SE427775B - SET AND DEVICE FOR DEFROSTING A FREEZER - Google Patents

Description

79021-: 97-2 i _ _ 2 to collect the water formed during the defrost in a better way than before.

The invention is characterized for this purpose essentially by what is stated in the characterizing part of the following claim 1. A device according to the invention for carrying out the method is characterized by what is stated in the characterizing part of claim 6.

The invention will be described in more detail below with reference to an embodiment of a freezer cabinet shown in the drawings. F ig. Fig. 1 is a front view of the cabinet without a door, Fig. 2 is a vertical section of the same cabinet along the line II - II in Fig. 1, Fig. 3 is a top view of a bowl inserted in the cabinet, and Fig. 4 is a vertical section of the bowl along the line IV - IV in Fig. 3.

The drawing shows in Figs. 1 and 2 a freezer 10, which is operated with a compressor 11 and has refrigerated shelves 12, 13, 14 and a cooling element 15 under the roof 16 of the cabinet inside a freezing chamber 17. The cabinet has a door 18, which however does not is shown in Fig. 1. Under a shelf 13 a defrosting device in the form of a shallow bowl 19 is arranged. It is shown on a larger scale in Figs. 3 and 4 and will be described in detail in the following. In the bottom 20 of the cabinet there is a drain pipe 21, the upper mouth of which can be covered by a removable plug (not shown) to prevent air flows through the pipe during operation. Under the door, the cabinet has a ventilation grille 22 for an air duct, through which cooling air is supplied to the compressor 11 and a condenser 23 arranged on the back of the cabinet.

The surface of the bowl 19 covers almost the entire cross section of the freezer chamber. In heat-conducting connection with the bottom of the bowl is a heating element 24 in the form of an electric heating loop, which is supplied with current through lines 25, 26 from a control device 27, which according to Fig. 1 is arranged under the door of the cabinet. This device can also be placed inside the freezer chamber or in another place together with control devices intended for the normal operation of the cabinet. The device 27 is supplied with current through wires 28 from the network and contains a switch with two contacts 29, 30, one of which is arranged on an arm 31, which is arranged to snap between two positions. It is shown in Fig. 3 with the power switch in the off position. By pressing a switch button 32, the switch can be switched on. Then a lamp 33 lights up, which shows that the heating element 24 is active.

The control device 27 also comprises a thermostat 34, which switches off the switch.

The thermostat 34 has a sensor body 35 in heat-conducting contact with the receptacles 19 and an impulse line 36 therefrom to the control device 27. The temperature of the bowl 19 is during steam generation approx. 100 OC closest to the element and lower at a distance therefrom. When the water supply ceases, the temperature of the bowl rises rapidly, and this is used with the thermostat, whose sensing body reacts to a temperature which is higher than the operating temperature at the point where the sensing body is located.

In order for the heating element 24 to evaporate water in the bowl 19, this is provided with overflow drains so that at most a certain amount of water can collect in the bowl. In the example shown, the bowl is therefore provided with holes 37 in the bottom. 7902497-2 Defrosting of the freezer described above is carried out in the following manner. The cabinet's refrigerator is switched off and the cabinet is emptied of goods. These items are placed outside the cabinet and should be surrounded with some insulation or otherwise protected against temperature rise during the defrosting period. The plug in the drain line Z1 in the bottom 20 of the cabinet is removed, and a collecting bowl 38 for water is inserted under the mouth of the drain line. The door to the freezer is closed, and the electric current to the heating element 24 is switched on by pressing the on switch button 32.

The heat supply to the bowl 19 primarily causes ice and frost on the shelf 13 closest to the bowl 19 to melt, whereby water drips into the hot bowl 19 and turns into steam. This steam seeks its way to the coldest places in the chamber, which consist of the ice coating. This results in a heat distribution throughout the chamber in a natural way, despite the fact that heat is supplied only in a very limited part. The steam condenses and causes a strong heat supply in the desired places. As a result, an ice melt is achieved on all cooling coils in the chamber and new melt water drips into the bowl from the higher shelf 14 and the cooling element 15 at the ceiling 16 of the cabinet.

During the entire time that water is supplied from higher-lying cooling coils, new steam is formed on the bowl. To the extent that more water is supplied to the bowl than is meanwhile evaporated in it, water drains through the holes 37. The water hits the underlying shelves and contributes to the melting of the existing ice coating. The holes are intended to prevent large amounts of water from accumulating at the heating element 24 and thereby counteract or delay the desired effective steam formation.

When the ice in the chamber melts and water is no longer supplied to the bowl 19, the temperature of the bowl will rise rapidly from the evaporation temperature, about 100 ° C. As a result, the sensor body 35 of the thermostat 34 reacts and gives an impulse to the thermostat to interrupt the power supply to the heating element 24. At the same time, the current to the signal lamp 33 is interrupted, which goes out and thus indicates that the defrosting is completed. The collecting bowl 38 is taken out and emptied of water and can then be used for storing goods in the cabinet, which is restarted so that the goods can be placed again. It is also possible to have the bowl 38 permanently in place and in a known manner use an apparatus part which is hot during operation for evaporating the water collected in the bowl.

In connection with the design of a freezer cabinet for collecting water during defrosting through a line 21 in the bottom 2D of the cabinet, the bottom surface of the cabinet should be shaped so that running water is led towards this drain. It may be appropriate to form the leading edge of the bottom and also the nearest connecting, upwardly projecting cabinet edge with a weakly marked edge, which directs the water towards the bottom or prevents water from flowing towards the opening of the cabinet. You can also place a smaller water conductor as a screen on the inside of the door at the bottom so that any water condensed on the door does not run straight down towards the door's sealing strip but pass over the bottom of the cabinet.

Claims (13)

fšbèisv-2 The embodiment shown and described may not be considered as a limitation of the invention to this example alone, but the invention may be modified within the scope of the following claims. The invention has been described here in connection with a freezer which has cooled shelves consisting, for example, of a plate or a grid with inlaid cooling pipes. As can be seen from the previous description, the steam formed during defrosting is spread throughout the freezing chamber. It is thus possible to defrost even vertical pipes and vertical cooling surfaces inside the chamber with the proposed method. One condition, however, is that the means for collecting water with heating elements for evaporating the water can be placed under a surface in the cabinet, where there is access to such large amounts of frost that sufficient amounts of water can be delivered to the defrost bowl. P a t e n t k r a v 1. l. Method of defrosting a freezing chamber in a freezer unit, preferably in a freezer cabinet, characterized in that the freezing chamber (17) is emptied of goods, whereupon the door (18) is closed, and that a surface under a cooled (13 ), water-collecting means (19) arranged with a heating element (24) are supplied with heat, so that ice and frost on the cooled surface (13) thaw and fall into the collecting means (19), where a part evaporates and a part drains as water, and that the formed steam is spread in the chamber (17) and is brought there to give off heat to frost in different places, so that water is formed which is diverted through a bottom drain (21) in the chamber (17). 2. A method according to claim 1, characterized in that the water is collected in a means which consists of a bowl (19) arranged below and next to a cooled shelf to a height limited by a overflow drain, so that the water maintains a sufficiently high temperature for a good evaporation. 3. A method according to claim 2, characterized in that the water is led from the overflow drain to shelves (12) located below the bowl (19). 4. A method according to claim 1, characterized in that the temperature rise of the bowl (19) after cessation of water supply is used to interrupt the energy supply to the heating element (24). 5. A method according to claim 4, characterized in that a defrost is automatically interrupted by means of a thermostat (34) connected in a conduit (25, 26) to the heating element (24) with a sensing body (35) arranged at the bowl (19). ), which interrupts the power supply to the element (24) when the temperature of the bowl (19) rises above a certain value. Device in a freezer unit, preferably a freezer cabinet, with a freezing chamber for carrying out the method according to claim 1, characterized by a means (19) arranged below a cooled surface (13) for collecting running water with an electric heating element (24 ) with such an effect that the amount of water collected in the organ (19) can evaporate. 7902497-2 Device according to claim 6, characterized in that the member (19) consists of a shell arranged below and next to a horizontal shelf (13). Device according to claim 6, characterized in that the heating element (24) has the shape of a loop in the bowl (19). Device according to claim 7, characterized in that the recesses (19) have an overflow drain in the form of a number of holes (37). Device according to claim 6, characterized in that the freezer compartment (17) has a bottom drain (21) for an outer collecting means (38). 11. ll. Device according to claim 6, characterized in that a conduit (25, 26) to the heating element (24) in the recesses (19) includes a thermostat (34), the sensing body (35) of which is located at the recesses and has a breaking temperature which is a few degrees above the operating temperature in the same place. 12. Device according to claim 11, characterized in that the thermostat (34) is provided with means (32) for manually switching on the heating element (24). Device according to one of the preceding claims, characterized in that a signal lamp (33) is connected in parallel with the heating element (24).