EP2422146A2 - Refrigeration appliance comprising a fan - Google Patents

Abstract

A refrigeration appliance comprises an evaporator that is arranged on a rear wall of a storage compartment, and an axial fan which is arranged in a corner between the rear wall and an adjacent wall, the axis of said fan extending substantially parallel to the adjoining wall. A distribution duct that runs along the adjoining wall, downstream of the axial fan, has a width which increases in the direction of the air flow driven by the axial fan.

Description

 Refrigeration unit with blower

The present invention relates to a refrigeration appliance, in particular a domestic refrigeration appliance, in which a blower for homogenizing the temperature distribution is provided in a storage compartment of the refrigeration appliance.

When cooled air flows down a rear wall evaporator of the storage compartment, there is a temperature stratification, at the bottom of the storage compartment significantly lower temperatures prevail than at the ceiling. To ensure that a maximum desired storage temperature is not exceeded even on the ceiling, the bottom region of the storage compartment must be cooled to a much lower temperature. The required cooling capacity increases with the temperature difference to be maintained in the environment. Efficient air circulation in which no parts of the storage compartment are left out is therefore desirable in order to prevent temperature stratification and thereby enable energy-efficient operation of the refrigeration device.

Conventional refrigerators often use an axial fan to drive the air circulation which is disposed in a corner between the rear wall and a wall of the storage compartment adjacent thereto and drives an air flow along this adjacent wall. The dimensions of such an axial fan are substantially the same in the width direction of the adjacent wall as transverse thereto and necessarily much smaller than the width of the rear wall and the adjacent wall. It is therefore not possible to drive a uniformly distributed over the entire width of the adjacent wall air flow with a single axial fan. Therefore, there are always edge zones of the storage compartment, which are poorly coupled to the air flow of the fan and therefore relatively poorly cooled.

Object of the present invention is to provide a refrigeration device that achieves good homogeneity of the temperature distribution in the storage compartment with simple means.

The object is achieved by providing in a refrigerator, in particular domestic refrigeration appliance, with at least one accessible through a door storage compartment, on the rear wall of an evaporator is provided which is acted upon by a fan with air over an air guide is directed towards the door, the air duct is formed as the evaporator downstream downstream distribution channel having an increasing from its Einströmöffung to its door-facing exhaust opening towards the width.

Preferably, the width of the distribution channel towards the exhaust opening increases at least substantially continuously. This can be used as lateral boundary walls for the distribution channel rectilinear side walls.

Particularly preferably, the width of the distributor channel increases at least approximately equally on both sides. As a result, a particularly simple production of the distribution channel is possible.

To drive air circulation over the entire width of the storage compartment, it is preferred that the distribution channel at a downstream end fills the entire width of the storage compartment.

For a uniform distribution of the air flow over the cross section of the distribution channel, it is expedient if divergent guide ribs are arranged in the distribution channel.

The distribution channel expediently extends over a wall of the storage compartment adjoining the rear wall.

In order to achieve a uniform distribution of the air flow over the entire width of the distribution channel at its downstream end, the angle at which sidewalls of the channel diverge should be as small as possible. Therefore, the distribution channel preferably extends to a front edge of the adjacent wall.

In general, the adjacent wall will be a ceiling of the storage compartment.

The distribution channel is expediently delimited by a shell which covers the wall adjacent to the rear wall.

Guide ribs can be advantageously formed on this shell. In order to divert the air flow at the downstream end of the distribution channel, the adjacent wall preferably has at its front edge a web projecting into the storage compartment, and an elongate exit opening of the channel is bounded on one side by the web and on the other by a front edge of the shell.

The shell may be attached to the adjacent wall by means of fingers projecting beyond its front edge. These are generally easily accessible and can be solved when it is necessary to disassemble the bowl and access the blower it is hiding.

In order for the blower can effectively suck cold air, the blower is preferably preceded by an intake gap, which is bounded on one side by the evaporator.

A side of the suction gap opposite the evaporator may be formed by a rear wall of a drawer placed in the storage compartment.

Preferably, the storage compartment is a zero-degree compartment in a combination refrigerator.

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 shows a schematic section through the lower region of a combination refrigeration device according to the invention, and

Fig. 2 is a schematic plan view of a distribution channel of the refrigerator limiting shell.

Fig. 1 shows a schematic section through the body 1 and door 2 of a refrigerator according to the invention. The device has a in the figure only partially shown normal refrigeration compartment 3 and below this, separated by a heat-insulating partition 4 of the body 1, a zero-degree compartment 5. On a rear wall 6 of the zero-degree compartment 5 foam side, an evaporator. 7 arranged. A vertical suction gap 8 extends - A -

between the rear wall 6 and rear sides of in the zero-degree compartment 5 on (not shown) telescopic rails extendable guided drawers 9, 10. The upper of these drawers, 9, is recessed at its upper rear edge a piece to make room for a Axial blower 1 1 to create, which is mounted below the intermediate wall 4.

A flat shell 12 made of plastic separates the installation space of the axial fan 11 and each one extending below the intermediate wall 4 along distribution channel 13 from the zero-degree compartment 5 from. An outlet opening 14 between a front edge of the shell 12 and a downwardly projecting at the front edge of the intermediate wall 4 flat web 15 extends over the entire width of the tray 5. An oblique Anströmfläche 16 at the back of the web 15 deflects out of the channel 13 Cold air down. Part of the cold air is distributed in the upper drawer 9; the remainder flows down between the front sides of the drawers 9, 10 and the door 2 and is distributed on the underlying drawer 10 and a horizontal gap 17 kept between the bottom of the drawer 10 and the bottom of the compartment 5, through which the air is returned to Rear wall gap 8 passes.

Fig. 2 shows a plan view of the shell 12. The shell 12 is on most of its surface substantially flat, except for a central trough 18 at the rear edge, which is shaped to receive the blower 1 1. At the level of the trough 18, a cutout 19 of shallow depth is formed at the rear edge of the shell 12, which together with the rear wall 6 delimits a suction slot through which the blower 11 draws cold air from the gap 8.

Two over the front edge of the shell 12 protruding fingers 20 are used to attach the shell 12 to the web 15th

At the top of the shell 12 extend two diverging ribs 21 from the blower 1 1 to the corners of the front edge of the shell, which laterally delimit the distribution channel 13 and give it a to the front edge of the shell 12 towards continuously increasing width. In order to distribute the air flow driven by the blower 1 1 as uniformly as possible to this width, the distribution channel 13 is subdivided by a plurality of divergent guide ribs 22. In order to favor the distribution of the air flow in the width, in addition, the height of the distribution channel 13 of back to front continuously from, as seen in the section of Fig. 1. Thus, at the outlet opening 14 a distributed over the entire width of the compartment 5 air flow is obtained, which surrounds the drawers 9, 10 around. By thus keeping the outer surfaces of the drawers at a uniform temperature, even the creation of hot zones in the drawers themselves is excluded, even if they are not flowed through as intensively as the spaces between them and the body 1 and the door 2.

Claims

claims

1. Refrigeration appliance, in particular household refrigeration appliance, with at least one by a

Door accessible storage compartment (5), at the rear wall (6) an evaporator (7) is provided, which is acted upon by a fan (11) with air, which is passed through an air duct in the direction of the door, characterized in that the air duct is formed downstream of the evaporator downstream distribution channel (13) having an increasing from its Einströmöffung to its door-facing blow-out opening towards the width.

2. Refrigerating appliance according to claim 1, characterized in that the width of the

Distribution channel (13) increases at least substantially continuously.

3. Refrigerating appliance according to claim 1 or claim 2, characterized in that the width of the distribution channel (13) increases on both sides at least approximately uniformly.

4. Refrigerating appliance according to one of claims 1 to 3, characterized in that the distribution channel (13) at a downstream end (14) fills the entire width of the storage compartment (5).

5. Refrigerating appliance according to one of claims 1 to 4, characterized in that in the distribution channel (13) divergent guide ribs (22) are arranged.

6. Refrigerating appliance according to one of claims 1 to 5, characterized in that the distribution channel (13) via a to the rear wall (6) adjacent wall (4) of the storage compartment (5).

7. Refrigerating appliance according to claim 6 or 7, characterized in that the distribution channel (13) extends to a front edge of the adjacent wall (4).

8. Refrigerating appliance according to claim 6 or 7, characterized in that the adjacent wall (4) is a ceiling of the storage compartment (5).

9. Refrigerating appliance according to one of claims 6 to 8, characterized in that the distribution channel (13) by a the adjacent wall (4) overlapping shell (12) is limited.

10. Refrigerating appliance according to claim 5 and claim 9, characterized in that the guide ribs (22) on the shell (12) are formed.

11. Refrigerating appliance according to claim 9 or 10, characterized in that the adjacent wall (4) at its front edge in the storage compartment (5) projecting web (15), and in that an elongated outlet opening (14) of the channel (13) on the one hand by the web (15) and on the other hand by a front edge of the shell (12) is limited.

12. Refrigerating appliance according to claim 11, characterized in that the shell (12) protruding beyond its front edge and on the adjacent wall (4) fixed finger (20).

13. Refrigerating appliance according to one of claims 1 to 12, characterized in that the blower (1 1) upstream suction gap (8) on one side by the evaporator (7) is limited.

14. Refrigerating appliance according to claim 13, characterized in that the suction gap (8) on an evaporator (7) opposite side by a rear wall of a drawer (9, 10) is formed.

15. Refrigerating appliance according to one of claims 1 to 14, characterized in that the storage compartment (5) is a 0 ° compartment.