DE102014213183A1 - Refrigeration unit with two compressors - Google Patents

Abstract

The present invention relates to a refrigeration device (100) having a first compressor (101-1) for compressing a refrigerant and a second compressor (101-2) for compressing a refrigerant, which has control electronics (103) for driving the first compressor (101). 1) and the second compressor (101-2) and a switching means (105) for alternately connecting the first compressor (101-1) and the second compressor (101-2) with the control electronics (103).

Description

The present invention relates to a refrigerator with a first and a second compressor for compressing a refrigerant.

The publication WO 2008122493 A1 describes a multi-zone domestic refrigeration appliance with separately controllable temperature zones, which has only one compressor and one controllable valve.

The pamphlets DE 10 2011 006 251 A1 and EP 893659 A2 describe a fan that can be independently controlled by the compressor.

However, the above methods have a similar low evaporation pressure throughout the evaporator, which is determined by the coldest compartment. Therefore, even in the warmer compartments, the cold is produced under the same conditions as in the colder compartments, so that it does not achieve the optimum efficiency.

The pamphlets US 2011/0146303 A1 and WO 1998/020291 A1 describe parallel-connected evaporators in which an increase in the evaporation temperature in the warmer compartment requires additional measures, such as a check valve. In addition, the control of the refrigeration device is sometimes complicated, since the control behavior can have a significant impact on energy consumption and the subjects influence each other.

The publication US 2013/0019629 A1 describes a multi-zone refrigeration device that is constructed with multiple independent refrigeration circuits and compressors. However, this is usually a relatively expensive solution, since two or more compressors are required with appropriate control electronics.

It is the object underlying the invention to provide a refrigeration device with a simplified structure.

This object is achieved by the subject matter having the features of the independent claim. Advantageous embodiments of the invention are the subject of the figures, the description and the dependent claims.

According to one aspect of the invention, the object is achieved by a refrigeration device having a first compressor for compressing a refrigerant and a second compressor for compressing a refrigerant, wherein the refrigeration device control electronics for driving the first compressor or the second compressor and a switching device for alternately connecting comprising the first compressor and the second compressor with the control electronics. The first compressor and the second compressor are thus controlled by the same control electronics. As a result, the technical advantage is achieved, for example, that simplifies a structure over known solutions with two compressors. Instead of using usually two or more complex control electronics for controlling the compressor, here is sufficient a single control electronics, which is coupled with a suitable switching device and is alternately connected to the compressors.

A refrigeration appliance is understood in particular to mean a domestic refrigeration appliance, that is to say a refrigeration appliance that is used for household management or in the gastronomy sector, and in particular for storing food and / or drinks at specific temperatures, such as, for example, a refrigerator, a freezer, a refrigerated freezer combination, a freezer or a wine fridge.

In an advantageous embodiment of the refrigeration device, the switching device is formed by a relay. As a result, the technical advantage is achieved, for example, that the compressor can be switched with simple means.

In a further advantageous embodiment of the refrigeration device, the switching device is formed by a semiconductor relay. As a result, for example, the technical advantage is achieved that the semiconductor relay operates without moving parts and therefore allows a high durability and switching frequency.

In a further advantageous embodiment of the refrigeration device, the first or second compressor is a variable-speed compressor. As a result, for example, the technical advantage is achieved that the motors for the compressor can be produced with little effort.

In a further advantageous embodiment of the refrigeration device, the refrigeration device has a condenser through which a first refrigerant circuit of the first compressor and a second refrigerant circuit of the second compressor is guided. As a result, for example, the technical advantage is achieved that a non-flowed through refrigerant channel increases the outer surface of the condenser and the condensing temperature decreases.

In a further advantageous embodiment of the refrigeration device, the first refrigerant circuit is independent of the second refrigerant circuit. As a result, for example, the technical advantage is achieved that simplifies a regulation of the refrigerant circuits.

In a further advantageous embodiment of the refrigeration device, the refrigeration device comprises a first fan and a second fan. As a result, for example, the technical advantage is achieved that different areas of the refrigerator can be ventilated independently.

In a further advantageous embodiment of the refrigeration device, the refrigeration device comprises fan control electronics for jointly controlling the first fan and the second fan. As a result, for example, the technical advantage is achieved that further simplifies the construction of the refrigeration device.

In a further advantageous embodiment of the refrigeration device, the control electronics is designed to control a rotational speed of the first compressor and the second compressor. As a result, for example, the technical advantage is achieved that an efficient control of a temperature is made possible.

In a further advantageous embodiment of the refrigeration device, the control electronics comprises a microprocessor and a non-volatile memory. As a result, for example, the technical advantage is achieved that the control electronics can flexibly execute a control program.

In a further advantageous embodiment of the refrigeration device, the refrigeration device comprises a first evaporator and a second evaporator. As a result, for example, the technical advantage is achieved that different cooling zones can be cooled independently.

In a further advantageous embodiment of the refrigeration device, the control electronics comprises a power supply for supplying the first compressor and the second compressor with electrical power. As a result, for example, the technical advantage is achieved that further simplifies the construction of the refrigeration device.

In a further advantageous embodiment of the refrigeration device, the control electronics comprises a power supply for connecting the compressor to a power grid. As a result, for example, the technical advantage is also achieved that further simplifies the construction of the refrigeration device.

In a further advantageous embodiment of the refrigeration device, the control electronics between the first and the second compressor is arranged. As a result, for example, the technical advantage is achieved that the cable lengths are reduced for connecting the compressor

In a further advantageous embodiment of the refrigeration device, the refrigeration device is a multi-zone refrigeration device. As a result, for example, the technical advantage is achieved that different temperature zones can be realized.

Embodiments of the invention are illustrated in the drawings and will be described in more detail below.

Show it:

1 a perspective view of a refrigerator; and

2 a schematic view of the refrigerator.

1 shows a refrigerator as a representative of a refrigerator 100 , The refrigerator is used for example for cooling food and includes two refrigerant circuits, each with an evaporator 109 , a compressor 101 , a liquefier 107 and a throttle body. The evaporator 109 is a heat exchanger in which, after expansion, the liquid refrigerant is vaporized by absorbing heat from the medium to be cooled, ie the air inside the refrigerator.

The compressor 101 is an electrically operated component, the refrigerant vapor from the evaporator 109 sucks and at a higher pressure to the condenser 107 ejects. The condenser 107 is a heat exchanger in which after compression, the evaporated refrigerant is liquefied by heat release to an outer cooling medium, that is, the ambient air. The throttle body is a device for the continuous reduction of the pressure by cross-sectional constriction.

The refrigerant is a fluid used for heat transfer in the cryogenic system which absorbs heat at low temperatures and low pressure of the fluid and releases heat at higher temperature and pressure of the fluid, usually including changes in state of the fluid.

2 shows a schematic view of the refrigerator. 100 , The refrigeration device 100 includes two compressors 101-1 and 101-2 , which are designed for example as speed-controlled compressor. Each of the compressors 101-1 and 101-2 is with a respective refrigerant circuit 111-1 and 111-2 connected. The refrigerant circuit 111-1 serves for cooling a first cooling compartment of the refrigerator. The refrigerant circuit 111-2 serves for cooling a second cooling compartment of the refrigeration device.

The two compressors 101-1 and 101-2 in the refrigerant circuits 111-1 and 111-2 However, not at the same time, but alternately from the same control electronics 103 operated. The control electronics 103 serves as power electronics for driving the two compressors 101-1 and 101-2 with a variable speed. The control electronics 103 includes for this purpose, for example, a frequency AC generator, the current frequency for each one of the two compressors 101-1 and 101-2 controls.

Instead of usually two or more control electronics to use, is sufficient in the refrigerator 100 a single control electronics 103 that with a suitable switching device 105 for the respective compressor 101-1 and 101-2 is switched. The switching device 105 is for example a controlled relay or semiconductor relay.

Through the switching device 105 can be one of the two compressors 101-1 and 101-2 to be selected by the control electronics 103 should be driven. As a result, the effort in the production and a weight of the refrigerator 100 reduced. For speed-controlled compressors 101-1 and 101-2 The engines are technically relatively simple.

In addition, the refrigeration device includes 100 a common condenser 107 with several separate refrigerant channels 111-1 and 111-2 , On the one hand, the non-flowed through refrigerant channel increases 111-1 or 111-2 the outer surface of the condenser 107 and the liquefaction temperature drops. On the other hand, for example, in a forced-ventilated condenser 107 only one fan required.

Especially the variable speed compressors 101-1 and 101-2 have a high power reserve, is the alternate operation of the refrigeration circuits 111-1 and 111-2 without loss of performance possible. Since in this configuration only one refrigeration compartment is in operation, if multiple fans are used, a control of the fans can be achieved by a single fan control electronics. This simplifies the construction and the weight of the refrigerator 100 decreases.

By the refrigerator 100 the advantage of increasing energy efficiency is achieved by independently optimized evaporation pressures in the independent refrigerant circuits 111-1 and 111-2 reached. The technical effort to manufacture the refrigerator 100 Reduced compared to refrigerators 100 with two compressors and two control electronics. It is a robust control of the refrigeration device 100 possible, since the refrigeration cycles 111-1 and 111-2 do not influence each other. In addition, optimization potential, such as short runtime or stop valves, can be used for all cooling compartments.

The design of the refrigeration device 100 Simplified by the use of common control electronics 103 , as no reciprocal influences have to be considered. When using condensers 107 with several independent refrigerant channels 111-1 and 111-2 the condensing temperature decreases and the complexity decreases, as a single common fan for several condensers 107 can be used.

In this case, a single common engine electronics for the fan motors can be used in different refrigeration compartments. Overall, an energy-efficient multi-zone domestic refrigeration unit with independently controllable temperature zones, particularly robust control behavior and low material costs can be realized.

All features explained and shown in connection with individual embodiments of the invention may be provided in different combinations in the article according to the invention, in order to simultaneously realize their advantageous effects.

The scope of the present invention is given by the claims and is not limited by the features illustrated in the specification or shown in the figures.

LIST OF REFERENCE NUMBERS

100

 The refrigerator

101-1

 compressor

101-2

 compressor

103

 control electronics

105

 switchover

107

 condenser

109-1

 Evaporator

109-2

 Evaporator

111-1

 Refrigerant circuit / refrigerant passage

111-2

 Refrigerant circuit / refrigerant passage

QUOTES INCLUDE IN THE DESCRIPTION

This list of the documents listed by the applicant has been generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Cited patent literature

• WO 2008122493 A1 [0002]
• DE 102011006251 A1 [0003]
• EP 893659 A2 [0003]
• US 2011/0146303 A1 [0005]
• WO 1998/020291 A1 [0005]
• US 2013/0019629 A1 [0006]

Claims (15)

Refrigeration appliance ( 100 ) with a first compressor ( 101-1 ) for compressing a refrigerant and a second compressor ( 101-2 ) for compressing a refrigerant, characterized in that the refrigeration device ( 100 ) an electronic control system ( 103 ) for driving the first compressor ( 101-1 ) or the second compressor ( 101-2 ) and a switching device ( 105 ) for alternately connecting the first compressor ( 101-1 ) and the second compressor ( 101-2 ) with the control electronics ( 103 ). Refrigeration appliance ( 100 ) according to claim 1, characterized in that the switching device ( 105 ) is formed by a relay. Refrigeration appliance ( 100 ) according to claim 1, characterized in that the switching device ( 105 ) is formed by a semiconductor relay. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the first or second compressor ( 101-1 . 101-2 ) is a variable speed compressor. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the refrigeration appliance ( 100 ) a liquefier ( 107 ), through which a first refrigerant circuit ( 111-1 ) of the first compressor ( 101-1 ) and a second refrigerant circuit ( 111-2 ) of the second compressor ( 101-2 ) is guided. Refrigeration appliance ( 100 ) according to claim 5, characterized in that the first refrigerant circuit ( 111-1 ) independent of the second refrigerant circuit ( 111-2 ). Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the refrigeration appliance ( 100 ) comprises a first fan and a second fan. Refrigeration appliance ( 100 ) according to claim 7, characterized in that the refrigeration device ( 100 ) comprises fan control electronics for commonly controlling the first fan and the second fan. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the control electronics ( 103 ), a rotational speed of the first compressor ( 101-1 ) and the second compressor ( 101-2 ) to control. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the control electronics ( 103 ) comprises a microprocessor and a non-volatile memory. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the refrigeration appliance ( 100 ) a first evaporator ( 109-1 ) and a second evaporator ( 109-2 ). Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the control electronics ( 103 ) a power supply for supplying the first compressor ( 101-1 ) and the second compressor ( 101-2 ) with electric power. Refrigeration appliance ( 100 ) according to claim 12, characterized in that the control electronics ( 103 ) comprises a power supply for connection to a power grid. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the control electronics ( 103 ) between the first and the second compressor ( 101-1 . 101-2 ) is arranged. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the refrigeration appliance ( 100 ) is a multi-zone refrigeration device.

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