Milk frothing device comprising a feed nozzle and a housing
The milk foaming device addresses nozzle clogging by using a rib to dislodge dried milk during insertion and withdrawal, ensuring efficient cleaning and consistent airflow for uniform frothed milk production.
Patent Information
- Authority / Receiving Office
- FR · FR
- Patent Type
- Applications
- Current Assignee / Owner
- SEB SA
- Filing Date
- 2024-12-12
- Publication Date
- 2026-06-19
Smart Images

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Abstract
Description
Title of the invention: Milk foaming device comprising a feed nozzle and a housing technical field
[0001] The present application relates to the field of milk foaming devices by mixing unfoamed milk and air. STATE OF THE ART
[0002] Milk frothing devices include a milk frothing housing into which a nozzle connected to a milk supply can be inserted at a milk port. The housing further includes a port to which an air supply and a steam supply are connected. During use of the device, the air and milk are drawn together by the Venturi effect under the action of the steam into a frothing chamber, where they are mixed to produce frothed milk.
[0003] Such devices exist in which the nozzle that feeds the milk frothing chamber also carries air, so that the milk and air can be delivered together to the frothing chamber. A groove in the nozzle's outer surface allows air to pass along the outer surface and then into the nozzle, where it is mixed with the milk and conveyed with it to the frothing chamber through the inside of the nozzle. The cross-section of the groove determines the airflow rate through the nozzle and into the frothing chamber. It is therefore important to ensure that this cross-section remains constant over time to obtain frothed milk with a uniform texture and the highest possible quality.
[0004] However, during certain uses of the milk frothing device, milk can flow back towards the nozzle from the frothing chamber, and in particular pass into the groove. Once dried, this milk solidifies and clogs the groove, reducing the airflow that can circulate in the groove, or even preventing all airflow. A user can manually clean the groove after removing the nozzle from the milk port. However, such cleaning remains tedious and is rarely sufficient to remove all the solidified milk from the groove, whose small cross-section makes access difficult for the user, and the groove remains partially clogged unless such cleaning is carried out with particular care. EXPOSITION
[0005] There is therefore a need for a milk foaming device which allows for more efficient and less complex cleaning of the groove provided in the nozzle for the passage of air.
[0006] To this end, a milk foaming device is proposed, comprising a milk supply nozzle and a foaming body, the foaming body comprising:
[0007] - a steam and / or hot water inlet port,
[0008] - an air supply port, and
[0009] - a milk inlet port, configured to receive the milk supply nozzle, the air inlet port opening onto an internal surface of the milk inlet port,
[0010] the milk feed nozzle comprising:
[0011] - a main portion defining a milk distribution conduit, and
[0012] - an air supply slot extending over at least part of an external surface of the main portion, between an upstream end and a downstream end in a normal direction of air flow in the air supply slot during the operation of the milk frothing device, the external surface of the main portion comprising an air injection orifice in the milk distribution duct into which the downstream end opens,
[0013] the internal surface of the milk supply port comprising a rib configured to slide in the air supply slot, between the upstream end and the downstream end during insertion or removal of the milk supply nozzle from the milk supply port, so as to dislodge dried milk present in the air supply slot.
[0014] The rib allows the air inlet slot to be cleaned during any insertion or withdrawal movement of the milk feed nozzle. Therefore, the user does not need to manually clean the slot—specifically, the withdrawal action, which would be necessary anyway before manual cleaning, is sufficient to dislodge any dried milk residue present in the slot. This results in time savings for the user and a more thorough and effective cleaning of the slot, ensuring a constant airflow through the slot and uniform, optimal quality of the frothed milk.
[0015] According to some embodiments, the external surface of the main portion further includes a housing located downstream of the downstream end and configured to receive the rib at the end of a sliding stroke of the rib in the air supply slot when the milk supply nozzle is inserted into the milk supply port.
[0016] According to some embodiments, the housing has a depth greater than or equal to the depth of the air supply slot and / or the housing has a thickness greater than or equal to the thickness of the air supply slot.
[0017] According to some embodiments, the housing and the air supply slot are located on either side of the air injection orifice.
[0018] According to some embodiments, the housing has a thickness greater than or equal to the thickness of the rib and / or a depth greater than or equal to that of the rib.
[0019] According to some embodiments, the milk supply port is configured to receive the milk supply nozzle in a sealed manner.
[0020] According to certain embodiments, the steam and / or hot water inlet port is suitable for being fluidly connected to a steam and / or hot water outlet of a beverage distribution device, in particular a coffee machine.
[0021] According to some embodiments, the foaming body includes a housing suitable for receiving a cleaning tool configured to clean the milk distribution duct and / or the air supply slot.
[0022] According to certain embodiments, the foaming body comprises:
[0023] - a foaming chamber fluidly connected to the steam inlet port and / or hot water and milk supply port, and
[0024] - a frothed milk outlet,
[0025] an outlet orifice of the milk supply nozzle being suitable for opening into the foaming chamber after connection of the milk supply nozzle to the milk inlet port
[0026] According to some embodiments, the milk foaming device includes an outlet module suitable for being connected to the foaming body, the outlet module including two foamed milk distribution nozzles suitable for each being fluidly connected to the foamed milk outlet.
[0027] According to a second aspect, a milk foaming system is proposed comprising a milk foaming device as defined above and a pot intended to receive milk, an internal volume of the pot being suitable to be fluidly connected to the feed nozzle.
[0028] A third aspect is proposed, a beverage dispensing apparatus, comprising a steam and / or hot water outlet and a milk frothing device as defined above, the steam and / or hot water inlet port being configured to be connected to the steam and / or hot water outlet.
[0029] According to some embodiments, the beverage dispensing apparatus comprises a beverage dispensing head in a container, the beverage dispensing head forming a receptacle into which the steam and / or hot water outlet opens, the milk frothing device being received in the receptacle when the steam and / or hot water inlet port is connected to the steam and / or hot water outlet.
[0030] According to some embodiments, the milk supply nozzle is inserted into the milk supply port and includes an inlet fluidly connected to a pot intended to receive milk disposed outside a frame of the beverage distribution apparatus. DESCRIPTION OF THE FIGURES
[0031] Other features, purposes and advantages will become apparent from the following description, which is purely illustrative and not limiting, and which should be read in conjunction with the accompanying drawings on which:
[0032] [Fig. 1] represents a milk foaming device according to an embodiment of the invention.
[0033] [Fig.2] represents a beverage dispensing apparatus comprising an outlet of steam and / or hot water and the milk frothing device of [Fig.1].
[0034] [Fig.3] represents a milk supply nozzle of the milk frothing device of [Fig.1],
[0035] [Fig.4] represents a foaming body of the milk foaming device of the [Fig.l].
[0036] Throughout the figures, similar elements bear identical reference numerals. DETAILED DESCRIPTION OF EMBODIMENTS
[0037] A milk frothing device shown in [Fig. 1] comprises a milk supply nozzle 1 and a frothing body 2, configured to cooperate in an assembled configuration in which the supply nozzle 1 is inserted into a milk inlet port 10 of the frothing body 2. The frothing device, in its assembled configuration, is intended to be integrated into a beverage dispensing apparatus 15 shown in [Fig. 2]. In particular, the frothing device can be used to produce frothed milk in a coffee dispensing apparatus.
[0038] Fig. 2 illustrates such a beverage dispensing apparatus 15. The dispensing apparatus 15 includes a dispensing head 13 intended to receive the milk frothing device.
[0039] The milk frothing device includes at least one frothed milk dispensing outlet 16 provided to allow milk to be dispensed into a container located below the dispensing head 13, this frothed milk dispensing outlet 16 being connected to a frothed milk outlet 11 provided in the frothing body 2. The dispensing device 15 may also include outlets 14 for a beverage prepared by the beverage dispensing device when this beverage is other than milk.
[0040] According to one embodiment, the dispensing device 15 is a coffee dispensing device, and the dispensing head 13 comprises the milk frothing device equipped with the milk dispensing outlet 16 as well as a coffee dispensing outlet 14, or even two coffee dispensing outlets 14 so as to allow the simultaneous filling of two containers with coffee. Advantageously, the outlet milk dispenser 16 is also equipped with two nozzles for dispensing frothed milk.
[0041] The foaming device, when assembled within the dispensing head 13, is also suitable for connecting to a milk container 30 intended to hold unfoamed milk. The container 30 is advantageously located outside a frame of the dispensing apparatus 15 and is connected to the milk supply nozzle 1 via a milk supply line 17, the line passing through a through-hole 18 in a frame of the dispensing head 13.
[0042] The milk supply line 17 has a first end connected to the foaming body 2, via the milk supply nozzle 1, and a second end opposite the first end, the second end being able to be inserted into an internal volume of the pot 30.
[0043] According to some embodiments, the foaming device can be assembled to a milk pot 30 independently of, or before, an insertion of the foaming device into the distribution head 13.
[0044] The beverage dispensing apparatus 15 further includes a steam and / or hot water outlet suitable for supplying the foaming device. The foaming body 2 includes a steam and / or hot water inlet port 4 suitable for fluid connection to the steam and / or hot water outlet of the dispensing apparatus 15. The steam and / or hot water outlet opens, in particular, into the dispensing head 13.
[0045] The milk supply nozzle 1, illustrated in detail in [Fig. 3], comprises a substantially cylindrical main portion 6 through which a milk distribution conduit passes. The main portion 6 comprises an inlet end 19 with an inlet orifice 23 of the milk distribution conduit and an outlet end 31 with an outlet orifice 29 of the milk distribution conduit.
[0046] An air supply slot 8 extends parallel to an insertion direction DI of the outlet end 31 of the milk supply nozzle 1 into the milk supply port 10 of the foaming body 2. The air supply slot 8 extends over a portion of an external surface of the outlet end 31.
[0047] During operation of the milk foaming device, the milk supply nozzle 1 is inserted into the milk supply port 10 of the foaming body 2, and the air supply slot 8 receives air through an upstream end 24. The air flows through the air supply slot 8 from the upstream end 24 to a downstream end 25 of the slot 8, this downstream end 25 opening into an air injection orifice 9, itself fluidly connected to the milk distribution conduit of the supply nozzle 1. The upstream end of the slot 24 is closer to the outlet orifice 29 than the downstream end of the slot 25. Thus, by the "normal direction of airflow in the air supply slot during operation of the foaming device of milk”, we hear an airflow from the upstream end 24 of the slot 8 to the downstream end 25 of the slot 8, parallel to the DI direction of insertion of the outlet end 31 of the milk supply nozzle 1 into the milk supply port 10, but in the opposite direction to the insertion of the outlet end 31 into the milk supply port 10.
[0048] The air, once it has passed through the air supply slot 8 and entered the milk distribution duct via the air injection orifice 9, is mixed with the milk coming from the milk supply duct 17 and flowing in the insertion direction Dl.
[0049] The milk supply line 17 can be connected to the inlet end 19. The milk supply line 17 can in particular be fixed to the inlet end 19 by interference, an internal surface of the milk supply line 17 being retained on a non-smooth retaining portion 20 of an external surface of the inlet end 19. The non-smooth retaining portion 20 can for example have a serrated shape.
[0050] According to some embodiments, the inlet end 19 comprises, upstream of the retaining portion 20 in the direction of insertion of the milk supply line 17 on the inlet end 19 - which is the same as the direction Dl of insertion of the outlet end 31 of the milk supply nozzle 1 into the milk supply port 10 of the foaming body - a conical portion 21 whose cross-section increases in the direction of insertion so as to facilitate the positioning of the milk supply line 17 on the retaining end 19.
[0051] In addition to the main portion 6, the milk supply nozzle 1 may include, between the inlet end 19 and the outlet end 31, a collar 22 adapted to form a stop, so as to define an insertion limit of the milk supply line 17 on the inlet end 19 of the milk supply nozzle 1. The collar also allows to define an insertion limit of the milk supply nozzle 1 in the milk supply port 10.
[0052] Preferably, the main portion 6 includes a seal ensuring a tight seal between the feed nozzle 1 and the milk supply port 10 when the feed nozzle 1 is inserted into the milk supply port 10. Alternatively, the collar 22 provides a tight seal for the connection between the feed nozzle 1 and the foaming body 2 once the feed nozzle 1 is inserted into the milk supply port 10. However, in some embodiments, the seal between the feed nozzle 1 and the foaming body 2 is provided by a seal disposed on the feed nozzle 1 or in the milk supply port 10, in combination with or instead of the seal provided by the collar 22.
[0053] The slot 8 is suitable for being supplied with air via its upstream end 24 by an air supply port 3 of the foaming body 2 fluidly connected to the upstream end 24.
[0054] The foaming body 2 of the milk foaming device is shown in [Fig.4]. It includes the milk inlet port 10 provided for receiving the feed nozzle 1, the air inlet port 3, the steam and / or hot water inlet port 4 and the foamed milk outlet 11.
[0055] The foaming body 2 further includes a rib 12 disposed on the internal surface of the milk supply port 10. When the milk supply nozzle 1 is inserted into the milk supply port 10, the rib 12 is inserted into the air supply slot 8. When the milk supply nozzle 1 is disengaged from the milk supply port 10, the rib 12 passes through the air supply slot 8 in the opposite direction.Thus, if milk has remained in the air supply slot 8 after use of the foaming device, and has dried, the passage of the rib 12 in the air supply slot 8 during insertion of the feed nozzle 1 into the milk supply port 10 (and, possibly, disengagement of the feed nozzle 1 from the milk supply port 10) makes it possible to dislodge the dried milk present in the air supply slot 8 without any action being necessary from the user other than the insertion (and possibly disengagement) which he would perform in any case during an assembly (and disassembly) of the foaming device.
[0056] The steam and / or hot water inlet port 4 and the foamed milk outlet 11 are fluidly connected by a foaming line 26. In the assembled position of the foaming device in the distribution head 13, the foaming line 26 extends vertically so as to allow the milk to pass as efficiently as possible to the foamed milk outlet 11 under the effect of gravity.
[0057] A foaming chamber 5 extends in the foaming line 26, between the steam and / or hot water inlet port 4 and the foamed milk outlet 11. The foaming chamber 5 is configured to allow the foaming of the milk from the feed nozzle 1 by the Venturi effect, thanks to the steam and / or hot water from the steam and / or hot water inlet port 4. For this purpose, the milk inlet port 10 is fluidly connected to the foaming line 26 via an orifice 27, in particular an orifice 27 which opens upstream of the foaming chamber 5 in a direction D2 of hot water / steam flow in the foaming line 26. When the feed nozzle 1 is in the mounted position in the milk inlet port 10, The outlet orifice 29 is thus directly connected to the foaming line 26 via the orifice 27.
[0058] The foaming chamber 5 preferably has a conical shape allowing the Venturi effect which causes the milk to foam.
[0059] According to an embodiment not shown in the figures, the foaming device comprises an outlet module that can be connected to the foaming body 2. The outlet module comprises two foamed milk dispensing nozzles, each foamed milk dispensing nozzle being adapted to be fluidly connected to the outlet of frothed milk 11 so as to allow the distribution of frothed milk from the frothing body 2 in two distinct positions.
[0060] According to embodiments, the milk supply nozzle 1 comprises, in the extension of the air supply slot 8 along the insertion direction Dl, between the downstream end 25 of the slot and the inlet end 19 of the nozzle 1, a housing 7 configured to allow the rib 12 to be received in the mounted position of the supply nozzle 1 in the foaming body 2, i.e. at the end of an insertion stroke of the distribution nozzle 1 in the milk supply port 10. The air injection orifice 9 is thus disposed between the downstream end 25 of the slot and the housing 7, and is directly connected to both the slot 8 and the housing 7.
[0061] The thickness of the housing 7 along a direction defined by the circumference of the main portion 6 is greater than a thickness of the rib 12, and preferably greater than a thickness of the air supply slot 8.
[0062] The depth of the housing 7, defined along a direction perpendicular to a main axis of the supply nozzle 1, is greater than a depth of the rib 12 along this same direction, and preferably greater than a depth of the air supply slot 8 along this same direction.
[0063] Providing larger dimensions (thickness and depth) for the housing 7 than for the air inlet slot 8 allows for a rib 12 adapted to the dimensions of the air inlet slot and capable of dislodging most of the dried milk present in the slot 8, while ensuring easy access of the rib 12 to the housing 7. In particular, when the thickness of the rib 12 is substantially equal to the thickness of the air inlet slot 8, or very slightly less than the thickness of the air inlet slot 8 so as not to impede the sliding of the rib 12 in the air inlet slot 8, the user feels friction between the air inlet slot 8 and the rib 12 during this sliding motion. This friction disappears once the rib 12 reaches the housing 7 due to the dimensions of the housing 7. greater than the dimensions of the air supply slot 8. This allows an indication of the end of the insertion stroke to the user.
[0064] Advantageously, the rib 12 has a cross-section (thickness x depth) substantially equal to the cross-section of the air supply slot 8.
[0065] Similarly, the presence of friction allows the user to know when the rib 12 enters the air supply slot 8 when the rib 12 is withdrawn from the housing 7.
[0066] The housing 7 is arranged on the opposite side of the air injection orifice 9 in the insertion direction Dl relative to the air supply slot 8.
[0067] According to certain embodiments, the foaming body 2 further comprises a housing adapted to receive a cleaning tool for cleaning the duct of milk distribution from the milk supply nozzle 1 and / or the air supply slot 7. This allows a user to clean the milk distribution duct, and to clean the air supply slot 8 including in areas which might be inaccessible to the rib 12 depending on the geometries of the slot 8 and the rib 12.
Claims
Demands
1. Milk foaming device, comprising a milk supply nozzle (1) and a foaming body (2), the foaming body (2) comprising: - a steam and / or hot water inlet port (4), - an air inlet port (3), and - a milk inlet port (10), configured to receive the milk supply nozzle (1), the air inlet port (3) opening onto an internal surface of the milk inlet port (10), the milk supply nozzle (1) comprising: - a main portion (6) defining a milk distribution conduit, and - an air inlet slot (8) extending over at least a portion of an external surface of the main portion (6), between an upstream end (24) and a downstream end (25) in a normal direction of airflow in the air inlet slot (8) during the operation of the milk frothing device,the external surface of the main portion (6) comprising an air injection orifice (9) in the milk distribution conduit into which the downstream end (25) opens, the internal surface of the milk supply port (10) comprising a rib (12) configured to slide in the air supply slot (8), between the upstream end (24) and the downstream end (25) during insertion or removal of the milk supply nozzle (1) from the milk supply port (10), so as to dislodge dried milk present in the air supply slot (8).
2. Milk foaming device according to claim 1, wherein the external surface of the main portion (6) further comprises a housing (7) located downstream of the downstream end (25) and configured to receive the rib (12) at the end of a sliding stroke of the rib (12) in the air supply slot (8) when the milk supply nozzle is inserted into the milk supply port.
3. Milk foaming device according to claim 2, wherein the housing (7) has a depth greater than or equal to a depth of the air supply slot (8) and / or the housing (7) has a thickness greater than or equal to a thickness of the air supply slot (8).
4. Milk foaming device according to claim 2 or 3, wherein the housing (7) and the air supply slot (8) are located on either side of the air injection orifice (9).
5. Milk foaming device according to any one of claims 2 to 4, wherein the housing (7) has a thickness greater than or equal to a thickness of the rib (12) and / or a depth greater than or equal to that of the rib (12).
6. Milk foaming device according to any one of the preceding claims, wherein the milk supply port (10) is configured to receive the milk supply nozzle (1) in a sealed manner.
7. Milk frothing device according to any one of the preceding claims, wherein the steam and / or hot water inlet port (4) is capable of being fluidly connected to a steam and / or hot water outlet of a beverage dispensing apparatus, in particular a coffee machine.
8. Milk foaming device according to any one of the preceding claims, wherein the foaming body (2) includes a housing adapted to receive a cleaning tool configured to clean the milk distribution duct and / or the air supply slot (8).
9. Milk foaming device according to any one of the preceding claims, wherein the foaming body (2) comprises: - a foaming chamber (5) fluidly connected to the steam and / or hot water supply port (4) and to the milk supply port (10), and - a foamed milk outlet (11), an outlet orifice (29) of the milk supply nozzle (1) being adapted to open into the foaming chamber (5) after connection of the milk supply nozzle (1) to the milk supply port (10).
10. Milk foaming device according to claim 9, which includes an outlet module suitable for being connected to the foaming body (2), the outlet module including two foamed milk distribution nozzles suitable for each being fluidly connected to the foamed milk outlet (11).
11. Milk foaming system comprising a milk foaming device according to any one of the preceding claims and a pot (30) for receiving milk, an internal volume of the pot (30) being suitable for being fluidly connected to the milk supply nozzle (1).
12. Beverage dispensing apparatus (15), comprising a steam and / or hot water outlet and a milk frothing device according to any one of claims 1 to 10, the steam and / or hot water inlet port (4) being configured to be connected to the steam and / or hot water outlet.
13. Beverage dispensing apparatus (15) according to claim 12, wherein the beverage dispensing apparatus (15) comprises a beverage dispensing head (13) into a container, the beverage dispensing head (13) forming a receptacle into which the steam and / or hot water outlet opens, the milk frothing device being received into the receptacle when the steam and / or hot water inlet port (4) is connected to the steam and / or hot water outlet.
14. Beverage dispensing apparatus (15) according to claim 12 or 13, wherein the milk supply nozzle (1) is inserted into the milk supply port (10) and includes an inlet (23) fluidly connected to a pot (30) for receiving milk disposed outside a frame of the beverage dispensing apparatus (15).