DE4301360A1 - Refrigerator cover - Google Patents

Description

The invention relates to a refrigerator and in particular a freezer for groceries or the Food departments for department stores.

Frozen foods are sold in stores in Refrigerators are offered in which they are on freezer temperature are maintained. Such refrigerators have an access opening during business hours is kept open so that customers can remove the goods can. During the night, the refrigeration units sealed with a cover to keep unnecessary cold to avoid losses. Cold losses occur Heat radiation, heat conduction and convection. When cooling chests with the access opening at the top a cold air lake forms without buoyancy thermal convection. The convection losses are  therefore negligible. The heat conduction losses can due to thermal insulation linings also low being held. The greatest losses are caused by Heat radiation. These radiation losses are dependent of the emission coefficients the opposite radiation sources, as well as the power of four the temperature difference of these radiation sources. At open refrigeration cabinet becomes the cold radiation source of the refrigerated goods or the walls of the refrigerator are formed and the warm radiation source from the environment, for example as the ceiling above the freezer. When the refrigerator is closed, the Cover the warm radiation source.

It is known to ver refrigerated cabinets with a cover see that have a low emission coefficient points. Such a cover consists of an art fabric film on its side facing the refrigerator is provided with a metal coating, which the has low emission coefficients. The metal layer prevents heat radiation from outside into the cooling system space and reflects a large proportion of that Cold room emitted heat radiation. Because emission and Absorption are reversible processes, is the absorption tion coefficient of the metal layer is the same as that Emission coefficient. The outside of the cover will of a plastic layer with a high emission coefficient educated. This plastic film absorbs you large proportion of the thermal radiation coming from the room and takes on almost room temperature.

In the known refrigerator covers with a cool on the room side, metal-coated plastic film occurs Problem on that the metal layer (despite its low cold emission from the cold room takes, on the one hand by radiation and others partly through heat conduction and convection.  

The relatively cold metal layer transfers the cold the plastic film, the temperature of which is significantly below that Temperature of the surrounding room. This has to Consequence that there is condensation on the plastic film forms. By air movements in the surrounding space, the can also be caused by fans constantly introducing new room air to the cover, the steam contained in the room air turns out to be Condensation on the cover. A such moisture precipitation leads to the fact that Moisture penetrates into the recording room. If at Opening the store pushed the cover back the condensed water must first be wiped off.

The invention is based on the object normally open, ver to create lockable refrigeration cabinets for the condensers station precipitation on the cover avoided become.

This object is achieved with the invention the features specified in claim 1.

In the refrigeration cabinet according to the invention is a two-layer Cover available, the two layers one have mutual distance from each other. This will achieved that in the gap between the layers air layer rests, so that not always new Air containing moisture to the recording room facing position is brought up. The double layer forms a chamber in which the standing air does not or is little affected by external air currents. It contains a standing layer of air that is also a forms an insulating air cushion. This will cause condensation  water formation on both the receiving room too facing position as well as on the outer layer ver prevents.

The two layers are preferably in one path summarized by a deflection device is directed. The web can be on a roller blind be wound up and causes the deflection device the tensioning of the two sheets so that these one in assume a substantially parallel state.

The following are with reference to the Drawings embodiments of the invention closer explained.

Show it:

Fig. 1 is a schematic end view of two with their backs against each other set Kühlmöbelab coverings in the retracted state,

Fig. 2 in the same representation as Fig. 1 shows the state in which one of the cooling furniture covers is moved out,

Fig. 3 is a section along the line III-III of Fig. 2,

Fig. 4 on an enlarged scale the details of the refrigerator cover and

Fig. 5 is a schematic representation of another embodiment.

In Fig. 1, two refrigerator covers 10 , 11 are provided, which are arranged back to back on the central web 12 of a freezer 13 . The cabinet 13 comprises two receiving spaces 14, the web 12 by the means are separated from each other. It is a freezer that is placed in shops and can be several meters long. The cooling units and other cooling devices are not shown here. Each receiving space 14 is delimited by a bottom wall and by side walls which are designed to be heat-insulating in order not to let the cold contained in the receiving spaces escape. Each receiving space 14 is open at the top. At the upper end there is the access opening 15 , which allows the customer to take refrigerated goods out of the receiving space.

Each of the refrigerator covers 10 and 11 has a roller blind device 16 with a roller 17 on which a web 18 is wound. The roll and the web extend over the entire length of the freezer 13 . The roller 17 can be driven by a motor (not shown).

In the roller blind device 16 , a horizontally extendable deflection device 19 is mounted under the roller 17 , which can span the entire width of the access opening 15 , but in the retracted state, it opens the access opening. The end 18 a of the web 18 is fixedly attached to the housing of the refrigerator cover under the deflection device 19 , while the roller 17 is located above the deflection device.

The deflection device 19 has a rounded head strip 20 or a rotatably mounted roller around which the web 18 is deflected. The header 20 is attached to a lever mechanism 21 which is biased into the extended position by springs (not shown). This lever mechanism 21 has joints 21 a and is similar to that of a sun protection awning.

Fig. 2 shows the refrigerator cover 10 in the extended state. The deflection device 19 covers the receiving space 14 , a first layer 22 of the web 19 running directly above the access opening 15 , then being deflected by the head strip 20 by 180 ° and adjoining it a second layer 23 , which is at a distance above the first Layer 22 runs and leads to roll 17 . If in this state the motor of the roller 17 is driven to wind up the web 18 , the web 18 presses against the header 20 and the Umlenkvorrich device 19 is compressed and retracted against the force of its bias until the state shown in Fig. 1 is reached . The web 18 is extended in such a way that the motor is driven and the roller 17 rotates in the unwinding direction. The deflection device 19 then follows the spring formed by the web 18 pocket due to its spring. In the fully extended state of the lever mechanism 21 , the lever arm pairs of the lever mechanism act to seal the end of the space 40 enclosed by the web 18 . This intermediate space 40 preferably has a height of at least 3 cm in order to obtain a good thermal insulation effect.

The web 18 has a plastic film 24 . In the area of the lower layer 22 , the plastic film is covered on its side facing the receiving space 14 with a metal layer 25 a. The upper web 23 is also covered on its side facing the receiving space 14 with a metal layer 25 b. The sides facing away from the receiving space 14 are thus formed by the film 24 in both layers. In the area of the upper layer 23 , the metal layer 25 b is arranged on the side which, when wound up on the roll 17, points outwards. In the area of the lower layer 22 , the metal foil 25 a, on the other hand, is arranged on the side which, when wound onto the roll 17, points inwards. The transition point 26 between the two layers 22 and 23 is located at the point which is in the area of the head bar 20 when the deflection device 18 is fully extended. The arrangement of the metal layers 25 a and 25 b described also has the advantage that when the lever mechanism 21 is extended and retracted there is no abrasion of the metal layer on the head strip 20 .

Fig. 4 shows the design of the two refrigeration cabinet covers. The role 17 of each cover is housed in a housing 30 which is formed from an angular profile 21 and an interlocking closure profile 32 . The angle profile 31 is attached to a vertical wall of the freezer. The closure profile 32 is pivotable about a joint 33 at the end of the upright back leg of the angle profile and it forms a gap 34 for the passage of the deflection device 19 with the end of the support leg of the angle profile.

As shown in FIG. 4, two housings 30 are placed against one another with their back profiles, so that the steering devices 19 can be moved to opposite ends.

Fig. 5 shows another embodiment of the blind device 16 a, wherein the blind device 16 a contains two rollers 17 a and 17 b, each of which carries a wound web 35 and 36 , which can be removed against the action of a winding spring. Each of the tracks 35 , 36 consists of a plastic film which is provided with a metal coating on its side facing the receiving space 14 . The ends of the two tracks 35 and 36 are connected to each other by a spacer 37 and the tracks are at a distance of about 10 cm at all points.

Claims (6)

1. Refrigerator cover with two spaced angeord designated layers ( 22 , 23 ), between which there is an air layer, at least the cooling chamber ( 14 ) of the refrigerator ( 10 ) facing layer ( 22 ) on the refrigerator side with a metal layer ( 25 b) is. 2. Refrigerator cover according to claim 1, characterized in that the outer layer ( 23 ) is provided on the refrigerator side with a metal coating ( 25 b). 3. Refrigerator cabinet cover according to claim 1 or 2, characterized in that both layers ( 22 , 23 ) on a roller blind device ( 16 ) can be wound up. 4. Refrigerator cabinet cover according to claim 3, characterized in that the layers ( 22 , 23 ) are arranged one behind the other in a common path ( 18 ) and that a deflecting device ( 19 ) which can be extended by the roller blind device ( 16 ) is provided, around which the path ( 18 ) is led around. 5. Refrigerator cabinet cover according to claim 4, characterized in that the deflection device ( 19 ) is biased into the extended position and that the roller blind device ( 16 ) has a motor-driven roller ( 17 ) for winding the web ( 18 ). 6. Refrigerator cabinet cover according to claim 4 or 5, characterized in that the web ( 18 ) in its two halves on opposite sides layers of metal ( 25 a, 25 b) facing the cooling chamber ( 14 ) when the deflection device ( 19 ) is driven are.