EP2426445A2 - Refrigerator with a condenser - Google Patents

Abstract

The apparatus (1) has a heat-insulating inner container (3) comprising a coolable inner space (4) that is cooled by a refrigerant circuit. The refrigerant circuit comprises a condenser i.e. wire tube condenser, arranged outside of the inner container, and an ion wind blower is designed to generate suction airflow that moves heat, generated partially by the condenser, into surrounding area of the apparatus. The condenser is designed as a statically cooled heat exchanger. The blower is arranged above the condenser and designed as a pulsed plasma actuator.

Description

The invention relates to a refrigerator with a condenser.

Conventional household refrigerators usually have a heat-insulating inner container with a coolable interior, which is cooled by means of a refrigeration cycle. The refrigeration cycle includes an evaporator, a compressor and a condenser, e.g. has the form of a statically cooled heat exchanger, which is attached, for example, to the back of the refrigerator and emits heat to the environment of the refrigerator by radiation and convection.

The object of the invention is to provide an improved refrigeration appliance, in particular an improved domestic refrigeration appliance with a condenser.

A refrigeration appliance is understood in particular to be a household refrigeration appliance, that is to say a refrigeration appliance used for household purposes or possibly even in the gastronomy sector, and in particular for storing food and / or beverages in household quantities at specific temperatures, such as, for example, a refrigerator, a freezer , a fridge freezer or a wine storage cabinet.

The object of the invention is achieved by a refrigeration device, comprising a heat-insulating inner container with a coolable interior, a refrigeration circuit for cooling the interior, which comprises a condenser arranged outside the inner container, and a lonenwindgebläse which is adapted to generate an air flow, at least partially generated by the condenser heat in the environment of the refrigerator move.

The refrigeration device according to the invention accordingly comprises a refrigeration cycle for cooling the interior. The refrigeration cycle includes, as is customary, inter alia, the condenser, which is arranged outside of the inner container or optionally outside of a housing of the refrigerator.

The condenser, which is designed in particular as a statically cooled heat exchanger, releases heat to the environment during operation of the refrigerator according to the invention. Due to its heat creates an air movement, due to which the heated air is discharged into the environment.

In order to at least support the air movement, the refrigeration device according to the invention comprises the ion wind blower which generates the air flow in order to at least partially move the heat generated by the condenser into the environment of the refrigeration device, in particular to blow it. This can increase the efficiency of the condenser.

As such, ion wind blowers are familiar to the person skilled in the art. An ionic wind is understood to mean a directed flow of ions, which is generated, for example, by a gas discharge which starts from an electrode lying at a particularly positive high voltage. The ionization is carried out in particular by removal of electrons. The generated positively charged ions are e.g. accelerated away from this electrode along a field gradient. At a further electrode opposite the electrode, the ions in turn take up electrons. An advantage of an ion wind blower is that it is very quiet, if not silent, because it does not include moving parts. An ion wind blower comprises a high voltage source and a plurality of electrodes and may be configured to consume relatively little energy as compared to the remainder of the refrigeration apparatus.

So that the condenser can deliver heat relatively well to the environment, the condenser is preferably arranged on a rear side of the refrigeration device. In particular, the condenser may be arranged outside of a possibly existing housing on the rear sides thereof outside the refrigeration device.

The ion wind blower can be arranged according to an embodiment of the refrigeration device according to the invention above the condenser. According to this embodiment, the ion wind blower is preferably designed such that it generates a sucking air flow in order to at least partially upwardly suck the heat generated by the liquefier.

According to a further embodiment of the refrigerator according to the invention, the ion wind blower is arranged below the condenser. According to this variant, the ion wind blower is preferably designed such that it blows the heat generated by the condenser at least partially from bottom to top.

For example, to at least partially prevent contamination of the condenser by dust, the ion wind blower may have a device for at least partial removal of dust from the air stream. This variant is particularly well suited in connection with the arrangement of the ion wind blower below the condenser, wherein the ion wind blower blows the heated air from bottom to top.

Ion wind blowers usually have a plurality of electrodes. According to a preferred embodiment of the refrigeration device according to the invention, the device for the at least partial removal of dust from the air stream is designed as a pair of electrodes, which is used in particular for generating the air flow.

The ion wind blower may include a voltage generator that generates a high voltage. This high voltage can be a DC voltage. According to one embodiment of the refrigeration appliance according to the invention, the ion wind blower is designed as a pulsed plasma actuator and comprises a voltage generator generating a high-frequency alternating high voltage.

Depending on the embodiment of the refrigerator according to the invention results in an increase in efficiency, especially of household refrigerators with condenser, in particular with static condenser by convection support by means of ion wind blower. The ion wind blower supports at least the transport of heat generated by the condenser in the environment of the refrigerator according to the invention.

The ion wind blower usually comprises a high voltage source and a plurality of electrodes. With a suitable arrangement of the electrodes, these can at the same time act as an electrostatic filter, which, for example, deposits dust in front of the condenser and thus optionally keeps the condenser dust-free for a relatively long time.

The electrical power required to operate the ion wind blower can be relatively small. For safety reasons, it may be necessary to limit the maximum possible electrical current to less than 1 mA. For the operation of the ion wind blower and much smaller electrical currents can be sufficient. For example, the ion wind blower requires at a high voltage of 10 kV and an electric current of 10 μA only 0.1 W.

For the energy consumption of the ion wind blower less the ionic current, but rather the efficiency of high voltage generation can be crucial. Corresponding power supplies can also be designed to be relatively energy efficient. If the ion wind blower comprises an air cleaner, then this can also be designed such that the energy consumption of the ion wind blower increases only relatively small.

The height of the electrical voltage of the ion wind blower determines the speed of the air flow. However, an ion wind blower can also generate unwanted ozone, the amount of which also depends on the level of the electrical voltage of the ion wind blower. If too high an electrical voltage is used, producing relatively much ozone, then the ion wind blower may e.g. a suitable catalyst (e.g., nano-scale titanium dioxide) to convert the ozone to harmless divalent oxygen.

Due to the inventive use of the ion wind blower to support the convection of the heat de condenser, it is possible to increase the flow velocity of the air at the condenser, even at relatively small temperature differences.

The ion wind blower allows a noiseless operation.

The Lonenwindgebläse allows a relatively high efficiency and a relatively low energy consumption.

The Lonenwindgebläse allows a relatively simple structure.

Fig. 1

ein Haushaltskältegerät in einer perspektivischen Darstellung,

Fig. 2

eine Seitenansicht des Haushaltskältegerätes,

Fig. 3

ein Prinzipschaltbild eines lonenwindgebläses ,

Fig. 4

eine Seitenansicht eines weiteren Haushaltskältegerätes und

Fig. 5

die Rückseite des weiteren Haushaltskältegerätes.

The ion wind blower optionally allows protection of the condenser against contamination by the action of the ion wind blower as a dust separator. Embodiments of the invention are illustrated by way of example in the accompanying schematic drawings. Show it:

Fig. 1

a domestic refrigerator in a perspective view,

Fig. 2

a side view of the household refrigerator,

Fig. 3

a schematic diagram of an ion wind blower,

Fig. 4

a side view of another household refrigeration appliance and

Fig. 5

the back of the other household refrigerator.

The FIG. 1 shows a household refrigerator 1 as an example of a refrigerator in a perspective view. The household refrigerator 1, whose side view in a sectional view the Fig. 2 shows, has a body or a housing 2 and a heat-insulating inner container 3 with a coolable interior 4. The household refrigerator 1 is z. B. a household refrigerator.

The household refrigerator 1 further comprises a refrigeration cycle for cooling the interior 4, which is controlled by a control device, not shown, so that the interior 4 has at least approximately a preset target temperature. The refrigeration cycle includes e.g. an evaporator, not shown, a arranged on the back of the housing 2 of the household refrigerator 1 condenser 10, and one e.g. The condenser 10 is in particular a statically cooled heat exchanger through which coolant flows during operation of the household refrigerating appliance 1 and which emits heat to the environment of the household refrigerating appliance 1 by radiation and convection. The condenser 10 is z. As a Drahtrohrverflüssiger.

The household refrigerating appliance 1 has, for example, a door leaf 5 hinged to the housing 2 by means of hinges for closing the interior 4. When the door leaf 5 is open, the interior 4 is accessible. At the directed towards the interior 4 Side of the door provided for closing the interior 4 door leaf 5 5 several door racks 6 are arranged in the case of the present embodiment.

In the case of the present embodiment, a plurality of shelves 7 are arranged one above the other in the interior 4 for storing refrigerated goods and in the lower region of the interior 4, a drawer 8 is provided which can be at least partially pulled out of the interior 4.

In the case of the present embodiment, the household refrigerating appliance 1 has an ion wind blower 13. As such, ion wind blowers are familiar to the person skilled in the art. An ionic wind is understood to mean a directed flow of ions, which is generated, for example, by a gas discharge which starts from an electrode lying at a particularly positive high voltage. The ionization is carried out in particular by removal of electrons. The generated positively charged ions are e.g. accelerated away from this electrode along a field gradient. At a further electrode opposite the electrode, the ions in turn take up electrons. By the ion wind, an air flow 14 can be generated.

The ion wind blower 13, whose schematic diagram in the Fig. 3 is shown, in the case of the present embodiment is provided to increase an air movement or the air flow 14 in the vicinity of the condenser 10 in order to increase a transport of waste heat generated by the condenser 10 from the condenser 10 and the household refrigerator 1.

In the case of the present exemplary embodiment, the ion wind blower 13 comprises an electrical voltage source 15 which generates a high electrical voltage. The electrical high voltage is in the in the Fig. 3 shown ion wind blower 13 a voltage of relatively high frequency (high frequency). The ion wind blower 13 is designed in particular as a pulsed plasma actuator. But it can also be used a Lonenwindgebläse whose high voltage is a DC voltage.

The voltage source 15 of the ion wind blower 13 is on the one hand with at least one air-side electrode 16, which is designed in particular as a pair of electrodes, and on the other hand connected to an insulated electrode 17. The air-side electrode 16 may be embodied, for example, as a wire electrode or a toothed sheet metal electrode.

Between the two electrodes 16, 17 there is a dielectric 18, e.g. Teflon or Kapton, arranged. In addition, a high frequency plasma 19 is still provided for the ion generation.

In the case of the present embodiment, the condenser 10 is attached to the back of the housing 2 of the household refrigerator 1. The Lonenwindgebläse 13 is mounted above the condenser 10 at the back of the housing 2 of the household refrigerator 1 and is oriented so that it generates an upwardly sucking air flow 14, which sucks the heat generated by the condenser 10 upwards. The Lonenwindgebläse 13 may be provided with a Berührschutz 12, which can protect the entire condenser 10 from touching.

In case of in the FIGS. 1 and 2 the embodiment shown, the ion wind blower 13 is disposed above the condenser 10 and sucks the waste heat of the condenser 10 upwards. It is also possible that the ion wind blower 13 is arranged below the condenser 10 in particular such that it presses the air flow 14 from the bottom up.

The FIGS. 4 and 5 show another household refrigerator 20, which is essentially characterized by the in the FIGS. 1 and 2 shown household refrigeration appliance 1 differs that the ion wind blower is arranged below the attached to the back of the housing 2 condenser 10. However, in the case of the present embodiment, no ion wind blower 13, which is designed as a plasma actuator, but an ion wind blower 21 is used, the high voltage generator generates a DC voltage. In principle, this can also be done in the Fig. 3 shown ion wind blower 13 can be used. The ion wind blower 21 of the in the FIGS. 4 and 5 shown household refrigerator 20 can also for the in the FIGS. 1 and 2 shown household refrigerator 1 can be used. The ion wind blower 21 has a connected to the high voltage source electrode 22, which is designed for example as a wire electrode or a toothed sheet metal electrode. The electrode 22 may, for example, within a housing, not shown be housed and have an air purifier. The ion wind blower 21 further has a further electrode 23 connected to the high voltage source, which is designed in particular as Staubabscheide electrode plates to at least partially rid the upwardly pressed air flow 14 of dust.

LIST OF REFERENCE NUMBERS

1

Household refrigerator

2

casing

3

inner container

4

inner space

5

door leaf

6

door racks

7

shelves

8th

drawer

9

niche

10

condenser

11

compressor

12

contact protection

13

Ion wind fan

14

airflow

15

voltage source

16, 17

electrode

18

dielectric

19

Radio frequency plasma

20

Household refrigerator

21

Ion wind fan

22, 23

electrode

Claims (9)

Refrigerating appliance, in particular domestic refrigeration appliance, comprising a heat-insulating inner container (3) with a coolable interior (4), and a refrigeration circuit for cooling the interior (4), which comprises a condenser (10) arranged outside the inner container (3), characterized by an ion wind blower (13, 21) arranged to generate an air flow (14) which at least partially moves heat generated by the condenser (10) into the environment of the refrigeration appliance (1, 20). Refrigerating appliance according to claim 1, characterized in that the condenser (10) is designed as a statically cooled heat exchanger. Refrigerating appliance according to claim 1 or 2, characterized in that the condenser (10) is arranged on a rear side of the refrigerating appliance (1, 20). Refrigerating appliance according to claim 3, characterized in that the ion wind blower (13) above the condenser (10) is arranged and in particular a sucking air flow (14) generated in order to suck the heat generated by the condenser (10) at least partially upwards. Refrigerating appliance according to claim 3, characterized in that the ion wind blower (21) below the condenser (10) is arranged so that in particular the air flow (14) blows the heat generated by the condenser (10) at least partially from bottom to top. Refrigerating appliance according to one of claims 1 to 5, characterized in that the ion wind blower (13) comprises means for at least partially removing dust from the air stream (14). Refrigerating appliance according to claim 6, characterized in that means for at least partially removing dust from the air stream (14) as a Electrode pair (23) is formed, which is used in particular for generating the air flow (14). Refrigerating appliance according to one of claims 1 to 7, characterized in that the ion wind blower (13) is designed as a pulsed plasma actuator and comprises a high frequency alternating high voltage generating voltage generator (15). Refrigerating appliance according to one of claims 1 to 8, characterized in that the ion wind blower (13, 21) generates the air flow (14) such that the heat generated by the condenser (10) at least partially in the environment of the refrigeration device (1, 20) blows or sucks.

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