DE1014565B - Household refrigerator - Google Patents

Description

Domestic refrigerator The invention relates to a refrigerator with a metallic insert that forms the walls of the cold room and an evaporator, which is housed within the insert and forms one or more shelves, which divide the cold room into individual compartments, with one between each Departments to achieve balanced cooling.

There are already refrigerators known in which the evaporator lengthways throughout the room to be cooled. With these cabinets is the interior divided into individual departments by partition walls.

In other known refrigerators, the evaporators are used as shelves or regular grids designed to be balanced between the individual departments To achieve cooling.

Such types of refrigerator, however, have the disadvantage that a large number of pipe connections is required, reducing the risk of leaks given is.

There are also refrigerators known that. with U-shaped evaporators are provided, the evaporator legs forming horizontal shelves. These vaporizers are arranged freely hanging inside the cold room. Your base area is only a fraction of the floor space of the cold room. The U-shaped evaporator themselves are only used to hold ice bowls and smaller ones on the lower ones prevailing within the evaporator. Temperatures to be held objects. So it cannot rely on a cooling that is balanced between the individual departments be spoken.

In order to achieve even cooling throughout the refrigerator, According to the invention, the evaporator U-shaped and known per se Way so. arranged that the legs of the evaporator are horizontal, wherein the legs of the evaporator are dimensioned so that they extend over the entire width of the cooling space and one of them being the upper end wall of the cooling space forms, while the other runs as a partition wall across the refrigerator compartment.

According to a further feature of the invention, the web part is the evaporator arranged vertically along one of the side walls of the cooling space.

When using two U-shaped evaporators made of sheet metal, both of which are arranged within the insert that forms the cooling space and attached to it are attached, the arrangement is made so that the legs of the second Evaporator extend across the refrigerator compartment and in this additional partitions form and that the web parts of the two evaporators in close contact with opposite one another Side walls of the insert.

The two vaporizers are like this. connected to each other and their passages arranged so that the refrigerant first passes through the inner wall forming the partition Leg of the evaporator forming the end of the compartment flows through from there enters the web and then through the other leg to one of the legs of the second evaporator flows and from here into the web part and then into the second leg of the second evaporator enters.

With the design of the refrigerator according to the invention, a uniform Cooling achieved over the entire cold room. In addition, it enables the inventive Design and arrangement of the evaporators in the arrangement with two evaporators, i.e. with three partition walls, with a minimum of cable connections, whereby the assembly is considerably simplified and also a high degree of security against the occurrence of leaks is achieved, which is known to be preferred train at such connection points.

An embodiment of the subject matter of the invention is shown in the drawing shown and explained in detail on the basis of the same.

I1 ig. Fig. 1 is a front view of a refrigerator according to the invention with compartments arranged vertically one above the other with the door open; Fig: FIG. 2 shows a schematic perspective view of the internal structure of the one in FIG. 1 illustrated refrigerator; Fig. 3 is a top plan view of one of the sheets manufactured vaporizer before it got its final -U-shaped shape- Has; .. Fig. 4 shows in a representation similar to that in Fig. 3, a plan view a second evaporator made of sheet metal; Figures 5, 6 and 7 are sections along lines 5-5, 6-6 and 7-7 in Figure 2; y. ., Fig. 8 is a section along FIG Line 8-8 in Fig. 3 on an enlarged scale.

The refrigerator illustrated in Figure 1 is a domestic refrigerator with compartments arranged one above the other and a door arranged at the front. The refrigerator 10 consists of an outer wall 11 and an insert, which is detailed below. is described between. which insulation material 13 lies in the usual manner. The compartment for the refrigeration machine arranged at the bottom is closed with a cover 15 and takes the usual motor compressor 16 (s: Fiig: 2); the line connection 17 and a capacitor 18. A capillary tube or other expansion device 19 connects the condenser, 18 with the evaporators. From the collector who is in a the evaporator is formed, a return line 21 leads to the compressor of the Moto.rkompressoraggregates 16 back.

The refrigeration machine 16 is controlled by a snap switch 23, which is in communication with a sensor 24, the pipe 26 and the bellows 27, which are filled with a liquid with a low boiling point. Contacts 28 and 29 of the switch 23 ,. by which the engine is started and stopped connected to the mains conductors 31 and 32. The sensor 24 can also be connected to another Place of the unit must be attached as shown in the drawing.

According to the invention is the use that the. Room 12 for. storage of food forms, composed of a number of evaporators so that uniform cooling of the space 12 is guaranteed. The wall of the insert the refrigerator 10 consists essentially of a U-shaped bent. Sheet metal jacket, which forms the rear wall 36 and the side walls 37 and 38 of the cooling space 12. These Wall is therefore open at the top and bottom. At the bottom it is supported by a sheet metal shell 39 closed, which is attached to her with rivets 40 (see. Fig. 7). Above forms a U-shaped bent evaporator the conclusion, whose construction is described below is.

The evaporator shown in Fig. 2 can. made in the way be that one is provided with a corresponding embossed sheet a second brazed on smooth sheet metal or welded these sheets together so that the embossments Form channels. The unit soldered together in this way is then bent into a U shape. Preferably a roll welding process is used instead of a pressure welding process.

One of the evaporators used according to the invention is illustrated in the form of a flat plate in FIG. 3, in which the dash-dotted lines A-4 and BB indicate the folding lines for folding. The plate is bent up and down at its opposite ends, whereby the flanges 41 and 42 are formed. The plate is also provided with an inlet 43 at one edge. The channels formed consist of a straight piece 44 that runs from the inlet 43 to the other end of the plate, and one behind the other and parallel channels 44, 46, 47, 48. An outlet channel 49 connects the channels 48 with the outlet 51, the is next to the inlet 43. The parts of the plate to the right of the line BB and to the left of the line AA. are bent downwards so that a U-shaped evaporator with the legs 53 and 54 and a web part 156 between these legs is formed (see Fig. 2). The U-shaped evaporator formed in this way is inserted into the U-shaped wall part 36, 37, 38 in such a way that its one leg 53 is flush with the upper edge of the inner wall and the web part 56 rests against the side wall 37, while the second leg 54 forms a horizontal support in the cooling space 12. The evaporator is then fastened to the wall of the insert with rivets 57 with the flanges 41 and 42 and with its web part 56. "" A second evaporator used in the present construction is illustrated in flat form in FIG. This evaporator has flanges 58 and 59 at its opposite ends and has an inlet 61 in its central part: its channels 62, 63, 64, 66 and 67 are in communication with a waffle-shaped collector 68; which is arranged between the lines CC and DD. Another channel 69 finally connects the collector 68 with an outlet 71. The plate is then bent into the shape of a "U" along the lines CC and DD so that the evaporator consists of the legs 72 and 73 and the web part 74 (see Fig Fig. 2). This second evaporator is installed in the U-shaped wall between the upper evaporator and the bottom @ 3,9 in such a way that the web part 74 rests against the side wall 38, while the legs 72 and 73 form cooled supports for dividing the cooling space 12. The flanges 58 and 59 at the ends of the legs 72 and 73 and the web part 74 of the lower evaporator are again attached to the wall of the insert by rivets.

The inlet 43 and the outlet 51 of the upper evaporator are with connected to lines 19 and 77, respectively. The inlet 61 and the outlet 71 of the lower. Evaporator are connected in a similar manner to lines 77 and 21, respectively. The connecting line 77, which forms a further evaporator part, becomes one flat evaporator coil 79 curved, which in heat exchange with the side wall 38 stands and by clamps 81 and screws. 82 is attached to this. The side wall 38 receives cutouts (not shown) in addition to the end 78 of the lines 77 and 21, so that the above mentioned connections can be made.

When the switch 23 closes the contacts 28 and 29, so that the motor-compressor unit Receives electricity, then the compressor sucks evaporated refrigerant through the line 21 from the waffle-shaped collector 68 in the lower evaporator. The compressor compresses this refrigerant vapor -and presses it through line 17 into the condenser 18. The liquefied refrigerant is then removed from the condenser through the capillary tube 19 18 pressed into the inlet 43 of the upper evaporator. The refrigerant flows from here through the channel 44 across the upper leg 53 and then down over the Web part 56 in the channels 46 of the lower leg 54 of the upper evaporator. on this way is the evaporation of the refrigerant in the lower leg 54 of the upper evaporator concentrated. The refrigerant flows from here into the duct 47 in the web part of the upper evaporator and from there into the channels 48 and 49 in the upper. Leg 53.

The refrigerant passes through the line from the upper evaporator 77 and coil 79 to inlet 61 of the lower evaporator, whereupon it passes through the channel 62 flows into the channels 63 in the lower leg 73. Because the cold air Always pulls down in the cooling space 12, this concentration of refrigerant evaporation is sufficient in the leg 72 of the lower evaporator, the compartment between this evaporator and to cool the bottom plate 39 to a temperature which is far below 0 ° C, without it being necessary to cool further walls in this compartment. That the channels 63 through the channel 64 leaving refrigerant now flows into the channels 66 in the upper Leg 72 of the lower evaporator and from there through the channel 167 into the vertical standing waffle-like collector 68, which ensures the complete evaporation of the refrigerant in the low pressure part of the system ensures and the return flow of liquid refrigerant prevented in the compressor. Gaseous refrigerant flows from the outlet 71 in the line 21 and from there back into the compressor 16.

In this way, the refrigerant is passed through from the unit 16 the partly one behind the other, partly parallel running channels over different Walls of the U-shaped evaporator and the cooling chamber 12 passed, with only one Minimum line connections must be made. There are in the whole system only four soldered or otherwise sealed line connections required. These four connections exist in the connection of the line 19 with the inlet 43 in the upper Evaporator, the connection of the line 77 to the outlet 51 of the upper evaporator, the connection of the end 78 of the line 77 with the inlet 61 of the lower. Evaporator and the connection of the line 21 to the outlet 71 of the lower evaporator. Through this, that the first stages of evaporation of the refrigerant in the uppermost part of the refrigerator 12 are concentrated and then the lower part of the cooling space 12 is cooled, a more even temperature is achieved overall. Cold room from top to bottom. The temperature gradient between the sections of the cold room, which are arranged one above the other 12 is thereby greatly reduced.

Claims (4)

PATENT CLAIMS: 1. Refrigerator with a metallic insert that forms the walls of the cold room, and an evaporator, which is housed inside the insert and forms one or more shelves that divide the cold room into individual compartments, characterized in that the evaporator U- shaped and arranged in a manner known per se in such a way that the legs are horizontal, that the legs (53, 54) of the evaporator are dimensioned so that they extend over the entire width of the cooling space (12) , and that one ( 53) of them forms the upper end wall of the cooling space, while the other (54) runs as a partition wall across the cooling space. 2. Refrigerator according to claim 1, characterized in that that the web part (56) of the evaporator is perpendicular along one of the side walls (37) of the refrigerator is arranged. 3. Refrigerator according to claim 2, characterized by a second U-shaped sheet metal evaporator located within the insert (36, 37, 38), which forms the cooling space (12), is arranged and attached to it, this arrangement takes place in such a way that the legs (72, 73) of this evaporator across the. Extend cooling space and form additional partitions in this and that the web parts (56, 74) of the two. Evaporator in close installation on opposite sides Side walls (37 or 38) of the insert are. 4. refrigerator according to claim 3, characterized in that the evaporators are interconnected and their passages are arranged so that the refrigerant initially through the inner, the partition forming leg (54) of the end of the compartment. Flows through the evaporator, from there into the web (56) and then through the other leg (53) to one the leg (73) of the second evaporator flows and from here into the web part (74) and then enters the second leg (72) of the second evaporator. In. References considered: U.S. Patents Nos. 2,268,885, 2,470,956, 2,546,737, 2,589,490, 2,626,704.