ES2265967T3 - A DOMESTIC REFRIGERATOR APPARATUS. - Google Patents

Abstract

This invention relates to an evaporator household refrigerating appliances such as a refrigerator and refrigerator-freezer combis or the like, with a pipe-like, refrigerant line (13) which is embodied at least approximately in a heat conducting manner and is at least approximately shaped like a zig-zag and substantially in contact in a heat-conductive manner with a more or less heat-conducting carrier tray (11). It also comprises an aluminum carrier tray to which a zig-zag shaped aluminum pipe is subsequently brought into thermal by means of welding or sticking using an aluminum adhesive tape. The disadvantage of securing the pipe in this manner is the relatively high amount of labor involved and the unreliable thermal contact between the pipe and the carrier tray. According to the invention, the pipe is fixed to the carrier tray by foaming using polyurethane foam.

Description

A domestic refrigerator.

The invention relates to an apparatus domestic refrigerator such as a refrigerator, an appliance combined cooling and freezing or the like, with a evaporator that has a tubular refrigerant conduit, which is of thermally conductive construction at least approximately and so meander-like and fixed -in substantially contact thermal conductor - on a support plate arranged on a wall of the cooling space of the domestic refrigerator. Such devices are known, for example, by GB-A-1 259 025.

In the case of devices used in domestic refrigerators, it is known to introduce their channels refrigerant, used to drive refrigerant, by formation without cutting in an aluminum sheet with the use of the method of union by lamination or union Z. In addition, in the refrigerators it is they also use evaporators composed of a support plate of aluminum and a separate prefabricated aluminum tube that forms in meander shape and fixed to the support plate in contact thermal conductor with it. To fix the conductive tube of refrigerant to the support plate it is known, for example, to fix the prefabricated tube to the support plate by means of a connection welding. For this, for example, one of the welding elements It is coated with a layer that serves as solder that, when heated this welding element, comes into connection with the other element pretreated welding for welding, where the support plate is connect with the preformed tube so that it is in contact thermal conductor. This way of fixing the conduit tube of refrigerant to the support plate is not only production complicated and therefore expensive, but also implies intrinsically the risk that the thermal conductive connection of the two components of the evaporator are subject to the care you put in his work the production staff. Another desirable possibility in the practice of connecting the refrigerant conduit tube of aluminum with the aluminum support plate, the use of an aluminum coated adhesive strip with the help of which the tube conduit, which for the purpose of conductive contact thermal is pressed against the aluminum support plate with a certain compression pressure, overlaps along its length and it is fixed by the overlapping ends of the adhesive tape to the support plate This form of fixation also presupposes the pretreatment, which is expensive in terms of production, of the two connection elements, at least with respect to a certain degree of absence of dust and grease to achieve a retention force that guarantees the creation of thermal conductor contact between two components, produced by the adhesive strip coated with aluminum. In addition, the positionally correct application of the tape Adhesive suitable for series production is only possible with substantial effort in terms of engineering of production.

The invention is based on the task of improving the domestic refrigerator known for GB-A-1 255 025.

According to the invention, this task is carried out. by the features of claim 1.

Through the use of retention means, which they are liquids in their processing, to fix a conduit tube, made by example of aluminum, on a support plate also formed for example aluminum, it ensures that the retention means of liquid are able to follow the contour of the curved duct of coolant so that it looks like a meander. Thus, the refrigerant line is maintained throughout its length by the adhesive action of the retention means in conductive contact thermal with the support plate with an especially high level of functional safety, where the entire plate mounting surface of support to mount the tube conduit, which before the application of the retention means is pressed to contact thermal conductor with a certain clamping force on the mounting surface, can be coated with retaining means of liquid. By coolant line pressure prefabricated on the mounting surface of the support plate ensures at the same time that the liquid retention means are keep separate from the contact region, which produces the thermal exchange, between the refrigerant conduit tube and the mounting plate By creating a coating form on the mounting surface of the support plate by the means liquid retention, the refrigerant conduit tube after of the hardening process of the liquid retention means is embedded at least substantially so that the tube coolant conduit, on the one hand, is permanently fixed on especially intense thermal conductor contact and, on the other hand, especially positionally accurate on the surface of mounting of the support plate. By using means of liquid retention that act in an adhesive way is also possible avoid, without loss of retention force between the two components to connect, an expensive cleaning process of these two components, such as that required, for example, for a connection of welding. The problems that arise with the production method known from an evaporator, such as, for example, in the case of lamination joining method and the Z joining method or in the case from welding a refrigerant conduit tube to a support plate, to know rejections - due to production - of the evaporator, are avoided less substantially in the case of the evaporator according to the invention. For this reason a thermal and zonal conductor contact is obtained especially safe from the evaporator plate, which is used as a cold wall evaporator, with the thermal insulation side of a container for the material to cool.

The prefabricated refrigerant conduit is ride especially safely without additional assistance on the mounting surface of the support plate in the case of a evaporator with a refrigerant conduit that has a section deformed circular transverse with at least one surface of approximately flat support through which the refrigerant conduit at least substantially conductive thermal support on the support plate if, according to a preferred embodiment of the object of the invention, the surface of the retention means in hardened state is about the center of the circular cross-sectional area distorted. By building the conduit tube of refrigerant, for example, with a D-shaped cross section or an oval cross section and the dimensioning of the height of hardened retention media layer, the conduit tube of refrigerant is mounted on the mounting surface of the plate support with form lock without additional measures. In addition, the retention means in the hardened state, due to its contraction of volume, have the effect that the duct-tube is press under the thrust against the plate mounting surface of support achieving an especially intense thermal transfer between it and the refrigerant conduit tube. In addition, through the integral formation of a flat support surface in the tube coolant conduit is guaranteed a contact especially intense and defined coolant conduit tube with the mounting surface of the support plate to produce a especially intense heat exchange. By "oval" shall be understand here a surface stretched along an axis of symmetry, with curved limit lines at the ends. Such zonal structural can be, for example, an ellipse or two opposite semicircles or semi-ellipses with a rectangle arranged in between.

The flat contact surface of the tube refrigerant conduit can be produced especially simple yes, according to the following advantageous refinement of the matter of the invention, it is planned to construct the cross section deformed semicircular of the refrigerant conduit so that be at least about semicircular.

In correspondence with another embodiment preferred of the subject of the invention, it is provided that media are constructed as a processed heat inhibitor material in initial liquid state.

By fixing such a tube refrigerant conduit to the mounting surface of the plate support, it can be influenced in a particularly selective way in the cold out of the latter. An evaporator produced in this way It is especially suitable for use as the so-called evaporator of cold wall, since the heat inhibitor material reduces shape very little substantial thermal insulation of the wall provided with cold wall evaporator

According to a preferred embodiment Following the subject of the invention, it is envisioned that the heat inhibitor material is formed of foam material thermal isolation.

By using foam material from thermal insulation to fix the refrigerant conduit tube to the Mounting surface of the support plate is produced simple an evaporator that is especially suitable for use as the called a cold wall evaporator in a domestic refrigerator. In addition, the wall of the refrigerator equipped with the evaporator cold wall experiences a very negligible reduction of the thermal insulation capacity. Because of the pressure, which arises at foaming the thermal insulation material, within a pressure tool that presses the refrigerant conduit tube against the support plate, it is also ensured that the material of thermal insulation moisten the free surfaces, which are outside the contact region between the support plate and the tube refrigerant conduit, at least to an important degree and therefore an especially intense retention of the conduit tube of refrigerant in the support plate.

In correspondence with another preferred form of embodiment of the subject of the invention it is provided that the thermal insulation material is formed of foam polyurethane.

Through the adhesive action of the foam liquid polyurethane on the one hand and resistance comparatively high mechanics of this foam material, by the another, the refrigerant conduit tube is held in the sheet of evaporator, in particular in series production, in contact thermal conductor with the support plate securely in process terms and mechanically stable in terms of position.

The refrigerant line is mounted on the support plate especially safely in terms of positional stability if, according to another advantageous refinement of the invention, it is envisioned that the retention means cover the conduit of refrigerant at least in sections along the route in meander shape.

According to a preferred embodiment Following the subject of the invention, it is envisioned that the Coolant duct section coverage occurs by at least one area setting approximately reticulate

Through the reticular duct covering of coolant on its outer side away from the support plate will guarantees at the same time a sufficient fixation of the conduit tube of refrigerant to the support plate, and the time of hardening, for example, of the insulation foam material thermal used as retention means is reduced considerably through the minimized use of material and therefore evaporator production time is optimized.

According to a last preferred embodiment of the subject of the invention it is provided that the conduit of refrigerant and retention means are covered on its remote side of the support plate with a sheet-shaped material that has at least approximately the dimensions of the support plate and that is retained by hardened retention means.

Through full coverage of the means of retention that serve to fix the refrigerant conduit tube to the support plate, for example retention means in the form of thermal insulation foam material, the material of thermal insulation that is intrinsically porous in state hardened is protected against mechanical abrasion produced by for example, by manipulating the evaporator until it is mounted on the fridge. Evaporators covered in that way are also suitable for use such as so-called rear wall evaporators inside the cooling space of a refrigerator. A sheet of coverage that serves as a water vapor barrier, is especially suitable to cover the foam material of thermal isolation.

The invention is explained in the description. following on the basis of an exemplary embodiment illustrated in simplified form in the accompanying drawing, in which:

Figure 1 shows an evaporator in the form of sheet according to the invention in perspective view from the part lead.

And Figure 2 shows, by way of detail, the evaporator according to figure 1 in sectional illustration according to section line II-II.

According to figure 1 an evaporator is shown in sheet form 10 which, for example, has application as the so-called cold wall evaporator and that includes a support plate 11 that It consists of thermally conductive material such as, for example, sheet metal aluminum or steel protected against corrosion or the like. The support plate 11 has a large area on its sides mounting surface 12 on which it rests in conductor contact thermal a tube conduit, which is formed in the form of a meander and serves as a refrigerant conduit 13, of conductive material thermal, such as, for example, aluminum sheet or protected steel against corrosion or the like. To produce a transfer thermal optimized from the refrigerant conduit 13 to the plate of support 11, the refrigerant conduit 13 which has originally a circular cross section, deforms with with respect to its cross section such that after the deformation have a substantially shaped cross section of D with a support surface 14, which is substantially flat and whereby the refrigerant line 13 is arranged in contact thermal conductor with support plate 11 (see for this figure 2). To fix the refrigerant line 13 in contact thermal conductor on the support plate 11, the first one embedded in this case in an adhesive thermal insulation material asset that serves as a means of retention 15, so it occurs a sandwich evaporator construction. This one is coated in initial liquid state at least on the surface region of assembly 12 which is occupied by the refrigerant conduit 13, which is similar to meander and before coating the liquid retention means 15 is pressed under a certain thrust force forward on support plate 11. Due to the thrust force exerted on the refrigerant line 13 not only a zonal thermal conductive contact of the conduit is ensured of coolant 13 on the support plate 11, but also prevents the retention means 15 present in liquid form initial may penetrate between the support surface 14 and the corresponding sections of the mounting surface 12. In that case, however, by means of retention 15 present in liquid state at the beginning of its processing ensures that, due to its flow capacity, the intermediate spaces created by the form meander of coolant conduit 13 fill being at least substantially free of voids. Through the filling the refrigerant conduit 13 embedded in the retention means, by virtue of their cross-sectional shape, after hardening of the retention means acting as adhesive form 15 as a form lock, not only along mounting surface 12, but also perpendicularly inside of the retention means 15. The retention of the conduit of refrigerant 13 within the retaining means 15 is also facilitates by its reticular surface configuration 16, which covers completely at least the refrigerant conduit 13, in its surface in front of the mounting surface 12. Under the structure of the reticular surface of the retention means 15 ensures at the same time that the refrigerant 13 on its side in front of the support surface 14 is only partially covered by retention means 15 and thus an exchange is possible thermal coolant circulating in the coolant line 14 not only with respect to the support plate 11, but also in opposite direction so that evaporator 10 is also suitable for use, for example, in the so-called rear wall evaporator arranged so that it hangs freely in a space of cooling of a refrigerator.

Apart from thermal insulation material described in the exemplary embodiment as retention means 15, such as polyurethane foam or the like, also suitable are meltable thermoset synthetic materials in the form of masses molded and cast to fix the refrigerant conduit 13 to the support plate 11, where the thermoset melts and molded must be selected with respect to its adhesive action and its characteristic of being able to ensure the thermal expansion of the plate of support 11, on the one hand, and the refrigerant conduit 13, by the other, with the maintenance of the necessary retention force for the refrigerant conduit 13 on the support plate 11.

Alternatively to the refrigerant conduit 13 shown in the exemplary embodiment, a refrigerant duct with circular cross section. The construction according to the invention is also suitable, apart from the construction as an evaporator, for the provision of a condenser.

It is also possible that the conduit of coolant and / or support plate have protrusions with which hardened retention means cooperate with blocking shape.

The refrigerant conduit and the sheet support can also be fixed together and held together exclusively by the adhesive action of the means of retention.

Claims (9)

1. Domestic refrigerator appliance such as a refrigerator, a combined cooling and freezing device or analogues, with an evaporator that has a tubular duct of refrigerant, which is at least approximately construction conductive thermal and similar to meander and fixed -in substantially thermally conductive contact - on a plate thermal conductive construction support, which is arranged in a cooling space wall of the refrigerator domestic, where the refrigerant line (13) is mounted with shape lock and / or force lock by retention means which act in adhesive form (15), which are processed in a state initial liquid and that after its hardening process perform at least substantially the fixation of the conduit of refrigerant (13) to said support plate (11), wherein the means of retention remain substantially separated from the region of contact between the refrigerant line (13) and the plate support (11). 2. Domestic refrigerating apparatus with a refrigerant conduit, which has a deformed circular cross-section with at least an approximately flat contact surface whereby the refrigerant conduit supports substantially thermally conductive against the support plate according to claim 1 , characterized in that the retention means (15) are with their surface hardened on the center of the deformed circular cross-sectional area of the refrigerant line (13). 3. Domestic refrigerator apparatus according to claim 2, characterized in that the deformed circular cross-section of the refrigerant line (13) is at least approximately semicircular. 4. Domestic refrigerator apparatus according to one of claims 1 to 3, characterized in that the retention means (15) are formed as a heat-inhibiting material processed in the initial liquid state. 5. Domestic refrigerating apparatus according to claim 4, characterized in that the heat inhibiting material is formed of thermal insulation foam material. 6. Domestic refrigerator apparatus according to claim 5, characterized in that the thermal insulation material is formed of foamable polyurethane foam. 7. Domestic refrigerator apparatus according to one of claims 1 to 6, characterized in that the retention means (15) cover the refrigerant line (13) at least in sections along the meander-shaped path. 8. Domestic refrigerator apparatus according to claim 7, characterized in that the coverage of the refrigerant duct (13) in sections is produced by at least one approximately reticular area configuration (16). 9. Domestic refrigerator apparatus according to one of claims 1 to 8, characterized in that the refrigerant duct (13) and the retaining means (15) are covered on their remote sides of the support plate (11) by a shaped material sheet having at least approximately the dimensions of the support plate (11) and which is retained by the hardened retaining means (15).