Source: https://patents.google.com/patent/EP1559351B1/en
Timestamp: 2019-12-11 13:31:36
Document Index: 563228723

Matched Legal Cases: ['art 1', 'art 2', 'art 4', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 1', 'art 4', 'art 9', 'art 9', 'art 9', 'art 9', 'art 9', 'art 1', 'art 17', 'art 9', 'art 17', 'art 9', 'art 2', 'art 9', 'art 9', 'art 9', 'arts 13', 'art 9', 'art 4', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 2', 'art 17', 'art 17', 'art 4', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 4', 'art 9', 'art 2', 'art 4', 'art 9', 'art 4', 'art 9', 'art 4', 'art 4', 'art 9', 'art 4', 'art 9', 'art 9', 'art 4', 'art 9', 'art 4', 'art 4', 'art 9', 'art 2']

EP1559351B1 - Brewing device for a coffee machine - Google Patents
Brewing device for a coffee machine Download PDF
EP1559351B1
EP1559351B1 EP20050001056 EP05001056A EP1559351B1 EP 1559351 B1 EP1559351 B1 EP 1559351B1 EP 20050001056 EP20050001056 EP 20050001056 EP 05001056 A EP05001056 A EP 05001056A EP 1559351 B1 EP1559351 B1 EP 1559351B1
EP20050001056
EP1559351A3 (en
EP1559351A2 (en
Balkau Werner
2004-01-28 Priority to DE102004004314 priority
2005-01-19 Application filed by Red Roses SA filed Critical Red Roses SA
2005-08-03 Publication of EP1559351A2 publication Critical patent/EP1559351A2/en
2007-08-08 Publication of EP1559351A3 publication Critical patent/EP1559351A3/en
2008-09-10 Publication of EP1559351B1 publication Critical patent/EP1559351B1/en
239000002775 capsule Substances 0 claims 5
The invention relates to a trained according to claim 1 brewing device for a coffee machine. Generic brewing devices are used both in manually operated as well as in fully automatic espresso coffee machine. The manual machines generally have a cartridge holder, which is attached by means of a bayonet lock on the brewing head of the coffee machine. Both cartridge holders are used, which serve for the direct intake of coffee powder, as well as cartridge holders, which are designed to receive so-called portion capsules. For piercing such portion capsules, a grid is arranged on the brewing head of the coffee machine, which is provided on the front with pointed elevations. These projections penetrate the lid when attaching the portion capsule. To perforate the capsule bottom surveys are also arranged at the bottom of the cartridge holder. Once brewing water is introduced into the capsule, the capsule bottom is pressed by the hydraulic pressure against these surveys and thereby broken. Such a coffee maker is beispieisweise from the EP 521 187 known. In addition, brewing heads for coffee machines are also known in which no cartridge holder is provided in the aforementioned sense, but the two brewing head parts are arranged pivotally to each other.
For example, from the DE 94 15 374 U1 a brewing head for portion capsules of an espresso machine known, which consists of a brewing head base and a pivotally connected brewing head upper part. The two parts form between them a receptacle for a portion capsule. The upper part is provided with a hot water channel, which branches to several hollow needles, which serve to pierce the capsule film. In the brewing head lower part pyramid stumps are arranged, which penetrate the capsule base as soon as it is pressurized by the brewing water and pressed against these truncated pyramids. To open and close the two brewing head parts, a closing lever is provided, which can actuate an ejector for the spent capsule.
From the EP 528 757 a brewing device is known, as used in fully automatic espresso coffee machines. This brewing device consists of a brewing cylinder with a piston movably received therein, an upper, fixedly arranged closing piston for closing the Brewing cylinder and a funnel for filling coffee powder in the brewing cylinder. The side of the brewing cylinder, a drive spindle is arranged, with which the brewing cylinder is non-positively connected by means of a driving member. This spindle drive is used to move the brewing cylinder by the latter is driven to brew the coffee powder up into the brewing position, in which the brewing cylinder is closed by the closure piston. After brewing the coffee powder, the brewing cylinder is driven down again. During this downward movement, the leached coffee powder is expelled by means of the piston received in the brewing cylinder.
From the EP 1 090 574 A1 a generic device for extracting a substance for producing a beverage is known. This device, which forms the brewing device of a coffee machine, consists of a first stationary and a second movable element. The two elements are pivotable relative to one another about an axis of rotation arranged at its rear end. Both elements are provided on the front with a cavity for receiving the substance to be extracted. For pivoting, ie to open and close the two elements a toggle lever-like mechanism is provided which consists of a two-armed locking lever and two tie rods. A fundamental disadvantage of adhering to such a device is that the lever mechanism does not engage in the region of the cavity on the two elements. As a result, the sealing of the cavity is relatively difficult, since during the brewing of the coffee powder in the region of the cavity high hydraulic forces occur, which press the two elements apart. In addition, the two elements perform during closing no parallel but a pivoting movement, which further complicates the sealing of the cavity.
From the EP 0 838 185 A1 an espresso coffee machine is known which has a conventional, provided with a handle filter carrier. For fixing the filter support to a boiler called closure piston, an annular intermediate element is provided. This intermediate element has on the upper side two opposing, rising projections, which together with projections arranged on the closure piston form a bayonet closure. On the underside of the intermediate element is provided with a front and a rear, U-shaped opening. Between these two openings extend laterally two parallel webs in the prismatic grooves are inserted and serve to receive the filter support. The filter carrier can are introduced from the side into the intermediate element or removed therefrom. By rotating the filter carrier accommodated in the intermediate element, an axial displacement of the filter carrier relative to the closure piston and thus a closure of the chamber arranged in the filter carrier can be achieved.
From the US 2002/144603 A1 a coffee maker is known for extracting coffee received in porting capsules. The coffee machine is provided with a brewing head, the brewing chamber for receiving and for removing a portion capsule is laterally displaceable. In the Brühkammerunterteil a first Aufstechorgan is arranged, which is determined to aufzustechen the portion capsule eccentrically. On the top of the brewing chamber, a second, tubular Aufstechorgan is arranged, which is attached to a pivotable arm and connected via a flexible conduit with a hot water heater. The arm is supported by a bolt on a round plate. Under this plate, an inflatable bellows is arranged, which is deployable by means of an air pump to push the arm down. At the lower end of the bolt, a shutter is arranged, which seals the lower part of the hot water heater upwards when the bellows is inflated. By activating the air pump and inflating the bellows with the simultaneous displacement of the arm, the portion capsule is pierced first on the bottom and then on the top by means of the tubular piercing member. Thereafter, hot water is conveyed via the flexible conduit into the tubular piercing member and the coffee taken up in the portini capsule is extracted.
In the DE 196 47 039 A1 there is disclosed a coffee machine with a brewing head movable up and down on guide columns. To move the brewing head a toggle mechanism is provided. Below the brewing head two lateral guide rails are arranged, in which a filter pan is guided displaceably in the horizontal plane. In the filter pan, a filter holder can be used, which is suitable for receiving coffee powder or portion capsules.
The EP 1 319 357 A1 describes a device for producing foam in the filter of espresso coffee machines. For this purpose, a pressure relief valve is arranged on the underside of a container to be extracted coffee powder receiving vessel. This consists of a ball, which is pressed by the bias of a spring against a hole, which exits the prepared coffee infusion from the vessel. To change the amount of foam produced, the bias of the spring can be changed manually.
Besides, that is Patent EP 1 208 782 A1 and the patent CA 2 121 998 known. Both show devices for coffee preparation, wherein an upper part has an inner part and an outer part, which move relative to each other in the axial direction after the movement of an actuating lever.
Finally is from the EP 1 183 975 A1 a coffee maker for brewing powdered coffee packaged in a capsule. This coffee maker is provided with a Brühkammergehäuse, at the bottom of several Aufstechorgane are arranged. In the brewing chamber housing an upper and a lower chamber part are arranged. The upper chamber part is used for vertical support of the capsule and is supported by a compression spring on the lower chamber part. To protect the user from injury, a protective device is arranged on the upper chamber part, which is intended to deny access to the Aufstechorganen.
The invention aims to develop a brewing device for a coffee machine such that it has little moving parts, is simple and compact and easy to use.
For this purpose, a brewing device according to claim 1 is provided according to the invention.
Preferred embodiments of the invention are described in the dependent claims 2 to 16.
Hereinafter, a preferred embodiment of the coffee machine will be explained in more detail with reference to drawings. In these drawings shows:
Fig. 1 a perspective view of a provided with a Brühkammeroberteil and a Brühkammerunterteil brewing device;
Fig. 2 a side view of the two Brühkammerteile according Fig. 1 ;
Fig. 3 the brewing device according to Fig. 1 in a first longitudinal section, and
Fig. 4 the brewing device according to Fig. 1 in a second longitudinal section;
The Fig. 1 shows a perspective view of a brewing device for a coffee machine. The brewing device has a brewing chamber upper part 1 and a brewing chamber lower part 2, which together define a brewing chamber for receiving and brewing-extracting-a portion of coffee.
The Brühkammeroberteil 1 consists of an inner part 4 and a coaxially arranged on springs 8 movably supported on the inner part 4 outer part 9. Both the inner part 4 as well as the outer part 9 are each provided with a recess 5, 10, wherein both the inner part 4 as Also, the outer part 9 are formed substantially hollow cylindrical. The respective recess 5, 10 is bounded laterally at least partially by a wall 6, 11. The inner part 4 is provided with a mounting flange 7 having four holes through which it can be firmly connected to the coffee machine. On the brewing chamber upper part 1, an actuating lever 13 is arranged in the other, which is formed like a bow and by means of which the inner part 4 can be moved relative to the outer part 9. The one side part of the operating lever is designated 13a and the other 13b. The outer part 9 is provided with a flattened portion 14, on which the actuating lever 13 is rotatably mounted. In this operation lever 13 and the thus operatively connected elements will be discussed in more detail below. The outer part 9 of the Brühkammeroberteils 1 is provided on the bottom with guide rails 15 which are provided with a lateral insertion opening 16 for insertion and removal of the Brühkammerunterteils 2. These springs 15 are intended to press the outer part 9 down into the illustrated end position -Open position-, in which the Brühkammerunterteil 2 on the outer part 9 can be fixed or released.
The Brühkammerunterteil 2 is provided with a chamber 3 for receiving a coffee portion. In principle, it does not matter whether the chamber 3 is designed for directly receiving coffee powder or for receiving a capsule filled with coffee powder. The Brühkammerunterteil 2 consists of a base portion 17 and a resiliently supported capsule receptacle 19, the inside of which serves to receive a portion capsule and which is provided with an annular end face 20, on which a brewing chamber arranged on the upper part 1 closing element when closing the chamber 3. The base part 17 is provided on the upper side with a flange 18, by means of which the Brühkammerunterteil 2 is fixed to the guide rails 15 of the outer part 9. From the base part 17 is also a plate-shaped handle 21 from.
In the in Fig. 1 As shown, the Brühkammerunterteil 2 is shown laterally displaced with respect to the Brühkammeroberteil 1. In this position, the chamber 3 of the Brühkammerunterteils 2 fed a coffee portion, or by tilting the Brühkammerunterteils 2 a -ausgelaugte- coffee portion are removed.
The Fig. 2 shows a side view of the two Brühkammerteile according Fig. 1 , From this illustration, it can be seen that the wall 11 of the outer part 9 is provided on the side opposite the side opening 16 with a slot-shaped recess 12 and that the brewing chamber lower part 2 against its end tapered guide cam 22 is integrally formed. This guide cam 22 serves to center the Brühkammerunterteils 2 when fixing on the outer part 9 by aligning itself with the side walls of the recess 12. The actuating lever 13 is rotatably mounted about an axis designated X on the outer part 9 of the Brühkammeroberteils 1. In the two flattened portions 14 of the outer part 9, two opposing grooves 23 in the form of curved, coaxial with the axis of rotation X of the actuating lever 13 arranged scenes are embedded. At the two side parts 13a, 13b ( Fig. 1 ) of the actuating lever 13, an organ in the form of an axis 25 is fixed, which extends through both the outer part 9 as well as through the inner part 4 and by means of which during pivoting of the actuating lever 13, an axial relative movement between the inner part 4 and the outer part 9 is effected , The two slot-shaped grooves 23 are designed such that the axis 25 during pivoting of the actuating lever 13 can move freely within these grooves 23. Thus, the axis 25 may extend through the inner part 4, in the wall also two opposing grooves are recessed, which are not apparent from this illustration.
The Fig. 3 shows a longitudinal section through the Brühkammeroberteil 1 and fixed to the outer part 9 Brühkammerunterteil 2. As can be seen, a filled with coffee powder portion capsule P is included in the capsule receptacle 19. The underside 27 of the inner part 4 facing the brewing chamber lower part 2 is designed as a closure element 28, by means of which the capsule receptacle 19 is attached to the annular end face 20 (FIG. Fig. 1 ) can be closed. From the bottom 27 of the closure element 28 is an upper Aufstechorgan 29 before, which serves to pierce the capsule lid. At the bottom of the base part 17, a lower Aufstechorgan 30 is arranged, which serves the piercing of the capsule bottom.
The capsule receptacle 19 is provided for this purpose with an opening 31 through which the lower piercing member 30 can extend into the capsule receptacle 19 when the chamber is closed. On the underside of the base part 17 is provided with a beverage outlet 35 through which the brewed coffee beverage can flow. In this beverage outlet 35, a spring-loaded closure member 37 is arranged, which closes the beverage outlet 35 in the state shown here and prevents unwanted leakage drop of any residual water or coffee beverage. To actuate this closure member 37 is from the bottom of the capsule holder 19, an extension 36 before. This extension 36 opens the closure member 37 when the chamber 3 is closed and the closure element 28 presses the capsule receptacle 19 downwards.
In the wall of the inner part 4, two opposing, substantially horizontally extending grooves 24 are recessed, wherein from the illustration Fig. 3 only one of the two grooves 24 can be seen. The at Y designated point non-positively connected to the locking lever 13 axis 25 extends through the slot-shaped grooves 23 and the substantially horizontally extending grooves 24. By the design shown is a pivoting of the actuating lever 13, a relative movement between the inner part 4 and the Outer part 9 of the Brühkammeroberteils 1 causes by the axis 25 when pressing down the locking lever 13 frictionally applied to the wall of the groove 24 and the inner part 4 moves in relation to the outer part 9 down. When the inner part 4 is fixedly connected to the coffee machine, when the operating lever 13 is pressed down, the outer part 9 is pulled upwards in relation to the inner part 4 in the axial direction, ie in the direction of the longitudinal axis L1. By means of this mechanism, the force is transmitted essentially centrally, ie in the region of a plane intersecting the longitudinal axis L1, from the closure lever 13 via the axis 25 to the inner element 4. The groove 24 limits the pivoting movement of the actuating lever 13 and serves as an end stop. The relative movement -Hub- carried out by the pivoting of the actuating lever 13 between the inner part 4 and the outer part 9 is selected such that the lid and the bottom of the portion capsule P accommodated in the chamber 3 are sealed by the two piercing members 29, 30 when the chamber 3 is closed be cut open safely. For closing the chamber 3 and for piercing the portion capsule P a relatively small stroke is necessary. This has the further advantage that the force to be applied manually by the user via the actuating lever 13 is also comparatively low. The whole mechanism is designed so that the force application point Y of the axis 25 when depressing the locking lever 13 from the one side of the rotation axis X migrates to the other side of the rotation axis X. Based on the illustration according to Fig. 3 The force application point Y of the axis 25 moves when depressing the locking lever 13 from the right side of the coincident with the longitudinal axis L1 axis of rotation X by about 5 ° beyond the zero point -Outpoint- on the left side of the axis of rotation X. Such a design has the advantage in that the closure lever 13 assumes a self-locking position in the closed, ie downwardly pressed state, so that the forces acting hydraulically on the closure element 28 and the brewing chamber lower part 2 during extraction of the coffee portion P do not present the danger of the closure lever 13 unintentionally opens.
If the inner part 4, as proposed, fixedly connected to the coffee, so by pivoting the operating lever 13 downwardly the outer part 9 moves in relation to the inner part 4 axially upward, while by pivoting the actuating lever 13 upwards the outer part 9 in Relation to the inner part 4 is moved axially downwards. In order to prevent rotation of the inner part 4 relative to the outer part 9, the inner part 4 is provided with a projection 32 which extends into a groove 33 arranged on the outer part 9. In the state shown here, in which the Brühkammerunterteil 2 is fixed by means of the outer part 9 on Brühkammeroberteil 1, the longitudinal axis L1 of the Brühkammeroberteils 1 and the closure element 28 coincides with the longitudinal axis L2 of the Brühkammerunterteils 2, i. the two parts are arranged coaxially with each other. When closing the chamber 3, both a relative movement of the inner part 4 relative to the outer part 9, as well as a relative movement of the Brühkammerunterteils 2 relative to the provided with the closure element 28 inner part 4 takes place in the direction of these longitudinal axes L1, L2. The two Aufstechorgane 29, 30 are also arranged in the region of the longitudinal axes L1, L2. Finally, the axis of rotation X of the actuating lever 13 is located on the longitudinal axis L1.
The inner part 4 of the Brühkammeroberteils 1 is provided with an integral, suggestively marked hot water heater 34. An integral hot water heater 34 has the advantage that on the one hand no connecting lines between the closure element 28 and the hot water heater 34 -Boilervern must be provided and that the closure element 28 on the other hand is preheated by the hot water heater 34 and brewing water.
Order from the in Fig. 3 shown open position in the in Fig. 4 To reach the closed position shown, the actuating lever 13 must be pressed down, whereby now the outer part 9 is moved together with the thereto fixed Brühkammerunterteil 2 in the direction of the longitudinal axis L1 upwards. Based on Fig. 4 In particular, it can also be seen that the force application point Y of the axis 25 has moved beyond the zero point to the left side of the axis of rotation X in the closed position of the actuating lever 13. Due to the upward movement of the brewing chamber lower part 2, on the one hand the lid of the portion capsule is pierced by the upper piercing member 29. On the other hand, the closure element 28 engages the annular end face 20 of the capsule receptacle 19 so that it is moved down together with the capsule P accommodated therein. In this case, the lower Aufstechorgan 30 penetrates through the arranged in the bottom of the capsule receptacle 19 opening 31 into the capsule receptacle 19 and pierces the bottom of the capsule P. After the chamber 3 is closed by the closure element 28, the chamber 3 forms the actual brewing chamber.
During the subsequent brewing process, brewing water is introduced into the capsule P via the upper piercing member 29. The brewed coffee beverage can escape from the portion capsule P via the lower piercing member 30 and flow out of the brewing device via the opened closure member 37 and the beverage outlet 35.
Instead of a manually operated actuating lever 13, of course, an electric motor drive can be provided.
The advantages of the inventive brewing device can be summarized as follows:
Simple and compact construction. In particular, low height.
Simple and safe piercing of the portion capsule accommodated in the chamber, without a rotational movement between the Brühkammerunterteil and the Brühkammeroberteil is performed.
By the coffee portion is supplied to the brewing chamber lower part, when the latter is withdrawn laterally from the brewing chamber upper part, a comparatively small is sufficient Lifting movement for opening and closing the chamber. Likewise, a comparatively small stroke movement suffices for piercing the capsule. The proposed mechanism is simple in construction, has comparatively few moving parts and can be manufactured inexpensively. In addition, the closure lever takes a self-locking position after closing.
The forces transmitted by the shutter lever mechanism act centrally, i. in the area of the longitudinal axis on the two Brühkammerteile a.
Due to the parallel movement and the central force introduction a secure sealing of the chamber is achieved.
By the longitudinally movably arranged capsule receptacle, the lower Aufstechorgan is protected against access in the base part of the Brühkammerunterteils added.
Through the previously explained brewing module and the built-in fixed in the coffee machine closure piston, the entire coffee machine can be made very compact. In addition, the brewing module is constructed of a relatively small number of elements, which ensures high reliability and also allows cost-effective production.
A dispensing device for a coffee machine with a delivery chamber comprising a delivery chamber top section (1) and a delivery chamber bottom section (2) to contain and then extract a portion of coffee (P). Said delivery chamber top section (1) is fitted with a closing element (28) to close a chamber (3) set in the delivery chamber bottom section (2). The aforementioned delivery chamber top section (1) has an internal section (4) complete with closing element (28) and an outer section (9), located coaxially, to slide in an axial direction compared to the internal section (4). The bottom section of the delivery chamber (2) can be fixed to this aforementioned internal section (4). In correspondence to the outer section (9), there is an actuation lever (13) with rotatable mounting in the internal section (4). A part (25) fitted eccentrically compared to the rotation axis (X) of the actuation lever (13), creates an operative relationship between said actuation lever (13) and the internal section (4). This means that when the actuation lever (13) is turned, there is a relative axial movement between the internal section (4) and the outer section (9), characterised by the following: on the side (11) of the outer section (9) there are two grooves (23) with curved and slide layout, one opposite the other and essentially extending coaxially to the rotation axis (X) of the actuation lever(13); on the side (6) of the internal section (4), there are two grooves (24), placed one in front of the other, essentially extending horizontally and the part (25) is secured to the actuation lever (13) in the form of an axis that extends both across the grooves (23) in the outer section (9) and across the grooves (24) in the internal section (4).
A dispensing device as recited in the claim 1, wherein the part (25) is fitted in such a way on the actuation lever (13) that, when the actuation lever (13) is turned from the open to the closed position, the force application point (Y) of the part (25) on the actuation lever (13) passes from one side of the actuation lever (13) rotation axis (X) to the other. This means that when closed, the actuation lever (13) adopts a self-locking position.
A dispensing device as recited in the claims 1 or 2, wherein the bottom of the outer section (9) is equipped with means for securing the bottom section of the delivery chamber (2).
A dispensing device as recited in the claim 3, wherein the means for securing the bottom section of the delivery chamber (2) to the outer section (9) include guides (15) equipped with a side opening (16) to insert or remove the aforementioned bottom section of the delivery chamber (2).
A dispensing device as recited in the claim 4, wherein the outer section (9) is supported by springs (8) at the inner section (4) in such a way that the springs (8) tend to retain the outer section (9) in a position where it is open at the bottom so that the bottom section of the delivery chamber (2) can be secured to or unhooked from said outer section (9).
A dispensing device as recited in any of the previous claims, wherein the inner section (4) is equipped with means (7) for securing to the coffee machine.
A dispensing device as recited in any of the previous claims, wherein both the inner section (4) and the outer section (9) are fitted with a slot (5, 10) limited at least in part by a side wall (6, 11) on one side.
A dispensing device as recited in claim 1, wherein the side of the outer section (9) is equipped with two flattened sections (14), one opposite the other, on which the actuation lever (13) is fitted on rotatable mounting and with grooves (24) with sliding configuration.
A dispensing device as recited in claim 4, wherein the bottom part of the delivery chamber (2) includes a base section (17) and capsule housing (19) supported on it elastically, where said base section (17) is fitted with a flange (18) having a configuration that corresponds to the guides (15), and where the closure of the chamber (3) causes the capsule housing (19) to be pressed by the base section (17) of the closing element (28).
A dispensing device as recited in claim 9, wherein the side (11) of the outer section (9) is equipped with a slot (12) on the opposite side to the side opening (16), and the base section (17) has a guide cam (22) terminating in a conical shape, through which said base section (17) is orientated along the lengthways axis (L1) when the bottom part of the delivery chamber (2) is inserted into the guide rails (15).
A dispensing device as recited in claim 10, wherein the base section (17) is equipped with a handgrip (21) on the side opposite to the guide cam (22).
A dispensing device as recited in claim 9, wherein the bottom side of the closing element (28) level with the bottom of the base section (17), has at least one perforation means (29, 30) to pierce a single-portion capsule (P) and the capsule housing (19) has one opening (31) through which the perforation means (30) on the bottom of the base section (17) can slide into the capsule housing (19) when the chamber (3) is closed.
A dispensing device as recited in any of the above claims, wherein the bottom section of the delivery chamber (2) is equipped with a beverage pouring spout (35) complete with a sprung closing means (37) to close the beverage pouring spout (35) whenever the chamber (3) is not closed.
A dispensing device as recited in claim 13, wherein the closing element (28) is equipped with an extension (36) set out level with the beverage pouring spout (35) and which, upon closure of chamber (3) shifts the closing means (37) to the open position.
A dispensing device as recited in any of the above claims, wherein the top section of the delivery chamber (1) is equipped with a fully integrated device for preparing hot water (34).
EP20050001056 2004-01-28 2005-01-19 Brewing device for a coffee machine Active EP1559351B1 (en)
DE102004004314 2004-01-28
EP1559351A2 EP1559351A2 (en) 2005-08-03
EP1559351A3 EP1559351A3 (en) 2007-08-08
EP1559351B1 true EP1559351B1 (en) 2008-09-10
EP20050001056 Active EP1559351B1 (en) 2004-01-28 2005-01-19 Brewing device for a coffee machine
MX2010010486A (en) * 2008-03-24 2010-12-06 Bunn O Matic Corp Brewer system with active brewing mechanism and buffer reservoir piston compression of brewing substance.
DE602008004097D1 (en) 2008-04-21 2011-02-03 Emparanza Y Glados Internac S A Dispensing arrangement for coffee machines
EP2603120B1 (en) 2010-08-13 2016-11-23 Koninklijke Philips N.V. Device, system and method for preparing a beverage suitable for consumption from a capsule
EP0528757B1 (en) * 1991-07-30 1995-09-20 Sintra Holding Ag Brewing device for a coffee machine and method for preparing coffee
DE50204671D1 (en) 2001-12-14 2005-12-01 Celaya Emparanza Galdos Sa Device for producing foam in the filter of espresso coffee machines
ES2253345T3 (en) 2006-06-01 Coffee infusion machine with cartridges including ground coffee.
JP2007521037A (en) 2007-08-02 Coffee and tea store
EP2384134B1 (en) 2013-04-03 Process of brewing tea leaves contained in a capsule
JP5084740B2 (en) 2012-11-28 Pressure beverage cartridge and manufacturing method thereof
Owner name: RED ROSES S.A.
2006-09-06 RIN1 Information on inventor provided before grant (corrected)
Inventor name: RED ROSES S.A.
Ref document number: 502005005297