DE4205962A1 - Refrigerator esp. for bar counter - has inside divided into single or grouped cooling compartments opened or closed and accessible from outside, in which at least one evaporator consisting of cooling coil and unit for forced air circulation is located - Google Patents

Abstract

Partition walls (8,9) are provided, closed for the sub-division of the inner space of the refrigerator. At least one cooling coil (7) of an evaporator is arranged in a chamber (6), separated off from the cooling compartments. Each chamber(6) at assigned cooling surfaces (10-13) is connected across an air outlet assigned to the respective cooling compartments. An air inlet is connected, so that each cooling compartment (10-13) is assigned an associated unit for the forced circulation of the air, located in the cooling compartment, through the chamber(6). ADVANTAGE - Without essential constructional and building costs, designed to prevent general temp. rise with opening of one door. Reduces possibility of icing and excessive power consumption.

Description

The invention relates to a refrigerator, the interior in several to be opened individually or at least in groups and externally accessible cooling compartments is divided and in which at least one be essentially from a cooling coil standing evaporator of a refrigeration unit, and we at least a device for forced circulation in the interior air.

Refrigerators of the aforementioned type are commercial Lich, especially used in the catering trade. E.g. In Counters built-in refrigerators are turned off cupboards often opened to remove chilled products and put in the fridge after use. The frequent opening requires high cooling capacities, which is why the on directions for forced circulation of those located in the interior Air is provided so that from the evaporator of the refrigeration unit generated cold quickly inside the closed cooling cabinet is distributed.

So that the available interior of a cooling cupboards ideal for storing products to be cooled can be used are the refrigerators in question here through shelves and partitions in cooling compartments below  Splits. Groups of refrigerated compartments can be opened a refrigerator door common to several cooling compartments of a group closets are locked. It is also known to everyone to assign a separate door to individual cooling compartments. Furthermore is it is known to have individual cooling compartments with retractable and retractable To provide drawers, i.e. to design them as drawers, whereby the front panel of a drawer box at the same time as Ver closure of the associated refrigerator compartment is used.

Known refrigerators are for the purpose of subdivision Intermediate shelves and dividers provided in individual cooling compartments walls designed as gratings, so that the device for Forced circulation unhindered in the entire interior air can circulate. A use of rusty Zwi Shaped floors and partitions has the advantage that with one a cooling coil existing evaporator the entire inside space of the refrigerator and thus all the cooling compartments at the same time tig can be cooled, this being through the facility for forced circulation of the air inside is supported. Despite the benefit of reducing the Kon construction and construction costs for a refrigerator at Verwen However, the use of only a single evaporator results in that Operating the refrigerator is a major disadvantage in that that when opening only a single refrigerator the cold from the entire interior and thus from all other chillers can fall out, especially if one in the bottom the refrigerator compartment located in the area of the refrigerator becomes. As a result, the cooling coil of the  Evaporator of the refrigeration unit, with the effect that more and more energy is consumed by the refrigeration unit to provide the required cooling capacity.

The object of the invention is to overcome these disadvantages to avoid in a refrigerator and achieve this without to operate significant design and construction costs.

This object is achieved in that for the subdivision of the interior featured closed partitions are seen that at least one vaporizer in one opposite the interior separate chamber is arranged and that each Chamber to assigned refrigerated compartments via a respective one Air outlet and an air inlet assigned to the refrigerator compartment is closed, with each refrigerator compartment an associated device device for forced circulation of the air in the refrigerator compartment assigned by the chamber.

The closed, impermeable partitions that each Delimit the cooling compartment from the adjacent cooling compartment, and the with a particularly practical design from an insulating work fabric can have the advantage that when opening a of several cooling compartments not the entire interior of the refrigerator the low temperature inside, i.e. the Cold, loses. One, compared to the rest Cooling compartments with a practically insulated cooling compartment can be closed with a little energy consumption quickly returns to the desired low level Bring temperature. This will he according to the invention enough that an evaporator in a compared to the interior separated chamber is arranged in the chamber enclosed its cavity, in which a cooling coil is received, be  there is a relatively small volume of air that quickly descends can be cooled. The cooled air can over any one air outlet of the chamber assigned to the cooling compartment by means of an associated device for forced circulation in the refrigerator compartment. Displaced from the refrigerator compartment te air can return to the via the associated air inlet Enter the chamber and be cooled when they are on the cooling streams past. The amount of air to be cooled Freezer compartment is relatively small, which causes icing of the upper area of the evaporator is reduced.

According to an expedient embodiment, the chamber can Partition between two adjacent cooling compartments form, so that each refrigerator compartment via a respectively assigned Air outlet and air inlet independent of the other cooling can be cooled. There is a corresponding one for this Device for forced circulation of those in the refrigerator compartment Air through the chamber is particularly advantageous because it un different temperatures in the individual refrigerated compartments can be enough.

The division of common refrigerators for commercial Usage often provides that an interior of a refrigerator is divided into two compartments by a front center bar each of them in turn through a horizontal partition or an intermediate floor in two superimposed cooling vessels cher is divided. Two of the refrigerated compartments one above the other a compartment can be closed by a common door be while the superimposed cooling compartments of the second Compartment are designed as drawers and each separately  by pulling out and pushing in a drawer open or close.

Of course, all refrigerators can also be used Folding doors must be equipped or only drawers available be. Any combination of compartments in refrigerated compartments with associated closure elements is conceivable. Also an on It is possible to arrange several middle bars. Furthermore, can the height of a refrigerator can be designed as desired, the An number of required cooling compartments can be determined.

To the construction costs for a refrigerator according to the invention Keeping it as low as possible is advisable Design provided that a chamber between two from a front middle bar of the refrigerator to extending the interior rear wall of the refrigerator Walls. The walls between which the chamber is located finds, close both to the central web and to the Refrigerator back. Conveniently also form both the ceiling of the interior of the refrigerator as well as one Intermediate floor serving horizontal partition wall upper and lower Limits of the chamber, thus creating a closed cavity in which the cooling coil of an evaporator is located. In one chamber and at the same time an adjacent cooling through-opening walls are provided, which serve as air outlet and air inlet opening, so that the Chamber with each refrigerator compartment that is directly connected to one of the chambers adjoining walls, communicates. Means  a suitable device for the forced circulation of air can thus set a cycle through the cooling fold and through the chamber located between the walls leads.

The walls of a chamber expediently consist of egg Nem material with low heat conduction, with the advantage that the walls themselves are hardly involved in cooling and thus ice formation on the walls is avoided.

Each device for forced circulation includes one in the respective outlet used fan, the z. B. can be driven by an electric motor.

Furthermore, each facility for forced circulation includes tongue a back inserted into the respective inlet opening impact organ. A kickback device prevents that from a Fan pressed air into a refrigerator compartment a cooling fan assigned to a running fan through the orderly inlet opening flows back into the chamber, the same exits through a second inlet opening, which one second refrigerator compartment is assigned. Every fan in each Because of the associated outlet openings is a thermostat control ter on and off mechanism assigned. It follows the advantage that each refrigerator compartment sets independently cool, desired temperatures can be cooled down can.

In addition, the fans are assigned switch-off switches net, which opens the fan of a certain cooling compartment switch off this cooling compartment. For this, simple Limit switches on the cooling compartments closing  Folding doors, drawers or the like can be provided.

The non-return elements in the inlet openings can be used with egg ner adjusting mechanism. An actuating mechanism can e.g. B. on the on and off mechanism of the fans be operable.

A structurally simple and equally effective arrangement stipulates that the recoil organ in the Ver closing position falling pendulum flap is formed, each but with an air pressure in the refrigerator compartment that is higher than that Pressure in the chamber, due to the air movement into the opening lung can pivot.

An embodiment of the invention, from which extends re inventive features are shown in the drawing Darge poses. It shows

Fig. 1 is a schematic front view of a refrigerator with four ren cooling compartments with removed Verschlußtü,

Fig. 2 is a view of the refrigerator of FIG. 1 from above with the ceiling removed and the doors closed, where corresponds to the view in about a section along the line II-II in Fig. 1,

Fig. 3 is a side sectional view of the refrigerator in the long line III-III ent in Fig. 1,

Fig. 4 shows a part of a defining a chamber wall in the region of the inlet opening on average about accordingly the line IV-IV in Fig. 3.

Fig. 1 shows a schematic front view of a refrigerator 1 , the interior of which is limited by the outer refrigerator openings and the front by doors (not shown), flaps or the like can be closed. In the middle, the interior of the refrigerator is divided by a central web 2 . On the side edges of the central web 2 are two walls 4 and 5 connected from the middle telsteg 2 to the interior rear wall 3 extending walls 4 and 5 . As a result, a closed chamber 6 is formed behind the central web 2 , in which the cooling coil 7 of an evaporator of a cooling unit, not shown, is accommodated. In nenraum of the refrigerator 1 is divided by horizontal partitions 8 and 9 , which are installed like intermediate floors, and by the walls 4 and 5 connected to the central web 2 into four cooling compartments 10 , 11 , 12 and 13 . Each refrigerator compartment is thus delimited by closed walls, which largely prevents temperature exchange between the individual refrigerator compartments 10 , 11 , 12 , 13 when the refrigerator 1 is closed. Doors, flaps or the like which are not shown far are provided for the closure of the cooling compartments. With 14 and 15 , two pivot bearings are indicated, in which a door wing, not shown here, can be hung, with which the two cooling compartments 10 and 12 can be closed. The refrigerated compartments 11 and 13 are provided with only indicated telescopic attachments 16 , which can slide a drawer in and out, a front front panel of each drawer being designed so that the respective refrigerated compartment 11 or 13 is closed when the drawer is inserted .

As shown in Fig. 1, the chamber 6 behind the central web 2 can also be divided by the partitions 8 and 9 , which are set like intermediate floors, into an upper chamber and a lower chamber. In the upper chamber, the walls 4 and 5 delimit the cooling compartments 10 and 11 , a first cooling coil of an evaporator can be used. In the lower chamber, which is assigned to the cooling compartments 12 and 13 , a cooling coil of a second evaporator can be placed. This improves the independent cooling operation for each of the cooling compartments 10 , 11 , 12 and 13 .

Fig. 2 shows a plan view of the refrigerator 1 with the top removed approximately in section along the line II-II in Fig. 1. The same components are identified by the same reference numerals. In Fig. 2 is provided for closing the refrigerator compartment 10 door 17 with actuated door handle 18 is drawn. Likewise, a front panel 19 of a drawer inserted into the refrigerator compartment 11 is indicated. A bow handle 20 is located on the front plate 19 .

Fig. 3 shows a side view of the refrigerator 1 in section approximately along the line III-III in Fig. 1. The same construction parts are designated by the same reference numerals.

In each refrigerator compartment 11 , 13 a drawer box 21 or 21 'is inserted. The wall 5 , which extends between the central web 2 and the rear wall 3 of the chamber, in which there is at least one cooling coil of a evaporator, is in the area of each cooling compartment 11 or 13 with an air outlet opening 22 or 22 'for the cooling compartments 11 and 13 provided, in which, as indicated schematically here, electrically operable fans are used. The ventila gates press cold air from the chamber behind the wall 5 into the desired cooling compartment 11 and 13 , respectively, the air in the respective cooling compartment via an inlet opening 23 of the cooling compartment 11 and 23 'of the cooling also located in the wall 5 folds 13 , flows back into the chamber located behind the wall 5 . On the opposite side, the same arrangement of outlet openings and inlet openings in the wall 4 of the chamber 6 is provided for the cooling fan 10 and 12 .

This means that there is a device for forced circulation for each refrigerator compartment circulation of the air contained therein. With thermostat regulated operation of the fans is for each refrigerator compartment Cooling operation possible by cooling each other Refrigerator compartments is independent.

The inlet openings 23 , 23 'are on the side facing the chamber 6 equipped with non-return elements 24 , as shown schematically in Fig. 4, which shows a section through the wall 5 in the region of the inlet opening 23 '. In this embodiment, the non-return member 24 is designed as a pendulum flap 25 automatically falling into the closed position, which is articulated on the wall 5 via a folding joint 26 .

Claims (11)

1.Refrigerator, the interior of which is subdivided into a plurality of cooling compartments which can be opened individually or at least in groups and are accessible or closed from the outside and in which at least one essentially consists of a cooling coil, the evaporator of a refrigeration unit and at least one device for forcible circulation of the Lichen air at the interior, characterized in that for the subdivision of the interior closed Trennwän de ( 8, 9 ) are provided that at least one cooling coil ( 7 ) of an evaporator is arranged in a separate from the interior th chamber ( 6 ) and that each chamber ( 6 ) is connected to assigned cooling compartments ( 10 , 11 , 12 , 13 ) via an air outlet ( 22 , 22 ') and an air inlet ( 23 , 23 ') assigned to the respective cooling compartment, each cooling compartment ( 10 , 11 , 12 , 13 ) an associated device for forced circulation of the air in the cooling compartment through the chamber ( 6 ) is assigned. 2. Fridge according to claim 1, characterized in that there is a chamber ( 6 ) between two turns ( 4 , 5 ), which is from a front central web ( 2 ) of the refrigerator ( 1 ) to the interior rear refrigerator wall ( 3 ) extend. 3. Refrigerator according to one of claims 1 and 2, characterized in that the air outlet opening ( 22 , 22 ') and air inlet openings ( 23 , 23 ') are in walls ( 4, 5 ) which delimit a chamber ( 6 ). 4. Refrigerator according to one of claims 1 to 3, characterized in that the walls ( 4 , 5 ) of a chamber ( 6 ) consist of material with low thermal conductivity. 5. Refrigerator according to one of the preceding claims, characterized in that each device for the Zwangsumwäl tion comprises a in the respective outlet opening ( 22 , 22 ') inserted fan. 6. Device according to one of claims 1 to 5, characterized in that each device for the forced circulation comprises a return member ( 24 ) inserted into the respective inlet opening ( 23 , 23 '). 7. A refrigerator according to claim 5, characterized in that that each fan has a thermostat-controlled on and off switching mechanism is assigned. 8. A refrigerator according to claim 7, characterized gekennzeichnent that each fan is associated with an opening at the opening of the respective cooling compartment ( 10, 11, 12, 13 ) acting switch. 9. Refrigerator according to claim 6, characterized in that the non-return member ( 24 ) is equipped with an adjusting mechanism. 10. Refrigerator according to claims 5 to 8, characterized ge indicates that the actuating mechanism on the on and off switching mechanism can be confirmed. 11. Refrigerator according to one of claims 1 to 8, characterized in that the non-return member ( 24 ) is designed as a flap ( 25 ) falling automatically into the closed position in front of the associated inlet opening ( 23 , 23 ').