaped wires 9 ' significantly increase the surface of the evaporator 5 , on which a heat exchange with the air of the storage chamber 3 can take place, but hinder the passage of air through the evaporator 5 no more than usual cylindrical wires. Because the wires 9 ' the back wall 10 do not touch, they are attaching a flow obstruction such as the plate 14 or 18 in the gap 11 compatible.

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• EP 0651206 A [0001]
• EP 0651206 [0004]

Claims (13)

Refrigerating appliance, in particular household refrigerating appliance, with a storage chamber ( 3 ) and one along a vertical wall ( 10 ) of the storage chamber ( 3 ) within the storage chamber ( 3 ) arranged evaporator ( 5 ), characterized in that the evaporator ( 5 ) is designed as a wire tube evaporator. Refrigerating appliance according to claim 1, characterized in that the wire tube evaporator ( 5 ) vertical. Wires ( 9 . 9 ' ), the horizontal pipe sections ( 7 ) connect with each other. Refrigerating appliance according to claim 1, characterized in that the wire tube evaporator has horizontal wires which connect vertical pipe sections with each other. Refrigerating appliance according to one of the preceding claims, characterized in that the wire tube evaporator ( 5 ) band-shaped wires ( 9 ' ) having. Refrigerating appliance according to claim 4, characterized in that the band-shaped wires ( 9 ' ) narrow side of pipe sections ( 7 ) of the wire tube evaporator ( 5 ) are attached. Refrigerating appliance according to one of the preceding claims, characterized in that adjacent wires ( 9 . 9 ' ) of the wire tube evaporator ( 5 ) are each spaced at least finger width from each other. Refrigerating appliance according to one of the preceding claims, characterized in that a gap ( 11 ) between the vertical wall ( 10 ) and the evaporator ( 5 ) is provided. Refrigerating appliance according to claim 7, as far as dependent on claim 4, characterized in that the band-shaped wires ( 9 ' ) in the gap ( 11 ) project. Refrigerating appliance according to claim 7 or 8, characterized in that in the gap ( 11 ) at least one flow obstacle ( 12 ; 14 . 18 ), which separates the gap ( 11 ) locally narrowed or blocked. Refrigerating appliance according to claim 9, characterized in that the flow obstacle ( 12 ; 14 ; 18 ) one from the wall ( 10 ) obliquely downwards and to the evaporator ( 5 ) projecting air duct ( 13 ) having. Refrigerating appliance according to claim 9 or 10, characterized in that the storage chamber ( 3 ) by at least one horizontal shelf ( 4 ) is divided into compartments and the flow obstacle ( 12 ; 14 ; 18 ) at the level of the shelf ( 4 ) or above the shelf ( 4 ) is arranged around one in the gap ( 11 ) circulating airflow into a compartment above the shelf ( 4 ) to divert. Refrigerating appliance according to one of claims 9 to 11, characterized in that the flow obstacle ( 14 ; 18 ) is height adjustable. Refrigerating appliance according to one of claims 9 to 10, characterized in that the flow obstacle ( 14 ; 18 ) on a wire or a pipe ( 6 ) of the wire tube evaporator ( 5 ) is supported.

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