DE1033686B - Household fridge with separate freezer and storage compartments - Google Patents

Description

Household refrigerator with separate freezer and storage compartments The invention relates to household refrigerators with separate freezer and Storage compartment, of which the freezer compartment by means of heat transfer through its Wall and the storage compartment by an air flow generated with the help of a fan, which passes over the evaporator arranged outside the storage compartment, cooled will.

A well-known refrigerator design is used to cool the compartments an air stream that is blown through an evaporator by means of a fan, then through the freezer and finally through the storage compartment. With another Refrigerator, both compartments are cooled by means of heat transfer, one temporarily Air flow directed through the storage compartment should make the moisture tolerable Keep boundaries. In another known refrigerator, the storage compartment is through cooled by a stream of air flowing around the outside of the compartment.

In these known refrigerators there is a very annoying formation of ice in the refrigerator compartments, especially freezer compartments, cannot be avoided the invention is to prevent such ice formation or to a minimum to belittle.

According to the invention, the freezer and the storage compartments form parts two air circuits connected in parallel, the circuit of the storage compartment includes a duct through which air is drawn after being swept over the evaporator is, is pressed by means of a fan, and the shaft is arranged so that the temperature of the air rises, causing its relative humidity to decrease will. Because the relative humidity of the air flowing into the compartment is low it has the ability to absorb or formed moisture in the compartment Sublime ice.

The invention is based on the drawing of an exemplary embodiment described below and explained in detail.

Fig. 1 is a vertical section through a domestic refrigerator according to the invention; Figure 2 is section 2-2 of Figure 1; Fig.3 is an enlarged section of a refrigerator part shown in Fig. 2; Fig. 4 is a circuit diagram.

The in Fig. The refrigerator shown 1 and 2 consists of an insulated one Refrigerator housing 20 with an upper box-shaped insert 22 which is a storage compartment forms, and a lower, smaller box-shaped insert 24, which a freezer compartment forms. The two inserts are surrounded by thermal insulation. The so educated Compartments are closed by doors 26 and 28, respectively.

Under the insert 24 there is a space 30 in which the evaporator 32 is attached. The vaporizer consists of serpentine ribbed tubes. Each rib extends over all of the evaporator tubes and touches the bottom of the insert 24.

The bottom of the insert 24 carries various ice trays 46 in which Water freezes very quickly as a result of direct contact with the evaporator fins 32 with the bottom of the insert 24.

On the back of the insert 24 there is a vertical shaft 34, which is connected to the central inlet of a radial fan 36. The radial fan 36 is located in another duct 38, the one from the rear of the insert 24 and part of the rear of the housing 20, its insulation has been reduced, is formed. The shaft stretches most of the way the width of the back of the insert 24. There are baffles on the insert in the shaft 40 and 42 attached, which direct the air from the fan 36 to the outside, so that the largest Part of the back is swept by the blower air flow. The path of the air flow in the shaft 38 is so long that the air as much heat as possible through the insert and can accommodate 20 through the inner wall of the housing. The shaft 38 is up to the freezer compartment through a series of inlet ports 44 that extend over the extend the upper part of the insert 24; in connection. A channel 48 extends around the front edge of the top and sides of the insert 24. The lower Ends of the channel are in communication with space 30. Three rows of outlet openings 50 extend across the top and sides of the Insert 24, the air flow forced into the freezer compartment by the fan 36 enable entry into the Kana148.

Another air duct 52 is located above the fan 36, the with the inlet openings in the upper part of the rear of the insert 22 in communication stands so that some of the air exiting the fan 36 into the storage compartment entry. The air supply to the storage compartment is controlled by a throttle valve 56, which is actuated by a temperature-sensitive bellows 58 via a linkage 60-. Outlet openings 62 at the front of each side portion of the insert 22 are through flexible air lines 64 connected to the upper corners of the duct 48.

The evaporator 32 is sealed by a suction line 68 to a Motor compressor 70 connected to the refrigerant through a condenser 72 and a capillary tube 74 is pumped back into the evaporator 32. The motor compressor 70 is by a temperature sensor attached to the rear edge of the evaporator 32 is controlled. The temperature sensor 76 is through a capillary tube with a flexible Metal bellows 78 connected, which opens or closes a switch 80. This switch is in series with the motor compressor 70 and a connecting line 82.

The motor compressor 70 is also in series with a single pole changeover switch 86; which is normally in the position shown in Figure 4, so that the circuit of the motor is closed when the thermostatic switch 86 is operated. A timed device 90 periodically opens the switch 86 so that the motor compressor 70 is stopped and an electrical heater 92 located directly below the evaporator 32 is supplied with power. The time-controlled device 90 thus regularly defrosts the evaporator 32. When the switch 86 is in the down position for defrosting, the motor 94 which drives the fan 36 is also stopped. A line 84 from the motor compressor 70 to the switch 86 is connected to a connection terminal of the blower motor 94 by a line 96 and door switches 98 and 99 of the freezer or storage compartment. The other terminal of the motor 94 is connected by a line 121 to a changeover switch 123 , one contact 125 of which is connected to the switch 80 in series. The fan 36 is thus parallel to the motor compressor 70 and therefore, when the switch 123 is in the lower position, the second terminal of the fan is connected by a line 127 to the connection line 82 so as to exclude the switch 80. When the switch 123 is in the latter position, the fan 36 is only stopped by opening one of the two door switches 98 or 99 or by flipping the switch 86 into the defrosting position by the time-controlled device 90. Likewise, a bypass line with a manually operated switch 140 is provided to exclude the door switches 98 and 99.

During the defrosting period, the melted ice will be on the floor of the room 30 collected and runs through a pouring spout 129 into a receptacle 131, the has an overflow plate 133. On the other side of the overflow plate 133 the spout 129 is a drainage tube 135, which is in an expanded flat bowl 137 opens. The shell 137 is housed in a compartment 139, which includes the motor compressor 70 and the condenser 72. The warmth of the latter is sufficient to cause the water in the tray 137 to evaporate. The overflow plate 133 forms a water seal at the end of the spout 129 so that no warm Air from compartment 139 can rise into space 30.

The way the refrigerator works allows it to freeze quickly of goods in the freezer, because the evaporator 32 is arranged immediately below is, while in the storage compartment the temperature is kept slightly above freezing point will.

The ice formation in the freezer is due to the air circulation in it reduced to a minimum. The air blown over the evaporator is cooled and deposits most of its moisture on it. The temperature of this cooled air is then intentionally increased in that it passes through the duct 38 where it gets heat from both the freezer and the outer wall of the refrigerator records. This rise in temperature lowers the relative humidity and thus increases their ability to absorb moisture. This is how the air flows through the freezer and absorbs moisture before it could freeze; or the ice that may have formed sublimates.

The dimensions of the shaft 52 and the thermostatically controlled throttle valve are such that only a small part of the air flows through the storage compartment. The volume of the air flow is dimensioned so that a relative humidity of about 75% is observed in the storage compartment. Since the temperature of this compartment is above the Freezing point is maintained, the risk of ice formation is low.

Not only the freezer and storage compartments are kept almost free of ice, but also the evaporator 32 is automatically defrosted on one of these Way that the user of the refrigerator does not need to be aware of it. This automatic de-icing also assists in a convenient way for the user maintaining the desired temperature in the two compartments.

Claims (11)

PATENT CLAIMS: 1. Household refrigerator with separate freezer and storage compartment, of which the freezer compartment is cooled by means of heat transfer through its wall and the storage compartment is cooled by an air flow generated with the aid of a fan, which passes over the evaporator arranged outside the compartment characterized in that the storage compartment (22) and the freezer compartment (24) form parts of two air circuits connected in parallel, the circuit of the storage compartment including a shaft (38) through which air after it has passed over the evaporator (32), by means of the Blower (36) is pressed, and the duct (38) is arranged so that the temperature of the air increases, whereby its relative humidity is decreased. 2. Refrigerator according to claim 1, characterized characterized in that the air of the freezer and storage compartment circuit passes through the same Pre-steamer (32) is cooled and pushed into the compartments by the same fan (36) will. 3. Household refrigerator according to claim 2, characterized in that that the air supply into the storage compartment (22) through a heat sensitive device (54, 56, 58, 60) is regulated. 4. Household refrigerator according to one of the preceding Claims, characterized in that the shaft (38) through the compartment or through the wall of the freezer compartment (24) and part of the rear wall (20) of the refrigerator, whose isolation has been reduced is formed. 5. Household refrigerator according to one of the preceding claims, characterized in that the shaft (38) is provided with baffles (40, 42) for the air flow. 6. Household refrigerator according to one of the preceding claims, characterized in that the evaporator (32) has ribs that are connected to the compartment or to the wall of the freezer compartment stand in touch. 7. Household refrigerator according to one of the preceding claims, characterized in that the motor compressor (70), which supplies the evaporator (32), controlled by a heat sensitive device (76) attached to the evaporator (32) will. B. Domestic refrigerator according to one of the preceding claims, characterized in that that the motor compressor (70) is periodic by a time controlled device (90) is stopped to defrost the evaporator (32). 9. Household refrigerator according to Claim 7, characterized in that the time-controlled device (90) an electrical heater (92) for defrosting the evaporator (32) switches on when it stops the motor compressor (70). 10. Household refrigerator according to claim 8 or 9, characterized in that the blower air flow is interrupted when the time-controlled device (90) stops the motor compressor (70). 11. Household refrigerator according to one of the preceding claims, characterized in that the blower air flow is interrupted when a compartment door (26, 28) is opened. Documents considered: French Patent Nos. 1 121 256, 1025 763; British Patent No. 529,750; U.S. Patent Nos. 2,532,816, 2,416,354.