EP3502335B1 - Washing machine - Google Patents
Washing machine Download PDFInfo
- Publication number
- EP3502335B1 EP3502335B1 EP18213609.3A EP18213609A EP3502335B1 EP 3502335 B1 EP3502335 B1 EP 3502335B1 EP 18213609 A EP18213609 A EP 18213609A EP 3502335 B1 EP3502335 B1 EP 3502335B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- door
- tanks
- duct
- washing machine
- opening
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Links
- 238000005406 washing Methods 0.000 title claims description 113
- 239000003795 chemical substances by application Substances 0.000 claims description 63
- 239000003599 detergent Substances 0.000 claims description 52
- 238000012546 transfer Methods 0.000 claims description 49
- XLYOFNOQVPJJNP-UHFFFAOYSA-N water Substances O XLYOFNOQVPJJNP-UHFFFAOYSA-N 0.000 claims description 43
- 238000004891 communication Methods 0.000 claims description 16
- 102000004190 Enzymes Human genes 0.000 claims description 15
- 108090000790 Enzymes Proteins 0.000 claims description 15
- 239000000843 powder Substances 0.000 claims description 15
- 238000011049 filling Methods 0.000 claims description 12
- 238000001514 detection method Methods 0.000 claims description 11
- 238000005086 pumping Methods 0.000 claims description 10
- 238000011144 upstream manufacturing Methods 0.000 claims description 10
- 239000000126 substance Substances 0.000 claims description 9
- 239000012530 fluid Substances 0.000 claims description 5
- 230000003287 optical effect Effects 0.000 claims description 5
- 238000000605 extraction Methods 0.000 claims description 4
- 239000004902 Softening Agent Substances 0.000 claims description 3
- 239000007788 liquid Substances 0.000 description 24
- 238000004140 cleaning Methods 0.000 description 8
- 230000007246 mechanism Effects 0.000 description 7
- 238000010412 laundry washing Methods 0.000 description 6
- 238000010586 diagram Methods 0.000 description 4
- 239000004744 fabric Substances 0.000 description 4
- 230000005291 magnetic effect Effects 0.000 description 4
- 238000012423 maintenance Methods 0.000 description 4
- 239000000654 additive Substances 0.000 description 3
- 230000000996 additive effect Effects 0.000 description 3
- 230000015572 biosynthetic process Effects 0.000 description 3
- 238000006073 displacement reaction Methods 0.000 description 3
- 230000003993 interaction Effects 0.000 description 3
- 239000000203 mixture Substances 0.000 description 3
- 230000002093 peripheral effect Effects 0.000 description 3
- 239000008237 rinsing water Substances 0.000 description 3
- 238000010438 heat treatment Methods 0.000 description 2
- 238000003780 insertion Methods 0.000 description 2
- 239000000344 soap Substances 0.000 description 2
- 230000000712 assembly Effects 0.000 description 1
- 238000000429 assembly Methods 0.000 description 1
- 230000005540 biological transmission Effects 0.000 description 1
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- 230000001419 dependent effect Effects 0.000 description 1
- 230000006866 deterioration Effects 0.000 description 1
- 238000001035 drying Methods 0.000 description 1
- -1 electricity Substances 0.000 description 1
- 230000005611 electricity Effects 0.000 description 1
- 239000002979 fabric softener Substances 0.000 description 1
- 230000005294 ferromagnetic effect Effects 0.000 description 1
- 239000000945 filler Substances 0.000 description 1
- 229920002457 flexible plastic Polymers 0.000 description 1
- 238000009413 insulation Methods 0.000 description 1
- 238000000034 method Methods 0.000 description 1
- 238000012986 modification Methods 0.000 description 1
- 230000004048 modification Effects 0.000 description 1
- 230000003134 recirculating effect Effects 0.000 description 1
- 230000004044 response Effects 0.000 description 1
- 210000002268 wool Anatomy 0.000 description 1
Images
Classifications
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- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F21/00—Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement
- D06F21/02—Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement about a horizontal axis
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2103/00—Parameters monitored or detected for the control of domestic laundry washing machines, washer-dryers or laundry dryers
- D06F2103/20—Washing liquid condition, e.g. turbidity
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/02—Water supply
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/08—Draining of washing liquids
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/42—Detergent or additive supply
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F2105/00—Systems or parameters controlled or affected by the control systems of washing machines, washer-dryers or laundry dryers
- D06F2105/58—Indications or alarms to the control system or to the user
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F25/00—Washing machines with receptacles, e.g. perforated, having a rotary movement, e.g. oscillatory movement, the receptacle serving both for washing and for centrifugally separating water from the laundry and having further drying means, e.g. using hot air
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F34/00—Details of control systems for washing machines, washer-dryers or laundry dryers
- D06F34/14—Arrangements for detecting or measuring specific parameters
- D06F34/22—Condition of the washing liquid, e.g. turbidity
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F39/00—Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00
- D06F39/02—Devices for adding soap or other washing agents
- D06F39/022—Devices for adding soap or other washing agents in a liquid state
-
- D—TEXTILES; PAPER
- D06—TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
- D06F—LAUNDERING, DRYING, IRONING, PRESSING OR FOLDING TEXTILE ARTICLES
- D06F39/00—Details of washing machines not specific to a single type of machines covered by groups D06F9/00 - D06F27/00
- D06F39/12—Casings; Tubs
- D06F39/14—Doors or covers; Securing means therefor
Definitions
- the present invention relates to a device and method for washing laundry, in particular to a domestic washing machine.
- Domestic washing machines comprise a supporting and housing structure, inside which a washing tub is housed provided with a front opening which can be closed by a porthole door frontally hinged to the housing.
- a basket to accommodate the laundry to be washed is arranged inside the washing tub in a rotatable manner about a horizontal or inclined axis.
- the basket also defines a front opening positioned at the opening of the washing tub, in order to be able to load and unload the laundry.
- the washing tub is adapted to contain the washing liquid during the steps of the laundry washing.
- a water loading system connectable to the water mains is provided in order to allow loading water from the mains, detergents and additive agents into the tank.
- the detergent tray can be configured as a drawer which can be extracted from and inserted in the housing structure and which can be filled manually for each wash with an amount of detergent and/or treatment additive sufficient for a single washing cycle.
- Washing machines with so-called “multiple dispensing” washing substance dispensing and dosing systems are also known configured to contain an amount of treatment agent sufficient for a plurality of washing cycles and to automatically dispense a controlled dose of treatment agent for each washing cycle.
- an electric resistor is provided, arranged inside the tank in the gap between the wall of the laundry basket.
- washing machines In order to reduce the consumption of water and detergent, it is known to equip washing machines with recirculation systems which recover the washing liquid from the bottom of the tub (where it accumulates even before touching the laundry in the basket) and reintroduce the recovered liquid into the laundry basket, so that a reduced volume of liquid is repeatedly poured on the laundry to be washed.
- Recirculation systems usually comprise a recirculation duct which extends outside the washing tub from a lower opening of the washing tub (for drawing the liquid to be recirculated) to an upper opening of the washing tub (for reintroducing the recirculated liquid), as well as an electric recirculation pump or ejector.
- Specific objects of the embodiments of the invention are to facilitate the interaction between user and washing machine, to reduce the number of loading and/or cleaning and/or maintenance and/or manipulation operations of the detergent loading system, to assist users in choosing the type and amount of the treatment agents for each washing cycle.
- Further objects of the invention are to improve laundry washing and treatment performance, as well as save resources, in particular of washing and/or treatment agents, electricity, water, volumes, dimensions.
- a washing machine comprises:
- the dispensing system (17) may comprise a (for instance one single only) dosing pump (36) either fixed in the door (4) or outside the door (4).
- the dosing pump (36) may comprise:
- the plurality of tanks (18) comprises an individual tank (34) and a multi-tank unit (35) having a plurality of said tanks (18) connected to one another, wherein the multi-tank unit (35) may be reversibly coupled to the door (4) as an individual body and independent from the individual tank (34), and wherein the individual tank (34) may be reversibly coupled to the door (4) independently of the multi-tank unit (35).
- the dispensing system (17) comprises, for each tank (18), a dedicated dosing pump (36'), and the tanks (18) are connected to the respective dedicated dosing pumps (36') by means of respective dedicated transfer ducts (44'), optionally each equipped with a non-return valve (63).
- the plurality of tanks (18) comprises:
- each of the tanks (18) forms a dispensing opening (19) directly facing the basket (5).
- a washing machine 1 or washer-dryer comprises a supporting and housing structure 2, inside which a washing tub 3 is housed, provided with a front opening which can be closed by a porthole door 4 frontally hinged to the housing 2.
- a basket 5 to accommodate the laundry to be washed 3 is arranged inside the washing tub in a rotatable manner about a horizontal or inclined axis.
- the basket 5 also defines a front opening positioned at the opening of the washing tub, in order to be able to load and unload of the laundry.
- the washing tub 3 is adapted to contain the washing liquid during the steps of the laundry washing.
- a water loading system connectable to the water mains is provided in order to allow the loading of the tank 3 with water from the mains.
- the loading system 20 may comprise a plurality of ducts which extend, e.g. from one or more, e.g. two supply solenoid valves 6, 7, either directly or through detergent compartments of a detergent basin 8 (optional), to the washing tub 3.
- a draining duct 10 is connected to the bottom of the washing tub 3 with associated draining pump 11 which removes the washing liquid from the tank 3 and which controls, together with the supply solenoid valves 6, 7, the liquid level inside the tank 3.
- an electric resistor 12 may be provided arranged inside the tank 3, in particular on the bottom of the tank 9, in the gap between the wall of the laundry basket 5.
- the laundry basket 5 can be actuated in rotation by an electric motor 13 and a transmission 14, e.g. a belt.
- the operation of the washing machine 1 is controlled by an electronic control unit 15, operatively connected to a user control interface 16 positioned at an outer wall or at the door 4 of the housing 2 and which allows the selection of washing and/or drying cycles (more generally, of treatment cycles) and their features.
- the control unit 15 controls the various components of the washing machine 1 for automatically washing the laundry.
- the washing machine 1 further comprises a dispensing system 17 of the "multiple dosing" type for dispensing laundry treatment agents.
- the dispensing system 17 comprises a plurality of tanks 18 to contain the treatment agents, e.g. detergent for resistant white fabric items, detergent for delicate colored fabric items, detergent for wool, perfuming substances, enzymes and / or stain-removing substances other than enzymes, fixing agents and/or fabric softener.
- the plurality of tanks 18 is preferably positioned in the porthole door 4 and the individual tanks 18 are dimensioned to each contain a volume of the treatment agent sufficient for a plurality of washing cycles.
- Multi-dosing tanks with dispensing openings and integrated pumps are Multi-dosing tanks with dispensing openings and integrated pumps
- each of the tanks 18 forms a dispensing opening 19 directly facing the basket 5, so as to directly dispense the treatment agent and not require modifications to the water loading system 20.
- the porthole door 4 is free from water pipes.
- each of the tanks 18 includes an internal dosing and dispensing mechanism 21 directly on the tank 18, but configured to interact with an external dispensing actuator 22, positioned in the door 4 externally to the tank 18.
- the internal dosing and dispensing mechanism 21 and the external dispensing actuator 22 can be configured for magnetic interaction.
- the dosing and dispensing mechanism 21 comprises:
- the dosing chamber 23 can be shaped as a cup or as a cylinder open on one side, with a bottom wall 26 which accommodates the non-return valve 24 and with a peripheral wall 27 which delimits together with the bottom wall 26 said (predetermined) dosing volume.
- the dosing member 25 By moving from the retracted position to the protracted position, the dosing member 25, e.g. a dosing piston, sealingly engages the peripheral wall 27 so as to prevent the return of treatment agent from the dosing chamber 23 into the inner space 29 of the tank 18 and to force the treatment agent through the non-return valve 24 and the dispensing opening 19 into the basket 5.
- a further non-return valve 28 positioned between the dosing chamber 23 and the inner space 29 (e.g. in a channel formed in the dosing piston 25) allows the passage of liquid from the inner space 29 into the dosing chamber 23.
- the dosing member 25 comprises a magnetically susceptible (in particular attractable) element 30, e.g. a ferromagnetic or magnetic block, for a displacement of the dosing member 25 via magnetic actuation from the outside of the tank 18.
- a magnetically susceptible (in particular attractable) element 30 e.g. a ferromagnetic or magnetic block
- the flow actuator 22 may comprise an electromagnet 31 positioned outside the tank 18 but near the dosing and dispensing mechanism 21 and can be energized by the control unit 15 so as to actuate the displacements of the dosing member 25.
- the flow actuator 22 may comprise a magnetic or magnetically susceptible structure 32 positioned outside the tank 18 but near the dosing and dispensing mechanism 21 and movable (e.g. by means of a motor or a solenoid controlled by the control unit 15) so as to actuate the displacements of the dosing member 25.
- the tank 18 or each tank 18 comprises a loading opening which can be closed by means of a plug 33 and the dosing mechanism and dispensing mechanism 21 is integrated, at least in part, in said plug 21.
- the dispensing system 17 comprises a dosing pump 36 which is fixed in the door 4 ( figure 15 ).
- one or more dosing pumps 36, 36' is arranged in the housing 2 outside the door 4, while the tanks 18 are either formed or positioned in the door 4 and connected to the single or multiple dosing pumps 36, 36' by means of connection ducts 59 extending at a hinge 61', 61" which connects the door 4 to a front wall of the housing 2.
- the hinge 61', 61" comprises a lower hinge 61' and an upper hinge 61" and the connection ducts 59 extend in a (protected) space between the lower hinge 61' and the upper hinge 61" ( figure 13 ).
- the dosing pump 36 comprises a cylinder 37 which defines a predetermined dosing volume and which forms an inlet opening 38 with an inlet non-return valve 39 and an opening outlet 40 with an outlet non-return valve 41, as well as a piston 42 movable by means of an actuator 43, e.g. a solenoid or actuating motor, which in turn is controlled by the control unit 15.
- an actuator 43 e.g. a solenoid or actuating motor
- the tanks 18 are or can be connected to the inlet opening 38 of the dosing pump 36 by means of respective transfer ducts 44 each provided with a selection valve 45 for selectively opening and interrupting the fluid connection between each of the tanks 18 and the dosing pump 36.
- a rinsing duct 46 may be provided positioned in the door 4 and in communication with the transfer duct 44.
- the rinsing duct 46 is connected to the water loading system 20, by means of a supply valve 6' and an air gap 58, and connects to a portion of the transfer duct or ducts 44 upstream of the inlet non-return valve 39 of the dosing pump 36.
- the tanks 18 can be either fixed in the door 4 or extractable from door 4 for the purpose of filling them.
- the single outlet openings of the tanks 18 are placed in communication with a single transfer duct 44 respectively by means of a plurality of selection valves 45 arranged in series (one behind the other) along the transfer duct 44.
- Each selection valve 45 has a first inlet opening 47 and an outlet opening 48 which connect the selection valve 45 in the transfer duct 44 (ensuring the continuity), as well as a second inlet opening 49 which connects the selection valve 45 to the outlet opening of the respective tank 18.
- the first 47 and second 49 inlet openings and the outlet opening 48 of the selection valve 45 are in mutual communication to allow:
- the selection valve 45 also comprises a shutter 50 movable to:
- the rinsing duct 46 is connected to the transfer duct 44 upstream of the selection valves 45 and the transfer duct 44 is connected to the dosing pump 36 downstream of the selector valve 45, as shown for example in figures 3 and 4 .
- the dosing pump 36 can aspirate and dose in a selective manner the treatment agent of the selected tank, while the flow of the rinsing water is intercepted (blocked) at the selection valve 45 of the selected tank and all remaining input flows of the treatment agents are intercepted (blocked) at the selection valves 45 of the nonselected tanks 18.
- the entire transfer duct 44, including all selection valves 45, and the dosing pump 36 can be crossed and cleaned by the flow of the rinsing water, while all the input streams of the treatment agents are intercepted (blocked) at the selector valve 45 ( figures 3, 4, 5 ).
- a pumping unit 60 containing:
- the outlet opening 40 of the dosing pump 36 can be connected to (an ejector 62 placed in) a supply duct 65 connected to the water loading system 20 by means of a supply solenoid valve 6" and in communication with the inside of the basket 5 or of the tub 3, so as to transport (by aspiring by the ejector 62) the treatment agents, dispensed by means of the dosing pump 36, into the basket 5 or into the washing tub 3.
- the transfer duct 44 connects the selection valves 45 in series to one another and with the dispensing pump 36 and a plurality of dedicated transfer ducts 44' connect the selection valves 45 (which can be outside the door 4, for example) to the respective tanks 18 (inside the door 18).
- a rinsing duct 46' located completely outside the door 4 may be provided in order to avoid the formation of scaling and deposits in selection valves 45 and in the transfer ducts 44, 44'.
- the rinsing duct 46' comprises a distribution duct 66 connected to the water loading system 20 by means of a supply valve 6', and a plurality of dedicated ducts 67 branched from the distribution duct 66.
- Each of the dedicated ducts 67 comprises a non-return rinsing valve 68 and is connected to respectively one of the dedicated transfer ducts 44' at a point upstream of the selection valve 45 and downstream of a non-return valve 63 of the tank 18 ( figure 11B ).
- the mains water fills the entire rinsing duct 46' and washes the transfer ducts 44, 44' downstream of the non-return valves 63 and the selection valves 45. During this washing, the mains water pressure in the dedicated transfer ducts 44' keeps the non-return valves 63 closed thus preventing the mains water from entering into the tanks 18.
- the supply valve 6 is closed and the dosing pump 36 is activated to fill the dedicated transfer ducts 44' again with liquid treatment agent aspirated from the tanks 18.
- the supply valve 6' is held closed and the dosing pump 36 and a selected selection valve 45 is activated, thus generating a vacuum in the corresponding dedicated transfer duct 44' which opens the non-return valve 63 associated with the selected tank 18 and aspirates the selected treatment agent from selected tank 18.
- the vacuum in the dedicated transfer duct 44' cannot aspirate mains water from the rinsing duct 46' or treatment agents from the other tanks 18.
- the pumping assembly 60 may be completely inside the door 4, thus allowing a direct dispensing in the basket 5 and avoiding the need for a further duct with ejector for transporting the dosed treatment agents into the tank 3 or in the basket 5.
- Multi-dosing dispensing system with a plurality of dedicated pumps
- the dispensing system 17 comprises a dedicated dosing pump 36' ( figures 10 , 11 , 14 ), preferably volumetric pumps, such as a cylinder-piston-pump, for each treatment agent tank 18.
- the tanks 18 are connected or can be connected to the respective dedicated dosing pumps 36' by means of respective dedicated transfer ducts 44', optionally each equipped with a non-return valve 63.
- the dedicated dosing pumps 36' are fixed in the door 4, their outlet openings may be in direct communication with the inside of the basket 5 or connected to a common output duct 64 which opens into the drum 5.
- the dedicated dosing pumps 36' are connected to a common output duct 64 connected to (an ejector 62 placed in) a supply duct 65 connected to the water loading system 20 by means of a supply solenoid valve 6" and in communication with the inside the basket 5 or, optionally, of the tub 3, so as to transport (by means of the aspiration of the ejector 62) the treatment agents dispensed by the dedicated dosing pumps 36' up to the basket 5 or to the washing tub 3.
- a rinsing duct 46' may be provided positioned, according to embodiments, either at least partly in the door 4 or completely outside the door 4.
- the rinsing duct 46' comprises a distribution duct 66 connected to the water loading system 20 by means of a supply valve 6', and a plurality of dedicated ducts 67 branched from the distribution duct 66.
- Each of the dedicated ducts 67 comprises a non-return rinsing valve 68 and is connected to respectively one of the dedicated transfer ducts 44' at a point upstream of the dedicated dosing valve 36' and downstream of the non-return valve 63 ( figure 11A ).
- the mains water fills the entire rinsing duct 46' and washes the dedicated transfer ducts 44' downstream of the non-return valves 63 and the dedicated dosing valves 36'. During this washing, the mains water pressure in the dedicated transfer ducts 44' keeps the non-return valves 63 closed thus preventing the mains water from entering into the tanks 18.
- the supply valve 6' is closed and the dedicated dosing pumps 36' are activated to fill the dedicated transfer ducts 44' again with liquid treatment agent aspirated from the tanks 18.
- the supply valve 6' is held closed and the selected dedicated dosing pump 36 is activated, thus generating a vacuum in the corresponding dedicated transfer duct 44' which opens the non-return valve 63 associated with the selected tank 18 and aspirates the selected treatment agent from selected tank 18.
- the vacuum in the dedicated transfer duct 44' cannot aspirate mains water from the rinsing duct 46' or treatment agents from the other tanks 18.
- the tanks 18 may be either fixed to the door 4 or extractable from door 4 for filling.
- a pumping unit 60' containing:
- the pumping assembly 60' may be completely inside the door 4, thus allowing a direct dispensing in the basket 5 and obviating the need for a further duct with ejector for transporting the dosed treatment agents into the tank 3 or in the basket 5.
- the dispensing system 17 further comprises:
- the auxiliary duct 52 is branched from (or connected to) the rinsing duct 46 in a branching point 53 downstream of the air gap 58 (in the rinsing duct 46) and upstream of the transfer duct 44, and forms an elevated segment 55 (e.g. in the form of inverted siphon) positioned higher than the transfer duct 44 but lower than the air gap 58, so that the dispensing of liquid treatment agent from the tanks 18 can occur while maintaining the water level in the auxiliary duct under the height of the segment 55, and therefore without dispensing detergent powder from the auxiliary compartment 51.
- an elevated segment 55 e.g. in the form of inverted siphon
- the dispensing of detergent powder from the auxiliary compartment 51 without simultaneous dispensing of liquid treatment agent from the tanks 18 may be performed by filling the rinsing duct 46 beyond the level of the elevated segment 55 so as to achieve the aforesaid auxiliary flow in the auxiliary compartment 51, e.g. by blocking the water flow into the transfer duct 44 by means of the non-return valves 39, 41 or one of the selection valves 45.
- the dispensing of detergent powder from the auxiliary compartment 51 may be performed simultaneously with a dispensing of the treatment liquid agent from one of the tanks 18.
- the auxiliary duct 52 may comprise an on-off valve 56 which can be operated to control the dispensing of detergent powder from the auxiliary compartment 51. In this embodiment, it is possible to avoid the elevated segment 55.
- the auxiliary duct 52 is connected to the water loading system 20 by means of an own supply valve 7' and an own air gap 58', thus providing a second water path, independent from the rinsing duct 46, for dispensing detergent powder from the auxiliary compartment 51 and for introducing water into the basket 5 or in the tub 3.
- the auxiliary compartment 51 and, possibly, the channel 54 can be formed in an auxiliary insert 57 which can be inserted in the door 4 to operate the washing machine 1 with dispensing of detergent powder, and removable from the door 4 to operate the washing machine 1 without dispensing detergent powder from the door 4.
- the insert 57 or an accessory cover 57' free from auxiliary compartment can be applied, as desired, from the inner side (facing in the basket 5) to the door 4 and form an inner surface facing in the basket 5 and in direct contact with the laundry to be washed ( figure 19 ).
- the dispensing system 17 comprises a detergent detection device configured to detect the presence and absence of treatment agents inside the tanks 18 and generate a corresponding warning for the user.
- the detergent detection device may comprise an optical sensor 69, e.g. a turbidity sensor, connected to the control unit 15 and associated with a transparent detection duct section formed in a transfer duct 44 downstream of the selection valves 45 and upstream of the dosing pump 36 and configured to generate an empty tank signal in case of air aspiration in the detection duct section.
- an optical sensor 69 e.g. a turbidity sensor
- the detergent detecting device may comprise a plurality of optical sensors 69', e.g. turbidity sensors, connected to the control unit 15 and each associated with a transparent detection duct section formed in the dedicated transfer duct 44' of each tank 18, upstream of the dedicated dosing pump 36' and, if provided, downstream of the non-return valve 63 ( figures 7 , 8 ).
- the optical sensors 69' are configured to generate a tank empty signal in case of air aspiration into the detection duct segment with which they are associated.
- the filling state detection of the tank 18 occurs during the aspiration of a selected treatment agent from a tank 18 and the control unit 15 attributes the detergent presence or absence signal generated by the optical sensor 69, 69' to the selected tank 18 and generates an "empty tank" alert for the user.
- the plurality of tanks 18 comprises an individual tank 34 and a multiple-tank unit 35 having a plurality of said tanks 18 connected to one another.
- the multiple-tank unit 35 is connectable/detachable to/from the door 4 as an independent unit from the individual tank 34, and the individual tank 34 can also be connected/detached to and from the door 4 independently from the multiple-tank unit 35. This is particularly advantageous if different treatment agents with different amounts of use and emptying times are used.
- the individual tank 34 may contain enzymes and / or stain-removing substances other than enzymes, and require a filling at very low frequency
- the tanks 18 of multi-tank unit 35 may separately contain a first detergent for white and resistant items, a second detergent for colored and delicate items and a fixing and/or softening agent and require more frequent filling.
- the tank 18 containing the enzymes and / or stain-removing substances other than enzymes is arranged so as to be separated from the other tanks 18 and from the inside of the basket 5 by an air gap which constitutes a thermal insulation adapted to protect the enzymes and / or stain-removing substances other than enzymes from heat deterioration.
- each tank 18 can be coupled/detached to and from the door 4 independently of the other tanks 18.
- the tanks 18 and, possibly, the pumping unit 60, 60' are positioned in a lower portion 70 of the door 4, which can have a vertical extension of at least or more than half, preferably between 1/2 and 2/3, of the total height of the door 4 and which is covered by an outer cover 71, preferably opaque so as to conceal the dispensing system 17 to the user.
- the tanks 18 are either received or formed in an oscillating drawer 72' partially extractable from and insertible into the door 4 by means of a pivoting movement about a horizontal axis so as to allow access to the tanks 18 from the outside of the door 4 (opposite side to the basket 5) and from the top ( figure 18 ), for filling and for extracting and inserting or for replacing the tanks 18, e.g. for maintenance or cleaning of the tanks 18.
- the tanks 18 are either received or formed in a translatable drawer 72 partially extractable from and inserted into the door 4 by means of a translational movement along a horizontal axis so as to allow access to the tanks 18 from the outside of the door 4 (opposite side to the basket 5) and from the top, both for filling and for extracting and inserting or for replacing the tanks 18, e.g. for maintenance operations or for cleaning the tanks 18.
- the tanks 18 and transfer ducts 44, 44' of the pumping units 60, 60' are connected by means of male-female hydraulic connectors 73 ( figures 15 , 20, 21 ), which in the disconnecting configuration close both the tank and the transfer duct 44, 44' and in the connecting configuration open a fluid passage between the tank 18 and the transfer duct 44, 44'.
- An upper portion 74 of the door 4 formed above the lower portion 70 containing the tanks 18 is preferably transparent and forms a porthole area to allow viewing the inside of the basket 5 from the outside of the door 4.
- the auxiliary insert 57 forming the auxiliary compartment 51 for detergent powder and the auxiliary attachment 57' are preferably housed in the upper portion 74 of the door 4 ( figures 15 , 19 ).
- the tanks 18 comprise refillable, rigid or semi-rigid containers having a stable shape which can be inserted into and removable from the door 4 through a front opening on the outer side of the door 4, which can be closed by the outer cover 71, preferably a swinging cover which can be opened by tilting downwards.
- the refillable containers are provided with a filling opening with cap 75 and a manual grip portion 76 to facilitate extraction from the door 4 ( figure 24 ).
- the fluid connection of the tanks 18 to the pumping unit 60, 60' is achieved by means of the male-female hydraulic connectors 73.
- Disposable rigid or semi-rigid tanks 18 are Disposable rigid or semi-rigid tanks 18
- the tanks 18 comprise disposable, rigid or semi-rigid containers having a stable shape which can be inserted into and removable from the door 4 through a front opening on the outer side of the door 4, which can be closed by the outer cover 71, preferably a swinging cover which can be opened by tilting downwards.
- the refillable or disposable containers may comprise one or more first arc-shaped containers with a peripheral surface in the shape of a circular arc and one or more second containers with a shape complementary to the shape of the first containers, so as to form together a volume in the shape of a semi-disc compatible with the circular shape of the door 4 ( figures 22 , 23 , 25-27 ).
- the volume of the first containers is greater than the volume of the second containers to adapt their capacity to different consumptions of treatment agents.
- Disposable flexible bag-like tanks 18 are Disposable flexible bag-like tanks 18
- the tanks 18 comprise disposable flexible wall containers (bladder bags) which can be inserted into and removable from the door 4 through a front opening on the outer side of the door 4, which can be closed by the outer cover 71, preferably a swinging cover which can be opened by tilting downwards.
- disposable flexible wall containers blade bags
- the tanks 18 comprise disposable containers, in particular flexible plastic bags, for soaps and softeners (the consumption of which is notoriously high), as well as an individual refillable tank with stable form and smaller volume than the volumes of the disposable containers, for containing enzymes (the consumption of which is very low) and / or stain-removing substances other than enzymes.
- the disposable flexible bag-like containers may have a generally elongated prism shape and possibly form together a volume with a trapezoidal shape which tapers downward, which fills well the lower portion semi-circular section of the door 4 ( figure 28 ).
- the disposable tanks 18 may be fluidically connected to the pumping unit 60, 60' by means of the male-female hydraulic connectors 73, or by means of hydraulic connectors adapted to pierce the disposable containers and be inserted therein in a sealed manner.
- the washing machine 1 may further comprise a system for recirculating the washing liquid from the bottom of the tank to the laundry basket, similarly to the recirculation systems described with reference to the prior art.
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Description
- The present invention relates to a device and method for washing laundry, in particular to a domestic washing machine.
- Domestic washing machines comprise a supporting and housing structure, inside which a washing tub is housed provided with a front opening which can be closed by a porthole door frontally hinged to the housing. A basket to accommodate the laundry to be washed is arranged inside the washing tub in a rotatable manner about a horizontal or inclined axis. The basket also defines a front opening positioned at the opening of the washing tub, in order to be able to load and unload the laundry.
- The washing tub is adapted to contain the washing liquid during the steps of the laundry washing.
- A water loading system connectable to the water mains is provided in order to allow loading water from the mains, detergents and additive agents into the tank. On the bottom of the washing tub, there is a draining duct with associated draining pump which removes the washing liquid from the tank and which controls, together with the loading system, the liquid level inside the tank.
- In order to add a detergent or a treatment additive to the washing liquid it is known to arrange a detergent tray in flow communication with the water loading system.
- The detergent tray can be configured as a drawer which can be extracted from and inserted in the housing structure and which can be filled manually for each wash with an amount of detergent and/or treatment additive sufficient for a single washing cycle.
- Washing machines with so-called "multiple dispensing" washing substance dispensing and dosing systems are also known configured to contain an amount of treatment agent sufficient for a plurality of washing cycles and to automatically dispense a controlled dose of treatment agent for each washing cycle.
- It is also known to position the multiple dispensing system in the front door and, more precisely, in the porthole of the front door of the washing machine.
- For heating the washing liquid contained in the tank, an electric resistor is provided, arranged inside the tank in the gap between the wall of the laundry basket.
- In order to reduce the consumption of water and detergent, it is known to equip washing machines with recirculation systems which recover the washing liquid from the bottom of the tub (where it accumulates even before touching the laundry in the basket) and reintroduce the recovered liquid into the laundry basket, so that a reduced volume of liquid is repeatedly poured on the laundry to be washed.
- Recirculation systems usually comprise a recirculation duct which extends outside the washing tub from a lower opening of the washing tub (for drawing the liquid to be recirculated) to an upper opening of the washing tub (for reintroducing the recirculated liquid), as well as an electric recirculation pump or ejector.
- The features described hereto in relation to washing machines of the prior art known by the applicant may be entirely or partially also implemented in at least some embodiments of an improved laundry washing machine according to the invention.
US2017306551A1 describes an exemplary prior art clothes cleaning apparatus with detergent multi dosing capabilities forming a closest state of the art for the present invention. - The known washing machines, while being satisfactory from many points of view, until now require an intense and very complex user interaction, in particular with reference to choosing the amount and type or types of treatment agents for each wash, as well as the loading operation of the treatment agents in the washing machine and, last but not least, the manipulation, cleaning and maintenance operations of the detergent loading or multiple dispensing system.
- It is the main object of the present invention to provide a front-loading laundry washing machine with an improved dispensing system of laundry treatment agents.
- Specific objects of the embodiments of the invention are to facilitate the interaction between user and washing machine, to reduce the number of loading and/or cleaning and/or maintenance and/or manipulation operations of the detergent loading system, to assist users in choosing the type and amount of the treatment agents for each washing cycle.
- Further objects of the invention are to improve laundry washing and treatment performance, as well as save resources, in particular of washing and/or treatment agents, electricity, water, volumes, dimensions.
- It is a further object of the invention to overcome the problem of poor treatment efficacy of multi-use prepackaged washing compositions.
- Further objects of the invention relate to a simplification of use perceived by the user and a greater versatility and capacity of the washing machine to adjust and influence a multiplicity of laundry washing and treatment conditions and parameters.
- These and other objects are achieved by a washing machine according to the independent claim. The dependent claims relate to advantageous and preferred embodiments of the invention.
- A washing machine comprises:
- a housing,
- a washing tub arranged inside the housing and having a front opening closable by means of a porthole door frontally hinged to the housing,
- a basket arranged inside the washing tub and rotatable about a horizontal or inclined axis, wherein the basket defines a loading opening at the front opening of the washing tub, for loading and unloading the laundry to be washed,
- a water loading system connectable to the water mains and in communication with the washing tub to load water in the washing tub,
- a draining duct connected to the washing tub and to a draining pump to remove the washing liquid from the washing tub and to adjust a liquid level inside the wash tub together with the water loading system,
- a dispensing system for dispensing laundry treatment agents, said dispensing system comprising a plurality of tanks for containing said treatment agents, said plurality of tanks being positioned in the porthole door and the individual tanks being dimensioned to contain a sufficient volume of treatment agent for a plurality of washing cycles, said dispensing system having the features of the characterizing portion of
claim 1. - In accordance with an embodiment, the dispensing system (17) may comprise a (for instance one single only) dosing pump (36) either fixed in the door (4) or outside the door (4). In accordance with an embodiment, the dosing pump (36) may comprise:
- a cylinder (37) defining a dosing volume and forming an inlet opening (38) with an inlet non-return valve (39) and an outlet opening (40) with an outlet non-return valve (41),
- a piston (42) movable by means of an actuator (43).
In accordance with the invention, the tanks (18) are connected to (the inlet opening (38) of) the dosing pump (36) by means of one or more transfer ducts (44) and one or more selection valves (45) for selectively opening and interrupting the fluid connection between each of the tanks (18) and the dosing pump (36). - This allows the use of a single volumetric dosing pump (36) for the dosed dispensing of a plurality of different treatment agents contained in a plurality of different tanks (18). Moreover, the positioning of the dosing pump (36) fixed in the door (4) rather than in the washing machine housing avoids the need to provide ducts with hydraulic coupling and uncoupling systems for the transporting the treatment agents from the movable porthole door to the fixed part of the washing machine housing.
- According to a further embodiment, the plurality of tanks (18) comprises an individual tank (34) and a multi-tank unit (35) having a plurality of said tanks (18) connected to one another,
wherein the multi-tank unit (35) may be reversibly coupled to the door (4) as an individual body and independent from the individual tank (34), and wherein the individual tank (34) may be reversibly coupled to the door (4) independently of the multi-tank unit (35). - This allows to simplify and reduce the manipulation, extraction, cleaning, filling and re-insertion operations of the refillable tanks (18). Indeed, not all wash cycles require the dispensing of all available types of treatment agents and various washing cycles require different amounts of one or the other treatment agent, with the result that the consumption of some treatment agents is different from the consumption of other treatment agents. For example, in some embodiments, the consumption of enzymes is lower than the consumption of soap and softener. The structural construction of the tanks as a separate and independent multi-tank unit and individual tank allows to extract and manipulate the strictly indispensable tanks only, i.e. those which have been emptied, leaving the tanks which are not yet empty in their place.
- In an example which does not form part of the invention, the dispensing system (17) comprises, for each tank (18), a dedicated dosing pump (36'), and the tanks (18) are connected to the respective dedicated dosing pumps (36') by means of respective dedicated transfer ducts (44'), optionally each equipped with a non-return valve (63).
- This allows a simplification of the pipe system and avoids the need for selection solenoid valves for controlling the dispensing of different treatment agents from a plurality of different tanks.
- In accordance with an embodiment, the plurality of tanks (18) comprises:
- a first tank containing a first detergent for white and resistant fabric items,
- a second tank containing a second detergent for colored and delicate fabric items,
- a third tank containing a fixing and/or softening agent,
- a fourth tank containing enzymes and / or an additional reservoir containing stain-removing substances other than enzymes.
- This allows to form a mixture or composition of treatment agents with an adjustable quantity ratio which can be optimized for a specific selected washing cycle, thus increasing washing effectiveness and saving treatment agents.
- In an example which does not form part of the invention, each of the tanks (18) forms a dispensing opening (19) directly facing the basket (5).
- This avoids the need to arrange pipes, valves and pumping systems externally with respect to the tanks (18) within the dimensions of the porthole door. Thereby, the structure of the porthole door is simplified and the volume available for the tanks (18) is increased and therefore so is the number of washing cycles which can be performed without needing to fill the tanks. Additionally, with reference to all the embodiments, an introduction of detergent directly into the laundry basket is advantageous because it ensures that all the dispensed detergent is actually in contact with the laundry.
- Further advantageous aspects of the invention will become apparent from the following description of some embodiments provided by way of non-limiting example with reference to the accompanying drawings, in which:
-
figure 1 is a front view of a washing machine according to an embodiment of the invention; -
figure 2 is a section view of a tank for treatment agents of the washing machine according to a further embodiment; -
figure 3 shows a multiple dosing diagram of the washing machine according to an embodiment; -
figure 4 shows an embodiment of the implementation of the multiple dosing diagram infigure 3 ; -
figure 5 shows a dosing and dispensing diagram of the washing machine according to an embodiment; -
figure 6 shows a multiple dosing system with individual and multiple tank assemblies of the washing machine according to an embodiment, -
figures 7 and8 show further multiple dosing diagrams with alternative dispensing of detergent powder, according to embodiments, -
figures 9 and 10 show multiple dosing schemes, in which the treatment agent tanks are positioned in the door of the washing machine and a dispensing assembly containing the dosing pump is positioned in the housing outside the door of the washing machine, whereinfigure 10 shows an example which is not part of the claimed invention, -
figure 11A shows a multiple dosing scheme with a duct washing system not forming part of the claimed invention, -
figure 11B shows a multiple dosing scheme with a duct washing system according to another further embodiment, -
figures 12, 13 and 14 are perspective views of a washing machine according to an embodiment, in which the treatment agent tanks are positioned in the door of the washing machine and a dispensing unit containing the dosing pump is positioned in the housing outside the door of the washing machine, -
figure 15 is a perspective view of a door for a washing machine according to an embodiment, said door containing a multiple dispensing assembly with tanks and an outer cover removed, -
figures 16, 17, 18 are views from the outside of doors of a washing machine according to embodiments, -
figure 19 is a perspective view of a door of a washing machine according to an embodiment. -
figures 20, 21, 22 show a door of a washing machine according to an embodiment, with a detergent tank assembly removed and inserted, -
figure 23 shows a detergent tank assembly for the door infigure 22 , -
figure 24 shows an individual detergent tank with gripping portion and opening/filler cap, -
figures 25 shows a door of a washing machine according to an embodiment, with a detergent tank assembly or rigid disposable cartridges, -
figures 26 and 27 are views of the disposable cartridge assembly infigure 22 , -
figure 28 shows a door of a washing machine according to an embodiment, with a disposable detergent flexible wall container assembly, -
figures 29 and 30 are views of disposable detergent flexible wall containers. - With reference to the figures, a
washing machine 1 or washer-dryer comprises a supporting andhousing structure 2, inside which awashing tub 3 is housed, provided with a front opening which can be closed by aporthole door 4 frontally hinged to thehousing 2. Abasket 5 to accommodate the laundry to be washed 3 is arranged inside the washing tub in a rotatable manner about a horizontal or inclined axis. Thebasket 5 also defines a front opening positioned at the opening of the washing tub, in order to be able to load and unload of the laundry. - The
washing tub 3 is adapted to contain the washing liquid during the steps of the laundry washing. - A water loading system connectable to the water mains is provided in order to allow the loading of the
tank 3 with water from the mains. Theloading system 20 may comprise a plurality of ducts which extend, e.g. from one or more, e.g. twosupply solenoid valves washing tub 3. - A draining
duct 10 is connected to the bottom of thewashing tub 3 with associated drainingpump 11 which removes the washing liquid from thetank 3 and which controls, together with thesupply solenoid valves tank 3. - For heating the washing liquid contained in the
tank 3, anelectric resistor 12 may be provided arranged inside thetank 3, in particular on the bottom of thetank 9, in the gap between the wall of thelaundry basket 5. - For agitating and remixing the laundry with the washing liquid, the
laundry basket 5 can be actuated in rotation by anelectric motor 13 and atransmission 14, e.g. a belt. - The operation of the
washing machine 1 is controlled by anelectronic control unit 15, operatively connected to auser control interface 16 positioned at an outer wall or at thedoor 4 of thehousing 2 and which allows the selection of washing and/or drying cycles (more generally, of treatment cycles) and their features. In response to the selections made by the user by means of theuser interface 16, thecontrol unit 15 controls the various components of thewashing machine 1 for automatically washing the laundry. - The
washing machine 1 further comprises a dispensingsystem 17 of the "multiple dosing" type for dispensing laundry treatment agents. - Either in addition or alternatively to the
detergent tray 8, the dispensingsystem 17 comprises a plurality oftanks 18 to contain the treatment agents, e.g. detergent for resistant white fabric items, detergent for delicate colored fabric items, detergent for wool, perfuming substances, enzymes and / or stain-removing substances other than enzymes, fixing agents and/or fabric softener. The plurality oftanks 18 is preferably positioned in theporthole door 4 and theindividual tanks 18 are dimensioned to each contain a volume of the treatment agent sufficient for a plurality of washing cycles. - In an example which does not form part of the invention, each of the
tanks 18 forms a dispensingopening 19 directly facing thebasket 5, so as to directly dispense the treatment agent and not require modifications to thewater loading system 20. Particularly advantageously, theporthole door 4 is free from water pipes. - In an example which does not form part of the invention, each of the
tanks 18 includes an internal dosing and dispensing mechanism 21 directly on thetank 18, but configured to interact with anexternal dispensing actuator 22, positioned in thedoor 4 externally to thetank 18. - The internal dosing and dispensing mechanism 21 and the
external dispensing actuator 22 can be configured for magnetic interaction. - The dosing and dispensing mechanism 21 comprises:
- a dispensing
chamber 23 delimiting a dosing volume in communication with the dispensingopening 19, via the interposition of anon-return valve 24, and with the inside of thetank 18, - at least one
dosing member 25 movable from a retracted position outside thedosing chamber 23, in which it allows the filling of the dispensingchamber 23 with the treatment agent, to a protracted position in thedosing chamber 23, in which it pushes a dosed volume of treatment agent from thedosing chamber 23 through thenon-return valve 24 and the dispensingopening 19. - The
dosing chamber 23 can be shaped as a cup or as a cylinder open on one side, with abottom wall 26 which accommodates thenon-return valve 24 and with aperipheral wall 27 which delimits together with thebottom wall 26 said (predetermined) dosing volume. - By moving from the retracted position to the protracted position, the
dosing member 25, e.g. a dosing piston, sealingly engages theperipheral wall 27 so as to prevent the return of treatment agent from thedosing chamber 23 into theinner space 29 of thetank 18 and to force the treatment agent through thenon-return valve 24 and the dispensingopening 19 into thebasket 5. During the return of thedosing piston 25 from the protracted position to the retracted position, a furthernon-return valve 28 positioned between thedosing chamber 23 and the inner space 29 (e.g. in a channel formed in the dosing piston 25) allows the passage of liquid from theinner space 29 into thedosing chamber 23. - The
dosing member 25 comprises a magnetically susceptible (in particular attractable)element 30, e.g. a ferromagnetic or magnetic block, for a displacement of thedosing member 25 via magnetic actuation from the outside of thetank 18. - The
flow actuator 22 may comprise anelectromagnet 31 positioned outside thetank 18 but near the dosing and dispensing mechanism 21 and can be energized by thecontrol unit 15 so as to actuate the displacements of thedosing member 25. - Alternatively, the
flow actuator 22 may comprise a magnetic or magneticallysusceptible structure 32 positioned outside thetank 18 but near the dosing and dispensing mechanism 21 and movable (e.g. by means of a motor or a solenoid controlled by the control unit 15) so as to actuate the displacements of thedosing member 25. - The
tank 18 or eachtank 18 comprises a loading opening which can be closed by means of aplug 33 and the dosing mechanism and dispensing mechanism 21 is integrated, at least in part, in said plug 21. - According to a further embodiment, the dispensing
system 17 comprises adosing pump 36 which is fixed in the door 4 (figure 15 ). - Alternatively, and with reference to multiple dosing systems with a single pump or with multiple pumps (
figures 9 - 14 ), one or more dosing pumps 36, 36' is arranged in thehousing 2 outside thedoor 4, while thetanks 18 are either formed or positioned in thedoor 4 and connected to the single or multiple dosing pumps 36, 36' by means ofconnection ducts 59 extending at ahinge 61', 61" which connects thedoor 4 to a front wall of thehousing 2. - Advantageously, the
hinge 61', 61" comprises a lower hinge 61' and anupper hinge 61" and theconnection ducts 59 extend in a (protected) space between the lower hinge 61' and theupper hinge 61" (figure 13 ). - According to an embodiment, the
dosing pump 36 comprises acylinder 37 which defines a predetermined dosing volume and which forms aninlet opening 38 with an inletnon-return valve 39 and anopening outlet 40 with an outletnon-return valve 41, as well as apiston 42 movable by means of anactuator 43, e.g. a solenoid or actuating motor, which in turn is controlled by thecontrol unit 15. - The
tanks 18 are or can be connected to the inlet opening 38 of thedosing pump 36 by means ofrespective transfer ducts 44 each provided with aselection valve 45 for selectively opening and interrupting the fluid connection between each of thetanks 18 and thedosing pump 36. - Advantageously, in order to avoid the formation of scaling and deposits in the
dosing cylinder 37, a rinsingduct 46 may be provided positioned in thedoor 4 and in communication with thetransfer duct 44. The rinsingduct 46 is connected to thewater loading system 20, by means of a supply valve 6' and anair gap 58, and connects to a portion of the transfer duct orducts 44 upstream of the inletnon-return valve 39 of thedosing pump 36. - Also in this embodiment, the
tanks 18 can be either fixed in thedoor 4 or extractable fromdoor 4 for the purpose of filling them. - According to an embodiment, the single outlet openings of the
tanks 18 are placed in communication with asingle transfer duct 44 respectively by means of a plurality ofselection valves 45 arranged in series (one behind the other) along thetransfer duct 44. Eachselection valve 45 has a first inlet opening 47 and anoutlet opening 48 which connect theselection valve 45 in the transfer duct 44 (ensuring the continuity), as well as a second inlet opening 49 which connects theselection valve 45 to the outlet opening of therespective tank 18. The first 47 and second 49 inlet openings and the outlet opening 48 of theselection valve 45 are in mutual communication to allow: - a flow passage (of rinsing water and/or of the treatment agent introduced into the
transfer duct 44 in a position upstream of the selection valve 45) from thefirst inlet 47 to theoutlet aperture 48, and - an input flow (of the treatment agent) from the second input opening 49 to the
outlet opening 48. - The
selection valve 45 also comprises ashutter 50 movable to: - a passage position, in which it closes the second inlet opening 49, thus leaving the second inlet opening 47 and the outlet opening 48 open, to allow only the passage flow and prevent the inlet flow of treatment agent,
- an inlet position, in which it closes the first inlet opening 47, thus leaving the second inlet opening 49 and the outlet opening 48 open, to allow only the inlet flow of treatment agent and prevent the passage flow.
- The rinsing
duct 46 is connected to thetransfer duct 44 upstream of theselection valves 45 and thetransfer duct 44 is connected to thedosing pump 36 downstream of theselector valve 45, as shown for example infigures 3 and 4 . - Thereby, by taking the
selection valve 45 associated with a selectedtank 18 to the inlet position and leaving theselection valves 45 of the remainingtanks 18 in the passage position, thedosing pump 36 can aspirate and dose in a selective manner the treatment agent of the selected tank, while the flow of the rinsing water is intercepted (blocked) at theselection valve 45 of the selected tank and all remaining input flows of the treatment agents are intercepted (blocked) at theselection valves 45 of thenonselected tanks 18. - Similarly, taking the
selection valves 45 of all thetanks 18 to the passage position, theentire transfer duct 44, including allselection valves 45, and thedosing pump 36 can be crossed and cleaned by the flow of the rinsing water, while all the input streams of the treatment agents are intercepted (blocked) at the selector valve 45 (figures 3, 4, 5 ). - According to an embodiment (
figure 9 ), apumping unit 60 containing: - the
dosing pump 36, - the rinsing
duct - the
selection valves 45, and - a portion of the
transfer duct 44 at which theselection valves 45 are arranged, - In this embodiment, the outlet opening 40 of the
dosing pump 36 can be connected to (anejector 62 placed in) asupply duct 65 connected to thewater loading system 20 by means of asupply solenoid valve 6" and in communication with the inside of thebasket 5 or of thetub 3, so as to transport (by aspiring by the ejector 62) the treatment agents, dispensed by means of thedosing pump 36, into thebasket 5 or into thewashing tub 3. - According to an embodiment (
figure 11B ), thetransfer duct 44 connects theselection valves 45 in series to one another and with the dispensingpump 36 and a plurality of dedicated transfer ducts 44' connect the selection valves 45 (which can be outside thedoor 4, for example) to the respective tanks 18 (inside the door 18). - A rinsing duct 46' located completely outside the
door 4 may be provided in order to avoid the formation of scaling and deposits inselection valves 45 and in thetransfer ducts 44, 44'. The rinsing duct 46' comprises adistribution duct 66 connected to thewater loading system 20 by means of a supply valve 6', and a plurality ofdedicated ducts 67 branched from thedistribution duct 66. Each of thededicated ducts 67 comprises anon-return rinsing valve 68 and is connected to respectively one of the dedicated transfer ducts 44' at a point upstream of theselection valve 45 and downstream of anon-return valve 63 of the tank 18 (figure 11B ). - When the supply solenoid valve 6' is open, the mains water fills the entire rinsing duct 46' and washes the
transfer ducts 44, 44' downstream of thenon-return valves 63 and theselection valves 45. During this washing, the mains water pressure in the dedicated transfer ducts 44' keeps thenon-return valves 63 closed thus preventing the mains water from entering into thetanks 18. - At the end of the step of cleaning, the
supply valve 6 is closed and thedosing pump 36 is activated to fill the dedicated transfer ducts 44' again with liquid treatment agent aspirated from thetanks 18. - For a selective dispensing of a treatment agent selected from a selected
tank 18, the supply valve 6' is held closed and thedosing pump 36 and a selectedselection valve 45 is activated, thus generating a vacuum in the corresponding dedicated transfer duct 44' which opens thenon-return valve 63 associated with the selectedtank 18 and aspirates the selected treatment agent from selectedtank 18. By virtue of the closure of the supply valve 6' and of the rinsingnon-return valves 68, the vacuum in the dedicated transfer duct 44' cannot aspirate mains water from the rinsing duct 46' or treatment agents from theother tanks 18. - Alternatively, the pumping
assembly 60 may be completely inside thedoor 4, thus allowing a direct dispensing in thebasket 5 and avoiding the need for a further duct with ejector for transporting the dosed treatment agents into thetank 3 or in thebasket 5. - In an example which does not form part of the invention, the dispensing
system 17 comprises a dedicated dosing pump 36' (figures 10 ,11 ,14 ), preferably volumetric pumps, such as a cylinder-piston-pump, for eachtreatment agent tank 18. - The
tanks 18 are connected or can be connected to the respective dedicated dosing pumps 36' by means of respective dedicated transfer ducts 44', optionally each equipped with anon-return valve 63. - If the dedicated dosing pumps 36' are fixed in the
door 4, their outlet openings may be in direct communication with the inside of thebasket 5 or connected to acommon output duct 64 which opens into thedrum 5. - In the example in which the dedicated dosing pumps 36' are positioned in the
housing 2 outside thedoor 4, the dedicated dosing pumps 36' are connected to acommon output duct 64 connected to (anejector 62 placed in) asupply duct 65 connected to thewater loading system 20 by means of asupply solenoid valve 6" and in communication with the inside thebasket 5 or, optionally, of thetub 3, so as to transport (by means of the aspiration of the ejector 62) the treatment agents dispensed by the dedicated dosing pumps 36' up to thebasket 5 or to thewashing tub 3. - Advantageously, in order to avoid the formation of scaling and deposits in the dedicated dosing pumps 36' and in the
ducts 44', 64 of the dispensingsystem 17, a rinsing duct 46' may be provided positioned, according to embodiments, either at least partly in thedoor 4 or completely outside thedoor 4. The rinsing duct 46' comprises adistribution duct 66 connected to thewater loading system 20 by means of a supply valve 6', and a plurality ofdedicated ducts 67 branched from thedistribution duct 66. Each of thededicated ducts 67 comprises anon-return rinsing valve 68 and is connected to respectively one of the dedicated transfer ducts 44' at a point upstream of the dedicated dosing valve 36' and downstream of the non-return valve 63 (figure 11A ). - When the supply solenoid valve 6' is open, the mains water fills the entire rinsing duct 46' and washes the dedicated transfer ducts 44' downstream of the
non-return valves 63 and the dedicated dosing valves 36'. During this washing, the mains water pressure in the dedicated transfer ducts 44' keeps thenon-return valves 63 closed thus preventing the mains water from entering into thetanks 18. - At the end of the step of cleaning, the supply valve 6' is closed and the dedicated dosing pumps 36' are activated to fill the dedicated transfer ducts 44' again with liquid treatment agent aspirated from the
tanks 18. - For a selective dispensing of a treatment agent selected from a selected
reservoir 18, the supply valve 6' is held closed and the selecteddedicated dosing pump 36 is activated, thus generating a vacuum in the corresponding dedicated transfer duct 44' which opens thenon-return valve 63 associated with the selectedtank 18 and aspirates the selected treatment agent from selectedtank 18. By virtue of the closure of the supply valve 6' and of the rinsingnon-return valves 68, the vacuum in the dedicated transfer duct 44' cannot aspirate mains water from the rinsing duct 46' or treatment agents from theother tanks 18. - Also in the examples with dedicated dosing pumps 36' (
figures 10 ,11 ), thetanks 18 may be either fixed to thedoor 4 or extractable fromdoor 4 for filling. - According to an example not forming part of the claimed invention, a pumping unit 60' containing:
- the dedicated dosing pumps 36',
- the rinsing
duct - the portions of the
dedicated transfer ducts 44 to which the rinsingduct - Alternatively, the pumping assembly 60' may be completely inside the
door 4, thus allowing a direct dispensing in thebasket 5 and obviating the need for a further duct with ejector for transporting the dosed treatment agents into thetank 3 or in thebasket 5. - According to a further embodiment (
figures 7 ,8 ), the dispensingsystem 17 further comprises: - an
auxiliary compartment 51 positioned in thedoor 4 and adapted to contain powder detergent and a channel 54 (e.g. overflow channel), also formed in thedoor 4 for draining (by rinsing) the powder detergent from theauxiliary compartment 51 into thebasket 5 or into thetub 3, as well as - an
auxiliary duct 52 connected to thewater loading system 20, for example by means of a supply valve 6', 7' and anair gap 58, 58', and in communication with theauxiliary compartment 51 so as to conduct an auxiliary water flow into theauxiliary compartment 51 and dispense the powder detergent from theauxiliary compartment 51 into thebasket 5 or into thetub 3. - This further increases the versatility of the dispensing
system 17. - According to an embodiment (
figure 7 ), theauxiliary duct 52 is branched from (or connected to) the rinsingduct 46 in a branchingpoint 53 downstream of the air gap 58 (in the rinsing duct 46) and upstream of thetransfer duct 44, and forms an elevated segment 55 (e.g. in the form of inverted siphon) positioned higher than thetransfer duct 44 but lower than theair gap 58, so that the dispensing of liquid treatment agent from thetanks 18 can occur while maintaining the water level in the auxiliary duct under the height of thesegment 55, and therefore without dispensing detergent powder from theauxiliary compartment 51. - This enables the
auxiliary duct 52 without on-off valves. - The dispensing of detergent powder from the
auxiliary compartment 51 without simultaneous dispensing of liquid treatment agent from thetanks 18 may be performed by filling the rinsingduct 46 beyond the level of theelevated segment 55 so as to achieve the aforesaid auxiliary flow in theauxiliary compartment 51, e.g. by blocking the water flow into thetransfer duct 44 by means of thenon-return valves selection valves 45. - Either alternatively or selectively, the dispensing of detergent powder from the
auxiliary compartment 51 may be performed simultaneously with a dispensing of the treatment liquid agent from one of thetanks 18. - Alternatively, the
auxiliary duct 52 may comprise an on-offvalve 56 which can be operated to control the dispensing of detergent powder from theauxiliary compartment 51. In this embodiment, it is possible to avoid theelevated segment 55. - According to an embodiment (
figure 8 ), theauxiliary duct 52 is connected to thewater loading system 20 by means of an own supply valve 7' and an own air gap 58', thus providing a second water path, independent from the rinsingduct 46, for dispensing detergent powder from theauxiliary compartment 51 and for introducing water into thebasket 5 or in thetub 3. - According to an embodiment, the
auxiliary compartment 51 and, possibly, thechannel 54 can be formed in anauxiliary insert 57 which can be inserted in thedoor 4 to operate thewashing machine 1 with dispensing of detergent powder, and removable from thedoor 4 to operate thewashing machine 1 without dispensing detergent powder from thedoor 4. - In this embodiment, the
insert 57 or an accessory cover 57' free from auxiliary compartment can be applied, as desired, from the inner side (facing in the basket 5) to thedoor 4 and form an inner surface facing in thebasket 5 and in direct contact with the laundry to be washed (figure 19 ). - According to a further embodiment, the dispensing
system 17 comprises a detergent detection device configured to detect the presence and absence of treatment agents inside thetanks 18 and generate a corresponding warning for the user. - In an embodiment (
figures 3, 4 ,7 ,8 ,9 ), the detergent detection device may comprise anoptical sensor 69, e.g. a turbidity sensor, connected to thecontrol unit 15 and associated with a transparent detection duct section formed in atransfer duct 44 downstream of theselection valves 45 and upstream of thedosing pump 36 and configured to generate an empty tank signal in case of air aspiration in the detection duct section. - In an embodiment (
figures 10 ,11 ), the detergent detecting device may comprise a plurality of optical sensors 69', e.g. turbidity sensors, connected to thecontrol unit 15 and each associated with a transparent detection duct section formed in the dedicated transfer duct 44' of eachtank 18, upstream of the dedicated dosing pump 36' and, if provided, downstream of the non-return valve 63 (figures 7 ,8 ). The optical sensors 69' are configured to generate a tank empty signal in case of air aspiration into the detection duct segment with which they are associated. - The filling state detection of the
tank 18 occurs during the aspiration of a selected treatment agent from atank 18 and thecontrol unit 15 attributes the detergent presence or absence signal generated by theoptical sensor 69, 69' to the selectedtank 18 and generates an "empty tank" alert for the user. - According to a further embodiment, the plurality of
tanks 18 comprises anindividual tank 34 and a multiple-tank unit 35 having a plurality of saidtanks 18 connected to one another. - The multiple-
tank unit 35 is connectable/detachable to/from thedoor 4 as an independent unit from theindividual tank 34, and theindividual tank 34 can also be connected/detached to and from thedoor 4 independently from the multiple-tank unit 35. This is particularly advantageous if different treatment agents with different amounts of use and emptying times are used. - For example, the
individual tank 34 may contain enzymes and / or stain-removing substances other than enzymes, and require a filling at very low frequency, while thetanks 18 ofmulti-tank unit 35 may separately contain a first detergent for white and resistant items, a second detergent for colored and delicate items and a fixing and/or softening agent and require more frequent filling. - Advantageously, the
tank 18 containing the enzymes and / or stain-removing substances other than enzymes is arranged so as to be separated from theother tanks 18 and from the inside of thebasket 5 by an air gap which constitutes a thermal insulation adapted to protect the enzymes and / or stain-removing substances other than enzymes from heat deterioration. - In order to permit a selective manipulation of each
tank 18 according to an embodiment, eachtank 18 can be coupled/detached to and from thedoor 4 independently of theother tanks 18. - According to a further embodiment, the
tanks 18 and, possibly, thepumping unit 60, 60', are positioned in alower portion 70 of thedoor 4, which can have a vertical extension of at least or more than half, preferably between 1/2 and 2/3, of the total height of thedoor 4 and which is covered by anouter cover 71, preferably opaque so as to conceal thedispensing system 17 to the user. - In an embodiment (
figures 12 ,18 ) thetanks 18 are either received or formed in an oscillating drawer 72' partially extractable from and insertible into thedoor 4 by means of a pivoting movement about a horizontal axis so as to allow access to thetanks 18 from the outside of the door 4 (opposite side to the basket 5) and from the top (figure 18 ), for filling and for extracting and inserting or for replacing thetanks 18, e.g. for maintenance or cleaning of thetanks 18. - In a further embodiment (
figure 17 ), thetanks 18 are either received or formed in atranslatable drawer 72 partially extractable from and inserted into thedoor 4 by means of a translational movement along a horizontal axis so as to allow access to thetanks 18 from the outside of the door 4 (opposite side to the basket 5) and from the top, both for filling and for extracting and inserting or for replacing thetanks 18, e.g. for maintenance operations or for cleaning thetanks 18. - In order to allow the movement of the
drawer 72, 72', as well as the extraction and re-insertion of thetanks 18, thetanks 18 andtransfer ducts 44, 44' of thepumping units 60, 60' are connected by means of male-female hydraulic connectors 73 (figures 15 ,20, 21 ), which in the disconnecting configuration close both the tank and thetransfer duct 44, 44' and in the connecting configuration open a fluid passage between thetank 18 and thetransfer duct 44, 44'. - An
upper portion 74 of thedoor 4 formed above thelower portion 70 containing thetanks 18 is preferably transparent and forms a porthole area to allow viewing the inside of thebasket 5 from the outside of thedoor 4. - The
auxiliary insert 57 forming theauxiliary compartment 51 for detergent powder and the auxiliary attachment 57' (if provided), are preferably housed in theupper portion 74 of the door 4 (figures 15 ,19 ). - According to an embodiment (
figures 20 - 24 ), thetanks 18 comprise refillable, rigid or semi-rigid containers having a stable shape which can be inserted into and removable from thedoor 4 through a front opening on the outer side of thedoor 4, which can be closed by theouter cover 71, preferably a swinging cover which can be opened by tilting downwards. - The refillable containers are provided with a filling opening with
cap 75 and amanual grip portion 76 to facilitate extraction from the door 4 (figure 24 ). - The fluid connection of the
tanks 18 to thepumping unit 60, 60' is achieved by means of the male-femalehydraulic connectors 73. - According to a further embodiment (
figures 25 - 27 ), thetanks 18 comprise disposable, rigid or semi-rigid containers having a stable shape which can be inserted into and removable from thedoor 4 through a front opening on the outer side of thedoor 4, which can be closed by theouter cover 71, preferably a swinging cover which can be opened by tilting downwards. - In order to maximize the volume of the
tanks 18 inside thecircular door 4, the refillable or disposable containers may comprise one or more first arc-shaped containers with a peripheral surface in the shape of a circular arc and one or more second containers with a shape complementary to the shape of the first containers, so as to form together a volume in the shape of a semi-disc compatible with the circular shape of the door 4 (figures 22 ,23 ,25-27 ). Advantageously, the volume of the first containers is greater than the volume of the second containers to adapt their capacity to different consumptions of treatment agents. - According to a yet further embodiment (
figures 28, 29, 30 ), thetanks 18 comprise disposable flexible wall containers (bladder bags) which can be inserted into and removable from thedoor 4 through a front opening on the outer side of thedoor 4, which can be closed by theouter cover 71, preferably a swinging cover which can be opened by tilting downwards. - Advantageously, the
tanks 18 comprise disposable containers, in particular flexible plastic bags, for soaps and softeners (the consumption of which is notoriously high), as well as an individual refillable tank with stable form and smaller volume than the volumes of the disposable containers, for containing enzymes (the consumption of which is very low) and / or stain-removing substances other than enzymes. - The disposable flexible bag-like containers may have a generally elongated prism shape and possibly form together a volume with a trapezoidal shape which tapers downward, which fills well the lower portion semi-circular section of the door 4 (
figure 28 ). - The
disposable tanks 18 may be fluidically connected to thepumping unit 60, 60' by means of the male-femalehydraulic connectors 73, or by means of hydraulic connectors adapted to pierce the disposable containers and be inserted therein in a sealed manner. - The
washing machine 1 may further comprise a system for recirculating the washing liquid from the bottom of the tank to the laundry basket, similarly to the recirculation systems described with reference to the prior art.
Claims (15)
- A washing machine (1) comprising:- a housing (2),- a washing tub (3) arranged inside the housing (2) and having a front opening closable by means of a porthole door (4) frontally hinged to the housing (2),- a basket (5) arranged inside the washing tub (3) and rotatable about a horizontal or inclined axis, wherein the basket (5) defines a loading opening at the front opening of the washing tub (3), for loading and unloading the laundry to be washed,- a water loading system (20) connectable to the water mains and in communication with the washing tub (3) to load water in the washing tub (3),- a dispensing system (17) for dispensing laundry treatment agents, said dispensing system (17) comprising a plurality of tanks (18) for containing said treatment agents, said plurality of tanks (18) being positioned in the porthole door (4) and the individual tanks (18) being dimensioned to contain a sufficient volume of treatment agent for a plurality of washing cycles,characterized in that the dispensing system (17) comprises a dosing pump (36), wherein said tanks (18) are connected to an inlet opening (38) of the dosing pump (36) by means of one or more transfer ducts (44, 44') and one or more selection valves (45) for selectively opening and interrupting the fluid connection between each of the tanks (18) and the dosing pump (36),wherein the tanks (18) are put in communication with the transfer duct (44) by means of respective selection valves (45) arranged in series in the transfer duct (44),wherein the transfer duct (44) is connected to the dosing pump (36) downstream of the selection valves (45),wherein each selection valve (45) comprises:- a first inlet opening (47) and an outlet opening (48), which connect the selection valve (45) in the transfer duct (44),- a second inlet opening (49), which connects the selection valve (45) to the respective tank (18),- an inner space, which puts the first (47) and second (49) inlet openings and the outlet opening (48) in communication,- a shutter (50) movable in:A) a passage position, in which it closes the second inlet opening (49) and leaves the first inlet opening (47) and the outlet opening (48) open, to allow only a passage flow from the first inlet opening (47) to the outlet opening (48) and prevent an inlet flow from the second inlet opening (49) to the outlet opening (48),B) an inlet position, in which it closes the first inlet opening (47) and leaves the second inlet opening (49) and the outlet opening (48) open, to allow only the inlet flow and prevent the passage flow.
- A washing machine (1) according to claim 1, in which the dispensing system (17) comprises:A) a dosing pump (36) fixed in the door (4), orB) one dosing pump (36) arranged in the housing (2) outside the door (4), while the tanks (18) are connected to the single dosing pump (36) by means of connection ducts (59) extending at a hinge (61', 61") which connects the door (4) to a front wall of the housing (2), orC) a single dosing pump (36) comprising:- a cylinder (37) defining a dosing volume and forming an inlet opening (38) with an inlet non-return valve (39) and an outlet opening (40) with an outlet non-return valve (41),- a piston (42) movable by means of an actuator (43).
- A washing machine (1) according to claim 1, comprising a rinsing duct (46) in communication with the transfer duct (44) and connected to the water loading system (20).
- A washing machine (1) according to claim 3, wherein a pumping assembly (60) containing:- the dosing pump (36),- the rinsing duct (46, 46'),- the selection valves (45), and- a portion of the transfer duct (44) at which the selection valves (45) are arranged, is arranged in the housing (2) outside the door (4) and connected to the tanks (18) in the door (4) by means of connection ducts (59).
- A washing machine (1) according to claim 4, wherein:- the outlet opening (40) of the dosing pump (36) is connected to an ejector (62) placed in a supply duct (65),- the supply duct (65) is connected to the water loading system (20) by means of a supply solenoid valve (6") and is in communication with the interior of the basket (5) or of the tub (3).
- A washing machine (1) according to one of claims 1 and 3, wherein the dosing pump (36) is fixed in the door (4).
- A washing machine (1) according to one of the preceding claims, wherein the dispensing system (17) comprises:- an auxiliary compartment (51) positioned in the door (4) and adapted to contain powder detergent,- an overflow channel (54) formed in the door (4), for draining the powdered detergent from the auxiliary compartment (51) into the basket (5) by means of rinsing,- an auxiliary duct (52) connected to the water loading system (20), by means of a supply valve (6', 7') and an air gap (58, 58'), and in communication with the auxiliary compartment (51) to conduct an auxiliary water flow into the auxiliary compartment (51) and dispense the powder detergent from the auxiliary compartment (51) into the basket (5).
- A washing machine (1) according to claim 7, wherein the auxiliary compartment (51) is formed in an auxiliary insert (57) insertable into and detachable from the door (4).
- A washing machine (1) according to one of the preceding claims, wherein the dispensing system (17) comprises a detergent detection device configured to detect the presence and absence of treatment agents inside the tanks (18) and generate a corresponding warning for the user,
said detergent detection device comprising an optical sensor (69) connected to the control unit (15) and associated with a transparent detection duct section formed in a transfer duct (44) upstream of the dosing pump (36) and configured to generate an empty tank signal in case of air aspiration in the detection duct section. - A washing machine (1) according to one of the preceding claims, wherein the tanks (18) are positioned in a tilting drawer (72') partially extractable from and insertable into the door (4) by means of a tilting movement about a horizontal axis so as to allow the tanks (18) to be accessed from the outside of the door (4) and from above.
- A washing machine (1) according to one of claims 1 to 9, wherein the tanks (18) are positioned in a translatable drawer (72) partially extractable from and insertable into the door (4) by means of a translational movement along a horizontal axis so as to allow the tanks (18) to be accessed from the outside of the door (4) and from above.
- A washing machine (1) according to one of the preceding claims, wherein the tanks (18) comprise rigid, refillable containers of stable shape, insertable into and extractable from the door (4) through a front opening on the outer side of the door (4), which may be closed by means of an outer lid (71),
said refillable containers having a filling opening (75) with a plug and a manual gripping portion (76) to facilitate the extraction thereof from the door (4). - A washing machine (1) according to one of the preceding claims, wherein the tanks (18) comprise rigid disposable containers of stable shape, insertable into and extractable from the door (4) through a front opening of the door (4) which may be closed by means of an outer lid (71).
- A washing machine (1) according to one of the preceding claims, wherein the plurality of tanks (18) comprises:- a first tank containing a first detergent for white and resistant cloths,- a second tank containing a second detergent for colored and delicate cloths,- a third tank containing a fixing and/or softening agent,- a fourth tank containing enzymes and/or stain removing substances different from enzymes.
- A washing machine (1) according to one of the preceding claims, wherein:- the transfer duct (44) connects the selection valves (45) in series to one another and to the dispensing pump (36) and a plurality of dedicated transfer ducts (44') connects the selection valves (45) to the respective tanks (18),- the dispensing system (17) comprises a rinsing duct (46') with:- a distribution duct (66) connected to the water loading system (20) by means of a supply valve (6'), and- a plurality of dedicated ducts (67) branched from the distribution duct (66),wherein each of the dedicated ducts (67) comprises a non-return rinsing valve (68) and is connected to one of the dedicated transfer ducts (44') at a point upstream of the selection valve (45) and downstream of a non-return valve (63) of the tank (18), respectively.
Applications Claiming Priority (1)
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IT201700148892 | 2017-12-22 |
Publications (2)
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EP3502335A1 EP3502335A1 (en) | 2019-06-26 |
EP3502335B1 true EP3502335B1 (en) | 2022-02-09 |
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EP18213609.3A Active EP3502335B1 (en) | 2017-12-22 | 2018-12-18 | Washing machine |
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EP (1) | EP3502335B1 (en) |
CN (1) | CN109957906B (en) |
ES (1) | ES2913074T3 (en) |
Cited By (1)
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IT202200020487A1 (en) * | 2022-10-05 | 2024-04-05 | S P M Eng S R L | PORTHOLE GROUP FOR A WASHING MACHINE EQUIPPED WITH A SYSTEM FOR DISPENSING PRODUCTS AND RELATED WASHING MACHINE |
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JP7225042B2 (en) * | 2019-07-01 | 2023-02-20 | 東芝ライフスタイル株式会社 | clothing processing equipment |
US11993890B2 (en) * | 2020-09-14 | 2024-05-28 | Haier Us Appliance Solutions, Inc. | Laundry appliance and additive dispensing assembly |
CN112941845B (en) * | 2021-02-05 | 2023-04-11 | 珠海格力电器股份有限公司 | Door body assembly and washing machine |
EP4092178B1 (en) * | 2021-05-18 | 2024-10-16 | The Procter & Gamble Company | A device for dosing a detergent ingredient into the drum of an automatic washing machine and method of laundering using said device |
JP2023034104A (en) * | 2021-08-30 | 2023-03-13 | パナソニックIpマネジメント株式会社 | washing machine |
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ITTO20121072A1 (en) * | 2012-12-13 | 2014-06-14 | Indesit Co Spa | WASHING MACHINE WITH FRONTAL HOUSEHOLD USE, IN PARTICULAR WASHING MACHINE OR WASHING MACHINE |
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- 2018-12-18 ES ES18213609T patent/ES2913074T3/en active Active
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EP3502335A1 (en) | 2019-06-26 |
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CN109957906A (en) | 2019-07-02 |
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