DE19818993A1 - Refrigerator - Google Patents

Abstract

A refrigerating device (10) with a heat-insulating housing (12) which is provided with at least one storage area which is fitted with an inside lining (13) and refrigerated by means of a flat evaporator (22) that is placed in thermoconductive contact with the inside lining and is arranged inside the thermal insulation of the housing. The invention is characterized in that at least sections of the evaporator (22) are provided with means (27) that increase the mass thereof, whereby the evaporator becomes at least substantially resistant to vibrations with respect to excitation frequencies acting thereon during operation.

Description

The invention relates to a refrigerator with a heat-insulating housing, inside which at least one storage room lined with an inner lining can be seen which of a flat, in thermally conductive contact with the inside casing evaporator is cooled, which in the thermal insulation of the Ge is arranged.

In cooling devices, it has long been state of the art that their for cooling their Evaporator boards serving the cold room in the heat insulation of the refrigerator are embedded and in heat-conducting contact with the cooling chamber of the Inner lining of the unit. This type of vaporizer, which are also known as so-called cold-wall evaporators, although they have the advantage that they arranged useful volume increasing outside of the refrigerator and thus the mostly smooth walls are usually easy to clean. The most common Measure the evaporator by foaming it in the heat insulation foam embedding, however, due to the wetting thermal insulation foam with itself that the evaporator boards in direct surface contact with the heat iso lation foam stand. As a result, the evaporator board, for example as by injecting the cooling refrigerant into the evaporator out at high speeds, which is the consequence of are turbulence caused by speed, which the evaporator pla Stimulate tine to vibrate. These vibrations are due to the coupling of the foam used for thermal insulation to the evaporator board at first ren transferred. Since the heat insulation foam conducts structure-borne sound well, the flow and injection noises emitted by the evaporator board the further coupling of the thermal insulation foam to the outer casing  len of the refrigerator unit radiated from this as airborne sound. The device radiated sound waves, which on the temporally not constant currents cooling and injection noises of the refrigerant in the evaporator board depending on the location of the refrigerator, they do not affect the end user only annoying, but can this with regard to the proper functioning of the Put the cooling unit in doubt as the source of noise is not lo for the end user can be calibrated.

The invention has for its object a refrigerator according to the preamble of Claim 1 with simple constructive measures with regard to sound emission to improve.

This object is achieved according to the invention in that the evaporator with its mass-increasing means is provided, through which the evaporator for be excitation frequencies acting on it due to the drive, at least as far as possible is designed to be vibration-resistant.

By increasing the mass of the evaporator, it can be operated conditionally occurring excitation vibrations, caused by turbulence of the ho flow velocity in the boiling state into the evaporator board splashed refrigerant, stimulate significantly less. Due to the reduced excitation be the evaporator board is found despite the acting on it as a flow and Injection noises at least largely perceptible turbulence at rest condition, so that despite the good conductors adhering to the heat insulation foam for structure-borne noise, the sound emission of the device housing is so greatly reduced is that the injection and flow noise is no longer for an end user are noticeable.

According to a preferred embodiment of the subject of the invention it is provided that the agent is applied to the evaporator on the heat insulation side are.

By attaching the means to increase the mass of the heat insulation side Evaporator is the evaporator board on the ver with the means to increase mass areas no longer directly with the wetting heat insulation tion foam is connected so that it at least as a conductor for structure-borne noise  decoupled in some areas from the evaporator board and thus another Ge noise reduction of the cooling device is generated.

The means for massaging are particularly easy to apply to the evaporator board increase if after a next advantageous embodiment of the object Invention is provided that the means are designed as a film-like material.

According to a next preferred embodiment of the subject matter of the invention It is provided that the film-like active ingredient is designed to be flexible.

A flexible material has the additional advantage that it has the contour on the evaporator board surface can easily follow and thus the Coating the evaporator board is simplified. At the same time is due to the contours exact adjustment of the film ensures that it adheres to the board surface lies and thus a backfilling of the film with heat insulation in the manufacturing process material is essentially connected.

A particularly favorable noise behavior for a refrigerator due to the perfect Decoupling of the heat insulation foam from the evaporator board has been achieved if after a next advantageous embodiment of the object of the inven dung is provided that the film-like and flexible material the heat insulation on the side surface of the evaporator at least largely covered.

The foil-like and bending protector has particularly favorable damping properties che material if, according to a further preferred embodiment of the Ge the object of the invention is provided that the film-like and flexible Material is designed as a heavy rubber mat.

At the same time, the heavy rubber mat significantly increases the weight of the Ver steamer board reached.

The film-like and flexible material is particularly easy to process, if before according to an alternative embodiment of the subject of the invention is seen that the film-like and flexible material is designed as a bitumen film det.  

According to a further preferred embodiment of the subject of Invention is provided that the film-like and flexible material Evaporator mass increased by at least 25%.

Such an increase in mass not only achieves that the evaporator of the turbulence caused by the operation can be stimulated significantly less, son also that the evaporator board for the production personnel in the series manufacturing can also be handled reasonably.

A particularly low noise emission for a refrigerator is achieved if after a last preferred embodiment of the subject matter of the invention hen is that the film-like and flexible material sound-absorbing Eigen features.

The invention is in the following description using the example of one in the drawing simplified household refrigerator explained.

Show it:

Fig. 1 in a simplified schematic representation of a table refrigerator with a *** freezer, the freezer evaporator is provided on the heat insulation side with a mass-increasing damping film, in a sectional view from the side and

Fig. 2 fragmentary the table refrigerator of FIG. 2 with broken part on Pictured housing and partially broken damping film, in space pictorial view from the front.

Fig. 1 shows a simplified, schematically illustrated table refrigerator 10 , the front of which is provided with a heat-insulating door 11 housing 12, a plastic inner cladding 13 , a spaced outer cladding 14 and a introduced into liquid starting components between the cladding 13 and 14 th thermal insulation foam 15 , which by its adhesive effect adheres to the linings 13 and 14 and thereby gives the heat-insulating housing 12 its rigidity. Within the heat-insulating housing 12 , a *** freezer compartment 16 is provided in the upper section thereof, which can be closed separately by a heat-insulating freezer compartment door 17 and which is separated by a heat-insulating partition 18 on a normal cooling compartment 19 arranged below the freezer compartment 16 is. The normal cooling compartment 19 is provided with evenly spaced one above the other, for storing refrigerated goods serving refrigerated goods shelves 20 and cooled by an evaporator board 21 belonging to an evaporator 22 formed by a circuit board section, which is arranged on the opposite side of the door 11 of the cooling compartment 19 is. The equipped with a refrigerant channel arrangement 23 manufactured by the roll bond method evaporator 22 is applied on the heat insulation side in thermally conductive contact to the rear of the inner lining 13 and is connected via an unspecified connecting channels with an essentially U-shaped evaporator 24 in cross section. The formed out of a second circuit board section of the evaporator board 21 evaporator 24 , like the evaporator 22, has a refrigerant channel assembly 25 manufactured according to the roll bond method and, with its flat board side like the evaporator 22, is in heat-conducting contact on the outer side of the freezer compartment lining facing the thermal insulation foam 15 13 applied. The refrigerant channel arrangement 25 has a refrigerant injection point 26 , which is produced by embossing a throttle tube (not shown in more detail) (see FIG. 2 in this regard).

As can be seen in particular from FIG. 2, the evaporator 24 is provided on its surface provided with the characteristics for the refrigerant channel arrangement 25 with a means for increasing its mass by at least 25%, which in the present case is designed as a foil-like material 27 . The foil-like material 27 , which can be formed, for example, by a bitumen foil or a heavy rubber mat, covers the entire surface of the evaporator 24 facing the heat insulation screen 15 and is designed to be flexible, as a result of which the foil-like mat 27 is able to match the contours of the refrigerant channel 25 to follow. Due to the heat-insulating surface of the evaporator 24 glued foil-like mat 27 is known as a good conductor for structure-borne sound insulation screen 15 is no longer directly contacted with the evaporator 24 , so that the latter is decoupled from the heat insulation foam 15 . A particularly special decoupling is achieved when the foil-like mat 27 has, in addition to the properties used to increase the weight of the evaporator 24, additional vibration-damping properties, in this case the evaporator ferro-circuit is able to set vibrations capable of causing turbulence caused by the high speed in are brought into the boiling state to the injection point 26 caused by refrigerants, not only intercepted by the significantly more vibration-resistant design of the evaporator as a result of the increase in mass, but additionally intercepted by the steaming effect of the mat 27 . Just by increasing the mass of the evaporator 24 , caused by the foil-like mat 27 , is an excitation frequency acting on the evaporator 24 for operational reasons, caused by the turbulence of the injected refrigerant that is so vibration-resistant that a transmission of structure-borne noise onto the heat insulation foam 15 , starting from the evaporator 24 , is at least substantially avoided.

Claims (9)

1. Refrigeration device with a heat-insulating housing, within which we at least one storage space lined with an inner lining is hen, which is cooled by a flat evaporator in thermal contact with the inner lining, which is arranged in the heat insulation of the housing, thereby characterized characterized in that the evaporator ( 24 ) is provided with its mass-increasing means ( 27 ), by which the evaporator ( 24 ) is designed to be at least largely vibration-resistant for excitation frequencies acting on it due to operation. 2. Refrigerating appliance according to claim 1, characterized in that the means ( 27 ) on the heat insulation side are applied to the evaporator ( 24 ). 3. Refrigerating appliance according to claim 1 or 2, characterized in that the means are designed as a film-like material ( 27 ). 4. Refrigerating appliance according to one of claims 1 to 3, characterized in that the film-like material ( 27 ) is designed to be flexible. 5. Refrigerating appliance according to one of claims 1 to 4, characterized in that the film-like flexible material ( 27 ) at least largely covers the surface of the evaporator ( 24 ) on the heat insulation side. 6. Refrigerating appliance according to one of claims 1 to 5, characterized in that the film-like and flexible material ( 27 ) is designed as a heavy rubber mat. 7. Refrigerating appliance according to one of claims 1 to 5, characterized in that the film-like and flexible material ( 27 ) is ausgebil det as a bitumen film. 8. Refrigerating appliance according to one of claims 1 to 7, characterized in that the film-like and flexible material ( 27 ) increases the mass of the evaporator ( 24 ) by at least 25%. 9. Refrigerating appliance according to one of claims 1 to 8, characterized in that the film-like and flexible material ( 27 ) has vibration-damping properties.