WO2006008276A1 - Refrigerating appliance with a cold accumulator - Google Patents

Abstract

The invention relates to a refrigerating appliance with at least one plate-like evaporator (9) and with at least one holding reservoir (20) that contains a thermal storage medium (21). The holding reservoir (20) comprises a flexibly slack reservoir part (22), which is nestled against the evaporator (9) for exchanging heat between the thermal storage medium (21) and the evaporator (9). According to the invention, the flexibly slack reservoir part (22) nestles against an outer surface (10) of the evaporator (8, 9).

Description

 Refrigerating appliance with cold storage

The present invention relates to a refrigerator with at least one plate-shaped evaporator and at least one receptacle containing a thermal storage medium. The receptacle has a pliable container part, which conforms to the heat exchange between the thermal storage medium and the evaporator to the evaporator.

Such a refrigeration device is known from DE 19948480 A1. The household freezer described with reference to FIGS. 4 to 6 comprises bag-like receiving containers made of a pliable film, which are filled with thermal storage medium to act as a cold storage. These are inserted into intermediate spaces between a meandering refrigerant pipe and the refrigerant pipe spanning wire rods of the wire tube evaporator. The made of pliable material bag have the property to invest particularly well in heat conducting contact with the refrigerant line on the one hand and on the other hand, the wire rods. The disadvantage, however, is that the insertion of the receptacles in the spaces between the refrigerant pipe and the wire rods is quite complex and therefore expensive. In addition, the accommodating volume of the thermal storage medium bags is limited by the spaces formed by the refrigerant piping and the wire rods. In addition, they are a hindrance to defrosting, since they must be heated with defrosting, which requires time, since they hinder the passage of air between the wire rods, and because of the risk of damaging the bag, the ice must not be scraped off the wire rods.

The present invention has for its object to provide a refrigerator of the type mentioned, in which the receptacle can be brought in a simple manner with the wire tube evaporator in heat-conducting contact and in which the available volume for the thermal storage medium not by the geometry of the wire tube evaporator is limited.

The object is achieved with a refrigeration device according to claim 1. The dependent claims relate to preferred embodiments. Accordingly, a refrigeration device with at least one plate-shaped evaporator which can be designed as a so-called. Wire tube evaporator or evaporator with full-surface heat exchange surfaces and at least one receptacle containing a thermal storage medium, provided, wherein the receptacle has a limp Behältnisteil, such as a film having clings to the heat exchange between the thermal storage medium and the evaporator to the evaporator. According to the invention, the pliable container part adapts to an outer surface of the evaporator. This makes it possible, after production of the evaporator to bring the receptacle by simply placing his limp Behältnisteiles on a plate side of the evaporator in heat-conducting contact with the evaporator. An elaborate insertion of the receptacle in formed by refrigerant pipe and wire rods spaces of the wire tube evaporator as in the wire tube evaporator described in DE 19948480 A1 deleted. In addition, the volume for the thermal storage medium is independent of the internal structure z. As an evaporator freely definable, since it is not limited by the volume of the gaps formed by wire rods and refrigerant pipe.

If the receptacle is not inconveniently permanently attached in the refrigerator, it can be removed during defrosting, so that it does not hinder the access of hot air to the evaporator and does not need to be thawed itself.

In the refrigerator according to the invention, the receptacle is preferably to a part of the pliable container part, which conforms to an outer surface of the evaporator, and formed to another part of a rigid container part. The bending-resistant container part can thereby form a back protecting the non-rigid container part from mechanical influences, which back faces the cooling space of the refrigeration device. For example, the rigid container part may have the shape of a shell whose opening is closed by the pliable container part. In this case, the shell may have a circumferential rim at its edge on which the pliable container part is attached.

In general, the rigid container part and the pliable container part are liquid-tight, for example by welding, connected to each other. The rigid container part may for example be molded from plastic. The pliable container part is preferably a film of, for example, plastics such as polyethylene or polyamide or metals such as aluminum or stainless steel. The film may also have multiple layers, which may be formed of different materials. For example, a plastic-laminated aluminum foil can be used. By the aluminum layer on the one hand, a good heat transfer to the evaporator can be achieved and the other hand, the plastic layer on the other hand, the film with the rigid container part inexpensive to connect by welding liquid-tight.

Preferably, the bending-resistant container part and the flexible container part each cover an area which corresponds approximately to the area of a plate side of the evaporator. As a result, approximately the entire outer surface of a plate side of the wire tube evaporator formed by wire rods and / or the refrigerant line can be used for heat exchange between the thermal storage medium and the refrigerant.

The rigid container part preferably has ribs. Internal ribs can both contribute to the stiffening of the rigid container part and on the other hand increase the heat exchange surface between the air to be cooled in the refrigerator and the thermal storage medium.

Preferably, the plate-shaped evaporator is designed as a wire tube evaporator and provided on only one of its plate sides with wire rods and arranged the receptacle on an opposite, free of wire rods plate side of the wire tube evaporator. As a result, the pliable container part can cling directly to the refrigerant-carrying tubes of the wire tube evaporator, whereby an efficient heat exchange between the refrigerant tubes of the wire tube evaporator and the pliable container part is possible, allowing rapid heat transfer between the thermal storage medium in the receptacle and the refrigerant in the refrigerant tubes , Preferably, the wire tube evaporator is horizontally aligned in the refrigerator and carries on its upper side the receptacle. The thermal storage medium acts in this arrangement with its weight on the pliable container part and causes it to cling to the outer surfaces of the top of the wire tube evaporator particularly well.

Preferably, the receptacle is attached via latching means to the evaporator. This makes it possible to attach the receptacle by simply latching to the evaporator. This also makes it possible to retrofit existing wire tube evaporator systems with the receptacles in refrigerators. In addition, the receptacles can be easily replaced. Preferably, that Rastmiüel comprises a frame which receives the receptacle in its opening and determines, and projecting from the frame spring arms with locking lugs, which engage behind the evaporator on its opposite side of the receptacle side. The frame preferably has a groove into which the pliable container part and the rigid container part engage at their connection points. A weld seam connecting the rigid and the pliable container part is thus protected against mechanical influences. "w

Preferably, the refrigeration device is a freezer, in particular a freezer.

Further embodiments and advantages of the present invention will be explained below with reference to an embodiment of the present invention. Showing:

1 shows a schematic section through a refrigerator according to a

Embodiment of the present invention;

FIG. 2 shows a perspective view of a wire tube evaporator 8 with an upper wire rod plane 13 and a lower wire rod plane 14; FIG.

3 shows a perspective view of a wire tube evaporator 9 with only one lower wire rod level 14; 4 shows a perspective view of a receptacle 20 for a thermal storage medium 21 with a surrounding frame 30;

Fig. 5 is a section through one half of the receptacle 20 and the frame 30 of Fig. 4;

Fig. 6 shows a section through the wire tube evaporator 8 of Fig. 2 with at its

Bottom 17 appended receptacle 20 of Fig. 4; and

Fig. 7 is a section through the wire tube evaporator 9 of Fig. 3 with at its

Top 18 resting receptacle 20 of FIG. 4.

Fig. 1 shows a schematic sectional view of an embodiment of a Kieitegeräts according to the present invention. The refrigeration device may be, for example, a household freezer. The refrigeration device comprises a heat-insulating housing 1. This comprises an outer lining 2 formed from a sheet metal and an inner lining 4 formed from plastic, which are connected to one another by foaming an adhesive-acting Wärmeisolationsschasimes 3 in the spaces between the two panels 2 and 3. The inner lining 4 encloses a freezer compartment 6, which can be closed by a door 5. Furthermore, the refrigeration device for cooling the freezer compartment 6 comprises a plurality of plate-shaped wire tube evaporators 8 and 9 arranged horizontally and parallel one above the other, which are connected in series via a refrigerant line 10. Between the wire tube evaporators 8, 9 are each drawers 16, in which frozen goods can be stored.

A compressor of the refrigerator is housed in a base unit 7, on which the housing 1 rests. It has a suction port to which the outlet of the lowermost wire tube evaporator 8 is connected, and a pressure port through which a condensing liquid 11 drawn from the evaporators 8, 9 reaches. The liquefied refrigerant flow is fed via a throttle 15 to the uppermost wire tube evaporator 9. 2 and 3 show perspective views of the arranged in the refrigerator of Fig. 1 wire tube evaporator 8 and 9 from the rear wall of the refrigerator. The wire tube evaporators 8 and 9 each comprise the meander shaped refrigerant line 10 formed as a pipeline. In the lower three Drahtrohrverdampferπ 8 of FIG. 2, the refrigerant pipe 10 is spanned from two sides with wire rods 12, which are each arranged perpendicular to the longer meandering sections of the refrigerant pipe 10 and with each other in parallel. The wire rods 12 thus form an upper wire rod level 13 and a lower wire rod level 14, the wire rods 12 overlap in a plan view of the wire tube evaporator 8. By contrast, the wire tube evaporator 9 shown in FIG. 3 and arranged in the uppermost position in the refrigeration device of FIG. 1 comprises only one lower wire rod plane 14.

The refrigeration device comprises, as can be seen from Fig. 1, the other receptacles 20, which include a thermal storage medium 21 such as a water-ethanol mixture. The receptacles 20 are each in thermally conductive contact with one of the wire tube evaporator 8, 9 and thus act as a cold storage. They bring about a reduction in the energy consumption of the refrigeration device, as explained in more detail in, for example, EP 0 794 396 A1.

4 and 5, one of the receptacles 20 is shown in more detail. Fig. 4 shows a perspective view of the receptacle 20 with a receptacle surrounding the frame 30, whereas Fig. 5 shows a section through one half of the receptacle 20. The receptacle 20 is formed from two container parts 22 and 23. The container part 22 consists of a limp material, such as a film. In this case, a film of several layers of different materials can be used. In addition to a plastic-laminated aluminum foil, for example, plastic films made of polyethylene or polyamide are suitable, wherein the film-like materials both a sufficient tear resistance and diffusion-proof and resistant to be selected with regard to the thermal storage medium. The container 23 is made of a rigid material, such as plastic. It is shaped as a shell 23, which has a peripheral rim 24 at its edge. At this brim 24, the film 22 and the shell 23 are liquid-tight, for example, by welding, connected together. The opening of the shell 23 is closed by the film 22. The through the shell 23 and the film 22 enclosed receiving space is filled with a thermal storage medium 21 (eutectic) of, for example, 80% water and 20% ethanol. If the film 22 has only a very slight extensibility, then a certain amount of free space is left in the receiving space, so that a volumetric expansion of the thermal storage medium

21 no damage to the shell 23 or the film 22 occur during the transition from liquid to solid state. If the film 22 has a certain extensibility, then it is not necessary to leave a free space during filling. The volume expansion of the thermal storage medium 21 during the transition from the liquid to the solid state of matter can be absorbed by the film 22.

The shell 23 has at its bottom 25 internal ribs 26 for their stiffening. In addition, the ribs 26 increase the heat exchange surface between the thermal storage medium 21 and the shell and thus also promote the heat exchange between the storage medium 21 and the air located in the freezer compartment 6 of the refrigerator. The shell 23 further includes a filler neck, not shown, via which the receptacle 20 can be filled with the thermal storage medium 21.

The receptacle 20 is surrounded by a frame 30 having an opening 31. The frame 30 has an inwardly open circumferential groove 32 which receives the brim 24 of the shell 23 and the edge of the film 22 attached thereto. In the groove 32 of the frame 30 is the weld between the brim 24 and the film

22 protected against mechanical influences. On the frame 30 resilient arms 33 are formed with locking lugs 34 on the side of the film 22, which serve to secure the receptacle 20 to one of the wire tube evaporators 8, 9 shown in FIG. 1, as shown in FIGS. 6 and 7 below.

6 and 7 show sectional views through each half of a mounted on a wire tube evaporator 8 or 9 receptacle 20 of FIG. 1. The sections each extend in a plane parallel to the rear wall or door 5 of the refrigerator.

FIG. 6 shows a wire tube evaporator 8 according to FIG. 2, which comprises both a lower wire rod plane 14 and an upper wire rod plane 13. At its bottom 17, which terminates with the lower wire rod level 14, a receptacle 20 described in FIGS. 4 and 5 is attached. The receptacle 20 is fixed by means of the resilient arms 33 with locking lugs 34 of the frame 30 to the wire tube evaporator 8. The latching lugs 34 each engage behind the refrigerant line 10 formed as a pipe 10 at the upper side 18 of the wire tube evaporator 8 opposite the receiving container 20. The resilient arms 33 engage in pairs at the outer longer meandering sections of the refrigerant line 10 shown in FIG.

As further shown in FIG. 6, the film 22 conforms to the wire rods 12 of the lower wire rod level 14 and, when the wire rods press into the film 22, also comes into contact with the refrigerant line 10. This ensures good heat exchange between the thermal storage medium 21 and the refrigerant flowing through the refrigerant line 10.

In the wire tube evaporator 9 described in FIG. 7 and already with reference to FIG. 3, the receptacle 20 with its foil 22 is on the upper side

18 of the wire tube evaporator launched. In contrast to the evaporator 8 shown in FIG. 6, the wire tube evaporator 9 does not have an upper wire rod plane, as already explained with reference to FIG. 3. The upper side 18 of this wire tube evaporator θ closes with the refrigerant line 10. The film 22 of the receptacle 20 can therefore conform directly to the refrigerant pipe 10, whereby a particularly faster

Heat exchange between the thermal storage medium 21 in the receptacle

20 and the refrigerant in the refrigerant line 10 is made possible.

The film 22 and the shell 23 of the receptacle 20 shown in Figs. 4 to 7 each cover a surface corresponding to that of the top 18 and bottom 17 of the wire tube evaporator 8 and 9 shown in Figs. 2 and 3, respectively. That The length of the shell 23 shown in FIG. 4 corresponds approximately to the length of the wire tube evaporator 8 or 9 shown in FIGS. 2 and 3, and the width of the shell 23 is approximately equal to the width of the wire tube evaporator 8 or 9.

Claims

claims 1. Refrigeration device with at least one plate-shaped evaporator (8, 9) and at least one receptacle (20) having a thermal Storage medium (21), wherein the receptacle (20) has a limp Behältnisteileil (22), which for heat exchange between the thermal storage medium (21) and the evaporator (8, 9) conforms to the evaporator (8, 9), characterized in that the pliable container part (22) adjoins an outer surface (10, 12, 17, 18) of the Evaporator (8, 9) snuggles. 2. Refrigerating appliance according to claim 1, characterized in that the receptacle (20) from the pliable container part (22) is formed to a part and to another part of a rigid container part (23). 3. Refrigerating appliance according to claim 2, characterized in that the rigid container part (23) and the pliable container part (22) are liquid-tight, in particular by welding, connected to each other. 4. Refrigerating appliance according to claim 2 and 3, characterized in that the rigid container part (23) is molded from plastic. 5. Refrigerating appliance one of claims 2 to 4, characterized in that the rigid container part (23) has the shape of a shell (23) whose opening is closed by the pliable container part (22). 6. Refrigerating appliance according to claim 5, characterized in that the shell (23) has a peripheral edge at its rim (24) on which the pliable container part (22) is attached. 7. Refrigerating appliance according to one of claims 2 to 6, characterized in that the rigid container part has ribs (26). 8. Refrigerating appliance according to one of claims 2 to 7, characterized in that the rigid container part (23) and the pliable container part (22) each cover an area approximately in the area of a plate side (17, 18) of the Evaporator (8, 9) corresponds. 9. Refrigerating appliance according to one of claims 2 to 8, characterized in that the evaporator (9) is designed as a wire tube evaporator and is provided on only one of its plate sides (17) with wire rods (12) and the receptacle (20) on an opposite, of wire rods (12) free plate side (18) of the wire tube evaporator (9) is arranged in heat-conducting contact. 10. Refrigerating appliance according to one of claims 2 to 8, characterized in that the evaporator (9) is designed as a wire tube evaporator with arranged on its two sides of the plate wire rods (12) and the receptacle (20) is arranged on one of the plate sides in heat-conducting contact. 11. Refrigerating appliance according to one of the preceding claims, characterized in that the evaporator (8, 9) is aligned horizontally in the refrigerator and on its upper side (18) carries the receptacle (20). 12. Refrigerating appliance according to one of the preceding claims, characterized in that the receptacle (20) via latching means (33, 34) is attached to the evaporator (8, 9). 13. Refrigerating appliance according to claim 11, characterized in that the latching means a frame (30) which receives and fixes the receptacle (20) in its opening, and by the frame (30) projecting resilient arms (33) with locking lugs (34) having the evaporator (8, 9) on its the Receptacle receptacle (20) opposite plate side (17; 18). 14. Refrigerating appliance according to claim 12, characterized in that the frame (30) has a groove (32) into which the pliable container part (22) and the rigid container part (23) engage at their connection points. 15. Refrigerating appliance according to one of the preceding claims, characterized in that the refrigeration device is designed as a freezer.