EP2870422A1 - Refrigeration appliance comprising a water dispenser - Google Patents

Abstract

The invention relates to a refrigeration appliance (104) comprising a water dispenser (114) and a heat exchanger (202) for cooling the water that can be dispensed through the water dispenser (114). According to the invention the heat exchanger (202) is arranged in a recess (600) in the inner door (200) of the refrigeration appliance (104). The invention further relates to a refrigeration appliance ensemble (100), comprising two refrigeration appliances (102, 104), of which the first refrigeration appliance (102) has an ice dispenser (112) and the second refrigeration appliance (104) has a water dispenser (114) of this kind.

Description

 Refrigerating appliance with a water outlet

The invention relates to a refrigeration device with a water outlet and with a heat exchanger for cooling water deliverable by the water outlet. Furthermore, the invention relates to a refrigerator unit comprising two refrigerators, of which the first refrigerator has an ice dispenser and the second refrigerator has a water dispenser.

Refrigeration appliances, in particular designed as household appliances refrigerators are known and are used to housekeeping in households or in the catering sector to store perishable food and / or drinks at certain temperatures.

Such refrigerators are increasingly provided with an ice dispenser for dispensing water ice cubes and / or crushed ice. Furthermore, such refrigerators are additionally provided with a water outlet for the discharge of cooled water. However, such ice dispensing and water dispensing have different optical appearances, which affects the overall visual impression, especially when two refrigerators are assembled into a refrigeration unit ensemble, wherein one of the refrigerators has an ice dispenser and the other refrigerator has a water dispenser.

It is therefore the object underlying the invention to provide a refrigeration device or a refrigerator unit with a visually appealing appearance.

These objects are achieved by the objects having the features according to the independent claims. Advantageous developments are the subject of the dependent claims. The present invention is based on the recognition that a particularly visually appealing appearance can be achieved when the ice dispensing and water dispensing are optically matched.

According to a first aspect, the object according to the invention is achieved by a refrigeration device, in which the heat exchanger is arranged in a depression in the inner door of the refrigeration device. As a result, the technical advantage is achieved that the heat exchanger occupies no space in other areas of the refrigerator. Thus, these other areas can be designed according to the appearance of a refrigerator with an ice dispenser. A refrigeration device is understood in particular to be a household appliance, that is to say a refrigeration device which is used for housekeeping in households or in the gastronomy sector, and in particular serves to store food and / or drinks at specific temperatures, such as, for example, a refrigerator, a freezer, a refrigerator Fridge freezer, a freezer or a wine fridge.

In an advantageous embodiment, a heat exchanger cover of the heat exchanger is attached to an inner door of the refrigerator. As a result, the technical advantage is achieved that the heat exchanger is covered by the heat exchanger cover and does not impair the visual appearance of the refrigerator with a water output.

In a further advantageous embodiment, the heat exchanger cover of the heat exchanger is secured to the inner door of the refrigerator by latching. Thereby, the technical advantage is achieved that for attaching the heat exchanger cover to the refrigeration device with a water outlet no additional fastening means, such. Screws or rivets are needed. This reduces the manufacturing and logistics costs, since no such fasteners must be stored and provided for the production. In a further advantageous embodiment, two latching elements are each arranged on two opposite longitudinal sides of the heat exchanger cover for latching to the refrigeration device. As a result, the technical advantage is achieved that is clearly defined by the total of four locking elements, which are all arranged with a minimum distance from each other, the position of the heat exchanger cover.

In a further advantageous embodiment, the locking elements are designed as scenes, engage in the locking pin of the refrigerator. As a result, the technical advantage is achieved that the heat exchanger cover is guided during a joining movement to their assembly. Thus, incorrect assembly can be avoided. In a further advantageous embodiment, the scenes each have a deflection section. As a result, the technical advantage is achieved that the joining direction can be changed during assembly. Thus, additional securing means can be brought into engagement.

In a further advantageous embodiment, two deflection sections form a deflection by 45 ° in each case. As a result, the technical advantage is achieved that such securing means can be brought particularly easy and reliable engaged. In a further advantageous embodiment, the heat exchanger cover has a bore on its upper side, through which extends a retaining cam of the refrigeration device for fastening the heat exchanger cover to the refrigeration device.

 As a result, the technical advantage is achieved that the retaining cams extending into the bore additionally fixes the heat exchanger cover as securing means.

In a further advantageous embodiment, the heat exchanger cover on its underside on a tab which is in contact with a mating contact surface of the refrigerator. Thereby, the technical advantage is achieved that the heat exchanger cover is secured against accidental falling off.

In a further advantageous embodiment, the tab extends in the refrigerator door thickness direction. Thereby, the technical advantage is achieved that the tab can be formed as an extension of a portion of the heat exchanger cover. This simplifies the manufacture of the heat exchanger cover.

In a further advantageous embodiment, the heat exchanger cover has an engagement opening for releasing the heat exchanger cover from the refrigeration device.

Thereby, the technical advantage is achieved that the heat exchanger cover can be detached and removed manually by engaging in the engagement opening of the refrigerator with a water output.

In a further advantageous embodiment, the heat exchanger cover is made of a thermally conductive material. Thereby, the technical advantage is achieved that a cooling of water in the heat exchanger can be achieved by cooling air from the inner container of the refrigerator for storage of refrigerated goods to be cooled. Thus, a refrigerator with a water outlet is provided with a particularly simple structure.

In a further advantageous embodiment, the water dispenser is arranged on the side of the refrigerator. As a result, the technical advantage is achieved that a removal of cooled water from the water outlet is possible without opening the inner container of the refrigerator, which prevents the ingress of warm air through the non-opening of the inner container and thus the energy consumption of the refrigerator is reduced.

In a further advantageous embodiment, the water dispenser is attached to a door panel of a refrigerator door of the refrigerator. As a result, the technical advantage is achieved that the water outlet is arranged particularly easily accessible. According to a second aspect, the object according to the invention is achieved by a refrigeration device ensemble which has two refrigerating appliances, of which the first refrigerating appliance has an ice dispenser and the second refrigerating appliance has such a water dispenser. Both refrigeration units each have their own refrigerant circuit with the associated components. Thus, if one of the two refrigerators fails another, fully functional refrigeration unit remains.

Further embodiments will be explained with reference to the accompanying drawings. 1 shows a front view of a refrigerator unit comprising a first refrigerator with an ice dispenser and a second refrigerator with a water dispenser,

2 is a perspective view of the inner door of a refrigerator with a water outlet,

 3 is a perspective view of a mounted heat exchanger cover,

4 is a perspective view of a heat exchanger cover in the unassembled state,

 5 is another perspective view of a heat exchanger cover in the unassembled state,

6 shows a perspective view of a section of the inner door of FIG. 2 for fastening the heat exchanger cover, FIG. 7 is a schematic illustration of a first step of assembling the heat exchanger cover;

 Fig. 8 is a schematic representation of a second step of the assembly of the heat exchanger cover, and

Fig. 9 is a schematic representation of a third step of the assembly of the heat exchanger cover.

FIG. 1 shows two refrigerators as exemplary embodiments of a first refrigeration appliance 102 and a second refrigeration appliance 104, which together form a refrigerator assembly 100.

The first refrigeration device 102 has a refrigerator door 106 on its refrigeration appliance front side 1 10. By opening the refrigerator door 106, an interior of the first refrigeration device 102 can be made accessible in order to store or remove refrigerated goods therein. On the outside, i. accessible with the refrigerator door 106 closed, an ice dispenser 1 12 is arranged. The ice dispenser 1 12 is designed to dispense water ice cubes and / or crushed ice.

Like the first refrigeration appliance 102, the second refrigeration appliance 104 has a refrigerator door 108 on its refrigeration device front side 110. By opening the refrigerator door 108, an interior of the second refrigerator 104 can also be made accessible here in order to store or remove refrigerated goods therein. On the outside, i. accessible when the refrigerator door 108 is closed, here a water dispenser 1 14 is arranged. The water outlet 1 14 is designed for the discharge of cooled, liquid water. Both refrigerators 102, 104 each have a refrigerant circuit for cooling refrigerated goods with an evaporator (not shown), a compressor (not shown), a condenser (not shown) and a throttle body (not shown).

The evaporator is designed as a heat exchanger in which, after expansion, the liquid refrigerant is absorbed by heat from the medium to be cooled, i. Air inside the refrigerator, is evaporated.

The compressor is a mechanically driven component that draws refrigerant vapor from the evaporator and expels it at a higher pressure to the condenser. The condenser is designed as a heat exchanger in which, after compression, the evaporated refrigerant is liquefied by heat emission to an outer cooling medium, ie the ambient air. The throttle body is a device for the continuous reduction of the pressure by reduction in cross section.

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.

FIG. 2 shows the inner door 200 of the refrigerator door 108 with the water outlet 14. A heat exchanger 202 is arranged in the inner door 200, which is in heat-conducting connection with the interior of the second refrigeration appliance 104, so that cooling takes place through the cooling caused by the refrigerant circuit of the second refrigeration appliance the interior is also also cooled in the heat exchanger 202 located water.

The heat exchanger 202 is supplied with water by conduits (not shown) that provide a water-bearing connection to a domestic water supply network. Further, the heat exchanger 202 is connected by further lines (not shown) to the water outlet 1 14, which form another water-bearing connection, to supply the water dispenser 1 14 chilled, liquid water. The heat exchanger 202 is covered with a heat exchanger cover 204, which forms a flat surface together with the inner door 200. Thus, in the region of the heat exchanger 202 which is lined with the heat exchanger cover 204, a door rack 206 can be arranged for storage of further refrigerated goods. Fig. 3 shows that the heat exchanger cover 204 is connected in the present embodiment by four locking connections 300 with the inner door 200, of which in Fig. 3, only two locking connections 300 are shown visible.

FIGS. 4 and 5 show that the heat exchanger cover 204 has three bores 406 on its upper side 400 in the present exemplary embodiment. On its underside 402, the heat exchanger cover 204 has a in the present embodiment Tab 408 extending in refrigerator door thickness direction. Furthermore, in the present exemplary embodiment, the heat exchanger cover 204 has on its two opposite longitudinal sides 404 four latching elements 410 for forming the latching connections 300 illustrated in FIG. 3.

FIG. 5 also shows that the heat exchanger cover 204 has on its underside 402 an engagement opening 500 which, in the case of maintenance and / or repair work, facilitates manual release of the latching connections 300 for removing the heat exchanger cover 204.

Fig. 6 shows a portion of the inner door 200 in which a recess 600 for fixing the heat exchanger cover 204 is formed. On the upper side 602 of the depression 600, in the present exemplary embodiment, corresponding to the number of bores 406 (see FIGS. 4 and 5), three retaining cams 608 are arranged such that they can dip into the bores 406. Further, in the present embodiment, on the opposite longitudinal sides 606 of the depression 600 corresponding to the number of locking elements 410 (see FIGS. 4 and 5), four locking bolts 610 are arranged such that they each form one of the four locking connections 300 with the respectively corresponding locking element 410 can. In addition, in the present embodiment, the recess 600 on its underside 604 a mating contact surface 612 for cooperation with the tab 408, as will be described later.

It will now be explained with reference to FIGS. 7 to 9, the mounting of the heat exchanger cover 204. FIGS. 7 to 9 show that the four latching elements 410 of the heat exchanger cover 204 in the present exemplary embodiment are designed as slotted links 700 into which the four latching bolts 610 engage and thus guide the heat exchanger cover 204 during assembly.

The scenes 700 have in the present embodiments, a first, straight portion 702 which is formed open to allow the insertion of the locking pin 610. The first, straight section 702 is adjoined by a first deflecting section 704 which, in the present exemplary embodiment, causes a deflection of the links 700 by 45 °. The first deflection section 704 is followed by a second, straight section 706. The second, straight section 706 is adjoined by a second deflecting section 708, which in the present exemplary embodiment also causes a deflection of the links 700 by 45 °. Thus, both deflection sections 704, 708 bring about a deflection of the scenes 700 by 90 °. The second deflection section 708 is adjoined by a third, straight section 710, which is designed to be closed at the end of the respective link 700 and thus forms a stop for the respective stop pin 610.

 5

 For mounting the heat exchanger cover 204, the respective locking bolts 610 are first inserted into the first straight section 702 of the respective link 700.

 During the further displacement of the heat exchanger cover 204, the heat exchanger cover 204 is first displaced in the direction of a first 10 first joining direction I according to the shape of the scenes until the direction of the joining movement is changed by reaching the first deflecting 704 in a second joining direction II, the 45 ° deviates from the first joining direction. Thereafter, the heat exchanger cover 204 is further displaced according to the second straight section 706 until, by reaching the second turning section 708, the joining direction movement is changed to a third joining direction III which is 45 ° from the second joining direction II and 90 ° the first joining movement direction I deviates. During the passage of the three joining movement directions I to III, the three retaining cams 608 dip into the three bores 406, which are respectively designed accordingly.

 20

 Upon reaching the end position for the heat exchanger cover 204 shown in FIG. 9, the tab 408 is in contact with the mating contact surface 612 on the underside 604 of the recess 600, thus preventing the heat exchanger cover 204 from falling out.

 25

 If necessary, e.g. When maintenance and / or repair work is to be performed, the heat exchanger cover 204 can be manually removed by engaging the engagement opening 500 and displacing the heat exchanger cover 204 in the reverse direction so that the heat exchanger 202 is freely accessible.

30 LIST OF REFERENCE NUMBERS

100 refrigerator unit 500 intervention opening

 102 first refrigeration device

 104 second refrigerator 600 recess

 106 Refrigerator door 602 top

 108 refrigerator door 604 bottom

 1 10 Refrigeration appliance front 606 Longitudinal side

 1 12 Ice dispensing 608 Holding cam

 1 14 Water outlet 610 Stop bolts

 612 mating contact surface

 200 inner door

 202 heat exchanger 700 backdrop

 204 heat exchanger cover 702 first straight section

206 door rack 704 first deflection section

 706 second straight section

300 locking connection 708 second deflection section

 710 third straight section

400 top

402 lower side I first joining direction 404 longitudinal side II second joining direction 406 bore III third joining direction 408 tab

410 locking element

Claims

claims

Refrigeration appliance (104), with a water outlet (1 14) and with a heat exchanger (202) for cooling by the water dispenser (1 14) deliverable water, characterized in that the heat exchanger (202) in a recess (600) in the inner door (200) of the refrigeration device (104) is arranged.

2. Refrigerating appliance (104) according to claim 1, characterized in that a heat exchanger cover (204) of the heat exchanger (202) on an inner door (200) of the refrigerator (104) is attached.

3. Refrigerating appliance (104) according to claim 2, characterized in that the heat exchanger cover (204) of the heat exchanger (202) on the inner door (200) of the refrigerator (104) is fixed by latching.

4. Refrigerating appliance (104) according to claim 3, characterized in that two latching elements (410) on two opposite longitudinal sides (404) of the heat exchanger cover (204) are arranged, which are latched to the refrigeration device (104).

5. Refrigerating appliance (104) according to claim 4, characterized in that the latching elements (410) are designed as links (700), engage in the locking pin (610) of the refrigerator (104).

6. Refrigerating appliance (104) according to claim 5, characterized in that the scenes (700) each have a deflection section (704, 708).

7. Refrigerating appliance (104) according to claim 6, characterized in that two deflection sections (704, 708) each form a deflection by 45 °.

8. Refrigerating appliance (104) according to one of claims 1 to 7, characterized in that the heat exchanger cover (204) on its upper side (400) has a bore (406), by a retaining cam (608) of the refrigerator (104) for attachment the heat exchanger cover (204) extends to the refrigeration device (100).

9. Refrigerating appliance (104) according to one of claims 1 to 8, characterized in that the heat exchanger cover (204) on its underside (402) has a tab (408) which with a mating contact surface (612) of the refrigerator (100) in contact stands.

10. Refrigerating appliance (104) according to claim 9, characterized in that the tab (408) extends in refrigerator door thickness direction.

1 1. Refrigerating appliance (104) according to one of claims 1 to 10, characterized in that the heat exchanger cover (204) has an engagement opening (500) for releasing the heat exchanger cover (204) of the refrigeration device (104).

12. Refrigerating appliance (104) according to one of claims 1 to 1 1, characterized in that the heat exchanger cover (204) is made of a thermally conductive material.

13. Refrigerating appliance (104) according to one of claims 1 to 12, characterized in that the water outlet (1 14) is arranged on the refrigerating appliance outside.

14. Refrigerating appliance (104) according to one of claims 1 to 13, characterized in that the water outlet (1 14) on a door panel of a refrigerator door (108) of the refrigerator (104) is attached.

15. refrigerator unit (100), comprising two refrigerators (102, 104), of which the first refrigerator (102) an ice dispenser (1 12) and the second refrigerator (104) has a water dispenser (1 14) according to one of the preceding claims.