The present invention relates to a dispensing device for free-flowing or pourable products, especially a dispensing device for cooled water and ice in a refrigeration device.
Refrigeration devices with built-in ice makers and a dispensing device for ice or cooled water are enjoying increasing popularity. In general these dispensing devices have an exit opening for ice and a water outlet which are accommodated on the outside of the refrigeration device so that a user can obtain water and ice without having to open a door.
There are different designs of dispensing device known for refrigeration devices which allow a container at one and the same location to be filled both with water and also with ice. In a first known design a vertical feed channel for ice has an exit opening, below which a container to be filled is placed, and is filled with ice from a sideways direction. This falls freely in the feed channel into the container. In an upper area of the feed channel, away from the path of the ice, is located an outlet for water. The water likewise falls vertically through the feed channel into the container. Since the outlet may not block the path of the ice, it must be arranged high above the container, which means that water falls from a great height and there is the danger of splashing. The feed channel also forms a heat leak via which heat can get into the interior of the refrigeration device, which increases its energy consumption.
Another solution is to arrange the outlet for water offset to the side of an exit opening for the ice and to align it so that an angled stream of water is produced that hits the opening of a container to be filled just like the ice. This however regularly leads to the last drops of the filling process no longer hitting the container but falling down to the side of the latter.
The object of the present invention is to create a dispensing device of the type specified at the start which allows a container at the same position to be filled with water and also with ice, which minimizes the danger of water splashing and which can be built into an insulating wall, without creating a strong heat bridge.
The object is achieved by a dispensing device with a feed tube for pourable products, comprising an exit opening and a shut-off flap that is situated at the exit opening, and an outlet for free-flowing products which is attached to the flap and is displaceable with the latter. The fact that the flap in its closed position closes off the feed tube means that it prevents warm air flowing through from one side on the wall into which the dispensing device is built to the other through the feed tube. If a container is placed under the flap so that, when the flap is open, ice can fall through the flap into the container, then in general a stream of liquid which leaves the outlet with a smaller horizontal speed component, also hits the container. Even drops that fall down from the exit opening at the end of the filling process arrive safely in the container.
To hit the container precisely, the outlet is preferably formed and/or aligned to generate a stream of liquid directed vertically downwards.
If the direction in which the ice falls deviates slightly from the vertical, the outlet can also be formed and/or aligned in order to generate a stream of liquid falling within a path which the ice follows.
An exit opening of the outlet for the water preferably lies within an imagined smallest vertical cylinder which encompasses the exit opening for the ice and the shut-off flap in its open position. A container of which the upper opening runs around the cylinder will thus definitely be hit by the ice and by the water.
To enable the movement of the flap to be followed the outlet is preferably connected to a tank via a flexible tube.
A shut-off valve is preferably arranged upstream from the tube to prevent this being subjected to a stationary high water pressure.
To largely prevent subsequent dripping after a filling process has ended, the outlet is preferably provided with a lip valve.
Further features and advantages of the invention emerge from the description of an exemplary embodiment given below with reference to the enclosed figures. The figures show:
The refrigeration device shown in a schematic section in
The interior 3 is cooled by an evaporator which is accommodated in an evaporator chamber 4 divided off in the upper area of the carcass.
An automatic ice maker 5 is arranged in the immediate vicinity of the evaporator chamber 4 in the interior 3, so that cold air from the evaporator chamber 4 can preferably be applied to it. To achieve temperatures of below 0° the ice maker 5, can if needed, be equipped in a manner known per with additional cooling units such as Peltier elements. Since any automatically operating ice maker can generally be used within the framework of the invention, this unit is not described in any further detail here.
Ice cubes created by the ice maker 5 arrive at a collector 6 arranged below it. A motor-driven worm gear 7 on the floor of the collection container 6 can be actuated to transport ice cubes to a delivery opening 8 at the end of the collector close to the door 6. One of the control buttons 9 is used to set the worm gear 7 in motion.
A cutout 13 on the inner side of the door surrounds the recess 12 as well as a water tank 14, which is embedded at the rear of the recess 12 in an insulation layer of the door 2. The water tank 14 is connected via a feed line 15 and a shut-off valve 16 to a domestic water supply.
Below the delivery opening 8 a feed tube 17 for ice extends through the insulation layer of the door 2 into the recess 12. In the configuration shown in
The structure of the flap 18 and its environment as well as its method of operation will be explained in more detail with reference to
On the side of the plate 25 facing away from the feed tube 17 is a water outlet 27 formed in one piece. As shown in
In the closed position of the flap 18, as shown in
The stream of water 34 shown in
Number | Date | Country | Kind |
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10 2005 057 164 | Nov 2005 | DE | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/EP2006/067956 | 10/31/2006 | WO | 00 | 9/8/2009 |
Publishing Document | Publishing Date | Country | Kind |
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WO2007/062950 | 6/7/2007 | WO | A |
Number | Name | Date | Kind |
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3476295 | Telfer | Nov 1969 | A |
6135173 | Lee et al. | Oct 2000 | A |
7007500 | Lee | Mar 2006 | B2 |
20040187516 | Lee | Sep 2004 | A1 |
20050056043 | Lee et al. | Mar 2005 | A1 |
Number | Date | Country |
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1 519 131 | Mar 2005 | EP |
Entry |
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International Search Report PCT/EP2006/067956. |
Number | Date | Country | |
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20100031691 A1 | Feb 2010 | US |