The present disclosure concerns a device (1) for water treatment, comprising: —a container (2) configured for containing, in use, a predetermined amount of water (100) to mineralize: —at least a supply input (14) for a mineralizing substance(S) to solubilize in said water (100): —a mineral solubilisation gas (G) supplying pipe (7), opening itself in said container (2) and configured for supplying a gas within said water (100), said gas (G) being destined to allow a solubilisation of said mineralizing substance in water: the device (1) comprising at least an operating configuration of mineralization, wherein the container (2) is pressurized through the mineral solubilisation gas (G) supplied within said container (2), and in particular is brought and/or kept at a pressure at least equal to a predefined pressure value (PI), said pressure being higher than the environmental pressure, and wherein the mineralizing substance(S) chemically reacts with said gas (G) determining a mineralization of the water with a solubilized compound.
The present disclosure concerns a capsule for beverages (300) comprising a body having a head portion (302) and a bottom portion (301) and suitable for defining a cavity (300c) configured for containing, in use, a fluid and/or a gas; the capsule for beverages comprises an orifice (306) configured for allowing the release of said fluid and/or gas from the cavity. A seal (305) is movable between at least a first position suitable for determining a closing of the orifice (306) configuring the capsule for beverages (300) in a closed operating configuration, and a second position suitable for determining an opening of the orifice (306) configuring the capsule for beverages (300) in an open operating configuration. The disclosure concerns a machine for filling capsules for beverages, comprising: —at least a seat (200, 200′) configured for housing at least a capsule for beverage (300), to fill with a gas and/or with a fluid solution, in particular with a mineralized solution; —at least an injection system (201, 400, 401, 402) configured for operatively coupling with said capsule (300) and for supplying in pressurized way, in use, said gas and/or said fluid solution, in particular said mineralized solution, within the capsule (300); wherein the machine comprises at least an operating configuration of capsules filling, within which the seat (200, 200′) and/or the injection system (201, 400, 401, 402) are placed under pressure in order to determine a transfer of said gas and/or said fluid solution within the capsule (300).
B65B 3/10 - Methods of, or means for, filling the material into the containers or receptacles by application of pressure to material
B65B 31/00 - Packaging articles or materials under special atmospheric or gaseous conditionsAdding propellants to aerosol containers
B65B 31/02 - Filling, closing, or filling and closing, containers in chambers maintained under vacuum or superatmospheric pressure or containing a special atmosphere, e.g. of inert gas
Water distillation device, comprising:
a body having a lateral wall and defining a cavity suitable for allowing the distillation of an amount of water to distill, wherein in said cavity are defined a distillation chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion designed to collect at least temporarily distilled water,
at least a heater, configured to heat the amount of water to distill present, in use, in the distillation chamber,
a cooler, configured to determine a condensation of a distillation steam,
a pre-heater for the water to distill, positioned outside of said cavity, said pre-heater being configured to pre-heat the water to distill before an its inflow in the distillation chamber and comprising:
a containment vase for the water to pre-heat,
an inlet duct configured to allow the introduction of the water to pre-heat within said containment vase,
an outlet duct, connected with the cavity, in particular with the distillation chamber and configured to make a pre-heated water flow from the containment vase toward the cavity, in particular toward the distillation chamber,
a pre-heating element, at least partially introduced within said containment vase, configured to supply heat to the water to pre-heat contained, in use, in said containment vase.
Water distillation device, comprising:
a body having a lateral wall and defining a cavity suitable for allowing the distillation of an amount of water to distill, wherein in said cavity are defined a distillation chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion designed to collect at least temporarily distilled water,
a heater, configured to heat the amount of water to distill present, in use, in the distillation chamber,
a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water to distill through the heater,
wherein the cooler is a refrigerator evaporator, the heater is a refrigerator condenser and wherein the water distillation device comprises a refrigerator compressor connected to the refrigerator evaporator and to the refrigerator condenser, said refrigerator compressor being configured to compress a gas directed within said refrigerator condenser determining, in use, a heating of the latter sufficient to cause a boiling of the water to distill, said refrigerator evaporator being configured to allow an expansion of the gas previously compressed by the refrigerator compressor determining, in use, a cooling of the distillation steam sufficient to cause a condensation of the distillation steam in the collection portion,
the water distillation device comprising an intermediate duct connected in correspondence of an its own ending with the refrigerator condenser and in correspondence of an its own second ending with the refrigerator evaporator, said intermediate duct being configured and specifically designed to transport a fluid and/or gas outflowing from the refrigerator condenser toward the refrigerator evaporator,
the water distillation device comprising a pre-cooling system for the gases outflowing from the refrigerator condenser, configured to cool at least a part of the intermediate duct, said pre-cooling system comprising an active cooler configured to subtract heat from said at least a part of the intermediate duct.
A device for opening capsules for beverages, the opening device comprising:
at least a perforator configured to perforate at least one between a head portion, a bottom portion or a lateral wall of the capsule for beverages, realizing an opening such as to put an inner cavity of said capsule for beverages, within which is contained a substance (S) under pressure, in substantial communication with an outer environment,
at least a striker configured to retain the capsule for beverages in a predetermined position,
wherein
the device for opening capsules is configured to vary a relative position between the capsule for beverages and the perforator at least between a first position wherein the perforator is positioned at a distance from the capsule for beverages and a second position wherein the perforator is positioned at least partially within said capsule for beverages, protruding itself inside the inner cavity,
said device for opening capsules for beverages comprising a conveyor positioned in substantial correspondence of the perforator to realize a seal in substantial correspondence of said opening and configured to convey at least part of the substance (S) along a predetermined direction or path of injection of the substance (S) in a container for a beverage, such as to discharge the pressure present in the inner cavity of the capsule for beverages toward said predetermined direction or path of injection.
A47J 31/40 - Beverage-making apparatus with dispensing means for adding a measured quantity of ingredients, e.g. coffee, water, sugar, cocoa, milk, tea
A47J 31/44 - Parts or details of beverage-making apparatus
Water distillation device, comprising:
a body defining a cavity suitable for allowing the distillation of an amount of water to distill, wherein in said cavity are defined a distillation chamber and a condensation chamber, and wherein the condensation chamber comprises a collection portion designed to collect at least temporarily distilled water,
a heater, configured to heat the amount of water to distill present, in use, in the distillation chamber,
a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water to distill through the heater,
wherein the body comprises a head portion and a main portion, said distillation chamber being realized in substantial correspondence of the main portion,
the water distillation device comprising a junction portion angularly joining the head portion with said main portion,
the head portion comprising a three ways element in turn comprising a first way, a second way and a third way, wherein said first way faces on said junction portion, and wherein said third way houses said cooler and substantially defines the condensation chamber and a collection portion for the distilled water.
Water distillation device, comprising:
a body having a lateral wall and defining a cavity suitable for allowing the distillation of an amount of water to distill, wherein in said cavity are defined a distillation chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion designed to collect at least temporarily distilled water,
at least a heater, configured to heat the amount of water to distill present, in use, in the distillation chamber,
a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water to distill through the heater,
wherein the condensation chamber comprises an outlet configured to allow an outflow of the distilled water from the collection portion,
wherein the water distillation device is a vacuum distillation device, configured to carry out the distillation of the water to distill at a pressure lower with respect to the atmospheric pressure,
wherein the water distillation device has an operating configuration of supply of distilled water, within which the distilled water collected in the collection portion is made flown outside of said cavity, optionally in an outlet duct, said device being configured to maintain within said cavity a predetermined vacuum level with respect to a predetermined threshold in the continuation of said operating configuration of supply of distilled water,
the water distillation device comprising an extraction pump connected with said outlet, said extraction pump being configured to be activated during the operating configuration of supply for extracting the water from the collection portion allowing to maintain the vacuum inside the cavity and/or preventing that the vacuum inside the cavity exceeds a predetermined threshold value, and/or preventing, during its operation, the access of the air inside said cavity.
Water distillation device, comprising:
body having a lateral wall and defining a cavity suitable for allowing the distillation of an amount of water to distill, wherein in the cavity are defined a distillation chamber (2d) and a condensation chamber,
at least a heater, configured to heat the amount of water to distill,
an intermediate or separating element, positioned in an intermediate position of the cavity of the body, and having at least a portion of junction with the lateral wall, said intermediate or separating element being configured to divide said cavity realizing the distillation chamber and the condensation chamber,
said intermediate or separating element comprising at least a through hole configured to allow the passage of at least a distillation steam from the distillation chamber to the condensation chamber,
said intermediate or separating element comprising at least a collection portion of distilled water.
The present disclosure refers to a capsule (100), in particular a capsule (100) for beverages, comprising a lateral wall (101), a head portion (102), and a bottom portion (103), the head portion (102) and the bottom portion (103) being joined to the lateral wall (101),
wherein said lateral wall (101), said head portion (102) and said bottom portion (103) detect an inner cavity (100c) in use insulated from the outer environment and configured to contain, in use, a substance at least partially fluid and/or powdery, in particular destined to produce a beverage in the form of additivated liquid the substance thereof represents a determined part in weight,
wherein said capsule (100) for beverages is configured to withstand within said inner cavity (100c) a predetermined pressure produced by said substance,
and wherein at least one among said head portion (102) and/or said bottom portion (103) and/or said lateral wall (101) comprises an opening portion configured to be perforated by a perforator (202) of a capsules opening device (300) determining an opening of the inner cavity (100c) suitable to cause an outflow of the substance, said outflow being at least partially produced by the pressure within said inner cavity (100c).
A water desalination device, comprising:
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
wherein
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
wherein
the heater comprises a duct within which flows seawater at a first temperature (T1),
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
wherein
the heater comprises a duct within which flows seawater at a first temperature (T1),
the cooler comprises a duct within which flows seawater at a second temperature (T2),
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
wherein
the heater comprises a duct within which flows seawater at a first temperature (T1),
the cooler comprises a duct within which flows seawater at a second temperature (T2),
wherein said water desalination device is configured to maintain a pressure lower with respect to the atmospheric one within said cavity, and is operatively connected with a vacuum pump connected with said cavity,
A water desalination device, comprising:
a body having a lateral wall and defining a cavity for the desalination of water, wherein in said cavity are defined a desalination chamber and a condensation chamber, wherein the condensation chamber comprises a collection portion for desalinated water,
a heater, configured to heat the water to desalinate in order to produce a steam,
a cooler, configured to determine a condensation of a steam deriving from the heating of the water,
wherein
the heater comprises a duct within which flows seawater at a first temperature (T1),
the cooler comprises a duct within which flows seawater at a second temperature (T2),
wherein said water desalination device is configured to maintain a pressure lower with respect to the atmospheric one within said cavity, and is operatively connected with a vacuum pump connected with said cavity,
said water desalination device comprising a first supply device configured to supply seawater at said first temperature (T1) into the duct of the heater, and a second supply device configured to supply seawater at said second temperature (T2) into the duct of the cooler.
The present disclosure concerns a capsule for beverages (300) comprising a body having a head portion (302) and a bottom portion (301 ) and suitable for defining a cavity (300c) configured for containing, in use, a fluid and/or a gas; the capsule for beverages comprises an orifice (306) configured for allowing the release of said fluid and/or gas from the cavity. A seal (305) is movable between at least a first position suitable for determining a closing of the orifice (306) configuring the capsule for beverages (300) in a closed operating configuration, and a second position suitable for determining an opening of the orifice (306) configuring the capsule for beverages (300) in an open operating configuration. The disclosure concerns a machine for filling capsules for beverages, comprising: - at least a seat (200, 200') configured for housing at least a capsule for beverage (300), to fill with a gas and/or with a fluid solution, in particular with a mineralized solution; - at least an injection system (201, 400, 401, 402) configured for operatively coupling with said capsule (300) and for supplying in pressurized way, in use, said gas and/or said fluid solution, in particular said mineralized solution, within the capsule (300); wherein the machine comprises at least an operating configuration of capsules filling, within which the seat (200, 200') and/or the injection system (201, 400, 401, 402) are placed under pressure in order to determine a transfer of said gas and/or said fluid solution within the capsule (300).
A23L 33/16 - Inorganic salts, minerals or trace elements
B65B 31/00 - Packaging articles or materials under special atmospheric or gaseous conditionsAdding propellants to aerosol containers
B65D 83/66 - Containers for dispensing liquid or semi-liquid contents by internal gaseous pressure, i.e. aerosol containers comprising propellant with contents and propellant separated initially separated and subsequently mixed, e.g. in a dispensing head
B65B 31/02 - Filling, closing, or filling and closing, containers in chambers maintained under vacuum or superatmospheric pressure or containing a special atmosphere, e.g. of inert gas
The present disclosure concerns a device (1) for water treatment, comprising: - a container (2) configured for containing, in use, a predetermined amount of water (100) to mineralize; - at least a supply input (14) for a mineralizing substance (S) to solubilize in said water (100); - a mineral solubilisation gas (G) supplying pipe (7), opening itself in said container (2) and configured for supplying a gas within said water (100), said gas (G) being destined to allow a solubilisation of said mineralizing substance in water; the device (1) comprising at least an operating configuration of mineralization, wherein the container (2) is pressurized through the mineral solubilisation gas (G) supplied within said container (2), and in particular is brought and/or kept at a pressure at least equal to a predefined pressure value (P1), said pressure being higher than the environmental pressure, and wherein the mineralizing substance (S) chemically reacts with said gas (G) determining a mineralization of the water with a solubilized compound.
Water distillation device (1), comprising: - a body having a lateral wall (2) and defining a cavity (2c, 2d) suitable for allowing the distillation of an amount of water (201 ) to distill, wherein in said cavity (2c, 2d) are defined a distillation chamber (2d) and a condensation chamber (2c), wherein the condensation chamber (2c) comprises a collection portion (109) designed to collect at least temporarily distilled water (300), - at least a heater (15c), configured to heat the amount of water (201) to distill present, in use, in the distillation chamber (2d), - a cooler (15e), configured to determine a condensation of a distillation steam, - a pre-heater (20) for the water (201 ) to distill, positioned outside of said cavity (2c, 2d), said pre-heater (20) being configured to pre-heat the water (201) to distill before an its inflow in the distillation chamber (2d) and comprising: - a containment vase (21, 22, 23) for the water to pre-heat, - an inlet duct (24) configured to allow the introduction of the water to pre-heat within said containment vase (21, 22, 23), - an outlet duct (25), connected with the cavity (2c, 2d), in particular with the distillation chamber (2d) and configured to make a pre-heated water flow from the containment vase (21, 22, 23) toward the cavity, in particular toward the distillation chamber (2d), - a pre-heating element (18p), at least partially introduced within said containment vase (21, 22, 23), configured to supply heat to the water to pre-heat contained, in use, in said containment vase (21, 22, 23).
Water distillation device (1 ), comprising: - a body having a lateral wall (2) and defining a cavity (2c, 2d) suitable for allowing the distillation of an amount of water (201 ) to distill, wherein in said cavity (2c, 2d) are defined a distillation chamber (2d) and a condensation chamber (2c), wherein the condensation chamber (2c) comprises a collection portion (109) designed to collect at least temporarily distilled water (300), - a heater, configured to heat the amount of water (201 ) to distill present, in use, in the distillation chamber (2d), - a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water (201 ) to distill through the heater, wherein the cooler is a refrigerator evaporator (15e), the heater is a refrigerator condenser (15c) and wherein the water distillation device (1 ) comprises a refrigerator compressor (15) connected to the refrigerator evaporator and to the refrigerator condenser, said refrigerator compressor (15) being configured to compress a gas directed within said refrigerator condenser (15c) determining, in use, a heating of the latter sufficient to cause a boiling of the water (201 ) to distill, said refrigerator evaporator (15e) being configured to allow an expansion of the gas previously compressed by the refrigerator compressor (15) determining, in use, a cooling of the distillation steam sufficient to cause a condensation of the distillation steam in the collection portion (109), the water distillation device (1 ) comprising an intermediate duct (18) connected in correspondence of an its own ending with the refrigerator condenser (15c) and in correspondence of an its own second ending with the refrigerator evaporator (15e), said intermediate duct (18) being configured and specifically designed to transport a fluid and/or gas outflowing from the refrigerator condenser (15c) toward the refrigerator evaporator (15e), the water distillation device (1 ) comprising a pre-cooling system for the gases outflowing from the refrigerator condenser (15c), configured to cool at least a part of the intermediate duct (18), said pre-cooling system comprising an active cooler configured to subtract heat from said at least a part of the intermediate duct (18).
Water distillation device (1), comprising: - a body having a lateral wall (2) and defining a cavity (2c, 2d) suitable for allowing the distillation of an amount of water (201) to distill, wherein in said cavity (2c, 2d) are defined a distillation chamber (2d) and a condensation chamber (2c), wherein the condensation chamber (2c) comprises a collection portion (109) designed to collect at least temporarily distilled water (300), - at least a heater, configured to heat the amount of water (201) to distill present, in use, in the distillation chamber (2d), - a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water (201) to distill through the heater, wherein the condensation chamber (2c) comprises an outlet (2f) configured to allow an outflow of the distilled water (300) from the collection portion (109), wherein the water distillation device (1) is a vacuum distillation device, configured to carry out the distillation of the water (201) to distill at a pressure lower with respect to the atmospheric pressure, wherein the water distillation device (1) has an operating configuration of supply of distilled water (300), within which the distilled water (300) collected in the collection portion (109) is made flown outside of said cavity (2c, 2d), optionally in an outlet duct (10); said device (1) being configured to maintain within said cavity a predetermined vacuum level with respect to a predetermined threshold in the continuation of said operating configuration of supply of distilled water (300), the water distillation device (1) comprising an extraction pump (400) connected with said outlet (2f), said extraction pump (400) being configured to be activated during the operating configuration of supply for extracting the water from the collection portion (109) allowing to maintain the vacuum inside the cavity and/or preventing that the vacuum inside the cavity exceeds a predetermined threshold value, and/or preventing, during its operation, the access of the air inside said cavity (2c, 2d).
Water distillation device (1), comprising: - a body defining a cavity (2c, 2d) suitable for allowing the distillation of an amount of water (201) to distill, wherein in said cavity (2c, 2d) are defined a distillation chamber (2d) and a condensation chamber (2c), and wherein the condensation chamber (2c) comprises a collection portion (109) designed to collect at least temporarily distilled water (300), - a heater, configured to heat the amount of water (201) to distill present, in use, in the distillation chamber (2d), - a cooler, configured to cause a condensation of a distillation steam deriving from the heating of the water (201 ) to distill through the heater, wherein the body comprises a head portion (3) and a main portion (2f, 2r), said distillation chamber (2d) being realized in substantial correspondence of the main portion (2f, 2r), the water distillation device (1) comprising a junction portion (2k) angularly joining the head portion (3) with said main portion (2f, 2r), the head portion (3) comprising a three ways element (2t) in turn comprising a first way (2f'), a second way (2t'') and a third way (2t'''), wherein said first way (2f') faces on said junction portion (2k), and wherein said third way (2t''') houses said cooler and substantially defines the condensation chamber (2c) and a collection portion (109) for the distilled water (300).
Water distillation device (1), comprising: - a body having a lateral wall (2) and defining a cavity (2c, 2d) suitable for allowing the distillation of an amount of water (201 ) to distill, wherein in the cavity (2c, 2d) are defined a distillation chamber (2d) and a condensation chamber (2c), - at least a heater (15c), configured to heat the amount of water (201 ) to distill, - an intermediate or separating element (100), positioned in an intermediate position of the cavity (2c, 2d) of the body, and having at least a portion of junction (103) with the lateral wall (2), said intermediate or separating element (100) being configured to divide said cavity (2c, 2d) realizing the distillation chamber (2d) and the condensation chamber (2c), - said intermediate or separating element (100) comprising at least a through hole (105) configured to allow the passage of at least a distillation steam from the distillation chamber to the condensation chamber, - said intermediate or separating element (100) comprising at least a collection portion (109) of distilled water (300).
The present disclosure refers to a capsule (100), in particular a capsule (100) for beverages, comprising a lateral wall (101 ), a head portion (102), and a bottom portion (103), the head portion (102) and the bottom portion (103) being joined to the lateral wall (101 ), wherein said lateral wall (101 ), said head portion (102) and said bottom portion (103) detect an inner cavity (100c) in use insulated from the outer environment and configured to contain, in use, a substance at least partially fluid and/or powdery, in particular destined to produce a beverage in the form of additivated liquid the substance thereof represents a determined part in weight, wherein said capsule (100) for beverages is configured to withstand within said inner cavity (100c) a predetermined pressure produced by said substance, and wherein at least one among said head portion (102) and/or said bottom portion (103) and/or said lateral wall (101 ) comprises an opening portion configured to be perforated by a perforator (202) of a capsules opening device (300) determining an opening of the inner cavity (100c) suitable to cause an outflow of the substance, said outflow being at least partially produced by the pressure within said inner cavity (100c).
A water desalination device (1), comprising: - a body having a lateral wall (2) and defining a cavity (2c, 2d) for the desalination of water (201), wherein in said cavity are defined a desalination chamber (2d) and a condensation chamber (2c), wherein the condensation chamber (2c) comprises a collection portion (109) for desalinated water (300), - a heater (15c), configured to heat the water (201) to desalinate in order to produce a steam, - a cooler (15e), configured to determine a condensation of a steam deriving from the heating of the water (201), wherein - the heater (15c) comprises a duct within which flows seawater at a first temperature (T1), - the cooler (15e) comprises a duct within which flows seawater at a second temperature (T2), wherein said water desalination device (1) is configured to maintain a pressure lower with respect to the atmospheric one within said cavity, and is operatively connected with a vacuum pump (13) connected with said cavity (2c, 2d), said water desalination device (1) comprising a first supply device (301) configured to supply seawater at said first temperature (T1) into the duct of the heater (15c), and a second supply device (302) configured to supply seawater at said second temperature (T2) into the duct of the cooler (15e).
Device (300) for opening capsules for beverages (100), the opening device comprising: - at least a perforator (202) configured to perforate at least one between a head portion (102), a bottom portion (103) or a lateral wall (101 ) of the capsule (100) for beverages, realizing an opening (102c) such as to put an inner cavity (100c) of said capsule (100) for beverages, within which is contained a substance (S) under pressure, in substantial communication with an outer environment, - at least a striker (201) configured to retain the capsule (100) for beverages in a predetermined position, wherein - the device for opening capsules is configured to vary a relative position between the capsule (100) for beverages and the perforator (202) at least between a first position wherein the perforator (202) is positioned at a distance from the capsule (100) for beverages and a second position wherein the perforator (202) is positioned at least partially within said capsule (100) for beverages, protruding itself inside the inner cavity (100c), said device (300) for opening capsules for beverages (100) comprising a conveyor (202c) positioned in substantial correspondence of the perforator (202) to realize a seal in substantial correspondence of said opening (102c) and configured to convey at least part of the substance (S) along a predetermined direction or path of injection of the substance (S) in a container for a beverage, such as to discharge the pressure present in the inner cavity (100c) of the capsule (100) for beverages toward said predetermined direction or path of injection.
A47J 31/40 - Beverage-making apparatus with dispensing means for adding a measured quantity of ingredients, e.g. coffee, water, sugar, cocoa, milk, tea
A47J 31/44 - Parts or details of beverage-making apparatus
21.
DEVICE FOR DISTRIBUTING MINERALIZED WATER AND ASSOCIATED METHOD
A device (1) for distributing mineralized water, said device comprising:
an inlet (3), for loading water from an external source (100);
a distillation unit (2), connected to the inlet (3) and configured to provide a distillation of an amount of water at least partially through heating, wherein said distillation unit (2) in turn comprises, or is operatively connected to, at least an heater (4) configured for providing heat in an amount sufficient to heat the amount of water at least up to a boiling temperature;
a water distributor (5) configured for transferring a predetermined amount of distilled water (D) extracted from the distillation unit (2), to a removable container (10), the water distributor (5) being provided with an outlet nozzle or aperture (6) configured to face in use on said container (10);
a mineralization unit (7) interposed between the distillation unit (2) and the outlet nozzle or aperture (6), said mineralization unit (7) being configured for accessing the inner cavity of a disposable capsule (20), containing a mineralized fluid solution or powder (M) in said cavity, for extracting at least part of said mineralized fluid solution or powder (M) from the capsule (20) and/or being configured for emptying the capsule (20) from the mineralized fluid solution or powder (M), and transferring at least part of the mineralized fluid solution or powder (M) from the capsule (20) to the water distributor (5);
the device, optionally through the water distributor (5), being configured to mix the mineralized fluid solution or powder (M) with the predetermined amount of distilled water (D) transferred by the water distributor (5) to the removable container (10).
A device (1) for distributing mineralized water, said device comprising: - an inlet (3), for loading water from an external source (100); - a distillation unit (2), connected to the inlet (3) and configured to provide a distillation of an amount of water at least partially through heating, wherein said distillation unit (2) in turn comprises, or is operatively connected to, at least an heater (4) configured for providing heat in an amount sufficient to heat the amount of water at least up to a boiling temperature; - a water distributor (5) configured for transferring a predetermined amount of distilled water (D) extracted from the distillation unit (2), to a removable container (10), the water distributor (5) being provided with an outlet nozzle or aperture (6) configured to face in use on said container (10); - a mineralization unit (7) interposed between the distillation unit (2) and the outlet nozzle or aperture (6), said mineralization unit (7) being configured for accessing the inner cavity of a disposable capsule (20), containing a mineralized fluid solution or powder (M) in said cavity, for extracting at least part of said mineralized fluid solution or powder (M) from the capsule (20) and/or being configured for emptying the capsule (20) from the mineralized fluid solution or powder (M), and transferring at least part of the mineralized fluid solution or powder (M) from the capsule (20) to the water distributor (5); - the device, optionally through the water distributor (5), being configured to mix the mineralized fluid solution or powder (M) with the predetermined amount of distilled water (D) transferred by the water distributor (5) to the removable container (10).
patents
