EP3869131A1 - Refrigerating apparatus with surface heating and method for mounting a surface heater - Google Patents

Abstract

In a refrigerator with an inner container (8) delimiting a storage compartment (2), a foam layer (23) surrounding the inner container (8) and a surface heating system (9) arranged between a wall (7) of the inner container (8) and the foam layer (23) ) a plate-shaped evaporator (6) is attached to the wall (7), and the surface heating (9) is mounted to the evaporator (6).

Description

The present invention relates to a refrigeration device with an inner container delimiting a storage compartment and a surface heating system arranged adjacent to a wall of the inner container, and a method for installing such a surface heating device in a refrigeration device.

Surface heating is used in particular in single-circuit combination refrigeration devices to heat the warmer storage compartment when the device is in use in a cold environment, thus forcing a compressor run time that is sufficient to keep the colder compartment in its set temperature range.

the end DE 103 60 901 A1 a refrigeration device of the type described above is known in which such a surface heating is glued onto an inner container wall on the foam side in order to give off heat through the inner container wall into the storage compartment. In order to be able to deliver the necessary heating power, but not to impair the shelf life of the refrigerated goods in the storage compartment by a locally strong increase in temperature, the heater must occupy a large area that is available on the side wall of the inner container. The more extensive the area occupied by the heater, the higher its costs, and the more laborious and error-prone its installation. If, however, the bonding is faulty, foam can get between the heater and the inner container when the refrigeration device is filled with foam, which can lead to local overheating and thus damage to the device.

DE 103 60 901 A1 therefore provides a clamping body which is attached to cups formed in the side wall in order to keep the surface heating clamped between the cups on the side wall. In order to form the cups, a further operation is required after deep-drawing the inner container, which increases the production costs.

One object of the present invention is to specify a refrigeration device in which a storage compartment can be heated with a compact surface heating system, but at the same time with one the temperature gradient associated with the operation of the heater in the storage compartment can be kept small.

The object is achieved in that, in a refrigeration device with an inner container delimiting a storage compartment, a foam layer surrounding the inner container and a surface heater arranged between a wall of the inner container and the foam layer, a plate-shaped evaporator is attached to the wall and the surface heater is mounted adjacent to the evaporator . Since the evaporator is made of a material that conducts heat well, it also favors the spread of the heat given off by the surface heating system over the wall surface it occupies; Since the heat can consequently penetrate the storage compartment over a large area, a relatively small increase in temperature on the wall occupied by the evaporator is sufficient to feed the necessary heating power into the storage compartment.

The expansion of the surface heating itself can therefore even be smaller than that of a heating installed in a conventional manner in direct contact with the inner container; a plane surface of the evaporator delimited by protruding line sections of a refrigerant line can suffice for attaching the surface heating.

A film glued to the plane surface can be used to fasten the surface heating. This film can in particular be one of two films between which heating filaments of the surface heating are fixed; In the simplest case, a film is sufficient which rests on the sides of the heating filaments facing away from the flat surface and adheres to the flat surface on both sides of the heating filaments.

The plate-shaped evaporator can in particular be a rollbond, tube-on-sheet or tube-on-foil evaporator, and the flat surface is in each case a side of a base plate or foil of the evaporator that is a good heat conductor facing away from the wall of the inner container.

Projecting sections of a refrigerant line of the evaporator can be used to attach a clamping body that holds the surface heating pressed against the flat surface and thus prevents foam from penetrating between the surface heating and the wall even if the surface heating is not fully bonded.

Such a clamping body can be fixed particularly easily and securely to tube sections of an evaporator of the tube-on-sheet or tube-on-foil type fastened to the base plate with the aid of a clamp adapted to the cross-section of the tube sections.

To enable quick and easy attachment to the pipe, the clip comprises a flexible arch that extends around the pipe for more than half of its circumference. Such a bend can be flexibly widened when it is attached to the pipe, in that it then returns to its original configuration - provided the diameter of the pipe allows this - a form-fitting anchoring on the evaporator is ensured.

Several brackets can be snapped onto the same straight pipe section in order to secure the surface heating along its entire length. These several clamps preferably belong to several, preferably mutually identical, clamp bodies; these can be installed in sufficient numbers to ensure that the surface heating is adequately secured.

To secure against rotation about an axis parallel to the wall surface, the clamping body should have at least two clamps which are arranged in such a way that they cannot be snapped onto a single straight tube.

Pipe sections onto which the clamps can be snapped can run at a non-vanishing, e.g. right, angle to one another; Such a holder is insensitive to tolerances in the course of the tube of the tube-on-sheet evaporator.

A particularly secure fastening of the surface heating on the evaporator can be realized if the clamping body has at least two clamps which are snapped onto two straight pipe sections running next to one another, in particular if the plane surface on which the surface heating is attached extends between the two clamps or pipe sections .

In order to keep the surface heating evenly close to the wall over its entire width, the at least two brackets are preferably connected by at least one support strip of the clamping body which presses the surface heating against the flat surface.

In order to create a widely deflectable elastic connection between the carrier strip and the clamps in a tight space, both can be connected via a curved arm.

In order to keep the clamping body compact and still accommodate a length of the arms that is sufficient for the elastic deflection, the at least one support strip can have sections which extend in opposite directions from a connection point of the arm.

According to a preferred embodiment, two support strips can be provided on both sides of a central plane which intersects the brackets connected to the support strips.

The clamping body can be implemented inexpensively through one-piece injection molding. Alternatively, the clamping body can comprise several one-piece injection-molded elements that are rigidly connected to one another via the heating conductors of the surface heating system.

• Anbringen der Flächenheizung auf einem plattenförmigen Verdampfer,
• Anbringen des Verdampfers an einer Wand eines Innenbehälters;
• Einschäumen des Verdampfers und der daran angebrachten Flächenheizung.

The invention also relates to a method for installing a surface heating system in a refrigeration device with the following steps

• Attaching the surface heating to a plate-shaped evaporator,
• Attaching the evaporator to a wall of an inner container;
• Foaming of the evaporator and the surface heating attached to it.

The first two steps can take place in any order. Before foaming, at least one clamp of a clamping body can be snapped onto a pipe section of the evaporator in order to clamp the surface heating between the flat surface and the clamping body.

Fig. 1

einen schematischen Schnitt durch ein Kältegerät,

Fig. 2

und

Fig. 3

jeweils einen Klemmkörper in perspektivischen Ansichten; und

Fig. 4

einen Verdampfer mit einer daran durch zwei Klemmkörper fixierten Flächenheizung.

Further features and advantages of the invention emerge from the following description of exemplary embodiments with reference to the accompanying figures. Show it:

Fig. 1

a schematic section through a refrigeration device,

Fig. 2

and

Fig. 3

each a clamping body in perspective views; and

Fig. 4

an evaporator with a surface heater fixed to it by two clamps.

Fig. 1 shows a cross section through the body 1 of a combination refrigerator with a normal refrigerator compartment 2 and a freezer compartment 3. In a manner known per se, a refrigerant circuit of the device comprises a compressor 4, a condenser (not shown), a throttle point, also not shown, which connects the condenser with an evaporator 5 of the freezer compartment 3 connects, and an evaporator 6 of the normal cooling compartment 2 connected in series downstream of the evaporator 5. At least the evaporator 6 is a tube-on-sheet evaporator or a tube-on-foil evaporator and is on the outside of a wall 7, typically glued to the rear wall of an inner container 8 delimiting the normal cooling compartment 2 and embedded in an insulating foam layer 23 surrounding the inner container 8.

The operation of the compressor is controlled by a temperature sensor (not shown) in the normal cooling compartment, and a surface heating system 9 can be switched on if a low relative duty cycle of the compressor, the measurement signal from an ambient temperature sensor or the like indicates a low ambient temperature, and thus compressor running times in a manner known per se To force sufficient to keep the freezer 3 at a sufficiently low temperature.

The surface heating 9 is mounted on a flat surface 24, facing away from the wall 7, of a base plate of the evaporator 6 in close thermal contact with the wall 7.

To secure the surface heating 9 on the evaporator 6, a clamping body 10 is used, which is shown in Figs. 2 and 3 shown in perspective views. Fig. 2 shows a terminal body 10 facing the evaporator 6 in the assembled state, Fig. 3 a side facing away from the evaporator 6; Fig. 4 shows a perspective view of the evaporator 6, of clamping bodies 10, 10 ′ and a surface heating 9 fixed on the evaporator 6 by the clamping bodies 10, 10 ′.

The clamping body 10 is injection-molded in one piece from plastic. At the upper and lower ends in the installed position, it comprises a clamp 11, 11 'of arcuate cross-section. The cross-section is dimensioned to accommodate a pipe section 12, 12 '(see Fig. 4 ) of the evaporator 6 by clamping and thereby extending over an angle of more than 180 ° around the pipe section 12 or 12 '. The angle is dimensioned so that a pipe section 12, 12 'can be pressed through an opening 13 into the clamp 11, 11' without deforming the clamp 11, 11 'beyond the elastic limit. In the case shown here, the angle of the brackets 11, 11 'each corresponds approximately to a three-quarter circle.

Two curved arms 14 extend from each clamp 11, 11 ′ and are each connected to the ends of two support strips 15. The support strips 15 each have a T-shaped cross-section, the transverse bar 16 of the T facing the same side of the clamping body 10 as the openings 13 of the clamps 11, 11 '. In the in Figs. 2 and 3 The shown relaxed state of the clamping body 10, the crossbars 16 project to this side slightly over the brackets 11, 11 'so that when the brackets 11, 11' snap onto the pipe sections 12, 12 'they are deflected and the surface heating 9 is deflected onto the evaporator Hold down 6.

So that the support strips 15 can fill the distance between the brackets 11, 11 'as completely as possible, but at the same time the length of the arms 14 required for the elastic deflection of the support strips can be accommodated, the arms 14 do not directly engage the ends of the support strips 15 , but sections 21, 22 of the support strips 15, which each press a part of the surface heating 9, extend from a connection point 20 of each arm 14 in opposite directions.

A deflection of the support strips 15 guided by the arms 14 is, due to the shape of the arms 14, associated with a rotation of the support strips 15 about their longitudinal axis. So that this rotation has no influence on the quality of a contact with the surface heating 9 pressed on by the clamping body, the crossbars 16 are each slightly convex in cross section.

The surface heating 9 comprises a heating conductor which is bent in a meandering shape here in order to form a plurality of spaced apart heating filaments 17 running next to one another. The heating conductor is conventionally glued to an aluminum foil or laminated between this and a cover foil (not shown), the aluminum foil being provided in order to distribute the heat of the heating filaments 17 over the surface. Fig. 4 shows such an aluminum foil, denoted by 18. In the context of the present invention, however, it is not required since the heat distribution function is performed by the base plate 19 of the evaporator. Instead, the heating conductor can be placed directly on the base plate 19 and fixed with the aid of a cover film that rests on the sides of the heating filaments 17 facing away from the base plate 19 and is glued to the base plate 19 on both sides of them, and / or fixed with the aid of the clamping body 10 .

As many of the clamping bodies 10 can be distributed along the heating filaments 17 as necessary to keep the heating filaments 17 closely adjacent to the wall 7 over their entire length; in the view of FIG. 6, two clamping bodies 10 are provided.

In order to assemble the refrigeration device according to the invention, tube-on-sheet evaporator 6, a surface heating system 9 and a number of clamping bodies 10 are first provided in a manner known per se. In order to simplify the assembly process on the inner container, the surface heating 9 is preferably attached to the evaporator 6 in a first step. For this purpose, the surface heating 9 is glued onto a base plate 19 of the tube-on-sheet evaporator 6 between two pipe sections 12, 12 'running parallel next to one another. Since the presence of liquid refrigerant in the evaporator 6 is not to be expected when the surface heating 9 is operated, the surface heating 9 can be placed in a central area of the base plate 19, from where its heat is transferred to the base plate 19 Distribute evenly up and down over the adjacent pipe sections 12, 12 ' can without first having to evaporate liquid refrigerant in these pipe sections.

The assembly obtained by gluing the surface heating 9 onto the evaporator 6 is delivered to an assembly workstation in order to be installed on the inner container 8. The attachment of the clamping body 10 can take place before or after installation of the assembly.

The clamp body 10 is placed in such a way that the pipeline sections 12, 12 'engage in the openings 13 of the clamps 11, 11'. Then the clips 11, 11 'are pressed onto the pipe sections 12, 12'. Before the clamps 11, 11 'reach their stable position encompassing the pipe sections 12, 12', the support strips 15 touch the surface heating 9 and are elastically deflected by this, so that in the stable position the support strips 15 attach the surface heating 9 firmly to the Hold down the base plate 19.

REFERENCE MARK

1

Body

2

Normal refrigerator compartment

3

freezer

4th

compressor

5

Evaporator

6th

Evaporator

7th

Wall

8th

Inner container

9

Surface heating

10

Sprags

11

Bracket

12th

Pipe section

13th

opening

14th

poor

15th

Carrier strip

16

Transom

17th

Filament

18th

Aluminum foil

19th

Base plate

20th

Connection point

21

section

22nd

section

23

Foam layer

24

Flat surface

Claims (15)

Refrigeration device with an inner container (8) delimiting a storage compartment (2), a foam layer (23) surrounding the inner container (8) and a surface heating system (9) arranged between a wall (7) of the inner container (8) and the foam layer (23), characterized in that a plate-shaped evaporator (6) is attached to the wall (7) and the surface heating (9) is mounted to the evaporator (6). Refrigeration device according to Claim 1, characterized in that the surface heating (9) is attached to a flat surface (24) of the evaporator (6) delimited by protruding line sections of a refrigerant line. Refrigerating device according to claim 2, characterized in that the surface heating comprises a film glued to the flat surface (24). Refrigeration device according to Claim 2 or 3, characterized in that a clamping body (10) fastened to projecting line sections holds the surface heating (9) pressed against the flat surface (24). Refrigeration device according to claim 4, characterized in that the evaporator (6) is a tube-on sheet or tube-on-foil evaporator, the line sections on a base plate (19) of the evaporator (6) fixed pipe sections (12, 12 ' ) and the clamping body (10, 10 ') has at least one clamp (11) encompassing one of the pipe sections (12, 12') in a form-fitting manner. Refrigerating appliance according to claim 5, characterized in that the clamp (11) comprises a flexible bend which extends around the pipe section (12) over more than half of its circumference. Refrigerating device according to Claim 5 or 6, characterized in that several clamps (11) are locked onto the same straight pipe section (12). Refrigerating device according to one of Claims 5 to 7, characterized in that the clamping body (10) has at least two clamps (11, 11 ') which are arranged so that they cannot be snapped onto a single straight pipe section. Refrigerating device according to one of Claims 5 to 8, characterized in that the clamping body (10) has at least two clamps (11, 11 ') which are latched onto two straight pipe sections (12, 12') running next to one another. Refrigeration device according to claim 9, characterized in that the at least two clamps (11, 11 ') are connected by at least one support strip (15) of the clamp body (10) which presses the surface heating (9) against the flat surface (24). Refrigeration device according to Claim 10, characterized in that the carrier strip (15) is connected to one of the brackets (11, 11 ') via at least one curved arm (14). Refrigeration device according to Claim 11, characterized in that the carrier strip (15) has sections (23, 24) which extend in opposite directions from a connection point (20) of the arm (14). Refrigeration device according to one of Claims 10 to 12, characterized in that the clamping body (10) has two support strips (15) on both sides of a central plane which intersects the clamps (11, 11 ') of the clamping body (10) connected to the support strips (15). Refrigerating device according to one of the preceding claims, characterized in that the clamping body (10) is injection-molded in one piece. Method for installing a surface heating system (9) in a refrigeration device with the following steps - Attaching the surface heating (9) on a plate-shaped evaporator (6), - Attaching the evaporator to a wall (7) of an inner container (8); - Foaming of the evaporator (6) and the surface heating (9) attached to it.

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