DE102015203631A1 - The refrigerator - Google Patents

Abstract

The present invention relates to a refrigeration device (100) with a heat exchanger (201), wherein the heat exchanger (201) has a heat exchanger surface and is arranged in a heat exchanger space, and a temperature sensor (213) for detecting a temperature of the heat exchanger surface, characterized in that Holding part (211) for holding and positioning the temperature sensor (213) is provided on the heat exchanger surface, and that the holding part (211) is fixed to a wall (203) of the heat exchanger space.

Description

The present invention relates to a refrigeration device.

The publication EP 0 190 793 B1 describes a refrigerator with a thermostat whose sensor detects the temperature of an evaporator surface, wherein the connection between the sensor and thermostat is passed through a tube which is led to the evaporator and attached to the evaporator so fitting that an inserted sensor detects its surface temperature ,

The publication DE 10 2007 044 231 A1 describes a refrigerator with a refrigerant cycle system, comprising an evaporator with an evaporator plate for the transmission of heat energy from a refrigeration compartment of the refrigerator in the refrigerant cycle system and with a temperature sensor for determining the temperature of the evaporator plate via a sensor surface of the temperature sensor, which is connected by means of a holder to the evaporator plate ,

It is the object underlying the invention to provide a refrigeration device, in which a temperature sensor for detecting a temperature of a heat exchanger of the refrigeration device can be efficiently attached.

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 heat exchanger, wherein the heat exchanger has a heat exchanger surface and is arranged in a heat exchanger space, and a temperature sensor for detecting a temperature of the heat exchanger surface, in which a holding part for holding and positioning of the temperature sensor the heat exchanger surface is provided, and wherein the holding part is fixed to a wall of the heat exchanger space. As a result, the advantage is achieved that the temperature sensor can be attached particularly easily regardless of the heat exchanger geometry.

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.

The heat exchanger may be an element of a refrigerant circuit of the refrigeration device. For example, the heat exchanger is an evaporator or a condenser. Furthermore, the heat exchanger space may be formed by a cavity in the interior of a housing of the refrigeration device.

The holding part and the temperature sensor can be non-positively, positively or materially connected. Furthermore, the temperature sensor can be held by means of the holding part such that the temperature sensor is applied to the heat exchanger surface. The holding part can also be attached to the wall non-positively, positively or cohesively.

In an advantageous embodiment, the heat exchanger surface is a surface of a heat exchanger tube of the heat exchanger, a surface of a pipe-shaped portion of the heat exchanger or a surface of the heat exchanger. This provides the advantage that the temperature sensor can be efficiently held on the heat exchanger surface. The heat exchanger tube may be formed by a conduit for conducting refrigerant in the heat exchanger. Further, the heat exchanger may be a roll-bond heat exchanger or a tube-on-sheet (ToS) heat exchanger.

In a further advantageous embodiment, the refrigeration device is a no-frost refrigeration device and / or a refrigeration device with cold storage compartment and the heat exchanger is a no-frost evaporator and / or a cold storage compartment evaporator. As a result, the advantage is achieved that the temperature of the no-frost evaporator and / or the cold storage compartment evaporator can be detected particularly accurately by an exact positioning of the temperature sensor on the no-frost evaporator and / or the cold storage compartment evaporator. Further, by accurately detecting the temperature of the no-frost evaporator and / or the cold storage compartment evaporator, cooling phases and defrost phases of the no-frost evaporator and / or the cold storage compartment evaporator can be efficiently controlled, further improving the energy efficiency of the no-frost evaporator. Refrigeration device and / or the refrigeration device can be increased with cold storage compartment. The refrigerator may also have an automatic defrost function. For example, the refrigeration device is a "frost-free" device, in particular a frost-free refrigerator, a frost-free freezer or a frost-free freezer.

In a further advantageous embodiment, the wall of the heat exchanger chamber has a receiving opening, in which the Holding part is arranged. As a result, the advantage is achieved that the holding part can be mounted particularly easily by inserting into the receiving opening. The receiving opening may be formed by an opening and / or a depression in the wall.

In a further advantageous embodiment, the holding part closes the receiving opening, in particular airtight. As a result, the advantage is achieved that an exchange of air between the heat exchanger chamber and another interior of the refrigerator, in particular an inner container of the refrigerator for receiving refrigerated goods, can be avoided or at least reduced.

In a further advantageous embodiment, the wall is formed by a removable cover of the heat exchanger chamber. Thereby, the advantage is achieved that temperature sensor, holding part and cover can be mounted as a unit in the refrigerator. The removable cover can also be made of expanded polystyrene (EPS). For example, the removable cover is an EPS evaporator cover.

In a further advantageous embodiment, the holding part and the temperature sensor are connected by means of a latching connection. As a result, the advantage is achieved that the temperature sensor can be fixed to the holding part.

In a further advantageous embodiment, the holding part for producing the latching connection to a holding pin and a retaining clip, and is at a locking connection of the retaining pin on the temperature sensor and surrounds the retaining clip the temperature sensor or a connection cable of the temperature sensor at least partially. As a result, the advantage is achieved that the temperature sensor can be particularly easily fixed to the holding part. The connection cable can have a polyvinyl chloride (PVC) cable sheath.

In a further advantageous embodiment, the heat exchanger is a fin heat exchanger, and the heat exchanger has a heat exchanger tube which passes through at least one fin of the fin heat exchanger. As a result, the advantage is achieved that an efficient heat exchanger can be used, whereby energy efficiency of the refrigeration device can be increased.

In a further advantageous embodiment, the heat exchanger is a finned heat exchanger, and the temperature sensor is arranged on a lamella of the finned heat exchanger or between two adjacent fins of the finned heat exchanger. As a result, the advantage is achieved that a removal of fins or fin sections for contacting the heat exchanger surface by means of the temperature sensor can be omitted. For example, the temperature sensor is positioned on the outside of the fin heat exchanger and is disposed adjacent to a lamella.

In a further advantageous embodiment, the heat exchanger is an evaporator or a condenser. As a result, the advantage is achieved that the temperature of a heat exchanger of the refrigerant circuit of the refrigeration device can be detected.

In a further advantageous embodiment, the holding part has at least one holding pin, which undercuts a holding opening in the wall. As a result, the advantage is achieved that the holding part can be anchored in the wall.

In a further advantageous embodiment, the holding part has at least one locking hook, which undercuts a locking opening in the wall. As a result, the advantage is achieved that the holding part can be locked in the wall.

In a further advantageous embodiment, the refrigeration device has a control, the temperature sensor is connected to the controller by means of a connection cable, and a guide path for guiding the connection cable is formed in the wall. As a result, the advantage is achieved that the connection cable can be integrated to save space in the refrigerator. The controller may be configured to control an operation of a device of the refrigeration appliance as a function of the detected temperature of the heat exchanger. For example, by means of the control operation of an evaporator heater or a compressor of the refrigeration device is controlled in dependence on the detected temperature of the heat exchanger.

In a further advantageous embodiment, the guide path has a taper for holding the connection cable in the guide path. As a result, the advantage is achieved that removal of the holding part can be avoided by an unintentional tensile force on the connecting cable. Furthermore, the advantage is achieved that the connection cable held in the guide path and accidental release of the connection cable can be avoided from the guide path.

In a further advantageous embodiment, the refrigeration device has a control, the temperature sensor is connected by means of a connecting cable to the controller, and the connection cable is led out by means of the holding part of the heat exchanger chamber. As a result, the advantage is achieved that a contact of the connecting cable can be avoided with the heat exchanger. This is particularly advantageous if the heat exchanger is a fin heat exchanger.

In a further advantageous embodiment, the temperature sensor comprises a PTC thermistor or a thermistor. As a result, the advantage is achieved that the temperature of the heat exchanger surface can be detected electronically.

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

Show it:

1 a schematic view of a refrigerator;

2 a sectional view of an arrangement with a heat exchanger and a wall of a heat exchanger chamber;

3 another sectional view in the 2 shown arrangement with the heat exchanger and the wall of the heat exchanger chamber;

4 a view of the wall;

5 a sectional view along in the 4 pictured first cut line;

6 a sectional view along in the 4 pictured second cut line;

7 another sectional view of in 4 wall shown;

8th an arrangement with the holding part and the temperature sensor;

9 in the 8th arrangement shown from another perspective;

10 a perspective view of the holding part;

11 a perspective view of the holding part according to another embodiment;

12 that in the 11 shown holding part from a further perspective;

13 a plan view of an arrangement with the wall and the holding part according to the further embodiment; and

14 a sectional view along the in 13 shown further cut line.

1 shows a schematic view of a refrigerator 100 , The refrigeration device 100 includes an upper refrigerator door 101 and a lower refrigerator door 103 , by means of which in each case an unillustrated respective Kühlgutbehälter can be closed. The refrigeration device 100 further comprises a non-illustrated refrigerant circuit with an evaporator, a compressor, a condenser and a throttle body.

The evaporator is a heat exchanger, in which after expansion, the liquid refrigerant by heat absorption from the medium to be cooled, such as the air in the respective refrigerated goods container of the refrigerator 100 , is evaporated. The compressor is a mechanically operated component that draws refrigerant vapor from the evaporator and expels it at a higher pressure to the condenser. The condenser is a heat exchanger in which, after compression, the vaporized refrigerant is liquefied by dissipating heat to an external cooling medium, such as the ambient air. The throttle body is a device for the continuous reduction of the pressure by cross-sectional constriction. The refrigerant may be a fluid.

2 shows a sectional view of an arrangement with a heat exchanger 201 and a wall 203 a heat exchanger room. The heat exchanger 201 is formed as a finned heat exchanger and has a plurality of heat exchanger tubes 205 and a plurality of fins 207 , which of heat exchanger tubes 205 are interspersed. Furthermore, the wall has 203 a receiving opening 209 on, in which a holding part 211 is included. By means of the holding part 211 also becomes a temperature sensor 213 to a heat exchanger surface of the heat exchanger 201 held by a surface of a heat exchanger tube 205 the majority of the heat exchanger tubes 205 is formed. Here is the temperature sensor 213 between two adjacent lamellae 207 arranged. Furthermore, one with the temperature sensor 213 connected connection cable 215 shown, which by means of the holding part 211 is led out of the heat exchanger room. The wall 203 also has a guide path formed by a recess 217 for guiding the connection cable 215 on. Furthermore, the guide path 217 a rejuvenation 219 to hold the connection cable 215 in the guide path 217 on. The holding part 211 also has a retaining pin 221 on which the wall 203 undercuts. Furthermore, the holding part 211 another holding pin 223 on, on which the temperature sensor 213 is applied. The holding part 211 also has rectangular support elements 225 for facilitating insertion of the holding part 211 in the receiving opening 209 on. By means of the support elements 225 can also the receiving opening 209 closed, in particular airtight be closed. Furthermore, the holding part 211 cavities 227 on. As a result, a material savings can be achieved.

The refrigeration device 100 may be formed with the heat exchanger 201 , wherein the heat exchanger 201 a heat exchanger tube 205 has and is arranged in a heat exchanger space, and the temperature sensor 213 for detecting a temperature of the heat exchanger tube 205 , where the holding part 211 for holding the temperature sensor 213 on the heat exchanger tube 205 is provided, and wherein the holding part 211 on a wall 203 the heat exchanger space is attached.

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.

The heat exchanger 201 may be an element of the refrigerant circuit of the refrigerator 100 be. For example, the heat exchanger 201 the evaporator or the condenser. Furthermore, the heat exchanger tube 205 through a pipeline for conducting refrigerant in the heat exchanger 201 be formed. The heat exchanger space may further through a cavity in the interior of a housing of the refrigerator 100 be formed.

According to one embodiment, the refrigeration device 100 be a no-frost refrigerator and / or a refrigerator with cold storage compartment and the heat exchanger can be a no-frost evaporator and / or a cold storage compartment evaporator. This can be achieved by an exact positioning of the temperature sensor 213 on the no-frost evaporator and / or the cold storage compartment evaporator, the temperature of the no-frost evaporator and / or the cold storage compartment evaporator are detected particularly accurately. Further, by accurately detecting the temperature of the no-frost evaporator and / or the cold storage compartment evaporator, cooling phases and defrosting periods of the no-frost evaporator and / or the cold storage compartment evaporator can be efficiently controlled, further improving the energy efficiency of the no-frost evaporator. Refrigeration device and / or the refrigeration device can be increased with cold storage compartment.

According to a further embodiment, the temperature sensor 213 form a no-frost temperature sensor. According to a further embodiment, the connecting cable 215 Make a PVC sensor cable or a PVC cable evaporator probe.

3 shows a further sectional view of the in the 2 shown arrangement with the heat exchanger 201 and the wall 203 the heat exchanger room. In the further sectional view is shown that the holding part 211 also a retaining pin 301 which has one in the wall 203 formed retaining opening 303 undercuts. This allows a fixation of the holding part 211 in the receiving opening 209 the wall 203 be achieved. According to one embodiment, the holding part 211 on the opposite side also another not shown retaining pin 301 which has a further, not shown holding opening 303 the wall 203 undercuts.

4 shows a view of the wall 203 , The wall 203 has the not shown receiving opening 209 on, in which the holding part 211 is arranged. Furthermore, the wall has 203 the guide path 217 with the rejuvenations 219 on, in which the connection cable 215 to be led. Further, a first cutting line 401 and a second cutting line 403 displayed. The wall 203 is also by a removable cover 405 , such as an EPS evaporator cover formed.

5 shows a sectional view taken along in the 4 pictured first cut line 401 , Here are the heat exchanger 201 with a plurality of heat exchanger tubes 205 and a lamella 207 as well as the wall 203 displayed. In the receiving opening 209 the wall 203 is also the holding part 211 arranged, which the temperature sensor 213 to a heat exchanger tube 205 the majority of the heat exchanger tubes 205 holds. Furthermore, the connection cable 215 and the retaining pins 221 and 223 displayed.

6 shows a sectional view taken along in the 4 pictured second cut line 403 , Here are the heat exchanger 201 with a plurality of heat exchanger tubes 205 and a lamella 207 as well as the wall 203 displayed. In the receiving opening 209 the wall 203 is also the holding part 211 arranged. The holding part 211 also has the retaining pin 301 on which ones in the wall 203 formed retaining opening 303 undercuts.

7 shows another sectional view of in 4 shown wall 203 , Here are the heat exchanger 201 with a heat exchanger tube 205 and a lamella 207 as well as the wall 203 displayed. In the receiving opening 209 the wall 203 is also the holding part 211 arranged, which the temperature sensor 213 to a heat exchanger tube 205 the majority of the heat exchanger tubes 205 holds. Furthermore, the connection cable 215 and the retaining pins 221 and 223 displayed. The holding part 211 further includes a retaining clip 701 which the connection cable 215 partially surrounds to the temperature sensor 213 with the holding part 211 to lock.

8th shows an arrangement with the holding part 211 and the temperature sensor 213 , Furthermore, the connection cable 215 of the temperature sensor 213 displayed. The temperature sensor 213 lies on the retaining pin 223 at. Furthermore, the retaining clip surrounds 701 the connection cable 215 at least partially. This locks the temperature sensor 213 and the holding part 211 , 9 shows the in 8th shown arrangement from another perspective.

10 shows a perspective view of the holding part 211 , The holding part 211 has the retaining pins 221 . 223 and 301 , the support elements 225 , the cavities 227 as well as the retaining clip 701 on. Furthermore, the holding part 211 a bulge 1001 on, in which the connection cable 215 at least partially can be included.

11 shows a perspective view of the holding part 211 according to a further embodiment. The holding part 211 has the retaining pin 223 and the retaining clips 701 for locking the unmapped temperature sensor 213 on. Furthermore, the holding part 211 the retaining pin 221 and the support element 225 on. Here are on the support element 225 two locking hooks 1101 arranged, by means of which in each case a locking opening of the wall 203 can be undercut. Furthermore, on the support element 225 another retaining clip 1103 for holding the unillustrated connection cable 215 arranged. The holding part 211 also indicates the bulge 1001 and a rounded temperature sensor pad 1105 on which the temperature sensor 213 can be placed on. 12 shows that in the 11 shown holding part 211 from another perspective. From this perspective, the cavities 227 of the holding part 211 recognizable.

13 shows a plan view of an arrangement with the wall 203 and the holding part 211 according to the further embodiment. The wall 203 has the not shown receiving opening 209 on, in which the holding part 211 according to the in 11 and 12 shown further embodiment is arranged. Furthermore, the wall has 203 the guide path 217 with the rejuvenation 219 on, in which the connection cable 215 to be led. Furthermore, another cutting line 1301 displayed. The wall 203 is also through the removable cover 405 educated.

14 shows a sectional view taken along in FIG 13 shown further cut line 1301 , Here are the heat exchanger 201 with a plurality of heat exchanger tubes 205 and a lamella 207 as well as the wall 203 displayed. In the receiving opening 209 the wall 203 is also the holding part 211 arranged, by means of which the temperature sensor, not shown 213 to a heat exchanger tube 205 the majority of the heat exchanger tubes 205 held. The wall 203 also has a locking opening 1401 and a guide surface 1403 on.

When inserting the holding part 211 in the receiving opening 209 slides in a rear area of the holding part 211 arranged rounded locking hooks 1101 over the guide surface 1403 and locked in the locking hole 1401 , Here is the locking hole 1403 in relation to the guide surface 1403 an undercut. The locking of the locking hook 1101 in the locking opening 1401 is solvable here.

According to one embodiment, by means of the holding part 211 an exact positioning and fixation of the temperature sensor 213 , such as a no-frost evaporator probe, on the heat exchanger tube 205 , as an evaporator tube can be achieved. This allows a particularly accurate detection of a temperature of the heat exchanger tube 205 or reached by temperature parameters. For example, the heat exchanger 201 an evaporator, especially a no-frost evaporator. An inaccurate detection of the temperature of the heat exchanger tube 205 This may result in possibly too long defrosting times of an evaporator heater being selected, which in turn leads to a deterioration in the energy efficiency of the refrigeration appliance 100 and / or can lead to a strong heating of the evaporator. Furthermore, an inaccurate detection of the temperature of the heat exchanger tube 205 in this case have the consequence that too short Abtauzeiten the evaporator heater are selected, which in turn lead to icing of the evaporator or the evaporator unit and thereby a malfunction of the refrigerator 100 can cause.

According to a further embodiment, the temperature sensor 213 like a no-frost evaporator probe, in the holding part 211 be firmly locked. This can be done by or at a Kabelkonfektionär.

According to a further embodiment, during assembly of the refrigeration device 100 or a no-frost unit of the refrigeration device 100 the holding part 211 like a sensor holder, in the wall 203 , like an already installed EPS evaporator cover, are inserted from above and anchored securely. This allows correct positioning and fixation of the temperature sensor 213 on the heat exchanger tube 205 , as an evaporator tube can be achieved.

According to a further embodiment, by the contour of the holding part 211 Furthermore, a separation of the connecting cable 215 of the temperature sensor 213 from the heat exchanger 201 be achieved. This is particularly advantageous when the heat exchanger 201 is formed by an aluminum evaporator.

According to a further embodiment, by means of the contour of the retaining pin 301 on the holding part 211 an undercut can be achieved, which is the holding part 211 in the wall 203 fixed.

According to a further embodiment, the receiving opening 209 and / or in the wall 203 resulting recesses with the holding part 211 closed, in particular airtight, be. As a result, an uncontrolled condensation on various components of the refrigerator 100 avoided or at least reduced.

According to a further embodiment, by fixing the temperature sensor 213 in the holding part 211 be achieved that the temperature sensor 213 firmly and uniquely positioned. This allows a further fixation of the temperature sensor 213 , for example by means of adhesive tape, omitted. Furthermore, a correct positioning and fixing of the temperature sensor 213 , such as a no-frost evaporator probe, on the heat exchanger tube 205 , as an evaporator tube can be achieved. The temperature sensor 213 can also be dismantled non-destructively in case of customer service.

According to a further embodiment, based on the constructively predetermined mounting direction mounting of the temperature sensor 213 easy and fast. Furthermore, a wrong assembly can be excluded. Is the wall 203 through a removable cover 405 formed as an EPS evaporator cover, so may further turning the cover 405 during installation of the temperature sensor 213 omitted, since the holding part 211 with the temperature sensor 213 together from the top into the already mounted cover 405 can be introduced.

According to a further embodiment, by the anchoring of the holding part 211 in the wall 203 such as an EPS cover, the position of the temperature sensor 213 on the heat exchanger 201 , as an evaporator, are chosen completely flexible. Therefore, the temperature sensor can 213 be used for various types of refrigerators. Furthermore, the temperature sensor 213 independent of other components of the refrigeration device 100 , For example, regardless of the respective inner container of the refrigerator 100 or of a size of the heat exchanger 201 , as an evaporator unit size, are used.

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.

LIST OF REFERENCE NUMBERS

100

 The refrigerator

101

 Upper refrigerator door

103

 Lower refrigerator door

201

 heat exchangers

203

 wall

205

 heat exchanger tube

207

 lamella

209

 receiving opening

211

 holding part

213

 temperature sensor

215

 connection cable

217

 guide path

219

 rejuvenation

221

 retaining pins

223

 retaining pins

225

 support element

227

 cavity

301

 retaining pins

303

 holding opening

401

 First cut line

403

 Second cut line

405

 cover

701

 retaining clip

1001

 bulge

1101

 locking hooks

1103

 Further retaining clip

1105

 Temperature sensor arm position

1301

 Further cutting line

1401

 locking hole

1403

 guide surface

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

• EP 0190793 B1 [0002]
• DE 102007044231 A1 [0003]

Claims (15)

Refrigeration appliance ( 100 ) with a heat exchanger ( 201 ), wherein the heat exchanger ( 201 ) has a heat exchanger surface and is arranged in a heat exchanger space, and a temperature sensor ( 213 ) for detecting a temperature of the heat exchanger surface, characterized in that a holding part ( 211 ) for holding and positioning the temperature sensor ( 213 ) is provided on the heat exchanger surface, and that the holding part ( 211 ) on a wall ( 203 ) of the heat exchanger space is fixed. Refrigeration appliance ( 100 ) according to claim 1, characterized in that the heat exchanger surface is a surface of a heat exchanger tube ( 205 ) of the heat exchanger ( 201 ), a surface of a pipe-shaped portion of the heat exchanger ( 201 ) or a surface of the heat exchanger ( 201 ). Refrigeration appliance ( 100 ) according to claim 1 or 2, characterized in that the wall ( 203 ) of the heat exchanger space a receiving opening ( 209 ), in which the holding part ( 211 ) is arranged. Refrigeration appliance ( 100 ) according to claim 3, characterized in that the holding part ( 211 ) the receiving opening ( 209 ) closes, in particular airtight closes. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the wall ( 203 ) by a removable cover ( 405 ) of the heat exchanger space is formed. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the holding part ( 211 ) and the temperature sensor ( 213 ) are connected by means of a latching connection. Refrigeration appliance ( 100 ) according to claim 6, characterized in that the holding part ( 211 ) for producing the latching connection a retaining pin ( 223 ) and a retaining clip ( 701 ), and that in a latching connection of the retaining pin ( 223 ) on the temperature sensor ( 213 ) and the retaining clip ( 701 ) the temperature sensor ( 213 ) or a connection cable ( 215 ) of the temperature sensor ( 213 ) at least partially encompasses. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the heat exchanger ( 201 ) is a finned heat exchanger, and that the temperature sensor ( 213 ) on a lamella ( 207 ) of the finned heat exchanger or between two adjacent fins ( 207 ) of the fin heat exchanger is arranged. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the heat exchanger ( 201 ) is an evaporator or a condenser. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the holding part ( 211 ) at least one retaining pin ( 301 ), which has a holding opening ( 303 ) in the wall ( 203 ) undercuts. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the holding part ( 211 ) at least one locking hook ( 1101 ), which has a locking opening ( 1401 ) in the wall ( 203 ) undercuts. Refrigeration appliance ( 100 ) according to one of the preceding claims , having a control, characterized in that the temperature sensor ( 213 ) by means of a connection cable ( 215 ) is connected to the controller, and that in the wall ( 203 ) a guide path ( 217 ) for guiding the connection cable ( 215 ) is formed. Refrigeration appliance ( 100 ) according to claim 12, characterized in that the guide path ( 217 ) a rejuvenation ( 219 ) for holding the connection cable ( 215 ) in the guide path ( 217 ) having. Refrigeration appliance ( 100 ) according to one of the preceding claims , having a control, characterized in that the temperature sensor ( 213 ) by means of a connection cable ( 215 ) is connected to the controller, and that the connection cable ( 215 ) by means of the holding part ( 211 ) is led out of the heat exchanger room. Refrigeration appliance ( 100 ) according to one of the preceding claims, characterized in that the temperature sensor ( 213 ) comprises a PTC thermistor or a thermistor.

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