DE2429392A1 - FREEZER INCLUDING AUTOMATIC ICE MAKER AND WATER RESERVOIR - Google Patents

Description

Freezer including automatic ice maker and Water storage tank

The present invention relates to a domestic freezer having an automatic ice maker of the type as described U.S. Patents 3,163,017 and 3,331,215. In such ice makers, the automatic cycle of operation performed by a timer with a motor is operated, an ejection of the pieces of ice from the mold and the subsequent supply of a fresh water filling into the mold. The water supply owns the

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Shape of a storage container in the fresh food compartment of the freezer and a pump for pumping a measured charge of water into the icemaker. It is still referring to the US patent No. 3,570,266 which describes a freezer with an automatic ice maker and a water reservoir.

When operating an ice maker of the aforementioned type, it is desirable Provide devices that interrupt the automatic operation of the ice maker when the water supply in Reservoir is low. U.S. Patent 2,846,854 a control circuit for achieving this result is described. This circuit includes a timer operated by a timer Switch for connecting a water pump and a float switch that, when interrupted at low Water level switches off the power supply to the time switch motor for the ice maker in order to interrupt the operation of the same. However, if this float switch is accidentally opened in the middle of a water filling stage, i. H. the by the timer actuated switch is closed to switch on the water pump, then the water pump will continue to run, when the remaining water supply in the storage tank is exhausted. As a result, this excess water can get out of the mold overflowed into the usual ice storage bin.

According to the illustrated embodiment of the invention, a Freezer with an ice maker in the freezer compartment and a water reservoir in the fresh food compartment for feeding the Water provided for the ice maker. The ice maker comprises an emptying device for collecting or emptying the pieces of ice from the ice mold and a pump is provided for supplying water to the mold from the storage container after each ice discharge. There is a drive motor and a timer driven by this provided to periodically run the ice maker a collection cycle including the sequential steps of emptying the ice pieces from the mold and actuating them the pump to supply a water volume to the mold. The device for supplying electrical power to

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the motor and the control circuit includes an erete circuit with a switch device that points to a low water level responds in the reservoir with an interruption in the power supply. There is also a second circuit with a switch device is provided which is actuated by the motor and for supplying power to the ice maker during the process serves to supply water. Therefore, if a collection cycle is started by operating the water level switch during the. Step of the water supply is interrupted, then this second circuit will continue to supply power to the tank filling step continue and complete the collection process.

Figure 1 is an elevation view of the freezer incorporating the present Invention includes; the doors of the freezer are removed.

Figure 2 is a sectional view taken generally along the section line 2 ~ 2 of Figure 1.

Figure 3 shows certain components of an ice maker of the type such as it is used in the practice of the present invention can be.

Figure K is a circuit diagram of the circuitry for the freezer used in the practice of the present invention.

Figure 5 shows a circuit diagram of the electrical circuit, which is used in the practice of the present invention.

The invention will hereinafter be described in particular with reference to the aforementioned types of freezers with ice makers explained, but without affecting these freezer cabinets to be limited.

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Particular reference is made to Figures 1 and 2. Such a freezer comprises a rectangular housing with insulated outer walls and a partition 1 which divides the housing into a freezer compartment 2 and a fresh food compartment 3, these two compartments being side by side. The access openings to these compartments are each closed by suitable doors including a door k for the freezer compartment. The rear wall 6 of the freezer compartment has a trough portion 7 adjacent to the lower end of the wall and this forms a housing outside the freezer compartment 2 for receiving the compressor unit 8 of the freezing system. A condenser 9 is attached to the rear wall of the housing.

The fresh food compartment 3 contains a removable water storage container or tank 11 suitably supported adjacent to the top of the compartment.

The freezer compartment 2 contains an automatic ice maker, indicated generally by the reference numeral 12. This ice maker is of the type described in the aforementioned US patents and is particularly shown in US Pat Figure 3 of the figures shown. It comprises a mold 15 which has a plurality of mold recesses 16 for receiving water from a water supply line 17 contains. At the bottom of each of the wells ejector pieces are provided to lift the pieces of ice mechanically and to eject them from the depressions. Included these ejector pieces are actuated by a lever mechanism 19 driven by a motor 20. As in the previous ones U.S. Patents 3,163,017 and 3,331,215, the motor also drives a timer mechanism to control the operation of the icemaker in a collection cycle. This cycle includes ejecting the ice pieces from the mold, returning the ejection pieces to their normal position on the Bottom of the wells and the introduction of a fresh filling of water into the mold. The ice maker 12 is above an ice storage container 22, which is attached to the door 4 of the freezer compartment. The freezer compartment 2 also contains one

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Evaporator. This comprises a section 23 to the freezer compartment to keep at the desired temperature below 'freezing point. It also contains an ice maker section 24 according to Figure 3, which is in heat exchange contact with the lower part the ice maker mold is 15.

Below the evaporator section 23 can improve the Air circulation a fan 30 may be provided. An air passage 32 is provided in the upper part for cooling the hairdressing compartment 3 the partition wall 1 is provided in order to guide cooled air from the evaporator and from the freezer compartment into the fresh food compartment 3. A second air passage 33 in the lower part of the partition allows the air to be returned from the fresh food compartment to the Freezer. The fan 30 supports the circulation of the Air through "these passages.

The evaporator forms part of a freezing circuit according to FIG. 4, which also includes the compressor 8, the condenser 9, a suitable one Device 38 for limiting the flow rate and the evaporator sections 23 and 24, all of these parts-flow-wise connected in series. The cooling system also contains devices for conveying the warm, compressed coolant immediately from the condenser outlet to the inlet of the evaporator and in particular to the bypass around the flow restrictor 38. The hot gas line is denoted by the reference numeral 40 and contains a normally closed solenoid valve 41. The Cooling the mold to freeze that contained in the mold cavities Water is primarily brought about by the refrigerant flowing through the evaporator section 24. Another·? on the other hand, the thawing of the connection between the sections and the walls of the wells reached during the collection cycle by the warming effect of the hot compressed refrigerant ^ which is diverted through the hot gas line 40 and passed into the evaporator sections when the valve 4l is open. The usual one Mold thermostat 45 for the ice maker, which when detecting a predetermined mold temperature below the freezing point a Eissamme1cycle triggers, is still used to control the valve 41

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to warm the mold to the temperature to dissolve the ice and to defrost the evaporator section 23 during each ice making cycle used.

The water supply line 17 is with the storage container 11, which is arranged in the upper part of the fresh food compartment, through a electrically operated pump 36 and a supply line 37 connected. It also contains devices, not shown, for filling the storage container by hand.

According to the present invention, the reservoir is equipped with a switch 39, which is controlled by a float valve is actuated and forms part of the control circuit for interrupting the operation of the ice maker when the water level of the water in the reservoir is approaching a lower limit or level at which there is still enough water available to produce a Complete the water filling step.

The electrical control circuit for controlling the ice maker and the operation of the compressor is shown in FIG. Of the Compressor 8 is directly connected to the power lines Ll, L2, so that it runs all the time. The motor 20 of the ice maker is via the contact 52 of the thermostat 45, the water level switch 39 and an ice level sensor switch 48 are connected via the power lines Ll, L2, the latter switch is actuated by a sensing arm 49 (Figure 2). The arm 49 will as shown in the aforementioned U.S. Patents 3,163,017 and 3,331,215 during each collection cycle of the ice maker raised and lowered to interrupt or close switch 48. This switch is kept open, when the accumulation of ice in the reservoir 22 prevents the sensing arm 49 from returning to its lower position and thereby prevents the triggering of a subsequent collection cycle. The water level switch 39 interrupts in a similar manner the circuit when the water level in the storage tank is low is. The motor operated timer 50 includes contacts 53 and 54 for connecting the motor 20 to the lines

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Ll, L2 during a collection cycle and contacts 54 and 55 for timed connection of the water pump 36 during a collection cycle. The solenoid valve 41 for the hot gas is with the Contact 52 of the thermostat 45 connected and is parallel to Sensor arm switch 48 and to the ice maker motor 20. The solenoid valve is therefore opened every time the .Thermostat 45 a predetermined temperature in the ice mold below freezing point recorded. During normal operation for ice making, the opening of the contacts 53, 54 at the end of an ice making cycle switches off the solenoid valve 41. Usually the switch opens 45 the contact 52 before this time. The back contact of the switch 45 turns on the fan 30 during normal freezing operation.

The operation of the ice maker and the control by the circuit of FIG. 5 will now be considered. If the The ice storage bin is not filled with ice and the water level If the reservoir is above the level at which the switch 39 opens, then the switches 48 and 39 are closed. At the time when a new water filling is in the shape has been entered, the switch arm 56 of the thermostat 45 brought into engagement with the contact 51 and the fan 30 is switched on. The compressor 8 works because it is direct is switched via the lines Ll, L2. The hot gas solenoid valve 41 is closed. The freezing effect is created by that the evaporator sections 23 and 24 brought to temperatures below freezing point by the operation of the compressor will. The ice mold is cooled and this causes that the water in the mold freezes. At the same · time lowers the evaporator section 23 the temperature of the freezer compartment.

If the temperature of the ice mold is lowered to a temperature below the freezing point, for example at about -18 ⁰ C (4 ⁰ F), thereby ensuring that ice cube ice, then 45 is the thermostat in engagement with the contact 52, interrupting thereby the ventilator circuit and switches on the ice maker motor to close contacts 53 and 54 and to open the magnet

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valve 4l. The motor and the ice ejection mechanism are then throttled by the fixed connection between the pieces of ice and the walls of the recesses, until the flow through the hot gas line into the mold and the evaporator sections Hot gas warms the mold to a suitable temperature for loosening the ice. Then the ice maker motor 20 runs and drifts the timer 50 on. The connection and power supply of the The motor is ensured by the hold circuit via the contacts 53 and 54 of the timer, so that the operation of the ice maker motor regardless of the position of the thermostat switch 45, the sensor arm switch 48 and the switch 39 continued will. If the water level reaches a low point during the water filling stage or during the collecting stage, at which the switch 39 is interrupted, then the hold circuit including the contacts 53 and 54 ensures a further one continued operation of the icemaker until a collection cycle is completed. After the pieces of ice have been ejected, a second Circuit made across contacts 55 of timer 50 to turn on water supply pump 36 for a period of time which ensures the filling of the mold with a complete fresh water filling. During completion the collecting cycle of the ice maker, the hot gas solenoid valve is closed by opening the switch contacts 53 and 54 and the Thermostat switch returns to its normal position and engages contact 51, causing fan 30 is switched on.

When the ice storage bin is full or the water level is so low that switch 48 or switch 39 is held open is then a periodic defrosting of the evaporator section 23 is achieved, although the ice maker is not in operation is. When thermostat 45 detects a temperature below freezing and closes the circuit via contact 52, then the hot gas valve 41 is switched on. However, if the If switch 39 or 48 or both switches are open, the ice maker motor is not switched on. The warming of both Evaporator sections are continued until the thermal

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stat 45 records the upper operating temperature of the mold thermostat. The opening of the thermostat contact 52 ends the defrost cycle and returns the system to a freeze cycle.

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Claims (2)

- ίο - Claims Freezer with a freezer compartment and a fresh food compartment, an automatic ice maker with a mold • in the freezer and a water reservoir in the Fresh storage compartment, characterized in that that the ice maker (12) has an ejector device for ejecting the pieces of ice from the mold. (15) and a pumping device (36) for supplying water from the storage container (11) into the mold (15) and a drive motor (20) and a Timer means (50) by which the ice maker (12) periodically through a collection cycle including the successive steps of ejecting the ice pieces from the mold (15) and actuating the pump (36) for delivery is guided by water to the mold, and a mains supply for supplying electrical power to the ■ Ice maker including a first circuit which has a switch device (39) which reacts to the level of the The reservoir is responsive to interrupt the power supply when the level in the reservoir (11) is low, and a second circuit with a switch device (50) actuated by the motor (20) for supply of power to the icemaker during the water supply step, thereby causing a collection cycle if it was previously triggered and with the water level switch (39) open during the water supply step by this second circuit Power to continue the operation of the ice maker3 can be supplied by the water supply step. 2. Freezer according to claim 1, characterized in that the water level switch by a float can be operated. 409884/0371 "■» 41 · ■ ■ .Blank