ES2309355T3 - REFRIGERATOR APPLIANCE WITH A FIN WITH MOVEMENT. - Google Patents

Abstract

The invention relates to a pivotable flap (30) of a storage compartment (21) in a refrigeration device, said flap being retained in an open position by a holding strap (35). The latter has a constant radius of curvature in a relaxed state.

Description

Refrigerator with a flap with movement limited.

The present invention relates to a refrigerator such as, for example, a freezer, a combination of  Fridge / freezer or the like with a cooling space in which at least one receiving compartment is accessible by of a pivotable fin.

It is usual, particularly in the case of high-end freezers, provide apart from compartments drawer storage for material to be frozen, compartments that are generally arranged in the region lower cooling space, also compartments closable with fins, because the contents of a compartment in drawer shape can only be seen from above, which in the case of compartments arranged in height presents difficulties, but the contents of a compartment closed by a fin are also You can see ahead. In order to dispose of the surface of the fin as a temporary deposit surface during the storage or storage change of material to cool or freeze, it is useful to limit the freedom of the opening movement of the flap so that the flap open stops in one position horizontal.

In DE 198 177 65 A1 a strip of retention of plastic material as a means to limit the freedom of opening movement, strip that is fixed by a first fin retention element and for a second element of retention to a wall of the refrigeration space surrounding the fin, adopting the strip a relaxed U-shaped configuration with a curved region enclosed by two straight elements when the fin is closed and it stretches when you open the fin, where the strip retention stretches completely straight when the fin reaches the horizontal stop position.

These retention strips have proven to be susceptible to wear; in particular, after a period of Longer use tend to break in its curved region.

The object of the present invention is to facilitate a refrigerator, in whose cooling space a compartment receiver is accessible by means of a fin that has a freedom of pivot movement limited by a retention strip, where the service life of the retention strip is extended.

The object is achieved because the retention strip in a relaxed state it has a constant radius of curvature throughout its length between the two retention elements.

This radius of curvature can be endless; in this case a bending load, which acts on the retention strip stretched when the fin opens, it is distributed to its full length instead of only a part of it, as in the case of The known construction.

The radius of curvature of the retention strip in the relaxed state is preferably infinite, that is, the retention strip in the relaxed state is straight. Consequently, when the fin is open and the retention strip is pushed by the weight of the fin and possibly the cooling material temporarily placed on top of it, it also does not simultaneously receive a deformation load, which also contributes to the
prolongation of service life.

Conversely, when the fin is closed, the retention strip is in an elastically deformed state, which, however, since the strip is not simultaneously in tension, It produces only a low load of material.

In order to ensure that, when closing the flap, the retention strip does not get stuck between the fin and the frame, it has shown that it is advantageous to join the retention strip in a end to the receiving compartment so that it can pivot easily and at the other end to the fin so that you can't swing or you can do it with difficulty. Thus, when closing the flap, the part of the fixed retention strip she leans on at least a part of the closing path in the direction of the compartment inside and pushes the entire retention strip inside the receiver compartment; however, towards the end of the movement the tension of the retention strip should be at a sufficient level in order to rotate its end attached to the fin.

Other features and advantages of the invention are evident from the following description of examples of embodiment with reference to the accompanying figures, in the that:

Figure 1 represents in a side view, in simplified and schematically, the upper section of a vertical freezer, whose two freezer compartments Upper can be closed with a pivotable flap to a position deposit horizontal and stay in this position by strips of retention.

Figure 2 represents a sectional view partial through the flap and the frame, which surrounds it, at the level of the line in figure 1.

Figure 3 represents a view of a first embodiment of the retention strip according to the invention, in position relaxed

Figure 4 represents a sectional view a through the retention strip of figure 3 retained on a wall side of the fin, which is illustrated by way of detail.

Figure 5 represents a view of a second realization of the retention strip.

Figure 6 represents a sectional view a through the retention strip, according to a third embodiment, retained in a side wall of the fin, illustrated by way of a detail.

And Figure 7 represents a possibility of alternative clamping of the retention strip to the fin.

Figure 1 depicts in illustration simplified schematic a domestic freezer 10, built as  a vertical apparatus, with a thermally insulating door 11 and a thermally insulating box 12, which has an outer coating 13, a layer of thermal insulation 14 made of foam and a inner lining 15 produced by forming without cutting A sheet of plastic material. This inner lining is arranged in the door side end sections of its two side walls 16 with cavity-shaped receptacles 15, which They are formed by deep drawing and arranged so approximately vertical one on top of the other, and serves to cover a freezing space 18 accessible through door 11. The freezing space 18 is cooled by an evaporator system 19 with evaporating rows 20 arranged at uniform separations one on top of the other and they extend substantially horizontal. Under the vertical spacing of the rows evaporators 20 relative to each other, the freezing space It is divided into 21 refrigerating compartments that are arranged one on top of the other and of which the compartments arranged more below are equipped with receiving containers in the form of 20 drawer for storage of material to be frozen, while the two refrigerating compartments 21 arranged above are they can close on their front side, which looks at door 11, by a fin 30 that can pivot about a horizontal axis and be explain in more detail later. Two respective receptacles of the receptacles 17 are arranged in each side wall 16 to the level of each of the upper compartments 21. In this exemplary embodiment, the horizontal pivot axis is formed by two mutually opposite coaxial support pins 23 that are fixed by a retention part (not shown) in the part bottom of the two cavity-shaped receptacles 17 in both side walls 16. Above the support pins 23, the support pins 24 are firmly inserted, meanwhile of retention 25 cooperating as a force lock with the receptacle 17, in the highest cavity-shaped receptacle 17.

As you can see in particular in Figure 2, retaining pin 24 has, for depth limitation of insertion of the retention part 25 in the receptacle 17, a stop ring 26 joined by a support section 27 that ends at its end in front of the stop ring 26 by a retention cord 28. In addition, retaining pin 24 includes a section of lock 29 provided for retention of a fin 30, which has already been explained above and serves to close the compartments superior refrigerators 21, of construction substantially to shell mode and injection molded plastic material. For retention in its closed vertical position, fin 30 is equipped on its side walls 31 with a receptacle 32, built so that it opens on the edge towards the space of freezing 18 and provided with a notch and in which the section of lock 29 is able to enter to fix fin 30 in position closed. The flap 30 can pivot about a horizontal axis of rotation formed by the support pin 23, which is arranged on the side walls 16 and which is capable of engaging by its support section (not shown) in a receptacle of support 33 arranged on the side walls 31, the receptacle in the form of a slot that extends vertically to along side walls 31. Coaxial through holes mutually opposite 34 (see figure 4) are arranged between the support receptacles 33 and the notch receptacles 32 in the side walls 31 of the fin 30. These holes serve to reception of a retention element 36, which is arranged in one of the two free ends of a retention strip represented in Figure 3 and that can be joined with the passage holes 34 in shape of a detachable retention connection. The retention element 36 is integrally connected with the retaining strip 35 made, by example of polyamide in an injection molding process of plastic material. At the second free end of the strip retention 35 a support eye 37 has been formed which is provided with so that it is rotatably retained in the retention portion 25 of the retaining pin 24 between the stop ring 26 and the bead of retention 28.

Each fin 30 is arranged in its two walls sides 31 with a respective retaining strip 35. In its relaxed configuration depicted in figure 3, the strip of retention 35 is straight; This is also the configuration it adopts, as illustrated in figure 1 in dashed lines, when the fin 30 is open. When the fin is closed, the retention strip 35, as illustrated in Figure 1 in solid lines, is curved evenly throughout its entire length and extends so arched inside the storage compartment 21.

In the case of the embodiment illustrated here, in that the retaining element 36 engages in circular holes of step 35 of the side walls, the retaining strip 35 can pivot around its two ends. However, the connection of retention with the side wall 31 is constructed in such a way that the retaining strip at this end is fixed more firmly than in the retaining pin 24, whose support section 27 engages around support eye 37 with little slack. This way it it achieves that, when closing fin 30, the orientation, which stands out in an angle of the strip 30 and that the retention strip 35 holds when the sheet is open, keep at least at the beginning so that the retention strip is pushed back into the compartment 21 and cannot be stuck between the side wall 31 of the flap 30 and the opposite side wall 16 of the coating interior 15.

The straight retention strip of Figure 3 is can be mounted identically on both side walls 31 of the fin 30.

In the case of the modification represented in the Figure 5, the retention strip 35 is uniformly curved in the relaxed state illustrated, but when the fin is open, like It is represented in figure 1, it stretches straight. This strip of retention 35 thus receives load in flexion not only when the fin is closed, but also when the fin is open. Dice that the flexural load is distributed over the entire length of the retention strip, does not result in appreciable fatigue of the material. The retaining strip is mounted so that the convex side of your curvature look down when fin 30 is partially open This ensures that, by closing the flap, the strip of retention is reliably transformed to the configuration illustrated in solid lines in figure 1 and do not deviate, for example, up leaving the stretched configuration.

In contrast to the retention strip of the figure 3, the retention strip of figure 5 has to be done in left or right construction for the two side walls 31 of fin 30. However, this can be avoided if the element of retention 36 integrally formed in the retention strip is replaced by a second support eye 38 of the same size as the support eye 37 and, as shown in figure 6, a pin of retention 39, which assumes the function of retention element 36, is introduced through the eye 38 and the passage hole 34 of the fin 30.

Another modification is explained with reference to the Figure 7, which represents a detail of a side wall 31 of the fin. Circular hole 34 has been replaced here by two slots concentric 40 through which hooks a retention finger respective 41 of the retention element 36. Since the finger of retention 41 is narrower than slots 40, the strip of retention 35 has a limited freedom of pivot movement in the side wall 31. In that case, for example, a final position of the freedom of pivot movement, indicated in figure 7 by a dot and stroke contour of the retention strip 35, corresponds to the retention strip 35 tight when the fin is open while the contour illustrated in lines of points corresponds to an orientation of the retention strip when the fin is closed. The limited freedom of movement Rotational ensures that, even in this closed position, the strip of retention 35 protrudes from fin 30 at an angle inside the refrigerator compartment 21 and thus avoid the jam of the strip retention between fin 30 and side walls 16.

Claims (8)

1. Refrigerating apparatus with a cooling space and at least one receiving compartment (21) accessible by means of a pivotable fin (30), fin (30) that is held in an open position by a retention strip (35) having two retention elements (36, 37), of which a first element (36) is fixed to the fin (30) and the second element (37) to the receiving compartment (21), characterized in that the retention strip (35) it has in a relaxed state a constant radius of curvature throughout its length between the two retention elements (36, 37). 2. Refrigerating apparatus according to claim 1, characterized in that the radius of curvature of the retention strip (35) is infinite. 3. Refrigerating apparatus according to claim 2, characterized in that the retention strip (35) adopts its relaxed state in the open position of the fin (30). 4. Refrigerating apparatus according to any of the preceding claims, characterized in that the retention strip (35) deforms elastically when the flap (30) is closed. 5. Refrigerating apparatus according to any one of the preceding claims, characterized in that the retention strip (35) is attached at one end to the receiving compartment (21) so that it is easily pivotable and at the other end to the fin (30) so that cannot pivot or is difficult to pivot. 6. Refrigerating apparatus according to claim 5, characterized in that the second retention element (37) is fixed to a retention pin (24) which in the closed position of the fin (30) engages in a receptacle (32) of the fin (30). 7. Refrigerating apparatus according to any of the preceding claims, characterized in that the support strip (35) is an injection molded part of plastic material. 8. Refrigerating apparatus according to any of the preceding claims, characterized in that the receiver compartment (21) is a freezer compartment.