WO2009000714A1

WO2009000714A1 - Refrigeration device with ventilation assembly

Info

Publication number: WO2009000714A1
Application number: PCT/EP2008/057663
Authority: WO
Inventors: Hans Gerd Keller; Renate Pradel
Original assignee: BSH Bosch und Siemens Hausgeräte GmbH
Priority date: 2007-06-25
Filing date: 2008-06-18
Publication date: 2008-12-31
Also published as: CN101688735A; CN101688735B; EP2160553A1; DE102007029178A1; RU2009147177A; RU2468317C2

Abstract

The invention relates to a refrigeration device, having a housing (19) which encloses an interior space (16) and a ventilation assembly which has a ventilator (2) and which is mounted in the interior space (16). The ventilation assembly has a support (1) with a receptacle for at least substantially receiving the drive motor and the ventilator wheel, and has holding elements for holding a baffle (12).

Description

Refrigeration unit with fan unit

The present invention relates to a refrigerator such as a refrigerator having a housing enclosing an interior and a fan unit mounted in the interior. Such a fan unit can e.g. serve to intensify an air flow over a heat exchanger surface, so as to improve the cooling effect of the heat exchanger, or to equalize the temperature distribution in this by mixing the air of the interior.

Typically, such a fan unit is arranged in the upper region of the interior so that an air flow generated by it flows along a rear wall of the interior, wherein the air flow sweeps over a arranged on the rear wall of the interior evaporator. As a result, the air flow is cooled, and the now cooled air can get into individual cooling compartments depending on the division of the interior.

Common solutions for this use a mounted in a corner formed by the rear wall and ceiling of the interior fan unit, which has a fan as a radial fan. The axis of the fan is arranged perpendicular to the rear wall, so that a parallel to the rear wall extending air flow is generated. However, since the ceiling and rear wall of the interior merge in a rounding, a fan impeller of the fan is spaced from the rear wall, and a gap between the impeller and the rear wall is used to accommodate a motor driving the impeller. This makes it possible to suck air in the immediate vicinity of the ceiling in the fan unit, however, the generated air flow has a width of the gap corresponding distance from the rear wall. If an evaporator is attached to the back wall, such a distance affects the efficiency of the heat exchange. If the interior is divided by refrigerated goods in several compartments whose trailing edges are separated from the rear wall in each case by a gap to allow a penetration of the fan unit blown air into deeper compartments, the air flow is attenuated by the refrigerated goods more, the farther away from the back wall it runs. To the air flow so To divert that it flows directly along the back wall, additional space-consuming internals are required.

It is therefore an object of the present invention to provide a refrigeration device in which an effective air circulation or an efficient heat exchange at the evaporator can be achieved with a simply constructed, compact fan unit.

This object is achieved in that in a refrigerator with a housing enclosing an interior and a fan unit mounted in the interior with a fan, the fan is an axial fan and is arranged at a ceiling of the interior of a rear wall of the interior spaced by a gap and set up is to blow against the back wall. The arrangement of the fan on the ceiling, the air can be optimally absorbed even from the top and thus the warmest area in the interior.

Due to the horizontal flow direction of the air flow generated by the axial fan due to the roundness between the ceiling and the rear wall required for many refrigerators due to the production of cooling devices, the gap can be generated in a low-loss manner along the rear wall of the first horizontally oriented air flow generated by the fan To divert the interior.

In a further advantageous embodiment of the invention, the width of the gap corresponds to the radius of curvature of the rounding. Thus, the distance of the fan from the rear wall is minimized, and the fan unit does not take up unnecessary space in the interior.

In a further advantageous embodiment of the invention, the gap is bounded on two sides by side walls. The side walls thus limit the air flow in its width and direct it in the desired direction.

In a further advantageous embodiment of the invention, an edge of each side wall is continuously against the ceiling and the rear wall. This prevents air from leaking and swirling unintentionally on the sides of the fan assembly, thus providing greater airflow efficiency. In a further advantageous embodiment of the invention, the fan assembly comprises a housing which separates the fan from a useful area of the interior. The housing hides the fan and also forms a design element. The fan can thus be used uniformly in a variety of different types of refrigerators, and an adaptation to the particular type of refrigerator can be made exclusively through the housing.

In a further advantageous embodiment of the invention, an air inlet opening of the fan assembly is bounded by a ceiling of the interior and of the housing of the fan unit. As a result, the air supplied to the fan unit is sucked in directly below the ceiling of the interior and thus at the highest and warmest point of the interior of the fan, so that it is prevented that warm temperature ranges in the interior are not sufficiently detected by the air circulation. In addition, simplifies the production of the housing, since in this itself no opening must be formed.

In a further advantageous embodiment of the invention, an air outlet opening of the fan assembly is bounded by a rear wall of the interior and of the housing of the fan unit. Thus, in cooperation with the shape of the gap, the air flow may flow down directly along the rear wall of the interior space.

In a further advantageous embodiment of the invention, a gap is formed between the rear wall and a rear edge of a refrigerated goods carrier. As a result, the airflow guided along the rear wall can flow behind a plurality of refrigerated goods carriers and reach into lower regions of the interior divided by the refrigerated goods carriers, and bring about a uniform temperature distribution in the entire interior space.

The refrigerator according to the invention offers particular advantages in that through the guidance of the air flow along the back wall of the interior, condensation of an evaporator arranged in the rear wall can be prevented. Due to the compact design of the fan unit, the volume of the interior is not unnecessarily reduced. In addition, a higher efficiency can be achieved by means of a low-voltage axial fan than with centrifugal fans, as has hitherto been customary used in refrigerators, thereby the energy efficiency of the refrigerator can be improved.

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

Figure 1 is a schematic section through a household refrigerating appliance, in which a fan unit is mounted, according to the invention.

Fig. 2 is a perspective view of a fan assembly according to the invention, seen obliquely from behind;

Fig. 3 is a schematic partial section through an upper portion of a refrigerator of Fig. 1, seen from the front.

1 shows a schematic section through a refrigerator, for example a refrigerator, in which a fan unit is installed at an upper rear corner of an interior 16. The fan unit comprises a fan frame 1, a fan 2, which is mounted in the frame 1 and a cladding shell 12. The cladding shell 12 and the frame 1 form a housing for the fan 2. The fan 2 is preferably designed as an axial fan, which its air flow directed to a rear wall 18 of the interior 16. The fan frame 1 is fixed in any suitable manner, for example by latching in cut into a solid inner skin of a housing 19 of the refrigerator, openings in the position shown. The cladding shell 12, which encloses the fan frame 1 closely, is attached to the fan frame 1.

In a rear wall 18 of the interior 16 is an evaporator 14. A compressor 15 is housed in a conventional manner in a rear niche of the refrigerator housing. In the interior 16 one or more Kühlgutträger 13 are mounted, which are preferably formed as plates. These are fastened in a known manner in the interior 16. A rear edge of the refrigerated goods carriers 13 forms with the Rear wall 18 of the interior 16 a gap 21. By the refrigerated goods 13, the interior 16 is divided into several areas.

The rear wall 18 and an adjacent ceiling 17 of the interior 16 go over a rounding 9 continuously into each other.

The fan 2 is spaced from the rear wall 18 and forms with it a gap 20. The distance of the fan 2 from the rear wall 18 and thus the width of the gap 20 corresponds to the radius of curvature of the rounding. 9

At a rear side of the fan frame 1, a side wall 3 is formed. A rear edge of the side wall 3 is continuously from the inside to the ceiling 17 and the rear wall 18 in the region of the rounding 9 at.

Immediately on a ceiling 17 of the interior 16 is an air inlet opening 10 of the fan unit.

An air outlet opening 1 1 of the fan unit is arranged directly on a rear wall 18 of the interior 16. The air outlet opening 11 is bounded from behind by the rear wall 18 and from the front by a rear edge of the lining shell 12th

In Fig. 2 is a perspective view of the fan assembly according to the invention is shown, seen from its rear side. The fan 2 has a cuboid housing with an impeller mounted in a passage of the housing. A drive motor is housed in a hollow hub of the impeller. The fan 2 is mounted in a receiving compartment of the fan frame 1. The receptacle is limited on three sides by side walls 4, 4 'and a bottom (not visible).

At its front side or suction side, the fan 2 is held by an upper web 6 connecting the side walls 4, 4 '. At this web 6, a detent 7 is formed, which engages an upper edge of the housing of the fan 2 and fixes the fan 2 in the receiving compartment. At its rear side or outlet side, the fan 2 is held by two vertical edges, which connect the side walls of the receiving compartment 4, 4 'with side walls 3, 3' parallel to them, and by approximately triangular wall sections 5, which extend in height extend the vertical edge between one of the side walls 3, 3 'and the (not visible) bottom of the receiving compartment.

The bottom of the receiving compartment and the side walls 3, 3 'limit the air outlet opening 1 1 of the fan unit. Through the air outlet opening 11 extends grid with a plurality of webs 8, which connect the lower edges of the side walls 3 and 3 '.

The side walls 3, 3 'define the gap 20 between the fan 2 and the rear wall 18 shown in FIG. 1 on two sides. The side walls 3, 3 'are substantially rectangular in shape, with their rear upper corner being rounded in adaptation to the rounding 9, so that edges of the side walls 3, 3' bear tightly against the ceiling 17, the rear wall 18 and the rounding 9. In the view shown in Fig. 1, only the side wall 3 facing away from the viewer is visible.

A schematic representation of the air flow to and from the fan unit is further shown in Fig. 1.

Air from the interior 16 is sucked by the fan unit through the air inlet opening 10 and flows through the fan 2. A generated by the fan 2 air flow is directed substantially directly to the rounding 9 between the ceiling 17 and rear wall 18. The air flow is deflected by the formed by the side walls 3, 3 'of the frame 1, the ceiling 17 and the rear wall 18 of the inner space 16 in the region of the curve 9 gap 20 and directed downward. Due to the limitation of the gap 20 through the side walls 3, 3 'and the rear wall 18 can be prevented that the air flow is short-circuited within the fan assembly.

The downwardly directed air flow occurs directly at the rear wall 18 through the air outlet opening 1 1 back into the interior 16, so that the air flow can flow along the evaporator 14, is cooled by this and possibly promotes the evaporation of condensed water deposited thereon. Next, the airflow behind the cooled goods carriers 13 spaced from the rear wall 18 flow downwards, so that the now cooled air can be uniformly distributed in all areas of the interior 16 delimited from each other by the refrigerated goods carriers 13.

In Fig. 3 is a schematic partial section through an upper portion of the refrigerator of Fig. 1 is shown, seen from the front. The fan unit is mounted in the interior 16, wherein the cladding shell 12 is attached to the frame 1.

The air inlet opening 10 is bounded from above by the ceiling 17, and from below by an upper edge of the lining shell 12. Thus, the cladding shell 12 is not on the ceiling 17 at. As a result, the requirements for a dimensional accuracy of the cladding shell 12 and / or the accuracy of their assembly to the fan frame 1 are lower than they would be in a positive-locking arrangement, so that the manufacture of the cladding shell 12 is simplified. While the fan frame, the shape of which in particular at the edges of the walls 3, 3 'must be adapted to the shape of the curve 9, can be made uniform for a variety of refrigeration device types, the cladding shell due to the relatively low demands on their manufacturing tolerances 12 inexpensive be manufactured in various appearances.

Claims

claims

1. Refrigerating appliance with an interior (16) enclosing the housing (19) and a in the interior (16) mounted fan unit with a drive motor and a fan having fan (2), characterized in that the fan unit comprises a carrier (1) Having a receiving space for at least largely accommodating the drive motor and the fan and holding elements for holding a diaphragm (12).

2. Refrigerating appliance according to claim 1, characterized in that the receiving space is at least largely formed as a tube.

3. Refrigerating appliance according to claim 2, characterized in that the tube has a square cross-section.

4. Refrigerating appliance according to claim 1 to 3, characterized in that following the receiving space air guide means are formed on the carrier.

5. Refrigerating appliance according to claim 4, characterized in that through the

Air guiding means of the fan (2) from a ceiling (17) of the interior (16) and from a rear wall (18) of the interior (16) by a gap (20) spaced and arranged to blow against the rear wall (18).

6. Refrigerating appliance according to claim 5, characterized in that the ceiling (17) and the rear wall (18) via a rounding (9) continuously merge into one another.

7. Refrigerating appliance according to one of the preceding claims, characterized in that the width of the gap (20) at least approximately the

Radius of curvature of the rounding (9) corresponds.

8. Refrigerating appliance according to one of the preceding claims, characterized in that the gap (20) on two sides by side walls (3,3 ') is limited.

9. Refrigerating appliance according to one of the preceding claims, characterized in that an edge of each side wall (3, 3 ') continuously on the

Cover (17) and the rear wall (18) rests.

10. Refrigerating appliance according to one of the preceding claims, characterized in that the fan unit comprises a diaphragm (1, 12) which separates the fan (2) from a useful range of the interior (16).

11. Refrigerating appliance according to claim 10, characterized in that an air inlet opening (10) of the fan unit of the ceiling (17) of the interior (16) and the housing (1, 12) of the fan unit is limited.

12. Refrigerating appliance according to one of claims 10 or 11, characterized in that an air outlet opening (11) of the fan unit of the rear wall (18) of the interior (16) and the housing (1, 12) of the fan unit is limited.

13. Refrigerating appliance according to one of the preceding claims, characterized in that between the rear wall (18) and a rear edge of a Kühlgutträgers (13), a gap (21) is formed.

14. Refrigerating appliance according to one of claims 1 to 13, characterized in that the carrier to the interior (16) is at least largely covered by a diaphragm (12).

15. Refrigerating appliance according to claim 14, characterized in that the diaphragm (12) has air inlet openings for the fan (2) sucked air.

16. Refrigerating appliance according to claim 14 or 15, characterized in that the diaphragm (12) as a lining shell (12) is formed.