PL191086B1 - Condenser in particular that for use in refrigerators, freezers or their combinations - Google Patents

Abstract

A condenser (1) for a refrigerator, a freezer, a combination thereof, or the like, which has long working life and which can be produced with tooling of limited complexity, comprises a coil (5) for a refrigerant fluid and a casing (6) for a substance with a high heat capacity; the casing contains the coil (5) and is produced in a single piece by blowing of plastics material. <IMAGE>

Description

The invention relates to a condenser, especially for a refrigerator, freezer or combinations thereof.

As is known, recently condensers with an appropriate heat capacity and increased energy efficiency have been proposed. However, these exchangers are complex in construction and leave much to be desired as to their service life, especially as they are subject to corrosion.

There is known from the European patent application No. EP 0843138A1 an evaporator having a coil through which the refrigerant fluid flows and a cover for substances of high heat capacity. The coil and sheath are metal and rolled together.

There is known in the art a condenser for a refrigerator, freezer or combinations thereof including a coil for a coolant fluid and a housing for a substance of high heat capacity.

The object of the invention is to provide a condenser which has such structural and functional characteristics that it overcomes the above-mentioned disadvantage.

A condenser for a refrigerator, freezer or combinations thereof including a coil for a coolant and a housing for a high heat capacity substance, according to the invention, is characterized in that the housing is a one-piece plastic piece, and the coil is housed in the housing.

Preferably, the casing comprises a tubular portion and two vertically arranged plate portions adjacent to each other and hydraulically connected to each other at least in the region of their upper ends and lower ends, the coil being enclosed in the tubular portion.

Preferably, a fluid with high heat capacity circulates in the housing, which flows upwards in the tubular part of the housing, which encloses the coil, and flows downwards in both plate parts of the housing, forming a thermosiphon circuit.

Preferably the coil has the shape of a cylindrical spiral.

Preferably, the housing plate parts are arranged coplanar next to the tubular part on opposite sides thereof.

Preferably, the housing has opposite side walls with vertical recesses, the bottoms of which touch each other to delimit the tubular part from the plate-like parts of the housing.

Preferably, in the opposite side walls of the housing, in its plate portions, there are projections and recesses fitted into them forming together holes for mounting a condenser.

Preferably, folds are provided in the side walls of the housing, in its plate parts, which form regions with a high degree of heat transfer.

Preferably, the plate portions are tapered from top to bottom.

The condenser according to the invention has the important advantage that it is completely corrosion-free, and therefore can be expected to have an almost infinite service life. Moreover, the condenser according to the invention can also be manufactured easily and quickly with the aid of simple tools. For this reason, it can be produced, even on a large scale, without high capital expenditure, advantageously reducing costs. Finally, it should be noted that the condenser according to the invention has a high energy efficiency. The actually low heat transfer coefficient of the plastic is largely compensated by the increased heat transfer efficiency due to thermosiphon circulation, by the folds that increase the heat transfer surface, and by the convergence which causes turbulent movement of the rising air in the spaces between the condenser and the rear wall of the refrigerator, or the wall of the room with the refrigerator.

The subject of the invention is illustrated in an embodiment in the drawing, in which: Fig. 1 shows a condenser according to the invention in a perspective view; Fig. 2 is a front view of the condenser of Fig. 1; Fig. 3 shows the condenser of Fig. 2, in the direction of arrow III in a side view; Fig. 4 shows the condenser of Fig. 2 in the direction of arrow IV in top view; Fig. 5 is a section through a detail of the condenser of Fig. 2 along the line V-V; Fig. 6 is a section through a detail of the condenser of Fig. 2, taken along line VI-VI; and Fig. 7 is a front view showing a detail of the condenser of Fig. 2, shown on an enlarged scale.

Fig. 1 shows a condenser 1 which is attached to brackets 2 placed on the domestic refrigerator 3 on its rear wall 4. The condenser 1 has a coil 5 for a cooling fluid and a housing 6 for a substance with high heat capacity. The high heat capacity material is preferably a fluid and more preferably water.

The housing 6 consists of three parts: a tubular part 7 having an upper end 7a and an open lower end 7b, a first plate part 8 having an upper end 8a and a lower end 8b, and a second plate part 9 having an upper end 9a and a lower end 9b. The tubular part 7 and the two plate parts 8, 9 of the two plate parts 6 are placed next to each other, more precisely the first tubular part 7 is placed directly between the two plate parts 8 and 9. The plate parts 8 and 9 are shaped as mirror images of each other. and lie on the same plane.

The upper ends 7a, 8a and 9a together form an upper manifold 10 through which the tubular portion 7 and the two plate portions 8, 9 are hydraulically connected to each other. Likewise, the lower ends 7b, 8b and 9b form a lower manifold 11 through which the tubular portion 7 and the two plate portions 8, 9 are hydraulically connected to each other.

It should be noted that the tubular portion 7, which has a vertical axis X, has a predetermined inside diameter D, which, for example, is in the range between 40 mm and 60 mm, and in the embodiment shown is 50 mm.

The coil 5, which is made of, for example, a copper tube, is wound into a cylindrical helix having an outer diameter d slightly smaller than the inner diameter D of the tubular portion 7 (as shown in Fig. 7) and terminating in opposite ends 5a and 5b extending axially and projecting from the housing 6 through the plugs 12a and 12b positioned to close the open ends 7a and 7b of the tubular portion 7 (as shown in Fig. 1).

It should be emphasized that the essence of the solution is that the tubular part 7 and the plate parts 8 and 9 of the housing 6 are one piece of plastic 13 made in one piece. It is made by blowing the plastic according to known techniques, for example by techniques used in the manufacture of plastic containers, for example polyethylene or polypropylene containers and the like.

The plastic element that forms the casing 6 preferably comprises opposite side walls 14 and 15, side wall 14 being on the side of the rear wall 4 of the refrigerator 2 and side wall 15 being on the outside, for example close to the wall. , the room where the refrigerator is located.

In the side walls 14 and 15 there are recesses 16 and 17 and 18 and 19 which are arranged vertically, the bottoms of which are in contact with each other, delimiting the tubular part 7 from the plate part 8 and from the plate part 9.

In addition, the side wall 14 has four frustoconical projections 20, and the side wall 15 has four truncated-cone-shaped recesses 21 deep enough to fit the projections 20 and contact the frustoconical bases in which they are located. holes 22 for fastening the condenser 1 to the supports 2, for example with screws.

In the side walls 14 and 15, in the plate portions 8 and 9, there are folds 23 in the form of parallel grooves 24 extending vertically and having approximately triangular cross sections, creating an area 25 with a high heat transfer rate.

Moreover, the plate parts 8 and 9 are tapered from top to bottom, i.e. the side walls 14 and 15 are slightly inclined relative to the vertical in the plate parts 8 and 9, reducing their thickness from top to bottom.

As a result, the condenser 1 forms, with the rear wall 4 of the refrigerator, a chimney-like space 26 with a cross-section that decreases from the bottom up. A similar space, not shown in the drawing, is created between the condenser and the wall against which the refrigerator is placed.

It should be noted that the water in the pipe part 7 in which the coil 6 is placed flows upwards in the direction of arrow A, and that in the plate parts 8 and 9 flows downwards in the direction of arrow B, forming an essentially thermosiphon circuit. C for water, including manifolds 10 and 11 where the upward and downward jets of water change direction.

Naturally, one skilled in the art may modify the condenser described above based on the drawing in order to meet any specific requirements, but these modifications and changes are however within the scope of protection of the invention as defined by the appended claims.

Claims (9)

1. A condenser, especially for a refrigerator, freezer, or a combination thereof comprising a coil for a coolant and a housing for substances of high heat capacity, characterized in that The housing (6) is a one-piece plastic piece, and a coil (6) is placed in the housing (6). 2. Skraalaac wool claim. 2. A method as claimed in claim 1, characterized in that the circumferential (6) connects the tubular part (7) and two plate parts (8, 9) arranged vertically, placed one next to the other and hydraulically connected to each other at least in the area of their upper ends (7a, 8a, 9a) and lower ends (7b, 8b, 9b), with the coil (5) closed in the tubular part (7). 3. S ^ alaac according to claims A circuit according to claim 2, characterized in that in the casing e6) the total heat capacity circulating flows upwards in the tubular part (7) of the casing (6), in which the coil (5) is closed, and flows downwards in both plate parts (8, 9) of the housing (6) forming a thermosiphon circuit. 4. a condenser according to claim 3, it is important that the coil (5) has the shape of a cylindrical spiral. 5. Condenser according to Claim The process of claim 3, characterized in that the (plate-shaped (8, 9) parts of the housing (3) are arranged coplanar next to the tubular part (7) on opposite sides thereof. 6. Sk ^ laac according to ^^ st ^. 5, characterized by the fact that (^ 6) bobye walls (14, 15) with vertical recesses (16, 17, 18, 19), the bottoms of which touch each other, delimiting the tubular part (7) from the plate parts (8, 9) the housing (6). 7. Sk ^ laac according to the oastra. 6, it is because of the fact that in the right place there are tight spaces (14, 15) of the housing (6), in its plate parts (8, 9) there are protrusions (20) and recesses (21) fitted into them forming together holes (22) for fixing the condenser (1). 8. Skraalasywedłudzzstrz 7, characterized by the fact that in the tight (H, 15) of the edge (6), in its plate parts (8, 9), there are folds (23) forming areas (25) with a high degree of heat exchange. 9. Condenser according to claim 1 2, naaminaay tyirn that the plate parts (8, 9) are tapered from top to bottom.