EP2009376A1 - Evaporator module and cooling or freezing device with such an evaporator module - Google Patents

Abstract

The evaporator module has a housing (10) and a fan (20). The fan is arranged in a fan housing (30), whereby the entire fan housing is implemented as an independent part relative to the evaporator module housing and one or more vibration dampers (40) is/are arranged between the housings.

Description

The present invention relates to an evaporator module with an evaporator module housing and with a fan.

From the prior art so-called no-frost evaporator modules for freezers are known, which are usually arranged below the ceiling on the inner container of the device. In this case, the evaporator modules usually have a fan, which extracts the cold air from the evaporator module housing and leads into the space to be cooled.

In principle, there is the task of ensuring trouble-free operation of the evaporator module, that is to ensure that sufficient cold air is always generated and transported as uniformly as possible over the entire refrigerator or freezer compartment. Another requirement is to reduce the running noise of the fan.

The present invention is therefore the object of developing an evaporator module of the type mentioned in such a way that the running noise of the fan is low and that the evaporator module is also designed to be service-friendly.

This object is achieved by an evaporator module having the features of claim 1. Thereafter, it is provided that the fan is arranged in a fan housing, wherein the entire fan housing is designed as a respect to the evaporator module housing ständiges component, wherein between the fan housing and the evaporator module housing for the purpose of noise decoupling one or more vibration dampers are arranged. According to the invention it is thus provided that the entire fan housing including all air-conducting elements, such as recesses, air guide elements and the like is designed as an independent component that can be removed if necessary from the evaporator module housing, so that in the case of service not the entire evaporator module, but optionally only the fan housing or its fan must be replaced.

It is preferably provided that the evaporator module housing has at least one wall, in which a recess is provided, in which the fan housing is accommodated. This recess can be made open at the top, so that the fan housing is inserted, for example, from above into the recess. Of course, it is also z. B. conceivable to use the fan housing in a direction perpendicular to the plane of the recess direction.

The recess may extend over the entire height of the wall or over a substantial part of the wall.

Furthermore, it can be provided that the one or more vibration dampers consist of thermoplastic elastomer or have such. It is also conceivable that the vibration damper is molded in 2-component technology. In a further embodiment of the invention it is provided that the recess is bounded by plate-shaped projections of the evaporator module housing and that the vibration damper extending between the fan housing and these projections.

The fan housing may have larger dimensions than the recess, so that the fan housing with the recess defining parts of the evaporator module housing overlaps partially. In these overlapping areas, the vibration dampers may be arranged.

The fan housing may have on its side facing away from the interior of the evaporator module housing side a seal for sealing the fan housing relative to the inner container of a refrigerator and / or freezer.

It can be provided that the fan housing has an edge region on which the seal is plugged. Preferably, the seal is designed in mirror image in cross-section, so that it is not important to pay attention to their orientation during assembly.

In a further embodiment of the invention it is provided that the seal is mounted on the fan housing via a latching connection. Such a latching hook geometry allows the reliable fixation of the seal on the housing with little effort.

In a further embodiment of the invention it is provided that a removable from the fan housing holding part is provided, on which the fan is arranged. This holding part can be designed with multiple arms, wherein the arms can be fixed to the fan housing via positive connections. It is conceivable, for example, to provide a three-arm arrangement.

It can be provided that one of the arms is designed as a receptacle for the cable or cables leading to the fan. In this arm may further be arranged a strain relief for the cable or cables.

It is particularly advantageous if one or more cables leading to the fan are provided, of which at least one is designed with a plug-in coupling, wherein the coupling is arranged fixedly in or on the fan housing.

Such an embodiment of the invention has the advantage that there are no free-hanging cable ends and that can be easily carried out via a plug-in connection of the installation and removal of the fan assembly, even if there are limited space.

In a further embodiment of the invention, it is provided that the evaporator module housing is provided with a holder for fixing a Verdampfermodulgehäuseabdeckung.

It is preferably provided that the holder is designed as a means for ensuring or controlling a maximum installation height of the evaporator module.

In a further embodiment of the invention it is provided that on the evaporator module housing or on the fan housing a hook or eyelet for receiving one or more cables or lines is provided, in particular for receiving the evaporator suction, wherein the hook or eye with said housing is connected via a latching connection.

Figur 1:

eine perspektivische Darstellung des in das Verdampfermodulgehäuse eingesetzten Ventilatorgehäuses,

Figur 2:

eine weitere perspektivische Darstellung der Anordnung gemäß Figur 1,

Figur 3:

eine perspektivische Detaildarstellung eines Teils des Ventilatorgehäuses,

Figur 4:

eine perspektivische Darstellung einer am Verdampfermodulgehäuse angeordneten Platte zur Fixierung des Ventilatorgehäuses,

Figur 5:

eine perspektivische Darstellung eines Schwingungsdämpfers, der zwischen dem Verdampfermodulgehäuse und dem Ventilatorgehäuse angeordnet ist,

Figur 6:

eine perspektivische Darstellung des in das Ventilatorgehäuse eingesetzten Halteteils mit Ventilator,

Figur 7:

eine Detaildarstellung der Kabelführung gemäß der Anordnung in Figur 6,

Figur 8:

eine Detaildarstellung der Verbindung der Dichtung mit dem Ventilatorgehäuse,

Figur 9:

eine perspektivische Darstellung des hinteren Randbereichs des Verdampfermodulgehäuses mit Verdampfermodulgehäuseabdeckung,

Figur 10:

eine perspektivische Darstellung einer Halteöse zur Aufnahme der Verdampfersaugleitung,

Figur 11:

eine perspektivische Darstellung einer in dem Verdampfergehäuse befindlichen Kabelführung mit Zugentlastung und

Figur 12:

eine Darstellung des rückseitigen Bereiches des Verdampfermodulgehäuses mit daran angeordneten geometrischen Anformungen zur Aufnahme im Innenbehälter.

Further details and advantages of the invention will be explained in more detail with reference to an embodiment shown in the drawing. Show it:

FIG. 1:

a perspective view of the fan housing used in the evaporator module housing,

FIG. 2:

a further perspective view of the arrangement according to FIG. 1 .

FIG. 3:

a detailed perspective view of a part of the fan housing,

FIG. 4:

a perspective view of a arranged on the evaporator module housing plate for fixing the fan housing,

FIG. 5:

a perspective view of a vibration damper, which is arranged between the evaporator module housing and the fan housing,

FIG. 6:

a perspective view of the inserted into the fan housing holding part with fan,

FIG. 7:

a detailed view of the cable guide according to the arrangement in FIG. 6 .

FIG. 8:

a detailed representation of the connection of the seal with the fan housing,

FIG. 9:

a perspective view of the rear edge region of the evaporator module housing with evaporator module housing cover,

FIG. 10:

a perspective view of a holding eye for receiving the evaporator suction,

FIG. 11:

a perspective view of a located in the evaporator housing cable management with strain relief and

FIG. 12:

a representation of the rear region of the evaporator module housing with geometric projections arranged thereon for receiving in the inner container.

FIG. 1 shows the rear region of the evaporator module housing 10, in which the fan 20 is arranged. The fan 20, consisting of impeller and motor, is arranged in a fan housing 30. Like this FIG. 1 shows, the entire fan housing 30 with all the air flow influencing elements, such as recesses, air guide elements, etc. is added as an independent module in the recess 14 in the wall 12 of the evaporator module housing 10.

If necessary, the fan housing 30 with fan can be easily removed from the evaporator module housing 10 or from its recess 14 of the wall 12.

FIG. 2 shows the arrangement according to FIG. 1 in a view from diagonally above.

Like this from the Figures 1 and 2 shows, the recess 14 is bounded by two plate-shaped projections 16 which in FIG. 4 are shown enlarged. Between these plate-shaped projections 16 and the fan housing 30 vibration damper 40 are arranged, which are designed as thermoplastic elastomer elements. The vibration damper 40 are configured substantially plate-shaped and latched on the one hand with the fan housing 30 and on the other hand with the plate-shaped projections 16 of the evaporator module housing 10. Of course, other arrangements are conceivable as plate-shaped projections on the evaporator module housing 10, which are in communication with the vibration dampers 40. FIG. 5 shows the arrangement according to FIG. 4 with inserted vibration damper 40th

FIG. 3 shows in a detailed view the inverted U-shaped edge region 32 of the fan housing, on which a seal 60 is attached. The seal 60 is a cross-sectional view in FIG FIG. 8 represented, it serves with its seat on the housing edge to that with a very small contact force a seal to the inner container of the device is made possible. The seal 60 has a specially designed profile, which consists of two approximately at right angles to each other extending lips, which are pressed against the inner container. The seal 60 further has a groove-shaped recess which is attached to the edge region 32 of the fan housing 30 and fixed there via a latching connection 34. At the edge region 32 is a latching nose 34, which rests in a recess of the seal 60 and thus holds the seal 60 at the edge region 32.

The seal is a mirror image, so that an assembly is possible without paying attention to the geometry.

FIG. 6 shows the fan housing 30 from the side facing away from the interior of the evaporator module housing 10 side. The fan assembly in the fan housing 30 via a three-armed holding part 70, of the two arms 72, 74 are accommodated by means of a fork-shaped holding geometry in a correspondingly shaped receptacle on the fan housing 30. The third arm 76 is held by means of a special snap geometry. This additionally serves as a cable receptacle for the fan cable 100 and further has a strain relief for the cable 100.

FIG. 7 shows the coupling 110 of the fan or the fan 100. As is apparent from FIG. 7 shows, this is fixedly mounted in a wall of the fan housing 30, so that a particularly compact assembly is formed and free-hanging cable ends are avoided. The production of the connector and the installation of the fan assemblies can be performed easily in confined spaces. The compactness facilitates handling with the module.

FIG. 9 shows a arranged on the back of the evaporator module housing 10 left and right above holding geometry, the one from the evaporator module housing 10 arranged tab 18 which engages in a recess 81 of the evaporator module housing cover 80. In this way, on the one hand in the rear area a backup of the superimposed components (Styrofoam lower part, tub, evaporator, cover plate and styrofoam shell) is achieved. On the other hand, the holder 18 serves to control the overall height of the evaporator module. This is particularly important because polystyrene parts are often prone to dimensional deviations. With the height control, which is realized by the fact that the tab 11 can engage in the recess 81, it is ensured that only modules that have sufficient insulation and at the same time comply with the maximum installation height, reach for installation in the device.

FIG. 10 shows an eyelet 90 for receiving the suction line 120. This eyelet 90 and the headband also makes mounting in a recessed, narrow guide channel possible. The eyelet 90 and the hook is latched to the evaporator module housing 10, wherein so-called shield plates can be provided, which close the through holes again. In this way, protection against unwanted air return is achieved.

FIG. 11 shows the evaporator module housing 10 with a recess 19 for carrying a plurality of cables 140 in the evaporator module housing 10. The receiving geometry is used for positioning, the recording for an excess length on the sensor cable and the strain relief of the cable set. The cables 140 have a fixed length position to each other. The inclusion of only one cable automatically results in the other of the inward-guided cable lengths.

The excess length of the sensor cable is required in case of repair. The soldering in of the new sensor head may only be carried out outside the device.

Another feature of in FIG. 11 The arrangement shown is the strain relief of the cable.

For positioning the evaporator module housing 10 in the inner container of the device are on the back of several geometric shapes 150, as is apparent from FIG. 12 is apparent. These position the module 10 horizontally centered and vertically at the correct height, even if the device is located on the side during installation.

The present evaporator module housing is particularly suitable as a no-frost evaporator module for built-in freezers. However, the use is not limited to this application.

Claims (19)

Evaporator module with an evaporator module housing (10) and with a fan (20), characterized in that the fan (20) in a fan housing (30) is arranged, wherein the entire fan housing (30) as a relative to the evaporator module housing (10) independent component is executed, wherein between the fan housing (30) and the evaporator module housing (10) one or more vibration dampers (40) are provided. Evaporator module according to claim 1, characterized in that the evaporator module housing (10) has at least one wall (12) in which a recess (14) is provided, in which the fan housing (30) is accommodated. Evaporator module according to claim 2, characterized in that the recess (14) is designed to be open at the top. Evaporator module according to claim 2 or 3, characterized in that extending the recess (14) over the entire height of the wall (12) or over a substantial part of the wall (12). Evaporator module according to one of the preceding claims, characterized in that the one or more vibration dampers (40) consist of thermoplastic elastomer or have a thermoplastic elastomer or are injection-molded in a two-component process. Evaporator module according to one of claims 2 to 5, characterized in that the recess (14) by plate-shaped projections (16) of the evaporator module housing (10) is limited and that the vibration damper (40) between the fan housing (30) and the projections (16 ). Evaporator module according to one of the preceding claims, characterized in that the fan housing (30) has larger dimensions than the recess (14), so that the fan housing (30) with the recess (14) delimiting parts of the evaporator module housing (10) partially overlaps. Evaporator module according to one of the preceding claims, characterized in that the fan housing (30) on its side remote from the interior of the evaporator module housing (10) side has a seal (60) for sealing the fan housing (30) to the inner container of a refrigerator and / or freezer. Evaporator module according to claim 8, characterized in that the fan housing (30) has an edge region (32) on which the seal (60) is plugged. Evaporator module according to claim 8 or 9, characterized in that the seal (60) is designed in mirror-inverted cross-section. Evaporator module according to one of claims 8 to 10, characterized in that the seal (60) is mounted on the fan housing (30) via a latching connection (34). Evaporator module according to one of the preceding claims, characterized in that a removable from the fan housing (30) holding part (70) is provided, on which the fan (20) is arranged. Evaporator module according to one of the preceding claims, characterized in that the holding part (70) is designed multi-arm, wherein the arms (72, 74, 76) are fixed to the fan housing (30) via positive connections. Evaporator module according to one of the preceding claims, characterized in that one of the arms (76) is designed as a receptacle for the cable or fans (100) leading to the fan (20). Evaporator module according to claim 14, characterized in that on the arm (76) a strain relief of the cable or (100) is arranged. Evaporator module according to one of the preceding claims, characterized in that one or more leading to the fan cable (100) are provided, of which at least one with a coupling (110) is executed, wherein the coupling (110) fixed in or on the fan housing (30) is arranged. Evaporator module according to one of the preceding claims, characterized in that the evaporator module housing (10) with a holder (18) for fixing a Verdampfermodulgehäuseabdeckung (80) is provided. Evaporator module according to claim 17, characterized in that the holder (18) is designed as a means for ensuring a maximum installation height of the evaporator module. Evaporator module according to one of the preceding claims, characterized in that a hook or eyelet (90) for receiving one or more cables or lines, in particular for receiving a suction line (120) are provided with the evaporator module housing (10) via a latching connection in Connection stands.

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