The invention relates to a device for selectively providing crushed or uncrushed ice, and to a domestic refrigeration appliance equipped with such a device.
Domestic refrigerators are frequently supplied with an ice maker in the freezer compartment of the refrigerator, by means of which ice maker ice pieces of a defined shape can be produced in an automated manner, that is to say without the assistance of the user. The ice pieces are commonly referred to as ice cubes, even though they do not necessarily have to have a cube shape but are sometimes also created with a different form. In conventional ice makers, the ice cubes are emptied from a tray, in which the ice cubes were previously produced by the freezing of water poured into the tray, into a storage receptacle, in which a larger amount of ice cubes can be collected and stored. Users frequently wish to be able to obtain crushed ice instead of ice cubes, for example because crushed ice is more suitable for some drinks than the comparatively larger, uncrushed ice cubes. Conventional ice makers are therefore equipped with a grinder downstream of the storage receptacle, which grinder offers the desired crushing function and makes possible the delivery of crushed ice. Since users generally do not always wish to enjoy only the same type of ice but at one time would like to receive uncrushed ice cubes and at another time would like to obtain crushed ice cubes, conventional ice makers are equipped with a mechanism which makes it possible to guide ice cubes from the storage receptacle past the grinder, if required, so that these ice cubes are not subjected to the action of the grinder and remain whole. If, on the other hand, the delivery of crushed ice is desired, said mechanism in conventional ice makers ensures that ice cubes from the storage receptacle are necessarily introduced into the operating range of the grinder and are there crushed by the grinder.
For the prior art relating to conventional ice makers having a grinder for providing crushed ice, reference is made, for example, to EP 1 707 906 A2, EP 1 482 262 A1, DE 2 108 031 A, WO 2008/077704 A2 and U.S. Pat. No. 9,677,803 B2.
In conventional ice makers, the storage receptacle is designed with a feed device by means of which the ice cubes in the storage receptacle can be moved in a feed direction to the grinder. For example, this feed device in conventional ice makers comprises a feed shaft wound along a helical line, see DE 2 108 031 A1. When viewed in the feed direction, the grinder in conventional ice breakers is covered on the side opposite the storage receptacle by an end wall, behind which the grinder is concealed. This end wall is conventionally part of a grinder housing in which the grinder is accommodated.
An object of the invention is to provide a structurally simple yet functionally reliable construction for a device, which permits the selective delivery of crushed or uncrushed ice pieces.
In order to achieve this object, such a device comprises according to the invention a storage receptacle for storing uncrushed ice pieces, a grinder, which is fed with ice pieces from the storage receptacle, for crushing the ice pieces, and a movable adjusting element. The grinder is concealed behind an end wall which is arranged on a side of the grinder opposite the storage receptacle and extends at least over the entire width of the storage receptacle. Associated with the grinder is a mechanical switching element which can be switched between two working positions and which in a first of its working positions ensures that ice pieces received from the storage receptacle are necessarily introduced into the operating range of the grinder and in its second working position frees a bypass passage for ice pieces received from the storage receptacle past the grinder. The movable adjusting element is in mechanical adjusting connection with the switching element and is so arranged that it is accessible from the wall side of the end wall that is remote from the grinder or from a side wall adjoining the end wall. The adjusting element thereby engages into a wall opening formed in the wall in question, or the mechanical adjusting connection of the adjusting element with the switching element is established through such a wall opening.
In the solution according to the invention, the end wall or a side wall adjoining the end wall is used as the location for an opening into which the adjusting element can be inserted or through which the adjusting element can extend. The arrangement of the opening at the end wall or side wall ensures that only comparatively short paths between the adjusting element and the switching element have to be bridged in order to mechanically couple the two components with one another. The accessibility of the adjusting element from the side of the end wall or side wall that is remote from the grinder creates freedom in respect of the direction from which an adjusting force is introduced into the adjusting element for the purpose of switching the switching element between the two working positions. For example, the solution according to the invention makes it possible to introduce such an adjusting force into the adjusting element from the side of the end wall or side wall that is remote from the grinder.
In some embodiments, the end wall extends beyond the storage receptacle on both sides, that is to say is wider than the storage receptacle and protrudes beyond it both in a direction to the right and in a direction to the left (from the point of view of an observer standing in front of the refrigeration appliance and looking at the end wall).
In some embodiments, the adjusting element is movable in a plane parallel to the end wall or side wall into two operating positions in accordance with the two working positions of the switching element.
In some embodiments, the wall opening is formed by a wall cutout into which the adjusting element is inserted to be movable between its two operating positions, wherein there are formed at the edge of the wall cutout one or more locking recesses for locking engagement by at least one resiliently arranged locking projection of the adjusting element.
The adjusting element is in the form of, for example, a rotatable adjusting wheel or a translationally movable adjusting slider.
In some embodiments, the adjusting element is movable between two operating positions in accordance with the two working positions of the switching element, wherein the switching element is biased in the direction towards its first working position by biasing means and wherein there are associated with the adjusting element locking structures for locking the adjusting element in each of the two operating positions. Accordingly, in each of the two working positions, the occurrence of forces which cause the switching element to be urged in the direction of the respective other working position is to be expected. In the second working position, the biasing means exert such a force. In the first working position, ice pieces which have been guided by means of the switching element into the grinder may attempt to escape from the grinder to some extent. Such ice pieces may press against the switching element and attempt to push it out of the first working position. The locking structures are advantageously configured in such a manner that they are able to withstand the forces described here.
In some embodiments, the switching element is formed by a lever body which is pivotable about a pivot axis and the pivot axis of which is oriented substantially perpendicularly to the end wall, wherein a first lever arm of the lever body performs the function of the switching element and a second lever arm is in mechanical adjusting connection with the adjusting element. In some embodiments, an elongated hole is formed in the second lever arm, into which hole there engages a pin body which is coupled for movement with the adjusting element, wherein the pin body is movable by means of the adjusting element along a curved path, in particular an arcuate path.
According to a further aspect, the present invention provides a domestic refrigeration appliance, comprising: a cold chamber; an ice-collecting unit; and an insertion compartment, formed in the cold chamber, for the ice-collecting unit, wherein the insertion compartment has an insertion opening. The ice-collecting unit comprises: a storage receptacle for storing uncrushed ice pieces; a grinder for crushing ice pieces from the storage receptacle; a mechanical switching element which can be switched between two working positions and which in a first of the working positions causes ice pieces received from the storage receptacle to be necessarily introduced into the grinder and in a second of the working positions frees a bypass passage for ice pieces received from the storage receptacle past the grinder; a screen, which in an insertion position of the ice-collecting unit, in which the ice-collecting unit is inserted into the insertion compartment, covers the insertion opening completely; and a movable adjusting element in mechanical adjusting connection with the switching element. An opening is formed in the screen, wherein the adjusting element engages into the opening or the mechanical adjusting connection of the adjusting element with the switching element is established through the opening.
In some embodiments, the insertion compartment is delimited by compartment walls which in the insertion position of the ice-collecting unit surround the storage receptacle on all sides at the top, at the bottom and laterally.
In some embodiments, the domestic refrigeration appliance further comprises: a door for closing the cold chamber, wherein there is formed in the door an ice-ejection channel which runs from a channel access arranged on the inside of the door to an ice-dispensing compartment which is accessible from outside the door. When the door is closed, an ice outlet of the ice-collecting unit is arranged in a position opposite the channel access in order, according to the working position of the switching element, to transfer uncrushed or crushed ice pieces from the ice outlet into the ice-ejection channel.
The invention will be described in greater detail hereinbelow with reference to the accompanying drawings, in which:
Reference will first be made to
When the door 16 is closed, the ice outlet 30 of the crushing unit 28 is located in a position opposite a channel access 32 which is arranged on the door side and from which an ice-ejection channel 34 formed in the door 16 extends to the ice-dispensing compartment 18. When the door 16 is closed, ice (crushed or uncrushed) delivered by the crushing unit 28 passes through the ice-ejection channel 34 to the ice-dispensing compartment 18. When the door 16 is open, a shut-off flap (not shown) provided at the ice outlet 30 can prevent ice from unintentionally leaving the crushing unit 28.
Reference will now additionally be made to
Reference will now additionally be made to
According to
In the example shown, the switching element 48 is designed as a lever body with two lever arms 62, 64 and is pivotably mounted about a pivot axis 66. The lever arm 62 performs the actual switching function of the switching element 48, the lever arm 64 serves to control the position of the switching element 48. The switching element 48 is biased by a spring element 68 into a lever position which corresponds to the crushing working mode of the crushing unit 28. In this lever position, ice pieces which are transferred from the storage receptacle 24 into the crushing unit 28 are necessarily urged by the lever arm 62 into the operating range of the grinder 36 and accordingly are necessarily crushed. The path of travel of the ice pieces in this first lever position of the switching element 48 is indicated schematically in
By rotation of the adjusting element 46, the switching element 48 can be pivoted from the first lever position into a second lever position (counter-clockwise in the representation of
In the first lever position, the locking projections 52 of the adjusting element 46 are in locking engagement with a first pair of the locking recesses 50, and in the second lever position, the locking projections 52 are in locking engagement with a different pair of the locking recesses 50. In both lever positions, the locking engagement is sufficiently powerful to hold the switching element 48 in the respective lever position. For the first lever position, this means that the locking engagement must be able to withstand forces which may be exerted on the switching element 48 by ice cubes which are being crushed in the grinder 36. For the second lever position, this means that the locking engagement must be able to withstand the biasing force of the spring element 68.
In a modified embodiment, the wall opening is in the form of an elongated slot through which an adjusting element which is connected to the switching element 48 and is in the form of, for example, a pivot lever is guided to the outer side of the wall in which the opening is formed. This wall is, for example, one of the side walls 42. The adjusting element can be moved to and fro in the slot in the slot longitudinal direction, in accordance with the two lever positions of the switching element 48.
Reference will now be made to the exemplary embodiment according to
The ice-collecting unit of
The ice-collecting unit 76a is provided to be inserted as a whole into an insertion compartment 88a (
The insertion compartment 88a forms a housing which surrounds the storage receptacle 24a—when the ice-collecting unit 76a has been inserted into the insertion compartment 88a—laterally, at the top and at the bottom, that is to say on all sides. The temperatures prevailing in the insertion compartment 88a permit the freezing of water. Freezing temperatures may likewise prevail in the regions of the cold chamber 14a that are outside the insertion compartment 88a, or temperatures can be present therein which allow foods to be kept cold without freezing.
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10 2019 005 688.4 | Aug 2019 | DE | national |
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