SINGLE-SERVE PACKAGING, AND MACHINE AND METHOD FOR PREPARING A BREWED BEVERAGE

Abstract

A single-serve packaging comprising a liquid-permeable filter material that surrounds a chamber in which an extraction material is arranged. The chamber is equipped with a movable closure device which can be moved from a closed position into a position that opens the chamber, wherein at least one marking (11) is provided on the movable closure device (84) in order to identify the single-serve packaging. A machine and a method for preparing a brewed beverage.

Claims

1. A single-serve packaging (8), comprising a liquid-permeable filter material surrounding a chamber (80) in which an extraction material is arranged, wherein a movable closure device (84) is provided on the chamber (80), the movable closure device (84) being movable from a closed position into a position opening the chamber (80), wherein at least one marking (11) for identifying the single-serve packaging (8) is provided on the movable closure device (84).

2. The single-serve packaging according to claim 1, wherein the closure device (84) comprises at least one pivotable flap.

3. The single-serve packaging according to claim 2, wherein the closure device (84) comprises a plurality of pivotable flaps which in the open position circumferentially surround an opening to the chamber (80).

4. The single-serve packaging according to claim 3, wherein the marking (11) is provided in each case at the end of at least one part of the flaps, and the ends are interlocked with each other in the closed position of the single-serve packaging (8).

5. The single-serve packaging according to claim 1, wherein the marking (11) is formed by a colored surface.

6. The single-serve packaging according to claim 3, wherein the single-serve packaging (8) comprises a support body made of cardboard which is connected to the filter material and the support body has a folding edge (83) on which the flaps of the closure device (84) are pivotably mounted and, by moistening the folding edge (83), the closure device (84) can be moved from the closed position into the open position.

7. A machine for preparing a brewed beverage, comprising: a device for the production of hot water; a holder (7) for a single-serve packaging (8) having an extraction material for arranging the single-serve packaging (8) under a feed for the hot water; a controller and a detection unit (12), wherein the detection unit is configured for detecting a marking (11) arranged on a movable closure device (4) of the single-serve packaging (8) can be detected in the closed position.

8. The machine according to claim 7, wherein a closed position and an open position of the single-serve packaging (8) can be detected by means of the detection unit (12).

9. The machine according to claim 7, wherein the holder is configured for pivoting the marking (11) on the closure device (84) when the closure device (84) is opened.

10. The machine according to claim 7, wherein the detection unit (12) comprises a light source (13) and an optical reader (14).

11. A method for preparing a brewed beverage, comprising the following steps: inserting a single-serve packaging (8) comprising a liquid-permeable filter material with an extraction material into a holder (7) of a machine (1); detecting a marking (11) on a closure device (84) on an upper side of the single-serve packaging (8) by a detection unit (11) of the machine (1); opening the closure device (84) and moving the marking (11) of the single-serve packaging (8); supplying hot water to the opening at the top of the single-serve packaging (8) and brewing a beverage, and collecting the brewed beverage under the single-serve packaging (8).

12. The method according to claim 11, wherein, after a closed single-serve packaging (8) has been detected by the controller, hot water is applied to the single-serve packaging (8) in order to open it, and after a waiting time, in particular after detection of a successful opening of the single-serve packaging (8), hot water is again applied to the opened single-serve packaging (8) in order to brew the beverage.

13. The method according to claim 12, wherein the detection unit (12) checks whether the single-serve packaging (8) has been opened after the first application of hot water.

14. The method according to claim 11, wherein a dispensing of hot water is blocked via a controller if no single-serve packaging (8) is detected in the holder (7).

15. The method according to claim 11 wherein a dispensing of hot water is blocked via a controller if an already opened single-serve packaging (8), in particular an already used single-serve packaging (8), is detected in the holder (7).

Description

[0014] The invention is explained in more detail below by means of an exemplary embodiment with reference to the accompanying drawings, wherein:

[0015] FIG. 1 shows a schematic perspective view of a machine for preparing a brewed beverage;

[0016] FIG. 2 shows a schematic view of a single-serve packaging used in the machine during detection;

[0017] FIG. 3 shows a perspective view of a single-serve packaging;

[0018] FIGS. 4A to 4D show several schematic views of the detection unit at different stages of the production of a brewed beverage, and

[0019] FIG. 5 shows a schematic view of a movable detection unit that enables dynamic measurement.

[0020] A machine 1 comprises a housing 2, on which a preferably removable fresh water tank 3 is provided, from which water can be conveyed via a pump and a heating device in order to dispense hot water at a feed 4. The machine 1 has a stationary holding device 6 on the housing 2, into which a holder 7 is inserted, which has a receptacle for a single-serve packaging 8. The single-serve packaging 8 is located below the feed 4 and has a marking 11 on the upper side, which can be detected by a detection unit 12. For this purpose, the detection unit 12 has a light source 13, for example an LED, via which light is emitted onto the upper side of the single-serve packaging 8. Adjacent to the light source 13, an optical reader 14 is provided, for example with an RGB sensor, to detect the light reflected from the marking 11. A colored surface of the marking 11 can thus be detected by the sensor and used for type identification. The colored surface may be applied, for example, by printing or an adhered label.

[0021] During the brewing process, hot water is then applied to the opened single-serve packaging 8 via the feed 4. The water flows through the single-serve packaging 8 and is introduced below the holder 7 into a cup 9, which is placed on a drip tray 10 of the machine 1.

[0022] FIG. 2 schematically shows the detection unit 12, which has a light source 13 and an optical reader 14. The detection unit 12 is arranged above the single-serve packaging 8, which is accommodated in the holder 7. The single-serve packaging 8 comprises a liquid-permeable filter material, for example a paper or a non-woven fabric, having side walls 81 which taper obliquely and terminate at a tip 82 in the lower region. A folding edge 83 is provided on the upper side of the side walls 81, on which a closure device 84 is pivotably mounted. The marking 11 is thereby located on the closure device 84, which is shown in FIG. 2 in a closed position. An extraction material, such as coffee or tea, is arranged in a chamber 80 within the single-serve packaging 8.

[0023] Furthermore, it can be seen that the lower tip 82 of the single-serve packaging 8 is located above a drainage channel 70 in the holder 7.

[0024] The light source 13 emits light onto the marking 11 on the upper side of the single-serve packaging 8, as shown by the dashed lines. The reader 14 detects the light beams reflected from the marking 11, so that it is possible to detect which type of single-serve packaging 8 is arranged in the holder 7 by color design of the marking 11 on the optical reader 14. In order to minimize ambient light influences, a combination measurement, i.e. a measurement without illumination by the light source 13 and a measurement with illumination by the light source 13 and a subsequent signal evaluation, can also be performed.

[0025] FIG. 3 shows a single-serve packaging 8. The single-serve packaging 8 is pyramidal in shape and includes a lower top 82 from which side walls 81 extend upwardly in an expanding manner. A folding edge 83 is provided on the upper side of each side wall 81, connecting the side walls 81 to an upper closure device 84 having a plurality of pivotable flaps which are oriented substantially horizontally in the closed position. The horizontal orientation here refers to the position inserted into the holder 7 during beverage preparation. The closure device 84 with the pivotable flaps comprises the marking 11 at the end, which may optionally be provided on a single flap, but preferably is composed of a plurality of surfaces of individual flaps. For example, three flaps may have a colored marking at the end which together form the continuous marking 11 in the closed position.

[0026] The single-serve packaging 8 may be formed substantially as described in the application DE 10 2018 101 338. In particular, the single-serve packaging 8 may comprise a liquid-permeable filter material held in an annular support body. The support body may thereby form the folding edges 83 and be made of cardboard or another swellable material. By applying a small amount of hot water to the upper side of the single-serve packaging 8, the water reaches the folding edges 83 and causes swelling processes there which ensure that the closure device is opened by causing the individual flaps to swing open upwards. A mechanical interlock of the flaps can thus be opened, as described in the mentioned application.

[0027] The control of the machine 1 for preparing a brewed beverage is explained in the different steps in FIGS. 4A to 4D:

[0028] In FIG. 4A, no single-serve packaging 8 is inserted into the holder 7, and the detection unit 12 can detect this because no reflection of the light beams emitted by the light source 13 is detected by the optical reader 14. A discharge of hot water can thus be blocked to minimize the risk of injury to the user. In addition, information can be output on a display of the machine 1 that no single-serve packaging 8 is arranged in the holder 7.

[0029] In FIG. 4B, a single-serve packaging 8 has been inserted into the holder 7. The detection unit 12 detects the marking 11 on the upper side of the single-serve packaging 8 by reflecting the light beam emitted by the light source 13 through the marking 11 and detecting it by the optical reader 14. This detection can signal to the controller that a closed single-serve packaging 8 is located in the holder 7 and that the brewing operation can be initiated.

[0030] In a first step, a small amount of hot water is now applied to the top of the single-serve packaging 8 to open the closure device 84 of the single-serve packaging 8, as shown in FIG. 4C. The application of hot water to the single-serve packaging 8 opens the closure device 84 with the individual circumferentially arranged flaps, wherein the flaps expose an upper side of the chamber 80 for the brewing process. After a predetermined waiting time, for example between 2 s and 20 s, the detection unit 12 can detect whether the closure device 84 is at least partially in the open position. In FIG. 4C it can be seen that a first section 11a of the marking 11 and a second section 11b of the marking 11 are provided on different flaps of the closure device 84, and by moving the marking 11 the detection unit 12 can now detect an at least partially open position of the single-serve packaging 8.

[0031] FIG. 4D schematically shows the fully open position of the single-serve packaging 8, in which the entire surface of the chamber 80 is accessible above the extraction material so that hot water can be applied from above. Detection of the open position of the closure device 84 can be carried out, for example, in that an extraction material, for example brown coffee grounds, is arranged in the chamber 80, so that the color brown can be detected by the optical reader. The marking 11 may be provided in colors other than the extraction material, such as red, green, or blue, so that the color detection can be used to detect both whether no single-serve packaging is inserted into the holder 7, i.e., no reflection occurs, or whether a single-serve packaging 8 is inserted in the closed position, or when the brown coffee grounds are detected, the single-serve packaging 8 is arranged in an open position.

[0032] In a particularly advantageous design of the machine, the detection unit is arranged in a movable part 40, for example a movable feed, so that it does not interfere with the insertion and removal of the single-serve packaging, but is in the correct relative position (e.g. perpendicularly above it) to the single-serve packaging 8 during measurement. The movable part 40 can be moved by a drive and controller of the machine. A movable detection unit further enables dynamic measurement of the opening angle. This is shown in FIG. 5. In contrast to the static measurement, with which a certain minimum opening can be determined, any opening angle between 0° and 90° can be determined in this way.

[0033] In the exemplary embodiment shown, the single-serve packaging 8 contains coffee grounds. It is also possible to provide tea or another extraction material instead of coffee grounds. In addition, the single-serve packaging 8 can be used to prepare soups or other food products.

LIST OF REFERENCE NUMERALS

[0034] 1 Machine [0035] 2 Housing [0036] 3 Fresh water tank [0037] 4 Feed [0038] 6 Holding device [0039] 7 Holder [0040] 8 Single-serve packaging [0041] 9 Cup [0042] 10 Drip tray [0043] 11 Marking [0044] 11a Section [0045] 11b Section [0046] 12 Detection unit [0047] 13 Light source [0048] 14 Reader [0049] 70 Drainage channel [0050] 80 Chamber [0051] 81 Side wall [0052] 82 Tip [0053] 83 Folding edge [0054] 84 Closure device