EP3696481A1 - Fridge and / or freezer - Google Patents

Abstract

The present invention relates to a refrigerator and / or freezer with a cooled interior and with a storage container (20) for ice cubes located therein, the device preferably having an ice cube maker (120), the ice cubes produced in the ice cube maker being held in the storage container being present, pulse generating means being arranged to apply one or more pulses to the reservoir.

Description

The present invention relates to a refrigerator and / or freezer with a cooled interior and with a storage container for ice cubes located therein, the device preferably having an ice cube maker, the ice cubes produced in the ice cube maker being received in the storage container.

However, the invention is not limited to devices with an ice cube maker, but is also used, for example, in devices in which ice cubes are stored but not produced.

Fridges and freezers with an ice cube maker are known from the prior art. The ice cubes produced in the ice cube maker are produced in an ice cube tray and then stored in a storage container until they are e.g. dispensed through the door of the device.

A problem with long-term storage of the ice cubes is that they can freeze together, so that larger ice lumps or a compact ice block is created which can only be broken down into smaller parts with great effort. For ice cube makers whose output unit has a screw or spiral, it is possible to turn them occasionally without dispensing ice cubes in order to loosen ice cubes that have frozen together. For ice cube makers without such a dispensing unit with helices and screws, no solution is known with which the freezing of ice cubes can be effectively prevented.

At this point it should be noted that the present invention includes refrigerators and / or freezers with both of the aforementioned types or other types of ice cube makers, as well as devices without an ice cube maker, because the problem of ice cubes freezing together exists regardless of where they are made .

The present invention is therefore based on the object of developing a refrigerator and / or freezer of the type mentioned in such a way that the freezing together of ice cubes is prevented or reduced or that lumps from already frozen ice cubes are broken down into smaller parts.

This object is achieved by a refrigerator and / or freezer with the features of claim 1. It is then provided that the device has pulse generating means which are arranged to exert one or more pulses on the storage container. The applied impulse or impulses cause the ice in the storage container to vibrate, causing larger ice lumps to break up into smaller ice cubes.

It is conceivable here to configure the pulse generating means in such a way that a time-limited pulse is emitted or that repetitive pulses are emitted in the form of an oscillation.

It is conceivable that the pulse generating means comprise a motor which is connected to the storage container via a connecting element in such a way that the rotation of the motor leads to a twisting of the storage container and that the pulse generating means have a trigger which is designed to suddenly release the tension built up with the twist.

So it is conceivable that the connecting element is a driver which interacts with the storage container over a certain angle of rotation of the motor, so that there is a twist or a build-up of tension in the storage container. If the motor is then rotated further, the connecting element suddenly detaches from the storage container, so that it springs back into its original shape and position, which leads to the necessary impulse. The same applies if the connecting element suddenly e.g. removed by a magnet, etc.

The trigger leading to the impulse can thus comprise the motor itself, which, if it continues to rotate beyond a certain rotational position, has the effect that the storage container is no longer twisted by means of the connecting element.

It is also conceivable that the device has a closure element, in particular a door, for closing the cooled interior or a part of it and that the pulse generating means has a lifting device which faces the cooled interior and which is designed to lift the storage container, when the closure element is closed, whereby it is preferably provided that the lifting device is an inclined plane which engages under the storage container. If the door is closed, the storage container is thus lifted; if the door is then opened again, the storage container falls back into its starting position.

The same applies to an adjacent drawer. If this is pushed in, the storage container is lifted; if the drawer is pulled out, the storage container falls back into its starting position, whereby an impulse is generated.

In a further embodiment of the invention it is provided that the pulse generating means have an electromagnet which interacts with the storage container or some other mass, a control unit being provided which is designed to switch the electromagnet on and then off. This electromagnet can be used to generate specific impulses. It is conceivable, for example, that the storage container is raised by means of the electromagnet and then dropped again or that a mass is attracted against the force of a spring by means of the electromagnet and is accelerated to the storage container when the electromagnet is switched off.

A pulse generation is also possible in that a spring mechanism is present which has a spring which is connected to the closure element in such a way that the spring is tensioned when the closure element is opened or closed one or more times and that the spring mechanism is formed when a further opening or closing of the closure element to release the spring force for the purpose of pulse generation. In this way, the spring can be pretensioned over several stages (each time the locking element is closed or opened, etc.) and released in a further closing or opening process (e.g. every 4th closing or opening process) so that the spring force is suddenly released. This impulse can be used, for example, to suddenly lift, drop, hit the storage container, etc.

As stated above, the pulse generating means can be or comprise a vibration generator, in particular a piezoceramic, which acts on the storage container in such a way that vibrations are transmitted to it. These vibrations are exerted on the storage container and thus also on the ice in it, in order to break the connection between ice cubes.

A conceivable embodiment is a vibration module on an ice cube maker which, when the storage container is inserted, which is preferably designed as a drawer, touches the storage container, and at any time Vibrations can be transferred to it, e.g. several days after the last ice cube was removed, only at night, at regular intervals, etc.

It is also possible that the ice cube maker touches the storage container and that the pulse generating means is formed by the motor of the ice cube maker, the vibrations of which are transmitted to the storage container.

In a further embodiment it is provided that when the refrigerator and / or freezer is in operation, components which generate vibrations are coupled to the storage container in such a way that it is also set in vibration. These components can be, for example, the compressor and / or the fan of the refrigerator and / or freezer.

The refrigerator and / or freezer can have a controller which is designed to activate the pulse generating means at regular or irregular time intervals or as a function of at least one parameter.

The parameter mentioned can be, for example, the filling of the storage container and / or the time span since the last ice cubes were produced and / or since the last ice cubes were removed and / or since the last activation of the pulse generating means.

It is advantageous if a control is provided by means of which the type of pulse generation and / or the pulse strength can be set. If the user realizes that the previously set impulse strength is insufficient, he can increase it accordingly.

The device preferably has a user interface by means of which the control or the pulse generating means can be activated by a user. It is also conceivable that the user interface is provided on an external device, such as, for example, on a smartphone, which can be accessed wirelessly on the cooling and / or Freezer accesses so that the user can activate, deactivate or set the pulse generating means via the operation on the smartphone.

The storage container is preferably designed as a drawer.

The storage container can be made of a rigid material. However, it is preferred if the storage container consists of an elastic or flexible material that allows a certain amount of twisting, so that a tension build-up and a subsequent tension reduction are particularly efficient.

At this point, it should be noted that the terms “a” and “an” do not necessarily refer to exactly one of the elements, although this represents a possible embodiment, but can also designate a plurality of the elements. The use of the plural also includes the presence of the element in question in the singular, and conversely, the singular also includes several of the elements in question.

It is also pointed out that the term "ice cube" does not necessarily imply a specific shape of the piece of ice. This can, but does not have to be, cube-shaped, rather any shape is included.

Figur 1:

schematische Varianten der Impulserzeugung,

Figur 2:

eine erste Ausführung der Impulserzeugungsmittel mit Vorratsbehälter,

Figur 3:

eine zweite Ausführung der Impulserzeugungsmittel mit Vorratsbehälter,

Figur 4:

eine dritte Ausführung der Impulserzeugungsmittel mit Vorratsbehälter und

Figur 5:

eine perspektivische Ansicht eines Eiswürfelbereiters mit Vorratsbehälter.

Further details and advantages of the invention will be explained in more detail using an exemplary embodiment shown in the drawing:
Show it:

Figure 1:

schematic variants of pulse generation,

Figure 2:

a first embodiment of the pulse generating means with storage container,

Figure 3:

a second embodiment of the pulse generating means with storage container,

Figure 4:

a third embodiment of the pulse generating means with reservoir and

Figure 5:

a perspective view of an ice cube maker with storage container.

In the exemplary embodiment described below, according to Figure 5 An ice cube maker 120 is arranged in the cooled interior of the device, which has an ice cube tray 100 into which the water to be frozen is filled and a motor 110 for ejecting the ice cubes by rotating the ice cube tray 100. The reference number 130 denotes a level meter for determining the level of the ice cubes in the storage container 20 arranged below the ice cube maker 120, which is basically preferably designed as a drawer.

In order to prevent or at least contain the freezing of ice cubes in the storage container 20, pulse generating means are provided according to the invention which are arranged and designed to exert one or more pulses on the storage container.

It is in accordance with this Figure 1 (upper illustration) possible to apply a strong impulse, then to apply no impulse over a period of time and then possibly to apply a further impulse, etc. In this illustration, the force acting on the storage container is plotted over time.

According to another approach Figure 1 (lower illustration) the introduction of many weaker pulses in the form of a vibration is also conceivable. In this representation, the amplitude of the oscillation is plotted over time.

Figure 2 shows an embodiment with a motor 1 which generates a rotary movement about an axis of rotation perpendicular to the plane of the paper. The engine 1 is used for rotating and twisting the ice cube tray 100, whereby the ice cubes 30 fall into the storage container 20.

The reference numeral 10 generally denotes means for building up tension, which in this example are formed by the driver 11 and by a region of the storage container 20 with which the driver cooperates.

The driver 11, which rotates with the motor, interacts with the edge region 12 of the storage container 20 in such a way that the storage container is put into a state of tension by the rotation. The tension builds up up to the in Figure 2 point shown "rotation up to here = tension build-up". If the motor 1 is rotated further, the contact between the driver 11 and the storage container suddenly ends, which provides the necessary impulse. The same applies if the driver is suddenly removed.

This release can take place with the rotating end of the ice cube tray 100 or before or after the ice cubes are ejected into the storage container 20. The mentioned pulse can take place with each ejection or at regular time intervals or after the level meter 130 registers that no more ice cubes have been removed.

The position “rotation up to here = ejection of ice cubes”, which is also drawn, identifies the position of the motor at which the ice cubes are ejected from the ice cube tray 100 into the storage container 20.

Figure 3 shows an embodiment in which a wedge or some other inclined plane 60 is arranged on the inside of the door 50, which cooperates with the storage container 20 in such a way that it is raised when the door is closed. This can take place through the door or also through another movable element, such as, for example, through a drawer etc. adjacent to the storage container 20.

When the door etc. is opened, the storage container 20 falls back into its starting position, so that a corresponding pulse is generated.

Out Figure 4 an embodiment can be seen in which a spring mechanism is prestressed in several stages. It is conceivable, for example, that each time the door or any other locking element of the device is opened or closed, or a drawer etc. is opened or closed, the spring mechanism, which can include one or more springs, is gradually tightened and the storage container is raised . At a certain number, for example when the door is closed or opened for the third time, the spring mechanism is suddenly relaxed, which means that the storage container 20 falls back into its starting position, so that a pulse is also triggered.

Claims (15)

A refrigerator and / or freezer with a cooled interior and with a storage container for ice cubes located in it, the device preferably having an ice cube maker, the ice cubes produced in the ice cube maker being received in the storage container, characterized in that pulse generating means are present which are arranged to exert one or more pulses on the reservoir. Refrigerator and / or freezer according to Claim 1, characterized in that the pulse generating means are designed to emit a time-limited pulse or to emit pulses in the form of an oscillation. Refrigerator and / or freezer according to claim 1 or 2, characterized in that the pulse generating means comprise a motor which is connected to the storage container via a connecting element in such a way that the rotation of the motor leads to a twisting or other tension build-up of the storage container leads and that the pulse generating means have a trigger which is designed to suddenly release the twisting or tension. Refrigerator and / or freezer according to claim 3, characterized in that the trigger is designed to cause the motor to continue rotating in such a way that the connecting element no longer connects the motor to the storage container, or is designed to remove the connecting element . Cooling and / or freezing device according to one of the preceding claims, characterized in that the device has a closure element for closing the cooled interior or a part thereof and that the pulse generating means has a lifting device, which preferably faces the cooled interior and which is designed is to raise the storage container when the closure element is closed, preferably providing that the lifting device is an inclined plane which engages under the storage container. Refrigerator and / or freezer according to one of the preceding claims, characterized in that the pulse generating means have an electromagnet which interacts with the storage container or some other mass, a control unit being provided which is designed to switch the electromagnet on and then off. The refrigerator and / or freezer according to one of the preceding claims, characterized in that there is a spring mechanism which has a spring which is connected to the closure element in such a way that the spring is tensioned when the closure element is opened or closed once or several times and that the spring mechanism is designed to release the spring force for the purpose of generating pulses when the closure element is opened or closed further. Cooling and / or freezing device according to one of the preceding claims, characterized in that the pulse generating means is a vibration generator, in particular a piezoceramic, which acts on the storage container in such a way that vibrations are transmitted to it. Refrigerator and / or freezer according to one of the preceding claims, characterized in that the pulse generating means comprises a motor which is designed to set the storage container vibrating, preferably providing that it is the motor of an ice cube maker. The refrigerator and / or freezer according to one of the preceding claims, characterized in that when the refrigerator and / or freezer is in operation, components which generate vibrations are coupled to the storage container in such a way that it is also set in vibration. A refrigerator and / or freezer according to claim 10, characterized in that the components comprise or are the compressor and / or the fan of the refrigerator and / or freezer. Cooling and / or freezing device according to one of the preceding claims, characterized in that a control is provided which is designed to activate the pulse generating means at regular or irregular time intervals or as a function of at least one parameter. Refrigerator and / or freezer according to claim 12, characterized in that the parameter is the filling of the storage container and / or the period of time since the last ice cubes were made and / or since the last ice cubes were removed and / or since the last activation of the Pulse generating means acts. A refrigerator and / or freezer according to claim 12 or 13, characterized in that a control is provided by means of which the type of pulse generation and / or the pulse strength can be set. Refrigerator and / or freezer according to one of Claims 12 to 14, characterized in that a user interface is provided, by means of which the controller can be activated by a user.

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