DE4445286C2 - Refrigerator - Google Patents

Description

The invention relates to a refrigerator, in particular a refrigerator or freezer with little least one arranged within its heat-insulating housing and by egg a door with a lockable cold room and one for holding equipment such as fan, liquid and compressor-serving aggregate space, within world chem a at least connected to an air inlet and an exhaust air opening as Flow channel for receiving the device aggregates trained airway hen, which is upstream of the unit and on the exhaust side provided this downstream sound absorbing material and from the fan is supplied with cooling air.

A refrigeration device is known from European patent application EP 0 568 809 A1, which has a plinth below its cold room, which serves as a useful space is permitted, in the space bounded by its walls, a U-shaped Air duct arrangement is provided. This is used to hold the device aggregates like fan, condenser and compressor and has both a supply air and one Exhaust air opening, which each with sound-absorbing agents to reduce the from the fan and from the compressor and propagate by air emitting noise. In addition to being directly connected to the supply air Sound-absorbing means also arranged at the exhaust air opening are in this Scripture suggested the side walls of the air duct with sound absorption lining material.

With such a solution, there is substantial noise insulation in the air noise caused by the equipment aggregates, but it is inevitable  that the sound-absorbing means designed as mats become significant over time pollute so that their flow resistance increases significantly and also one off sufficient cooling of the condenser and the compressor is no longer guaranteed. To avoid this, it was proposed according to the utility model in the Air duct arrangement vorzuse a measuring device for determining the excess pressure hen, which also signals when the overpressure rises that the air permeability of the sound-absorbing mats clearly due to their contamination is reduced and therefore they have to be renewed.

Such noise insulation measures are often technically dependent on the one hand manoeuvrable additional equipment, which is reflected in the device costs tion in the form of measuring devices, on the other hand constantly recurring, from the device Site-dependent maintenance measures. These are often from tech niche less experienced people not feasible themselves, so these people besides the maintenance measure itself, often with cost-intensive measures Customer service is charged. A removal of the inevitably by the Air throughput polluting noise insulation mats inevitably has one significant deterioration in noise behavior.

Furthermore, from Swiss Patent No. 439 569 is a with sound-absorbing Mit means provided centrifugal blower known, the housing with sound absorbing the material is lined, which has a spiral or involute Ausspa tion, within which the fan wheel of the fan is arranged. Ver The acoustic properties of this blower can be changed within the sound-absorbing material be introduced hard-walled partitions. This one too The state of the art is only insufficiently capable of the airborne noise emitted by the fan accordingly.

The invention is based, for a refrigerator according to the preamble of claim 1 soundproofing measures to propose, which at ei Nem simple structure have a high functionality and at the same time adequate ventilation of the device aggregates is ensured for a long time.

According to the ending, this object is achieved in that the sound absorbing de material at least in sections to form a labyrinthine airway for the  Cooling air circulated by the fan is arranged, which inside the labyrinth-like Lichen air can flow essentially uninhibited.

Through the solution according to the invention a flow through the sound-absorbing Avoid means and thus an almost flow-resistant sound insulation provided, on which almost no congestion effects and thus loss of cooling leading pressure loss in the cooling air flow is caused. In addition, at a such solution in addition to elaborate, the permeability of the sound-absorbing Monitoring equipment also includes regularly recurring maintenance measures took away. Furthermore, it is possible through the solution according to the invention, the ge noise-reducing effect of sound insulation, be it through appropriate material choice or through a variety of lined up labyrinth sections without to vary noticeably loss of cooling air performance as desired, the silenced effect through a variety of different labyrinth structures can be influenced effectively.

Particularly versatile in terms of its structure and particularly easy to use the labyrinth-like effect can clearly be influenced by its sound-absorbing effectiveness By air, if, according to a further advantageous embodiment of the object Invention is provided that the labyrinthine airway essentially through the Wall surfaces from one behind the other at a distance from each other, along Wall of the air path designed as a flow channel, soundproof sorbent individual elements is formed, the ends of which face each other overlap.

Particularly simple construction and yet with sufficient sound-absorbing effects the labyrinth-like airway is equipped if one after the next partial configuration of the object of the invention is provided that the la byrinth-like airway through the wall surfaces of at least two mutually with Sound-absorbing individual elements arranged one behind the other whose ends facing each other overlap.

A particularly uniform flow cross-section within the labyrinthine Airway can be achieved if, according to a further preferred embodiment of the Ge object of the invention is provided that bil the labyrinthine airway  The walls of the individual elements are arranged at a parallel distance from one another are.

They are particularly easy to arrange into a labyrinth-like airway sorbing individual elements, if these according to a further advantageous embodiment tion of the object of the invention are formed as cuboid shaped parts. Furthermore, this design of the individual elements makes it possible to build them up integrate technology for the aggregate room with load-bearing functions.

A particularly space-saving construction for a labyrinth-like airway results if according to a further preferred embodiment of the object the invention provides that the cuboid individual elements for training of the labyrinthine airway essentially perpendicular to the walls of the Flow channel are arranged.

According to a further preferred embodiment of the subject matter of the invention It is provided that the labyrinthine airway is at a distance from the supply air and the exhaust air opening of the flow channel is arranged.

Such a measure ensures that the A wide range of cooling air enters and the exhaust air is also expanded via the exhaust air opening fanned out and can emerge unhindered. In addition, the source of noise, like fan and compressor, the sound coming out is not immediately before a possible Chen operator of the refrigerator but insulated beforehand, so that this loading operator is not exposed to unnecessary noise levels.

A flow channel is particularly expedient if designed after a wide one Ren advantageous embodiment of the object of the invention is provided that at least one side wall of the cooling air running along the direction of flow of the cooling air Absorb the flow channel in the area of the labyrinth-like airway with sound the material is lined.

According to a last preferred embodiment of the subject of the invention it is provided that the flow channel has a U-shaped contour with a supply air duct cut and its exhaust air section, which by a sound absorbing Partition are separated.  

With such a solution, both are longitudinal with a single work step side of the supply air as well as the exhaust air duct with the noise reducing soundproofing material.

The invention is described in the following description with reference to the one in the attached Drawing illustrated simplified embodiment. Show it:

Fig. 1 shows the lower section of a built-in niche in a kitchen unit, shown with the door open, under-counter freezer, with a device receiving its equipment, integrated in the base of the kitchen unit, in a spatial representation from the front and

Fig. 2 in an enlarged, compared to Fig. 1, schematic representation of the appliance base of the undercounter freezer with the appliances in a view from above, according to section line II-II.

Referring to FIG. 1, the lower portion of a kitchen line 10 is indicated schematically, which has a recess 11 for installation of a substructure freezer 12th The water is equipped with a lockable by a heat-insulated door 13 , in a conventional manner heat-insulated freezer compartment 14 , which is cooled by the evaporator tiers not arranged at intervals one above the other. In the space formed by the distance between the evaporator shelves serving for storing frozen food drawer-like container 15 can be introduced, which can be removed from the freezer space 14 by means of a handle, not specified, if necessary. Below the freezer compartment 14 , adjoining it, but thermally separated from it by the bottom of the freezer compartment 14 , a device base 16 is provided.

As can be seen in particular from FIG. 2, the device base 16 has a base 17 , from the lateral edges of which are directed toward the bottom of the freezer compartment 14 , a base wall surrounding a base space are arranged. De de the door 13 facing the front base wall is formed as a detachably held ventilation grille 18 with lattice-shaped air outlet openings 19 , while the remaining base walls are designed as a continuous wall train 20 , which are molded onto the base base 17 and in this way together with this form a one-piece molded part, which is made for example from plastic injection molding. The base space delimited by the ventilation grille 18 and the continuous wall line 20 serves as an aggregate space 21 for accommodating device assemblies, such as a condenser 22 , a compressor 23 and a fan 24 arranged between the ventilation grille 18 in its rear area. During its operation, this produces an air flow 25 (shown in dashed lines) which circulates in the direction of the arrow, so that the condenser 22 for cooling lies in the pressure-side section of the air flow 25 , while the compressor 23 is swept by the suction-side section of the air flow 25 for its cooling. The air flow 25 is guided within half of the unit space 21 in a serving as an airway, U-shaped flow channel 26 , within which in the rear region of the unit space 21 arranged, through the two legs of the U-profile connecting yoke formed channel section, the equipment units are arranged . The section connected to this channel, formed by the legs of the U-shaped channel sections, of which the channel section arranged downstream of the condenser 22 in the flow direction of the air flow 25 as the exhaust air channel 27 and the channel section lying in front of the compressor 23 in the flow direction of the air flow 25 as the supply air channel 28 serves. The two, used as the exhaust air duct 27 and as the supply air duct 28 are fluidically separated from one another by a duct partition 29 , which is arranged essentially perpendicular to the ventilation grille 18 and which is formed at its end sections 30 and 31 from soundproof material, while the intermediate intermediate section 32 consists of sound-absorbing material (e.g. open-pored foam). The end portion 31 is located at a distance of the impeller diameter of the fan 24 a formed from sound-hard material Wandungssteg 33 against which releases saves ei NEN air passage for the air aspirated by the fan 24 air stream 25 together with the end portion 31 of the channel partition 29th

The air flow 25 is guided both in the exhaust air duct 27 and in the supply air duct 28 in a la byrinth-like air path 34 (for the exhaust air duct 27 , the position of the air stream 25 has been omitted for the sake of clarity). The labyrinth is formed from mutually spaced, sound-absorbing cuboidal individual elements 35 which are arranged essentially perpendicular to the side walls delimiting the supply air duct 28 and the exhaust air duct 27 . Within the supply air duct, the individual elements 35 are arranged in such a way that their mutually facing ends 36 overlap and their wall surfaces 37 together form the labyrintharti airway 34 on the overlapping ends 36 . The arrangement of the gebildenten example of open-pored foam, designed as moldings individual elements 35 of the air flow, shown symbolically 25 is repeatedly deflected, wherein the distances between the A zelelementen 35 are selected such that within the labyrinth-like air path 34, only a negligible pressure drop in the air flow 25 occurs . The arrangement of the la byrinth-like airway 34 represents a sound path 38 for the sound waves emanating from the device assemblies, in particular from the compressor 23 and the fan 24 (symbolized for the exhaust air duct 27 by adjoining arrows), on the basis of which the sound energy emanating from the device assemblies mentioned by repeated reflection within the labyrinthine airway 34 on the sound-absorbing individual elements 35 is almost completely converted into heat energy, so that only a small percentage of the original noise emission of the equipment units emerges from the unit space 21 . The reduction of the noise emission is additionally supported by the fact that the labyrinthine airway 34 used for sound reduction is set back at a distance from those arranged in the ventilation grille 18 , in the case of the exhaust air duct 27 as exhaust air openings and in the case of the supply air duct 28 serving as air intake openings 19 is arranged.

Deviating from the exemplary embodiment described and shown, it is also possible to delimit the aggregate space 21 by means of one-piece molded part produced from sound-absorbing material, which may need to be reinforced accordingly in terms of its statics.

Claims (8)

1.Refrigeration device, in particular refrigerator or freezer with at least one arranged within its heat-insulating housing and closable by a door cold room and a unit for receiving devices such as fan, liquid and compressor unit, within which an at least one of a supply air and an exhaust air port connected, designed as a flow channel for receiving the units aggregate airway is provided, which is provided with upstream on the supply side of the unit units and on the exhaust side these downstream sound-absorbing material and is acted upon by the fan with cooling air, characterized in that the sound-absorbing material at least in sections into one laby rinth-like airway ( 34 ) for the cooling air ( 25 ) circulated by the fan ( 24 ) is arranged, which can flow within the labyrinthine airway ( 34 ) essentially uninhibited. 2. Refrigerating appliance according to claim 1, characterized in that the labyrinth-like airway ( 34 ) substantially through the wall surfaces ( 37 ) from one behind the other at a distance from one another along Wandun gene ( 20 , 32 ) of the air channel formed as a flow channel ( 26 ) arranged, sound-absorbing individual elements ( 35 ) is formed, the mutually facing ends ( 36 ) overlap. 3. Refrigerating appliance according to one of claims 1 or 2, characterized in that the labyrinth-like air path ( 34 ) through the wall surfaces ( 37 ) of at least two mutually spaced, sound-absorbing individual elements ( 35 ) is formed, the mutually facing ends ( 36 ) overlap. 4. Refrigerating appliance according to one of claims 1 to 3, characterized in that the labyrinth-like airway ( 34 ) forming wall surfaces ( 37 ) of the individual elements ( 35 ) are arranged at a parallel distance from one another. 5. Refrigerating appliance according to one of claims 1 to 4, characterized in that the sound-absorbing individual elements ( 35 ) are designed as cuboid shaped parts and are arranged essentially over the entire height of the unit space ( 21 ). 6. Refrigerating appliance according to one of claims 1 to 5, characterized in that the cuboid shaped parts for forming the labyrinthine airway ( 34 ) are arranged substantially perpendicular to the walls ( 20 , 32 ) of the flow channel ( 26 ). 7. Refrigerating appliance according to one of claims 1 to 6, characterized in that the labyrinth-like air path ( 34 ) is arranged at a distance from the supply air and the exhaust air opening of the flow channel ( 26 ). 8. Refrigerating appliance according to one of claims 1 to 7, characterized in that the flow channel ( 26 ) has a U-profile-like contour with an inlet section ( 28 ) and an exhaust section ( 27 ), which are separated from one another by a sound-absorbing partition ( 29 ) are.