DE102005003241A1 - Ice makers - Google Patents

Abstract

An icemaker comprises a frame (15), a tray (1) pivotable in the frame (15) about an axis and having a plurality of compartments (4) arranged in a number of rows separated by partitions (3), and a motor (22) for driving a pivotal movement of the tray (1) about the axis, which is coupled to the tray (1) via an eccentric mechanism (25, 26, 28).

Description

The The present invention relates to an automatic ice maker with a frame, a tray pivotable in the frame about an axis, the a plurality of arranged in a number of rows partitions separate compartments and a motor for driving a pivoting movement of Trays about the axis between an upright position of the tray, in the water in the drawers can freeze, and a discharge position in which the openings of the subjects point down and the finished pieces of ice fall out of the compartments can.

An icemaker of this kind is z. B. off US Pat. No. 6,571,567 B2 known.

at this conventional Ice maker is a motor assembly directly to the pivot axis of the Trays coupled. The freedom of movement of the tablet is sufficient for a 360 ° rotation not around the pivot axis. It must therefore be in operation between the upright position and the emptying position back and forth be panned. This requires a directional motor and a control circuit for the engine, which always reveals the correct direction of rotation of the engine a current position of the tray and an operating phase of the ice making, in which the icemaker is currently located, able to determine.

task The invention is to provide an ice maker, the pivotal movement the ice-maker tray can drive correctly at any time, without that there is a decision about the direction of rotation of the pivotal movement driving motor needs.

The Task is solved by that with an icemaker of the kind specified above the tray to the engine over an eccentric mechanism is coupled. The eccentric element of such a mechanism an orbital movement about a center of rotation seen transversely to the axis of rotation has a reciprocating component. This component is usable to complete oscillation oscillation of the To drive trays, without causing a change of direction of the Drive motor is required.

Preferably the eccentric mechanism comprises a linearly displaceable oscillating body, the wearing a rack, which meshes with a gear connected to the tray. With Such an arrangement is any desired pivoting stroke of the tablet easy to construct.

One Eccentric element is preferably engaged with a rail, which is on the vibrating body extends transversely to the direction of movement to the orbital motion to implement the eccentric element in a reciprocating motion of the vibrating body.

one simple embodiment, the rail is a slot and the eccentric element engaging in the slot pins.

The Tray is between an upright position, in the water in the subjects of the tray can freeze, and a discharge position in which the the openings the subjects pointing down, preferably also between these positions and a tilted position in which the subjects on the Top edges of the partition walls communicate throughout. At least one of these three positions, preferably even two of them, each corresponding to a reversal point of Movement of the oscillating body. In the vicinity of the reversal points, the vibrating body also moves at as assumed assumed rotational speed of the eccentric element each particularly slow, i. the dependence of the position of the oscillating body of the phase of the eccentric is low, so the position in question can be adjusted exactly, even if the eccentric phase is not is accurately detected or the drive is subject to inaccuracies is.

It can therefore be enough with the help of a arranged on the tray for detecting its position Sensors only the exact approach of those of the three above-mentioned positions to steer, which does not correspond to a reversal point. With the help of the sensor can but also the respective positions corresponding to the reversal points very easy to set exactly. While, if with such Sensor a stop position between the reversal points is detected and the engine is stopped, the tray is still a little Piece continues to swing, until the engine comes to rest, affects the reversal points such further rotation does not affect the position of the tray.

To facilitate demolding of the finished ice cubes, the compartments are preferably in the form of a rotating body segment. From these subjects, a piece of ice can be removed from the mold in a particularly simple manner by sliding in the circumferential direction of the body of revolution, without, as in a conventional cuboid ice piece of z. In US Pat. No. 6,571,567 B2 considered type, during demolding between the bottom of the compartment and the ice body forms a cavity that impedes demolding, unless a prevailing in the cavity vacuum is compensated.

Preferably are the subjects the ice maker tray arranged in at least one row, and on one longitudinal side every set of subjects and At least a part of their transverse sides is one over the top of the compartments of the Series of separating spaces formed projecting wall. This design of the ice maker tray allows this in a tilted State in which in the subjects filled water the partitions in one to the supernumerary Wall adjacent area flooded, so that reaches exactly the same water level in all subjects can be. If such a tray for freezing in an upright State is pivoted, in which the partition walls in essence run horizontally and are no longer flooded, can be neat separate pieces of ice made with exactly uniform size become.

A electric heater may be provided on the icemaker tray to be superficial Antauen finished pieces of ice to speed up and facilitate demolding.

Around an intensive heat exchange To achieve with the environment, the tray with protruding heat exchanger ribs be provided. These ribs can at the same time for holding a rod-shaped heating device inserted between them serve.

Further Features and advantages of the invention will become apparent from the following Description of exemplary embodiments with reference to the attached figures. Show it:

1 an exploded view of an automatic ice maker according to a preferred embodiment of the invention;

2 a perspective view of the ice maker 1 in assembled condition with ice maker tray in tilted position;

3 a frontal view of the ice maker the 1 respectively. 2 in the direction of the pivot axis;

4 the view of 3 with partially cut sensor housing;

5 one too 2 analogue view with ice maker tray in upright position;

6 one too 4 analogue view with the icemaker tray in an upright position;

7 a perspective view analogous to 2 and 5 with the ice maker tray in emptying position;

8th one too 4 respectively. 6 analogue view;

9 a perspective exploded view from below of the ice maker tray;

10 a schematic frontal view of a second embodiment of the ice maker; and

11 a schematic frontal view of a third embodiment of the ice maker.

1 shows an automatic ice cube maker according to the present invention in an exploded perspective view. He includes a tray 1 in the form of a groove with a semi-cylindrical bottom, which at their ends in each case by transverse walls 2 closed and arranged by equally spaced intermediate walls 3 into a plurality of identically shaped compartments 4 , here seven pieces, is divided with half cylindrical bottom. While the partitions 3 to the viewer facing away from the longitudinal wall 5 Connecting flush is the viewer facing the longitudinal wall 6 over the upper edges of the partition walls 3 extended beyond. While the partitions 3 are exactly semicircular, have the transverse walls 2 each corresponding to the supernatant of the front longitudinal wall 6 a sector going beyond the semi-circular shape 7 on.

The tray is 1 shown in a tilted position, in which the upper edges of the segments 7 essentially horizontally, while those of the intermediate walls 3 to the longitudinal wall 6 downhill.

The tablet 1 may be a plastic molding, preferably, due to the good thermal conductivity, it is designed as a cast aluminum.

At one of the transverse walls 2 of the tablet 1 is a hollow cylinder 11 assembled; it serves for the sheltered accommodation of a coiled supply cable 12 to power a not visible in the figure, at the bottom of the tray 1 attached heater 13 (please refer 9 ) serves. The tablet 1 lies completely within an imaginary extension of the lateral surface of the hollow cylinder 11 , which at the same time represents the smallest possible cylinder into which the tray fits. One of the viewer facing the transverse wall 2 projecting axle journal 14 extends on the longitudinal center axis of the hollow cylinder 11 ,

A molded plastic frame is with 15 designated. It has an upwardly and downwardly open cavity 16 which is intended to be in the tray 1 to assemble. At the end walls 17 . 18 of the cavity 16 are bearing bushes 19 . 20 for the pivotable storage of the tray 1 shaped. A longitudinal wall of the cavity 16 is through a box 21 formed, which is provided to a drive motor 22 and various electronic components for controlling the operation of the icemaker. On the shaft of the drive motor 22 is a pinion 23 mounted in the 3 . 4 . 6 respectively. 8th each is better to see than in 2 , When fully assembled ice maker finds the pinion 23 Place in a cavity 24 the front wall 17 , It forms there with a gear 25 a reduction gear.

The gear 25 carries a pin projecting in the axial direction 26 which is intended to be in a vertical slot 27 a vibrating body 28 intervene. The oscillating body 28 is with the help of from the front wall 17 in the cavity 24 protruding pin 29 in a horizontal slot 30 engage the vibrating body, guided horizontally displaceable. One at a lower edge of the oscillating body 28 formed gearing 31 combs with a gear 32 , which is intended to non-rotatably on the journal 14 of the tablet 1 to be plugged.

One on the open side of the front wall 17 to be screwed cover plate 33 closes the cavity 24 , A mounting flange 34 with laterally over the front wall 17 protruding tabs 35 serves to mount the ice maker in a refrigeration device. A floor plate 36 closes the box from below 21 ,

2 shows, from the side of the front wall 18 and the box 21 Seen in perspective, the icemaker with the tray 1 in tilted position. The top edges of the sectors 7 on the transverse walls 2 of the tablet 1 run horizontally.

3 shows a frontal view of the icemaker from the side of the end wall 17 here, with cover plate 33 and mounting flange 34 are omitted to look into the cavity 24 the front wall 17 to give free. The configuration shown here is the one where the icemaker is assembled. Various markings indicate a correct positioning of individual parts relative to each other. A first pair of markers 37 . 38 is located on the front wall 17 itself, or at the pin 26 carrying gear 25 , If these marks 37 . 38 , As shown in the figure, are aligned exactly to each other, is the pin 26 in a three o'clock position, that is, on the right-most point of his path, which he can reach. The on the cones 26 as well as the fixed cones 29 attached vibrating body 28 is located at the right turning point of his train.

Aligned marks 39 . 40 on a flange projecting beyond the toothed rim 41 of the gear 32 and on the front wall 17 show a correct orientation of the gear 32 and consequently also the one with its axle journal 14 in a cross-sectionally T-shaped recess of the gear 32 engaging trays 1 at. An inherently redundant pair of markers 42 . 43 at the toothing 31 of the swivel body 28 and at the gear 32 shows the correct positioning of gear 32 and vibrating body 31 in relation to each other.

A sensor 44 for detecting the rotational position of the gear 32 is mounted next to this. He acts with a rib 45 together, from the edge of the flange 41 protrudes in the axial direction on a part of the circumference thereof, so that it can dive into a slot at the rear of the sensor housing. In the tilted position of 3 is the rib 45 mostly from the sensor 44 and the vibrating body 28 covered. 4 differs from 3 in that the housing of the sensor 44 shown partially cut open, so that two bridging the light barriers 46 . 47 to be recognized in its interior. The rib 45 is just above the two light barriers 46 . 47 so that an unillustrated control electronics based on the fact that both light barriers are open, can recognize that the tray 1 located in the tilted position and the drive motor 22 can stop to the tray 1 in the tilted position to hold and fill.

After a predetermined amount of water under the control of the control circuit in the tray 1 has been dosed, the drive motor 22 set in motion by the control unit to the tray 1 in the upright position, in which the amounts of water in the subjects 4 of the tablet 1 neatly separated from each other. This position is in 5 in a perspective view accordingly 2 and in 6 in a frontal view accordingly 4 shown. The gear 25 is opposite to the position of 4 rotated in a clockwise direction, but could be the same position of the tray 1 also by a rotation of the gear 25 reach in the counterclockwise direction. Reaching the upright position is recognized by the fact that the rib 45 begins, the lower photocell 47 to block.

In the upright position, the tray remains 1 stand for a while until the water in the compartments 4 is frozen. The standing time in the upright position can be fixed; alternatively, the control circuit may also be connected to a temperature sensor to detect a measured temperature in the environment of the tablet 1 and each of a characteristic curve stored in the control circuit to set a sufficient time at the measured temperature for freezing the water.

After this lapse of time, the drive motor becomes 22 restarted the gear 25 in the in 8th shown position, with the pin 26 in 9 o'clock position, to turn. The control circuit recognizes that this position is reached when both photocells 46 . 47 are open again. The rib 45 is now visible on a large part of their length clearly in the figure.

In this position are the subjects 4 of the tablet 1 open downwards, so that the pieces of ice contained in it can fall out. In order to facilitate the dissolution of the ice pieces, the already mentioned electric heater 13 intended. As in 9 to recognize, it is in this heater 13 around an electric heating rod bent in a loop, which is in close contact with the tray 1 between protruding from the bottom heat exchanger fins 49 extends through and partially into one at the bottom of the tray 1 formed groove 48 is included.

By briefly heating the tray 1 with the help of the heater 13 become the pieces of ice in the subjects 4 superficially thawed. The between the tray 1 and the ice pieces thus produced water layer acts as a sliding film on which the pieces of ice are movable with very little friction. Due to the cylinder segment cross-sectional shape of the compartments 4 Slightly move the pieces of ice out of the compartments 4 out and fall into a receptacle, not shown, arranged under the icemaker.

After emptying the subjects 4 the drive motor is restarted, and the gear 25 is further rotated clockwise until it returns to the 2 to 4 reached position shown and a new operating cycle of the icemaker begins.

10 schematically shows a modified embodiment of the ice maker in a front view. The icemaker has a rack according to the rack 15 of the 1 of which in the figure only two pins 29 are shown. The tablet 1 and that on its journal 14 mounted gear 32 are with those of 1 identical. A vibrating body 28 has two horizontal slots 30 on top of that the pins 29 engage, so that the vibrating body is guided horizontally displaced.

One from a motor 22 directly or via a reduction gear with the same direction of rotation driven wheel 25 carries a pin projecting in the axial direction 26 to the one end of a connecting rod 50 is articulated. The other end is on the oscillating body 28 hinged. The connecting rod 50 sets the orbital movement of the eccentric pin in an oscillating pivotal movement of the tray 1 from the tilted position over the upright position shown in the emptying position and back to.

In an in 11 shown third embodiment is the vibrating body 28 replaced by a gear 51 , which is rotatably suspended on the frame, not shown, and on the one hand with the on the axle section 14 of the tablet attached gear 32 meshes and on the other hand over a connecting rod 50 to an eccentric pin 26 of the motorized wheel 25 is coupled. The distance of a joint 52 between the connecting rod and the axis of the gear 51 is greater than the radius of the path of the pin, leaving the gear 51 by a rotation of the wheel 25 can only be driven to an oscillating pivoting movement. By a suitably selected gear ratio of the gears 51 and 32 This pivotal movement is converted into the required for the movement of the tray between the tilted position and emptying Winkelhub.

Claims (11)

Ice maker with a rack ( 15 ), one in the frame ( 15 ) about an axis pivoting tray ( 1 ) arranged a plurality of in a number of rows, by intermediate walls ( 3 ) separate compartments ( 4 ), and a motor ( 22 ) for driving a pivoting movement of the tablet ( 1 ) about the axis, characterized in that the tray ( 1 ) to the engine via an eccentric mechanism ( 25 . 26 . 28 ; 25 . 26 . 50 ) is coupled. Ice maker according to claim 1, characterized in that the eccentric mechanism ( 25 . 26 . 28 ) a linearly displaceable oscillating body ( 28 ) comprising a rack ( 31 ) carrying one with the tray ( 1 ) connected gear ( 32 ) combs. Ice maker according to claim 2, characterized in that the oscillating body ( 28 ) a transversely to its direction of displacement aligned rail ( 27 ), with one through the engine ( 22 ) on a circular path driven eccentric element ( 26 ) is engaged. Ice maker according to claim 3, characterized in that the rail is a slot ( 27 ) and the Eccentric element in the slot ( 27 ) engaging pin ( 26 ). Ice maker according to one of the preceding claims, characterized in that the tray ( 1 ) between an upright position in which the upper edges of the intermediate walls ( 3 ) extend horizontally, and a discharge position in which the openings of the compartments ( 4 ) down, is pivotable. Ice maker according to one of the preceding claims, characterized in that the tray ( 1 ) between an upright position in which the upper edges of the intermediate walls are horizontal, and a tilted position in which the compartments ( 4 ) over the upper edges of the intermediate walls ( 3 ), is pivotal. Ice maker according to claim 5 or 6, characterized in that the tray ( 1 ) occupies one of the two positions when the oscillating body ( 28 ) is at a reversal point of its movement. Ice maker according to claim 7, characterized by a sensor ( 44 ) for detecting at least the respective other of the two positions of the tray. Ice maker according to one of the preceding claims, characterized in that the compartments ( 4 ) each have the shape of a rotary body segment. Ice maker according to one of the preceding claims, characterized in that on one longitudinal side of each row of compartments ( 4 ) and at least a part of its transverse sides over the upper edge of the partitions projecting wall ( 6 ) is formed. Ice maker according to one of the preceding claims, characterized in that an electric heating device ( 13 ) is attached to the tray.