DE3109958A1 - Refrigerator - Google Patents

Abstract

The invention relates to a refrigerator with two plate evaporators which are connected in series in a refrigerant circuit and are arranged in spaces separated from one another and of which the freezing evaporator assigned to the colder space is arranged spatially above the refrigerating evaporator and is connected to it via pipelines and the refrigerating evaporator is parallel to a vertical side wall. In order to ensure that a heating of the refrigerating evaporator serving for defrosting the ice deposit can be omitted or at least substantially reduced, the pipelines (7, 8) are connected to the refrigerating evaporator (9) in the lower region of the latter and are surrounded by a heat insulation (13, 14) over their length located in the refrigerating compartment (3). <IMAGE>

Description

Cooling device

The invention relates to a cooling device according to the preamble of the first Claim.

It is known in refrigerators a freezer compartment and one of them to assign an evaporator to the heat-insulated, underneath the cooling space. The refrigerator compartment evaporator, which is parallel to a vertical side wall of the refrigerator compartment is connected via pipes to the freezer compartment evaporator and the latter connected in series as a post-evaporator in the refrigerant circuit. the Evaporators are designed as plate evaporators and made from a circuit board, and the pipelines between the two evaporators in a plate-shaped Bridge are guided. (DE-OS 20 60 796) In practical operation it has been shown that by direct cooling line from the freezer compartment evaporator via the pipes and by the refrigerant flowing in from there, icing in the cooling compartment in particular at the pipelines and at the connection point of the same with the refrigerated compartment evaporator occurs. The refrigerated compartment evaporator is used to ensure that the ice build-up is removed during operation an electrical auxiliary heating is assigned, which is used in the downtimes of the coolant compressor is switched on. The heat generated in the process must, however, be switched on again when the system is switched on again of the compressor are at least partially discharged via the refrigerant circuit, for which additional energy is required.

The invention is based on the object of a cooling device according to the preamble of the first claim to take measures through which a heating the refrigerated compartment evaporator can be omitted or at least significantly reduced.

The solution to this problem takes place according to the invention by the characterizing Features of the first claim.

The embodiment according to the invention is in the thermally insulated A section of the pipelines that are in mutual thermal contact formed, in which the heated in the refrigerator compartment evaporator to relatively high temperatures evaporated refrigerant its heat to the parallel to it,. on the other hand kaltei releases refrigerant, which then undergoes additional pre-evaporation and overflows into the refrigerator compartment evaporator at a higher temperature.

A particularly simple extension of the isolatable route can can be achieved in that the pipelines over part of their length be molded into the circuit board of the refrigerated compartment evaporator and in the circuit board is arranged parallel to the pipelines running slot.

This will partially cut the piping from the rest of the board Interruption of the thermal connection decoupled.

Advantageous refinements of the invention are set out in the further claims specified.

The invention is described below with reference to the drawing of an exemplary embodiment explained in more detail.

In a housing 1 of a cooling device not shown in detail a freezer room 2 and a cold room 3 is a common partition 4 between provided in both rooms. A freezer evaporator is located in the freezer compartment 2 5, of which a web 6 with embossed pipes 7 and 8 through the partition 4 protrudes through into the cooling space 3 below. In the refrigerator 3 is located on the vertical rear wall a parallel plate-shaped refrigerated compartment evaporator 9, the upper edge of which is brought close to the partition 4.

The pipes 7, 8 are with the web 6 up to the lower third of the cooling compartment evaporator 9 pulled and there with a laterally projecting paragraph 10 connected, one of which is laid in a meandering shape in the refrigerated compartment evaporator 9 Evaporation pipeline 11 as a loop with a bifilar arrangement of the line sections goes out. As a result, the refrigerant flowing in through the pipeline 8 is in the refrigerated compartment evaporator 9 guided parallel to the line section of the evaporation pipe 11, into the the relatively highly heated re-evaporated refrigerant flows back and into the pipeline 7 transgresses. In the practical Execution is that of approach 10 adjacent part of the web 6 with the pipes 7 and 8 initially in one piece connected to the cooling compartment evaporator 9 and is then cut out by a Tab thermally decoupled from the refrigerated compartment evaporator 9 by a slot 12.

The web 6 with the pipes 7 and 8 is over its entire length surrounded by the partition 4 to the approach 10 with thermal insulation, which in addition can be covered by a casing 14 made of dimensionally stable material.

The heat insulation piece 13, which is preferably made of foamed plastic exists, can be pushed into the slot (12), which serves as a guide, from above will. The thermal insulation piece 13 consists of a split molded piece that is attached to its separating points is tightly sealed to prevent the ingress of moisture and thus avoiding the formation of ice. In the area of the connection point of the pipelines 7.8 to the cooling compartment evaporator 9 is a sensor 15 of a thermostatic at the approach 10 Arranged control switch, which causes the control of the refrigerant compressor. From the approach 10, the pipes 7, 8 set in the circuit board of the refrigerated compartment evaporator 9, the adjoining line sections 16 and 17 of the evaporator pipeline run parallel to one another and adjacent to one another and meander-shaped Lead in the circuit board of the cooling compartment evaporator 9 are merged. The evaporation pipeline 16, 17 thereby forms a loop.

In this embodiment, the inflowing through the pipeline 8 occurs cold refrigerants through the heat coupling via the web 6 in heat exchange with the pipe 7, which carries the refrigerant heated in the refrigerated compartment evaporator 9.

As a result, the inflowing refrigerant already occurs with increased temperature into the freezer compartment evaporator 9 where it passes through the vicinity of the pipe section 17 to the line section 16 and the influence of the ambient heat further in his Temperature is raised. The line section 16 leads opposite the line section 17 also the higher temperature, so that over the entire length of the evaporation pipe sets a uniform temperature distribution on the refrigerator compartment evaporator 9. Through this is due to the special management of the refrigerant supply and discharge lines and the Thermal insulation of the critical section in the area of the supply line 8 and there any heat exchange taking place reliably prevents icing. This allows an electrical There is no need for additional heating, the production and assembly of which is not only costly it also no longer needs the heat supplied by the refrigeration machine to be led away. There is thus a saving in material, costs and especially energy consumption.

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Claims (9)

Claims cooling device with two in series in one refrigerant circuit switched plate evaporators Zvon arranged in separate rooms which the freezer evaporator assigned to the colder room is spatially overhead of the refrigerated compartment evaporator is arranged and connected to it via pipes and the refrigerated compartment evaporator is parallel to a vertical side wall, thereby characterized in that the pipes (7,8) with the refrigerated compartment evaporator (9) in its connected lower area and over its length lying in the cooling compartment (3) with a Heat insulation (13, 14) are surrounded. 2. Cooling device according to claim l, characterized in that the pipes (7, 8) molded into the circuit board of the refrigerated compartment evaporator (9) over part of its length are and that in the board a parallel to the pipes (7, 8) Slot (12) is arranged. 3. Cooling device according to claim 2, characterized in that the thermal insulation (13, 14) engages in the slot (12). 4. Cooling device according to claim 1 or one of the following, characterized in that that in the area of the connection point of the pipes (-7, 8) to the refrigerator compartment evaporator (9) a sensor (15) of a thermostatic control switch for controlling the Refrigerant compressor rests on the refrigerated compartment evaporator (9). 5. Cooling device according to claim 1 or one of the following, characterized in that that the pipes vertically from above to a laterally projecting shoulder (10) of the refrigerator compartment evaporator (9) are connected. 6. Cooling device according to claim 1 or one of the following, characterized in that that the thermal insulation consists of a split fitting that is at its separation points is tightly closed. 7. Cooling device according to claim 1 or one of the following, characterized in that that the thermal insulation is covered with a casing made of dimensionally stable material. 8. Cooling device according to claim 1 or one of the following, characterized in that that the pipes (7, 8) at the ends of an evaporation pipe laid in a loop are connected with the line sections running parallel next to one another (16, 17) are arranged in the cooling compartment evaporator (9) in such a way that the one with the pipeline (8) connected line section (17) for inflowing refrigerant parallel to and runs next to the line section (16) that carries the heated refrigerant and is connected to the pipeline (7). 9. Cooling device according to claim 1 or one of the following, characterized in that that the pipes (7, 8) in one piece with the refrigerated compartment evaporator (9) connected web (6) are arranged.