CS267158B1 - Evaporator for refrigeration and freezing equipment - Google Patents

Abstract

The essence of the solution is that the upper bottom is provided with a rim extending into the vertical walls at the point of contact and with another rim at the point of contact with the shorter vertical wall, covering the transition edge of the shorter vertical wall with a smooth rounding at the edge of the transition to the vertical wall.

Description

The invention relates to an evaporator used in refrigeration and freezing devices of a horizontal design, in which the construction of the bottom is solved.

The design of the horizontal refrigeration or freezing equipment is such that in the lower part of the product there is a condensing unit or just a compressor, above it an evaporator placed in insulation. Design of evaporators, their heat exchange part, t. j. the channels in which the refrigerant flows are designed as clad from two sheets, or are made of shaped tubes wrapped on the walls of the evaporator. In order to make the most of the space occupied by the product, the condensing unit or compressor is extended to one side of the product. This creates a greater storage depth in the evaporator. At the same time, however, this structurally and technologically complicates the lower part of the evaporator - the bottom, which instead of one is in two horizontal planes: the upper and lower, which must be connected by a vertical wall.

The hitherto known methods of solving the upper bottom are such that the vertical wall connecting the upper and lower bottom forms a box-shaped shape at right angles without smooth transitions. This solution has the disadvantage that the product on its lower part, especially in the corners, is difficult to clean, when defrosting icing, condensate flows into the insulation. This gradually moistens it until it is completely degraded. Such a product in operation is manifested by a disproportionately high consumption of electricity. energy. In addition, clad evaporators cannot be used for the bottom at all, as they must not bend without a smooth transition, otherwise the channels will collapse. The plated evaporators do not have the bottom cooled down. Alternatively, the use of an evaporator with a wrapped snake has a cooled and lower part, but the evaporator snake must have additional corners in the corners that go into the insulation, which reduces the contact area of the snake with the wall. These shortcomings ultimately have an impact on increased electricity consumption. In addition, the simultaneous use of a clad evaporator or an evaporator with a coiled snake is excluded.

The above-mentioned disadvantages are eliminated by the evaporator for refrigeration and freezing devices according to the invention, the essence of which consists in that the upper bottom is provided at the point of contact with the vertical walls with a rim extending into them with a smooth rounding at the edge of the transition to the vertical wall.

The evaporator according to the invention makes it possible to reduce production costs, to produce an evaporator in an alternative with a clad evaporator or a wrapped snake. In * operation, the benefits are manifested in. perfect cleaning of the product.

In the attached FIG. 1 is an overall assembly of the evaporator, FIG. 2 is a detail of the upper bottom.

The evaporator is structurally arranged according to FIG. 1 in such a way that it uses the depth dimension in the lower part and thus also the volume created after placing the compressor or condensing unit on one side. A bounce is formed in the vertical walls 1 and 2 of the evaporator, which creates an upper bottom, a lower bottom 4 and shorter vertical walls, 5. In this case, the construction and shape of the upper bottom 3 allow a mutually smooth transition of the shorter vertical wall 5 to the hot bottom 3 and the lower bottom 4 '. This creates a spherical transition in all corners and a smooth transition at the interface of the vertical walls 2 and 5 with the horizontal bottom 2.

In FIG. 2 shows the upper bottom whose edges 7 connect the upper part of the evaporator from the outside. The skirt 6 overlaps the transition edge with the vertical wall and extends into the inside of the evaporator. A radius is formed between the rim 6 and the edge 8, which extends from the side walls 7, 2 and increases from zero to a maximum inwards.

Claims (3)

EN 267 158 B1 3 OBJECT OF THE INVENTION An evaporator for refrigeration and freezing apparatus of a horizontal construction with a membered rim, characterized in that the upper bottom (3) is in contact with the vertical walls (1, 2) provided with them (7) and engaging with the shorter vertical wall (5). ) is provided with a further flange (6) covering the transition edge of the shorter vertical wall and the continuous rounding at the edge of the transition into the vertical wall (1, 2). 2. Evaporator according to claim 1, characterized in that the vertical walls (1, 2, 5) have channels produced by plating. 3. Evaporator according to claim 1, characterized in that the vertical walls (1, 2, 5) are wrapped in a shaped or circular tube. 2 drawings