DE102011002648A1 - Cooling device e.g. refrigerator, for use in household for storing e.g. foodstuff in common household quantities in determined temperatures, has evaporator device including evaporator sections overlappingly arranged in overlapping region - Google Patents

Abstract

The device (1) has an evaporator device arranged at a rear wall (7) of a cooling chamber (5). The evaporator device includes evaporator sections (13, 14) e.g. planar evaporator plates, overlappingly arranged in an overlapping region. The evaporator sections are spaced at a distance relative to each other. The overlapping region of the evaporator sections is arranged in an upper convection zone (17) of the chamber. The evaporator sections are connected with each other by a pipe connection. Separation plates (10, 11, 12) i.e. glass plates, are provided in the chamber. An independent claim is also included for a method for manufacturing a cooling device.

Description

The invention relates to a refrigerator with a cold room and a method for producing such a refrigerator.

Refrigerators usually have a cooling chamber, which is brought by a cooling circuit to a cooling temperature. At this cooling temperature, the refrigerated goods stored in the refrigerator should be kept fresh for as long as possible or a maximum storage life can be achieved. In conventional refrigerators, for example, a flat evaporator plate is arranged in the cold room, which cools the air flowing around it. In the upper part of the cold room, warmer air collects, which cools on the evaporator plate and, due to the cooling, falls down due to the resulting higher air density. As the air sinks, it will continue to cool but the efficiency of the cooling process will decrease as the air temperature drops. In particular, with evaporator blanks extending over much of the rear wall of the refrigerator, the bottom portions of the evaporator remain substantially unused. The cooling process therefore runs with reduced efficiency.

Furthermore, in a refrigeration device of the type described, the cold air predominantly accumulates in the lower region of the cooling space and warmer air predominantly in the upper region of the cooling space. Accordingly, a uniform temperature distribution in the cold room can be realized only to a limited extent with such a conventional refrigeration appliance. To counteract this, for example, a shorter evaporator plate can be used, which is arranged in the upper region of the refrigerator or the refrigerator. However, the energy consumption of the refrigerator increases due to the reduced area of the evaporator plate.

In the design of refrigerated rooms conventional refrigerators is therefore usually balanced between efficiency, energy consumption and requirements for a uniform temperature distribution in the refrigerator.

It is therefore an object of the invention to provide an improved refrigerator concept for a refrigeration device.

This object is solved by the features of the independent claims. Advantageous forms of further education are the subject of the dependent claims.

According to one aspect, the invention relates to a refrigeration device having a cooling space and an evaporator device arranged on a wall of the cooling space. The evaporator device has a first evaporator section and a second evaporator section, which are arranged overlapping in an overlapping region. For example, the evaporator device is arranged on a rear wall of the cooling space. In the overlapping area, air to be cooled in the cold room of the refrigerator can be cooled with improved efficiency because of the increased evaporator area in the overlap area. As a result, it is possible to selectively subject regions of greater cooling in the cooling space in order, for example, to reduce temperature differences in the cooling space and to prevent temperature stratification.

According to one embodiment, the first evaporator section and the second evaporator section are arranged at a distance from one another, in particular in the overlapping area. This makes it possible for air to be able to flow through between the surfaces of the evaporator sections arranged at a distance from one another, with the largest possible cooling surface being achieved.

According to a further embodiment, the cooling space has an upper convection zone and a lower convection zone. In this case, the overlap region of the first and second evaporator section is arranged in the upper convection zone. Because of the lower air density, warmer air in the cold room rises, while cooler air sinks down due to the higher air density. By providing the overlap region in the upper convection zone, ie in the upper region of the cooling space, a higher cooling capacity for the warmer air present there can be provided. Thus, the formation of a more uniform temperature distribution and the reduction of temperature layers can be supported.

According to a further embodiment, the first evaporator section and the second evaporator section are arranged in the overlapping region parallel or at least approximately parallel to one another. This makes it possible to achieve a uniform cooling of air in the overlapping area, in particular between the first and second evaporator section.

According to a further embodiment, the wall has an upper wall section and a lower wall section. The overlapping area of the first and second evaporator sections is in this case arranged on the upper wall section. As a result, rising warmer air in the overlapping area at the upper wall area can be cooled down more effectively in order to achieve a more uniform temperature distribution.

According to a further embodiment, the evaporator device has at least one Evaporator plate or an evaporator plate on. For example, the first and second evaporator sections are each formed by flat evaporator plates of the same type. The first and the second evaporator section can be selected to be the same size in size. Alternatively, first and second evaporator sections may be different in size.

According to a further embodiment, the first evaporator section and the second evaporator section are connected to one another by at least one pipe connection. Accordingly, the evaporator device is designed at least in two parts.

According to a further embodiment, the evaporator device is designed in one piece and bent, with a first leg of the evaporator device forming the first evaporator section and a second leg of the evaporator device forming the second evaporator section.

According to a further embodiment, the first evaporator section extends in the cooling space at a distance from the wall on which the evaporator device is arranged. Accordingly, the first evaporator section can be flowed around both on the front and the back of air, which cools at the evaporator section. As a result, the efficiency of the first evaporator section is increased in comparison with an evaporator, in which air can flow only on one side.

According to a further embodiment, the first evaporator section is embedded in the wall. By way of example, the first evaporator section in this case comprises a coldwall evaporator. As a result, less volume is consumed in the refrigerator.

According to a further embodiment, the second evaporator section extends in the cooling space at a distance from the wall on which the evaporator device is arranged. Thus, the second evaporator section can be operated with increased efficiency.

According to a further embodiment, the first evaporator section and the second evaporator section have the same dimensions or substantially the same dimensions. Accordingly, the first and second evaporator sections substantially completely overlap.

According to a further embodiment, the first evaporator section has a larger side surface than the second evaporator section. In particular, the mutually facing side surfaces of the first and second evaporator sections have different sizes. As a result, an increased cooling capacity can be achieved in the overlapping area, while conventional cooling can be achieved in the non-overlapping area of the first evaporator section. As a result, an arrangement can be achieved in the cold room, with a more uniform temperature distribution and low temperature stratification is achieved.

According to a further embodiment, a separating plate is provided in the cooling space, which has an air-tight seal with the wall. In particular, the closure is arranged to separate an air flow of a first convection zone of the cooling space from an air flow in a second convection zone of the cooling space. Accordingly, completion can help to reduce the temperature stratification.

According to a further aspect, the invention relates to a method for producing a refrigeration device having a cooling space and an evaporator device arranged on a wall of the cooling space. Here, the evaporator device is formed with a first evaporator section and a second evaporator section such that the first evaporator section and the second evaporator section are arranged overlapping in an overlapping area.

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.

Further embodiments will be explained with reference to the accompanying drawings. Show it:

1 an embodiment of a refrigeration device,

2 another embodiment of a refrigeration device,

3 another embodiment of a refrigeration device,

4 another embodiment of a refrigeration device,

5 another embodiment of a refrigeration device,

6 an embodiment of a partition plate with completion,

7 an embodiment of an evaporator device with completion, and

8th another embodiment of an evaporator device with completion.

1 shows an exemplary embodiment of a refrigerator 1 , The refrigeration device 1 includes a housing 3 a fridge 5 of the refrigeration device 1 encloses. A the fridge 5 facing side of the housing 3 forms a back wall 7 of the refrigerator 5 , On one of the back wall 7 opposite side is a door 9 of the refrigeration device 1 intended. In the fridge 5 are separator plates 10 . 11 . 12 arranged, for example, serve as a shelf for refrigerated goods. The dividing plates 10 . 11 . 12 have, for example, glass plates. On the back wall 7 is an evaporator device with a first evaporator section 13 and a second evaporator section 14 intended. The first and the second evaporator section 13 . 14 For example, they are designed as flat evaporator plates or evaporator plates.

In the illustrated embodiment, the first evaporator section 13 in the back wall 7 embedded and includes, for example, a coldwall evaporator. The second evaporator section 14 is in the upper area of the refrigerator 5 spaced from the first evaporator section 13 or to the back wall 7 arranged, wherein the first and the second evaporator section 13 . 14 are provided overlapping in an overlapping area. The second evaporator section 14 closes at the bottom, for example, with the top separator plate 10 from. Air to be cooled becomes in the upper region or the overlapping region both at the first evaporator section 13 as well as the second evaporator section 14 cooled. This forms in the area of the cold room 5 in which the first and the second evaporator section 13 . 14 have the overlap region, a first convection zone 17 , In the area of the first evaporator section 13 , which is outside the overlap area, the air at the surface of the embedded evaporator section 13 cooled, creating a second convection zone in this area 18 is formed.

The second evaporator section 14 is surrounded by air on both sides. Thus, a cooling surface is in the first convection zone 17 increased, so that an efficient cooling of the air is effected. In addition, in the upper convection zone 17 , in which warmer air rises due to the lower air density, reaches a sufficient cooling. In the second convection zone 18 in which a cooling by the first evaporator section 13 takes place, also an efficient cooling of the existing air is achieved. In particular, with the illustrated embodiment, a uniform temperature distribution in the first and the second convection zone 17 . 18 be achieved. A temperature stratification in the refrigerator 5 is thus reduced.

The first evaporator section embedded in the wall 13 In the illustrated embodiment, it is over most of the back wall 7 , in particular, expands downwards, formed. In various modifications, the first evaporator section 13 be formed shorter, in which case the first evaporator section 13 especially less far down in the refrigerator 5 extends. The overlap area in the first convection zone 17 between the first and second evaporator sections 13 . 14 remains for example also available in modifications and is arranged in an upper wall area. For example, a size of the first evaporator section 13 chosen so that it does not go beyond the overlap region and a first and second evaporator section 13 . 14 essentially completely overlap.

2 shows a further exemplary embodiment of a refrigerator 1 , Equal or equivalent elements bear the same reference numerals in this and in the following figures. On a repeated explanation of such elements is omitted in individual cases and referred to the above explanations.

At the in 2 illustrated embodiment, the first and the second evaporator section 13 . 14 as spaced from the wall 7 and spaced apart evaporator plates or evaporator plates in an upper portion of the cooling space 5 executed. The first and the second evaporator section 13 . 14 are parallel or nearly parallel to each other. The evaporator sections 13 . 14 are cooled on both sides of cooled air. In the illustrated embodiment is in the upper region of the cooling space 5 a first convection zone 17 formed in which the overlap region of the first and second evaporator section 13 . 14 lies. In this first convection zone 17 is through the evaporator sections 13 . 14 a favorable cooling of the warmer air in the upper part of the refrigerator 5 achieved. Parts of the cooled air fall down into a second convection zone because of the higher air density 18 ,

The first and second evaporator section 13 . 14 are connected to each other for example via a pipe connection and thus part of a common cooling circuit. It is also possible that the evaporator sections 13 . 14 Part of an integrally and bent executed evaporator device, wherein a first leg of the Evaporator the first evaporator section 13 and a second leg of the evaporator means the second evaporator section 14 form. In particular, such a bend is made at an angle of about 180 °.

The first and the second evaporator section 13 . 14 are designed in the illustrated embodiment with substantially the same dimensions. Accordingly, the first and second evaporator sections 13 . 14 an equal or substantially equal side surface. But it is also possible, for example, the first evaporator section 13 continue to form extended downwards, so that the first evaporator section 13 a larger side surface than the second evaporator section 14 having.

3 shows a further exemplary embodiment of a refrigerator 1 , On the back wall 7 , or spaced from the rear wall 7 is an evaporator device with a first evaporator section 13 and a second evaporator section 14 intended. The first and the second evaporator section 13 . 14 For example, they are designed as flat evaporator plates or evaporator plates. The partition plate 11 runs between the first evaporator section 13 and the second evaporator section 14 and has a degree 16 on which horizontally the refrigerator 5 runs and like the partition plate 11 perpendicular to the back wall 7 stands. For example, the degree runs 16 over the entire width of the back wall 7 ,

The conclusion 16 is in particular arranged so that it flush or air flow-tight with the rear wall 7 completes, leaving a flow of air between completion 16 and back wall 7 is prevented. Accordingly, by the partition plate 11 with the degree 16 a first, upper convection zone 17 and a second, lower convection zone 18 educated.

The evaporator sections 13 . 14 are spaced from the back wall 7 arranged so that cooling air at the front and back of the respective evaporator sections 13 . 14 can flow past according to the arrow directions shown. At the bottom of the top, first evaporator 13 becomes a cooled airflow 20 through the degree 16 in the fridge 5 derived and thus prevented, further along the lower, second evaporator section 14 to flow down. A warmer airflow 22 , which rises from bottom to top, is graduated 16 on the other hand, prevented from further ascending and directed so that he on the second evaporator section 14 flows along and cools down.

By separating the airflow 20 along the first evaporator section 13 from the airflow 22 along the second evaporator section 14 Greater cooling efficiency and low energy consumption are achieved. In addition, temperature differences of air in the upper convection zone 17 and air in the lower convection zone 18 kept low.

In a modification of the illustrated embodiment, the evaporator device can also be divided into further evaporator sections, in which case also further partition plates are provided with a corresponding conclusion. As a result, further cooling regions or convection zones are formed.

4 shows a further exemplary embodiment of a refrigerator 1 , At the in 4 illustrated embodiment, the evaporator device 13 in the back wall 7 of the refrigeration device 1 embedded and includes, for example, a coldwall evaporator. The partition plate 11 again shows the degree 16 on, the flush or airflow-tight with the rear wall 7 concludes. In particular, the degree is 16 in contact with the evaporator section 13 , In addition, also have the other partition plates 10 . 12 corresponding degrees 23 . 24 on, the functional completion 16 correspond. Accordingly, in the present case four cooling zones are formed with largely separate convection. This increases the cooling efficiency at the embedded evaporator section 13 and causes a more uniform temperature distribution. In addition, the energy consumption of the arrangement shown decreases.

5 shows a further exemplary embodiment of a refrigerator 1 which are essentially the ones in 3 corresponds to described embodiment. Unlike the said embodiment, the conclusion 16 a closable opening. The opening in the conclusion 16 is closed, for example by means of a slider or a flap or a rotatable element. The closure can be done manually or by motor.

In the presentation, the opening is in the conclusion 16 closed, allowing a discharge of the air flows in the upper and lower areas of the refrigerator 5 as described above.

6 shows a variant in which the opening in the conclusion 16 is open. Accordingly, the air at the distance to the rear wall 7 arranged evaporator sections 13 . 14 along both sides, so that the division of the convection zones is canceled. A gap between the rear wall 7 and separating plate 11 is thus not rigidly closed, whereby a user of the refrigerator can influence the choice of the temperature distribution. In particular, when the door is open, it is at the bottom of the cold room 7 a lower temperature than in the upper part of the refrigerator 7 ,

7 shows an embodiment of an evaporator device with completion in a plan view. In this case, the evaporator device has two separate evaporator sections 13 . 14 on, which via a dashed line indicated pipe connection 30 connected to each other. Accordingly, the evaporator sections 13 . 14 Part of a common cooling circuit. Between the first and the second evaporator section 13 . 14 is the degree 16 arranged.

8th shows a further embodiment of an evaporator device with completion in a plan view. The evaporator device is in this case made in one piece and has a recess 40 on that the first evaporator section 13 from the second evaporator section 14 separates. Also in this embodiment, the evaporator sections 13 . 14 Part of a common cooling circuit, wherein a compound of the two evaporator sections 13 . 14 in the areas to the side of the recess 40 he follows. In the recess 40 or over the recess 40 standing out is the degree 16 arranged.

The embodiments described above can be combined as desired. In particular, it is possible to combine the embodiments in which at least one separating plate is provided with airtight seal with those in which a first and a second evaporator section are arranged overlapping in an overlapping region. This can be used to form refrigerators that can be operated with improved efficiency, low energy consumption and more even temperature distribution. At the same time the temperature stratification is reduced.

LIST OF REFERENCE NUMBERS

1

The refrigerator

3

casing

5

refrigerator

7

housing wall

9

door

10, 11, 12

separating plate

13, 14

evaporator section

16

graduation

17, 18

convection

20, 22

airflow

23, 24

graduation

30

pipe connection

40

recess

Claims (17)

Refrigeration appliance ( 1 ) with a cold room ( 5 ) and one on a wall ( 7 ) of the refrigerator ( 5 ) arranged evaporator device ( 13 . 14 ), characterized in that the evaporator device ( 13 . 14 ) a first evaporator section ( 13 ) and a second evaporator section ( 14 ) which are overlapped in an overlapping area. Refrigeration appliance ( 1 ) according to claim 1, characterized in that the first evaporator section ( 13 ) and the second evaporator section ( 14 ) are arranged spaced from each other. Refrigeration appliance ( 1 ) according to claim 1 or 2, characterized in that the evaporator device ( 13 . 14 ) on a back wall ( 7 ) of the refrigerator ( 5 ) is arranged. Refrigeration appliance ( 1 ) according to one of claims 1 to 3, characterized in that the cooling space ( 5 ) an upper convection zone ( 17 ) and a lower convection zone ( 18 ) and that the overlapping area of the first and second evaporator sections ( 13 . 14 ) in the upper convection zone ( 17 ) is arranged. Refrigeration appliance ( 1 ) according to one of claims 1 to 4, characterized in that the first evaporator section ( 13 ) and the second evaporator section ( 14 ) are arranged in the overlapping area parallel to each other. Refrigeration appliance ( 1 ) according to one of claims 1 to 5, characterized in that the wall ( 7 ) has an upper wall portion and a lower wall portion, and that the overlapping area of the first and second evaporator portions ( 13 . 14 ) is arranged on the upper wall portion. Refrigeration appliance ( 1 ) according to one of claims 1 to 6, characterized in that the evaporator device ( 13 . 14 ) has at least one evaporator plate or an evaporator plate. Refrigeration appliance ( 1 ) according to one of claims 1 to 7, characterized in that the first evaporator section ( 13 ) and the second evaporator section ( 14 ) by at least one pipe connection ( 30 ) are interconnected. Refrigeration appliance ( 1 ) according to one of claims 1 to 7, characterized in that the evaporator device ( 13 . 14 ) is made in one piece and bent, wherein a first leg of the evaporator device ( 13 . 14 ) the first evaporator section ( 13 ) and a second leg of the evaporator device ( 13 . 14 ) the second evaporator section ( 14 ) form. Refrigeration appliance ( 1 ) according to one of claims 1 to 9, characterized in that the first evaporator section ( 13 ) in the cold room ( 5 ) spaced from the wall ( 7 ) runs. Refrigeration appliance ( 1 ) according to one of claims 1 to 9, characterized in that the first evaporator section ( 13 ) in the wall ( 7 ) is embedded. Refrigeration appliance ( 1 ) according to claim 11, characterized in that the first evaporator section ( 13 ) comprises a coldwall evaporator. Refrigeration appliance ( 1 ) according to one of claims 1 to 12, characterized in that the second evaporator section ( 14 ) in the cold room ( 5 ) spaced from the wall ( 7 ) runs. Refrigeration appliance ( 1 ) according to one of claims 1 to 13, characterized in that the first evaporator section ( 13 ) and the second evaporator section ( 14 ) have the same dimensions. Refrigeration appliance ( 1 ) according to one of claims 1 to 13, characterized in that the first evaporator section ( 13 ) has a larger side surface than the second evaporator section ( 14 ) having. Refrigeration appliance ( 1 ) according to one of claims 1 to 15, characterized in that in the cold room ( 5 ) a separating plate ( 10 . 11 . 12 ), which is an air-tight seal ( 16 . 23 . 24 ) with the wall ( 7 ) having. Method for producing a refrigerating appliance ( 1 ) with a cold room ( 5 ) and one on a wall ( 7 ) of the refrigerator ( 5 ) arranged evaporator device ( 13 . 14 ), characterized in that the evaporator device ( 13 . 14 ) with a first evaporator section ( 13 ) and a second evaporator section ( 14 ) is formed such that the first evaporator section ( 13 ) and the second evaporator section ( 14 ) are arranged overlapping in an overlapping area.

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