ES2224663T3 - FRIDGE APPARATUS - 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

Refrigerator

The invention relates to a refrigerating apparatus generally known with a heated housing, within which is provided for at least one storage enclosure coated by an inner liner, which is cooled by a flat evaporator that is in heat conductive contact with the inner lining and that is arranged in the thermal insulator of the housing.

In refrigerators for a long time it is part of the state of the art that the plates of the evaporator used to cool your refrigerator embedded in the thermal insulator of the device housing refrigerator and be in heat conductive contact with the interior lining that covers the refrigeration enclosure of the apparatus. This class of evaporators, which are also known as "cold-wall" evaporators offer the advantage of being arranged outside the refrigerating enclosure, thus increasing the useful volume, and that in this way its walls, mainly smooth, they are usually easy to clean. Measure, quite common to embed the evaporator in the foam of the thermal insulation, surrounding it with foam, implies however, and due to the thermal insulating foam that moistens it, which evaporator plates are in direct flat contact with the thermal insulation foam. The consequence of this is that the evaporator stage produces noise, for example due to high speed injection in the evaporator stage of the cooling agent intended for cooling, whose noises are consequence of turbulence caused due to speed and that excite the evaporator stage producing vibrations. These vibrations are transmitted first to the stage of the evaporator due to the coupling of the foam used for the thermal isolation. Since the thermal insulation foam is good conductor of the sound transmitted through the bodies solids, the flow and injection noises emitted by the stage of the evaporator are transmitted by the foam coupling of the thermal insulator to the outer walls of the device housing refrigerator and are radiated by it as sound transmitted to through the air The sound waves radiated by the carcass apparatus, which is due to non-constant noise in the flow time and  injection of the refrigerating agent into the evaporator stage, they act, depending on the place of installation of the refrigerating device, only annoyingly for the final consumer but that They may even raise questions about this correct operation of the refrigeration appliance, since the final consumer is not in a position to locate the origin of the noise.

The invention aims to improve with some simple constructive measures an apparatus according to the preamble of the claim 1, in relation to acoustic emission.

This objective is resolved in accordance with the invention because the evaporator is provided with means that increase their mass, whereby the evaporator results in large rigid to vibrations for frequencies of excitation acting on it conditioned by the functioning.

By increasing the mass of the evaporator this one can be noticeably less excited because of the vibrations of excitation that arise conditioned by the operation, caused by the turbulence of the refrigerated medium injected into the boiler evaporator stage with high speed flow. Due to the lower excitation, the evaporator stage it is at least largely in a state of rest, despite the turbulence that acts on her and perceptible as noise of flow and injection, so that despite the good sound transmission characteristics through bodies solids that the thermal insulation foam enjoys, the acoustic emission of the device housing in such a way that the injection and flow noises are no longer noticeable to the final consumer.

According to a preferred embodiment of the invention it is provided that the means are applied on the evaporator on the side of the thermal insulator.

When applied on the insulator side thermal means to increase the mass of the evaporator, the evaporator stage is no longer in direct contact with the foam of thermal insulation that works by moistening it in the areas provided with the means to increase the mass, so that the foam is decoupled at least by areas of the stage of the evaporator, as a conductor of the sound transmitted through the solid bodies, and with this a new reduction is achieved by minimum noise of the refrigerator.

The means to increase the mass can be apply in a very simple way on the stage of the evaporator if according to a following advantageous embodiment of the object of the invention it is provided that the means are made with a sheet-like material.

According to a following embodiment preferred of the object of the invention is provided that the material a Blade mode be soft to flex.

A soft bending material provides the advantage additional to being able to adapt without problems to evaporator stage surface environments, simplifying in this way the platen coating of the evaporator. By adapting the sheet to the contours, carried out with precision, it also ensures that it seats platen surface and therefore can be excluded essentially that during the manufacturing process there is a backfill of the sheet with insulation material thermal.

Noise behavior is achieved especially favorable for a refrigerating device, by means of the total decoupling of thermal insulation foam from to the evaporator stage, if according to a following advantageous embodiment of the object of the invention is provided that the material as a soft flexural sheet is mostly coated part of the evaporator surface on the insulation side thermal.

The sheet-like material and soft to flex it has some damping characteristics especially favorable if according to another preferred embodiment of the object of the invention it is provided that the material by way of sheet and soft to bending be made like a rubber mat heavy

The heavy rubber mat is achieved by at the same time a notable increase in the weight of the stage of the evaporator.

The sheet-like material and soft to flex you can work especially easily if according to an alternative embodiment of the object of the invention the material is provided as a sheet and soft to flex be a bituminous sheet.

According to a following embodiment preferred of the object of the invention is provided that the material as a sheet and soft to flex increase the mass of the evaporator at least 25%.

Through this increase in mass not only get the evaporator can be excited to a degree remarkably less due to the turbulence caused by the operation, but also that the evaporator stage can be reasonably handled by manufacturing personnel in the serial manufacturing process.

A noise emission of the device is achieved refrigerator especially reduced if according to one last preferred embodiment of the object of the invention is provided that the material as a sheet and soft to bending present characteristics that allow it to absorb sounds

The invention is explained in the following description by example of a refrigerating appliance Simplified represented in the drawing.

The figures show:

Figure 1 in a schematic representation Simplified, a tabletop refrigerator with a compartment *** freezer, whose evaporator in the refrigerator compartment it is provided by the side of the thermal insulator of a sheet buffer that increases its mass, seen in a lateral section, Y

Figure 2 detail of the tabletop refrigerator according to Figure 1 with the housing shown partially broken and the partially broken damping sheet, in a view in perspective from the front.

Figure 1 shows a tabletop refrigerator 10, schematically represented in simplified form, whose housing 12, provided by the front face of a heated door 11, has an inner lining of plastic material 13, a outer covering 14 separated from it and a foam of thermal insulator 15 introduced based on components of liquids, between the coverings 13 and 14, which by their Adhesive effect adheres to coatings 13 and 14, conferring in this way its rigidity to the heated housing 12. Inside the heat-insulated housing 12 and in its section top is provided a freezer compartment 16 of ***, which can be closed separately through a compartment door 17 heat-insulated refrigerator, and that is separated from a normal refrigerator compartment 19 located below the freezer compartment 16, by means of an intermediate wall Heated 18. The normal refrigerator compartment 19 is equipped with 20 equidistant trays, arranged one above the other for placing the items to be refrigerated, and is cooled by an evaporator 22 formed by a stage of stage that belongs to an evaporator stage 21, arranged on the rear face of the refrigerator compartment 19, opposite door 11. The evaporator 22 provided with an agent channel system refrigerator 23, manufactured by the Rollbond procedure, is placed by the side of the thermal insulator and in heat conductive contact on the back face of the inner lining 13, and is attached fluidically by means of connecting ducts not indicated with greater detail, with an evaporator 24 made with a section essentially U-shaped. The evaporator 24, formed by a second stage of stage of the evaporator stage 21, presents, same as evaporator 22, an agent channel system refrigerator 25, manufactured by the Rollbond procedure, and goes placed with its flat plate face, just like the evaporator 22, in heat conductive contact on the outer face of the inner lining of freezer compartment 13 oriented towards the thermal insulation foam 15. The system of channels of refrigerating agent 25 has an injection point 26 of the agent refrigerator, produced by coining a choke tube that does not is represented in greater detail (see in this regard the Figure 2).

As is especially apparent from Figure 2, the evaporator 24 is provided by the surface provided with the drawing for the refrigerating agent channel system 25, of means that serve to increase its mass by at least one 25%, which in the present case are made as a material 27 to foil mode. The sheet-like material 27, which may be formed for example by a bituminous sheet or a rubber mat heavy, covers the entire surface of the evaporator 24 facing The thermal insulation foam 15 and is soft to flex, with which mat 27 as a sheet is in conditions of adapt to the contours of the agent channel system refrigerator 25. Due to the mat 27 as a sheet, glued, by example, on the surface of the evaporator 24 on the side of the thermal insulator, thermal insulation foam 15, recognized as a good conductor of sound transmitted through the bodies solids, is no longer in direct contact with evaporator 24, with which the latter is decoupled from the insulation foam thermal 15. A particularly intensive decoupling is achieved 27 if the sheet-like mat presents not only the characteristics that serve to increase the weight of the evaporator 24 but also some properties to dampen vibrations, in in this case, the turbulence that they are able to impart vibrations to the evaporator stage, and that are caused by the refrigerating agent that reaches high speed in a state of boiling at injection point 26, not only remain cushioned due to the noticeable greater rigidity to vibrations of the evaporator because of the increase in mass, but also because of the damping effect of the mat 27. Simply by the mass increase of evaporator 24, obtained by mat 27 a sheet mode, this is so rigid to vibrations, for excitation frequencies acting on the evaporator 24 due to operation, caused by the turbulence that form of the injected refrigerating agent, which is avoided at least in the essential that is transmitted to the thermal insulation foam 15 the sound transmitted through solid bodies, coming of the evaporator 24.

Claims (9)

1. Refrigerating device (10), with a heat-resistant housing (12), inside which at least one storage enclosure covered by an inner lining (13) is provided, which is cooled by a flat evaporator (24) that is in contact heat conductor with the inner lining, and which is arranged in the thermal insulator (15) of the housing, characterized in that the evaporator (24) is provided with means (27) that increase its mass, by means of which the evaporator (24 ) is largely rigid to vibrations for excitation frequencies that act on it conditioned by operation. 2. Refrigerating apparatus according to claim 1, characterized in that the means (27) are placed on the evaporator (24) by the side of the thermal insulation. 3. Refrigerating apparatus according to claim 1 or 2, characterized in that the means are made as sheet material (27). 4. Refrigerating apparatus according to claim 3, characterized in that the sheet-like material (27) is soft to bending. 5. Refrigerating apparatus according to claim 4, characterized in that the sheet-like and flexural soft material (27) mostly covers the surface of the evaporator (24) on the side of the thermal insulation. 6. Refrigerating apparatus according to one of claims 4 and 5, characterized in that the sheet-like and flexural material (27) is a heavy rubber mat. 7. Refrigerating apparatus according to one of claims 4 and 5, characterized in that the sheet-like and flexural soft material (27) is a bituminous sheet. 8. Refrigerating apparatus according to one of claims 4 to 7, characterized in that the sheet-like and flexural material (27) increases the mass of the evaporator (24) by at least 25%. 9. Refrigerating apparatus according to one of claims 4 to 8, characterized in that the sheet-like material (27) as soft and flexural has properties to dampen vibrations.