DE202008005337U1 - Fridge and / or freezer - Google Patents

Abstract

Refrigerating and / or freezing appliance with at least one refrigerant circuit comprising at least two evaporators, with at least one defrosting heater for evaporator defrosting, and with a control unit for controlling the evaporator operation, wherein the control unit is designed such that one of the evaporator temporarily or permanently in the period in which the other evaporator is defrosted.

Description

The The present invention relates to a refrigerator and / or freezer with at least a refrigerant circuit.

Out the prior art are known as no-frost devices, which bring the advantage that it is not or hardly to one Icing of the device interior as well as the stored good comes. With these devices is it is known to defrost the evaporator by a defrost heater. These Although this procedure prevents it from becoming permanent on the evaporator however, may cause it to peel off during the Defrosting leads to a rise in temperature.

Of the The present invention is therefore based on the object, a cooling and / or Freezer to that effect to develop that the temperature rise in the refrigerator or freezer compartment during defrost compared to previously known devices is reduced.

These The task is performed by a cooling and / or freezer solved with the features of claim 1.

After that is provided that the refrigerant circuit comprises at least two evaporators, that the device includes at least one defrost heater for evaporator defrost, and that a control unit for controlling the evaporator operation provided is, wherein the control unit is designed such that one of the evaporator at least temporarily then in operation, if the other evaporator is defrosted. The system is according to the present invention accordingly switched so that during the defrosting an evaporator at least partially the other evaporator the Cooling takes over and thus a rise in temperature in the interior is prevented or compared to known devices is reduced.

As stated above the evaporators are preferably no-frost evaporators. However, the invention is not limited thereto, but also includes other types of evaporators or device types.

It It can be provided that each of the evaporators has its own defrost heater assigned.

Conceivable It is also that each of the evaporators is a section of a defrost heater assigned.

Of the Refrigerant circulation can at least one condenser wherein the condenser outlet conduit downstream of the liquefier branches into a first line and a second line, wherein the first line to the one evaporator and the second line to the other the evaporator leads.

The Evaporators can thus be connected in parallel, which is provided according to the invention, that at least temporarily one of the evaporators is in operation, if the other is defrosted the evaporator.

In Another embodiment of the invention is provided that in the said first and / or in said second conduit a valve is arranged. These valves allow the flow of refrigerant to control or shut off to the evaporator (s). through the valve can thus be the just thawed evaporator from the refrigerant circuit while the other is the evaporator of refrigerant is flowed through and thus the required cooling capacity he brings.

Also Is it possible, not to provide a valve in each of the lines, but alternatively or additionally a multi-way valve, by means of which also said flow guide of the refrigerant is feasible.

Between The evaporators can be provided a separation, the one Air exchange and / or heat transfer prevented or difficult between the evaporators. This prevents that the heat input when defrosting one of the evaporators to a temperature increase at other the evaporator leads.

at the defrost heater can be an electric heater.

Conceivable It is also the defrost heater through a section of the Refrigerant circuit is formed.

This Section can through a line section of the condenser or also formed by a line section upstream of the condenser is arranged.

In Another embodiment of the invention is provided that the defrost heater is formed by a line or part of a line is the downstream the compressor from the compressor connecting the compressor with the condenser Line branches off.

This line can be connected via a multi-way valve to the line connecting the compressor to the condenser. It is conceivable Furthermore, that a further valve is provided, that the refrigerant for the purpose of heating the evaporator alternatively the one or the other defrosting the evaporator supplies.

The Evaporators can be executed in such a way that each of the evaporators provides the required cooling capacity, that is Each of the evaporators is capable of providing the total cooling capacity of the device or to be cooled Compartment, for example, a freezer to deliver. In In this case it can be provided that in normal operation respectively only one evaporator is switched on. Is this evaporator iced up and must be defrosted, so on the second, preferably the same size Evaporator switched and the first evaporator defrosted. Is on The second evaporator has progressed to the extent that it defrosted must be, so is switched back to the first evaporator and in this phase the second evaporator is defrosted.

alternative It can also be provided that the two evaporators comparatively are small in size, so they only work together the appropriate one Cooling capacity for the overall device to disposal can make. It can be provided that normally both evaporators are in operation. With appropriate icing of the evaporator systems however, only one evaporator is switched off and the second evaporator runs to cooling further. However, because of the smaller sizing is so the entire cooling capacity slightly reduced.

After this the iced evaporator is defrosted, it is switched back on and the total cooling capacity is restored.

In Similarly, the defrost of the other evaporator, In this case, the first evaporator continues to use refrigerant is charged.

These execution the invention is somewhat cheaper However, it has the disadvantage that in the time when only an evaporator is in operation, a certain loss of performance in terms of cooling capacity consists.

Yet is a temperature increase, if it exists at all, essential less than a conventional one Device or No-Frost device.

Further Details and advantages of the invention will be apparent from a in the Drawing illustrated embodiment explained. Show it:

1 FIG. 2 is a schematic view of a refrigerant circuit of a freezer according to the invention in a first embodiment and FIG

2 FIG. 2 is a schematic view of a refrigerant circuit of a freezer according to the present invention in a second embodiment. FIG.

In 1 are with the reference numerals 10 . 20 Two parallel evaporators are marked, in common with the compressor 30 and the liquefier 40 form the essential components of the illustrated refrigerant circuit. With the reference number 32 is a collector for the collection of refrigerant, which is the compressor 30 upstream.

The reference numerals 12 and 22 indicate electric heaters to defrost the evaporator 10 respectively. 20 ,

With the reference numerals 14 . 24 Circulation fans are provided, one of which is one of the evaporators 10 . 20 assigned.

Between the evaporator areas is the partition 50 , which prevents or impedes air exchange or heat transfer between the evaporator areas.

In the in 1 illustrated embodiment, the defrosting of the evaporator 10 . 20 by electric heaters 12 . 22 made, with each of the evaporators 10 . 20 a private electric heater 12 . 22 assigned.

Is one of the evaporators 10 . 20 iced, this is by means of the associated valve located in the evaporator feed line 16 . 26 shut off from the other refrigerant circuit. This valve is located in the line between condenser 40 or the downstream dryer 42 and the respective evaporator 10 . 20 ,

After closing the valve 16 or 26 will the heater 12 . 22 put into operation to the evaporator 10 or 20 defrost.

The other remains the evaporator 20 respectively. 10 as well as the associated circulation fan in operation and supplies in this way at least part of the required cooling capacity.

When defrosting is complete, the associated valve becomes 16 respectively. 26 opened again and the evaporator again flows through the refrigerant, so that the corresponding evaporator provides cooling capacity again.

Like this 1 shows that the Ven tile 16 . 26 in lines 18 . 28 arranged, connect the condenser outlet or dryer outlet with the respective evaporator. These lines 18 . 28 extend from a junction 50 , downstream of the condenser 40 or the downstream dryer 42 is arranged.

2 shows an embodiment of the invention, in which the defrosting is not provided by means of an electric heater, but by means of a hot gas heater.

For this purpose, it is provided that in the line section between the compressor 30 and liquefier 40 a multi-way valve 19 is provided, from which a line 100 branches off to the hot gas heater 120 leads. This defrost heater 120 also has a multiway valve 19 ' on, by means of which the comparatively warm refrigerant is led either into a section which the evaporator 10 is assigned or in a section that the evaporator 20 assigned. The defrost heater 120 itself consists essentially of a loop, whose inlet through the multi-way valve 19 ' is controlled and the over a course 130 who is in a line 140 discharges the refrigerant after passing through the defrost heater 120 back to the condenser 40 leads.

As stated above, it is conceivable to dimension the evaporators such that each of the evaporators 10 . 20 the entire required cooling capacity provides. Alternatively, it may be provided that the evaporator can only jointly provide the required cooling capacity in normal operation. In the latter case, during defrost, one of the evaporators will experience a slight performance penalty. Nevertheless, an undesirable increase in temperature in the compartment to be cooled can be effectively prevented or reduced compared to known devices.

As stated above, the defrost can be performed either electrically or by hot gas heating. In the latter case, a hot gas defrost is possible in which the heater is simply upstream of the condenser, as is made 2 evident. During the Heißgas Abtauung a complete refrigerant circuit is maintained.

Of course, the present invention is not limited to the use of two evaporators 10 . 20 limited. Also more than two evaporators can be used.

Claims (14)

Cool- and / or freezer with at least one refrigerant circuit, the at least two evaporator comprises, with at least one defrost heater for Evaporator defrost, as well as with a control unit for control the evaporator operation, wherein the control unit is designed such that one of the evaporators temporarily or permanently in the time span is in operation, in which the other evaporator is defrosted. Cool- and / or freezer according to claim 1, characterized in that it is in the evaporators is no-frost evaporator. Cool- and / or freezer according to claim 1 or 2, characterized in that each of the evaporators its own defrost heater is assigned. Cool- and / or freezer according to claim 1 or 2, characterized in that each of the evaporators a section is associated with a defrost heater. Cool- and / or freezer according to one of the preceding claims, characterized that the refrigerant circuit at least one condenser and that the Verflüssigerauslaßleitung downstream of the liquefier branches into a first line and a second line, wherein the first line to one of the evaporators and a second line leads to the other evaporator. Cool- and / or freezer according to claim 5, characterized in that in the first and in the second line, a valve is arranged. Cool- and / or freezer according to claim 5 or 6, characterized in that a multi-way valve is provided, in which the condenser outlet ends and from which the first and the second line go out. Cool- and / or freezer according to one of the preceding claims, characterized that a separation is provided between the evaporators, the an exchange of air and / or heat transfer prevented or difficult between the evaporators. Cool- and / or freezer according to one of the preceding claims, characterized that the defrost heater is an electric heater. Cool- and / or freezer according to one of the claims 1 to 8, characterized in that the defrost heater by a Section of the refrigerant circuit is formed. Cooling and / or freezing appliance according to claim 10, characterized in that the section is formed by a line section of the condenser or by a line section which is arranged upstream of the condenser. Cool- and / or freezer according to claim 10 or 11, characterized in that the defrost heater is formed by a line or part of a line is the downstream the compressor from the compressor connecting the compressor with the condenser Line branches off. Cool- and / or freezer according to one of the preceding claims, characterized that the evaporators are designed such that each of the evaporators the needed Cooling line provides. Cool- and / or freezer according to one of the claims 1 to 12, characterized in that the evaporators are designed such that the evaporators together provide the required cooling line.