EP2072662B1 - Ironing system - Google Patents
Ironing system Download PDFInfo
- Publication number
- EP2072662B1 EP2072662B1 EP20080171843 EP08171843A EP2072662B1 EP 2072662 B1 EP2072662 B1 EP 2072662B1 EP 20080171843 EP20080171843 EP 20080171843 EP 08171843 A EP08171843 A EP 08171843A EP 2072662 B1 EP2072662 B1 EP 2072662B1
- Authority
- EP
- European Patent Office
- Prior art keywords
- vapour
- dispensing
- plate
- chamber
- ironing
- 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.)
- Not-in-force
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Classifications
-
- 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
- D06F75/00—Hand irons
- D06F75/08—Hand irons internally heated by electricity
- D06F75/10—Hand irons internally heated by electricity with means for supplying steam to the article being ironed
- D06F75/20—Arrangements for discharging the steam to the article being ironed
-
- 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
- D06F75/00—Hand irons
- D06F75/08—Hand irons internally heated by electricity
- D06F75/10—Hand irons internally heated by electricity with means for supplying steam to the article being ironed
Definitions
- the present invention has as its object an ironing system. Particularly, the present invention has as its object an ironing system intended for a household application.
- Ironing systems comprising a boiler necessary for the production of water vapour and, in some cases, a tank for water containment.
- the vapour produced by the boiler is conveyed to a dispensing plate which comprises a special chamber to collect and dispense the same vapour.
- the known ironing systems further comprise a resistor associated to the plate in order to heat it according to a predetermined temperature.
- the dispensing of vapour occurs through a plurality of through-holes obtained through a bottom wall of the plate.
- the holes have a vapour inlet section facing said chamber, and an outlet section obtained on a outer surface of the bottom wall. Such outer surface defines an ironing surface.
- the thus-dispensed vapour is characterized by a high rate and a high temperature, since, before escaping, it is exposed to the high temperatures induced by the resistor.
- the plate is further provided with a thermally insulated handle to allow a user to manoeuvre the same plate during the ironing operations.
- Suitable control members are associated to the plate to allow the user to select, for example, the plate temperature and/or the dispensed amount of vapour.
- control members comprise a thermostat for the adjustment of the plate temperature, and a tap arranged upstream said chamber to adjust the vapour flow.
- boiler and tank are distinct from the plate, and are fixed.
- Systems are further known, in which tank and boiler are integrated to the plate.
- the ironing systems of the known type while they allow adjusting the plate temperature and the dispensed vapour flow, however they provide a single type of vapour, in terms of temperature, rate and humidity of the latter, as well as relative to the position and direction of vapour delivery.
- the known ironing systems ensure an extremely limited flexibility relative to the characteristics of the different fabrics to be ironed.
- the vapour dispensed by the known systems is directly determined by the temperature that is set on the thermostat of the ironing system, and therefore it is generally overheated vapour at high pressure, temperature and rate, and low humidity when the thermostat is set on the maximum temperature (about 210°C), whereas it is generally a very humid vapour (proximate to saturation) at a relatively low temperature and low pressure and rate when the thermostat is set on the minimum temperature (about 120°C).
- the known heating systems do not allow obtaining a type of vapour that is independent from the plate temperature as set on the ironing system thermostat.
- vapour which is dependent on the plate temperature, while being adapted for ironing many kinds of fabric, is however unsuitable to iron particularly delicate fabrics, such as synthetic or silk fabrics, or particularly resistant, such as cotton or linen.
- the technical task of the present invention is to propose an ironing system which is free from the cited drawback.
- WO 2004/085732 A discloses an ironing system having features of the preamble of claim 1.
- an ironing system according to the present invention has been generally indicated with 1.
- the ironing system 1 comprises a boiler 2, necessary to produce water vapour, which withdraws the necessary water from a tank (not shown) integrated in the boiler 2 and accessible through a plug 3.
- the ironing system 1 further comprises an ironing plate 4 connected to the boiler 2 to dispense the produced vapour.
- the boiler 2 and the plate 4 are detached and distinct.
- a special hose 5 connects the boiler 2 to the plate 4 to bring the produced vapour to the latter.
- the plate 4 comprises a main body 6 which is manufactured, by way of example, by melting, and a lid 7 ovelappable to the main body 6.
- the plate 4 further comprises a bottom wall 8 having an outer surface 8a which defines an ironing surface 9 of the plate 4.
- the plate 4 bottom wall 8 has a plan essentially isoscele triangular shape with major sides which are rounded and confluent in a vertex 10 arranged at a front portion 4a of the plate 4.
- a minor side is opposed relative to the cited vertex 10 and is arranged at a rear portion 4b of the plate 4.
- the plate 4 comprises two side walls 11 connected to the bottom wall 8 and further convergent at the vertex 10 of the bottom wall 8.
- a rear wall 12 is connected to the side walls 11 and to the bottom wall 8 at the plate 4 rear portion 4b.
- the bottom wall 8, the side walls 11, and the rear wall 12 are formed in the plate 4 main body 6.
- the plate 4 further comprises a resistor 13 arranged inside the plate 4.
- the resistor 13 is symmetrically arranged on the bottom wall 8 relative to a middle plane "P" of the plate 4.
- the resistor 13 extends on the plate 4 bottom wall 8 along an essentially "U"-shaped path.
- Suitable electrical connectors 14 allow the electrical supply of the resistor 13.
- the cited electrical connectors 14 are arranged at the resistor 13 free ends in the rear plate 4 portion 4b.
- the supply is brought to the plate 4 thanks to an electric cable 15 associated to the hose 5.
- the resistor 13 heats the plate 4 in accordance with a predetermined temperature as selected from the user.
- Suitable control means allow selecting and keeping said predetermined temperature.
- the control means comprise a thermostat (not shown).
- the plate 4 is provided with a handle 16 to allow a user to manoeuvre the plate 4, thus allowing the ironing operation.
- the handle 16 is supported to the plate 4 by a bracket 17 rigidly connected to the same plate 4.
- a cover 18 made in thermo-insulating material wraps the handle 16 so as to avoid bums to the user and to increment the safety conditions of the ironing system 1.
- the plate 4 comprises a covering guard which is not illustrated in the annexed Figures.
- the ironing system 1 further comprises first vapour dispensing means "M1", which are associated with the plate 4 and connected to the boiler 2 to dispense a first vapour through the ironing surface 9. More precisely, by “first vapour” is means water vapour having predetermined characteristics relative to, for example, the temperature, pressure, and/or rate, and/or the dispensing position thereof, or the like.
- the first vapour dispensing means "M1" comprise an overheating chamber 19 which is connected to the boiler 2 to increase the temperature of the vapour to be dispensed.
- the overheating chamber 19 is obtained in the plate 4.
- the overheating chamber 19 is obtained in the plate 4 main body 6 and is defined in cooperation with the lid 7.
- the overheating chamber 19 comprises an inlet connector 20 which allows the connection to a supply duct 21 which introduces the vapour coming from the boiler 2 in the same overheating chamber 19.
- the inlet connector 20 is obtained on the plate 4 lid 7.
- the overheating chamber 19 comprises a plurality of partition walls 22 which define a labyrinth-shaped path inside the same overheating chamber 19. In this manner, the vapour introduced in the overheating chamber 19 travels a long path 25 before being dispensed.
- the overheating chamber 19 is obtained in the proximity of the resistor 13.
- the plate 4 bottom wall 8 and the overheating chamber 19 partition walls 22 are heated, and the vapour, by licking very hot surfaces, increases its own temperature, as well as its own pressure and rate, getting overheated.
- the vapour is at a temperature ranging between 200 °C and 220 °C.
- the first vapour is overheated and is characterized by high temperature, pressure and rate and low humidity.
- the labyrinth path imposed to the vapour by the overheating chamber 19 makes such overheating process quick and efficient.
- the overheating chamber 19 comprises a dispensing end portion 19a. Such end portion 19a is arranged in the proximity of the plate 4 front portion 4a.
- the first dispensing means "M1" further comprise a plurality of dispensing nozzles 23 which obtained through the plate 4 bottom wall 8 to allow the ejection of the first vapour.
- the dispensing nozzles 23 are in fluidic communication with the overheating chamber 19.
- the nozzles 23 are in fluidic communication with the overheating chamber 19 end portion 19a.
- the cited dispensing nozzles 23 have a diameter which is constant and ranging between 1,5 and 3 mm. Preferably, the nozzles 23 diameter ranges between 2 and 2,5 mm.
- the dispensing nozzles 23 are arranged on the plate 4 in a "V"-configuration with the vertex facing the plate 4 front portion 4.
- the overheating chamber 19 end portion 19a is as well essentially "V"-shaped.
- the dispensing nozzles 23 are arranged according to different configurations, such as, for example, arched configurations.
- the nozzles 23 have respective development axes which are mutually parallel and orthogonal to the ironing surface 9.
- the dispensing nozzles 23 development axes have such a slope as to define an acute angle with the ironing surface 9.
- the nozzles 23 development axis is oriented so that the overheated vapour escapes being directed towards the plate 4 vertex 10.
- the escaped vapour interacts with a major surface of the fabric to be ironed, making the ironing operation more efficient.
- the ironing system 1 further comprises second vapour dispensing means "M2" which are associated with the plate 4 and connected to the boiler 2 to dispense a second vapour through the ironing surface 9.
- M2 second vapour dispensing means
- the second vapour dispensing means "M2" comprise an expansion chamber connected to the boiler 2, which is adapted to reduce at least the vapour temperature and pressure before it is dispensed.
- the expansion chamber 24 is arranged in fluidic communication with a dispensing chamber 25 to allow the passage and the dispensing of the cooled vapour in the expansion chamber 24.
- a plurality of through-holes 26 are obtained in the plate 4 and arranged in direct fluidic communication with the dispensing chamber 25 to allow the escape of the cooled vapour.
- the holes 26 are obtained in the plate 4 bottom wall 8.
- the holes 26 have an increasing section from the dispensing chamber 25 towards the ironing surface 9. Such holes 26 have an average diameter ranging between 2 and 3,5 mm, preferably between 2,5 and 3 mm.
- expansion chamber 24 and the dispensing chamber 25 are distinct from the described overheating chamber 19. Similarly, the holes 26 are distinct from the dispensing nozzles 23.
- the dispensing chamber 25 is integrally obtained in the plate 4. More precisely, the dispensing chamber 25 is defined by its own defining walls 27 obtained in the plate 4 main body 6 and by the cited lid 7.
- the expansion chamber 24 is arranged outside the plate 4.
- the expansion chamber 24 is arranged above the plate 4.
- the expansion chamber 24 is rested to the plate 4 lid 7 by a plurality of feet 28 adapted to keep the expansion chamber 24 lifted from the lid 7.
- the expansion chamber 24 being arranged outside the plate 4, the temperature thereof is below that of the rest of the plate 4.
- the feet 28 keep the expansion chamber 24 divided from the plate 4 lid 7, concurring to limit the expansion chamber 24 heating.
- the expansion chamber 24 is overlaid to the dispensing chamber 25 so as to allow a quick transfer from the expansion chamber 24 to the dispensing chamber 25 without the occurrence of significant changes in the characteristics of the cooled vapour.
- the expansion chamber 24 is directly connected to the dispensing chamber 25 by a passage port 29.
- the expansion chamber 24 comprises two mutually coupled shells 30.
- the second dispensing means "M2" further comprise a pre-chamber 31 obtained inside the plate 4.
- Such pre-chamber 31 is connected to the boiler 2 to receive the vapour from the latter, and is in fluidic communication with the expansion chamber 24 in order to introduce the vapour in the latter.
- the cited pre-chamber 31 advantageously prevents that water in liquid state is introduced into the expansion chamber 24.
- the pre-chamber 31 is obtained at the plate 4 rear portion 4b.
- the pre-chamber 31 is defined by the side walls 11 and the rear wall 12 of the plate 4, as well as by a dividing diaphragm 32 developing essentially parallel to the plate 4 rear wall 12.
- the pre-chamber 31 is arranged in the vicinity of the resistor 13, but is not arranged in direct contact with the latter. In other words, the pre-chamber 31 temperature is lower, relative to that of the zone which directly contacts the resistor 13.
- the pre-chamber 31 comprises an inlet coupling 33 to connect a supply tube 34 of the vapour coming from the boiler 2 and an outlet coupling 35 to connect the same pre-chamber 31 to the expansion chamber 24 via a suitable connection tube 36
- first "M1" and second “M2" vapour dispensing means are selectively operable to obtain the dispensing of the first and/or second vapour.
- the vapour coming from the boiler 2 is introduced in the pre-chamber 31.
- the latter being heated at least in part by the resistor 13, allows the vapour to keep a minimum temperature in order to avoid undesired condensations during the transfer of the same vapour from the pre-chamber 31 to the expansion chamber 24.
- the pre-chamber 31 allows intercepting optional water fractions in liquid state coming from the boiler 2 Such water fractions, remaining inside the pre-chamber 31, can evaporate before being brought into the expansion chamber 24.
- the vapour When the vapour enters the expansion chamber 24, the volume which can be taken up by the same increases, consequently the vapour undergoes an expansion. Furthermore, the expansion chamber 24 being at a relatively low temperature, the vapour is also cooled. This lowers the vapour temperature and pressure.
- the second vapour is characterized by low dispensing temperature and rate and high humidity.
- the second vapour is thus proximate to the condensation condition, due to the high humidity thereof.
- the second vapour is at a temperature ranging between 100 °C and 110 °C.
- the second vapour is then transferred to the dispensing chamber 25 through the passage port 29.
- a filter 37 occludes the passage port 29 so as to induce a further diffusion of the vapour.
- a gasket 38 is arranged at the filter 37 between the expansion chamber 24 and the dispensing chamber 25.
- the vapour expanded and cooled is ejected from the dispensing chamber 25 through the holes 26.
- the vapour is further expanded during the dispensing thereof.
- the ironing system 1 further comprises third vapour dispensing means "M3" which are associated with the plate 4 and connected to the boiler 2 to dispense a third vapour through the ironing surface 9.
- M3 third vapour dispensing means
- the third dispensing means "M3" comprise first and second pluralities of dispensing ducts 39 arranged along two distinct rows on each side wall 11 of the plate 4
- the dispensing ducts 39 are arranged in the proximity of the plate 4 front portion 4a.
- the dispensing ducts 39 have an outlet section 39a arranged at a higher height than the ironing surface 9.
- the dispensing ducts 39 have respective development axes "A" which are inclined towards the ironing surface 9, so as to dispense the vapour towards the latter ( Fig. 8 ).
- the third vapour dispensed by the dispensing ducts 39 licks the surface of a fabric to be ironed without passing through it.
- Each development axis "A” results to be inclined relative to the ironing surface 9. Such slope can advantageously be of an angle ranging between 25° and 55°, preferably between 35° and 45°.
- the dispensing ducts 39 development axes "A” are arranged preferably mutually parallel. Particularly, the development axes "A” are parallel to a middle plane “P" of the plate 4.
- the vapour flow dispensed by the dispensing ducts 39 is always directed to the direction of the plate 4 vertex 10, avoiding that the vapour flow may hit the user during the ironing operation.
- the plate 4 has recesses 40 respectively obtained on the side walls 11 of the same plate 4.
- the dispensing ducts 39 are obtained at said recesses 40.
- the dispensing ducts 39 outlet sections 39a are arranged at the recesses 40.
- each recess 40 has a surface portion 40a, for example, planar or suitably shaped, which the dispensing ducts 39 are facing.
- each recess 40 are arranged essentially parallel to the ironing surface 9, but they could also be arranged inclined.
- the third vapour dispensing means "M3" further comprise a pair of side vapour chambers 41 to collect the vapour produced by the boiler 2 and to dispense it through the described dispensing ducts 39.
- the side vapour chambers 41 are preferably obtained in the plate 4 in the proximity of the side walls 11.
- the side vapour chambers 41 are defined by a respective parting sheet 42 obtained in the plate 4 main body 6.
- Each side vapour chamber 41 comprises a collection portion 41a in which the vapour coming from the boiler 2 enters, and a dispensing portion 41 b connected to the collection portion 41 a and directly in fluidic communication with the dispensing ducts 39.
- the collection portion 41a can be, for example, an individual one for the two side vapour chambers 41 and arranged at the tip plate, or can be double, and arranged on the plate sides, as in the illustrated example.
- a septum 43 is arranged between each collection portion 41 a and the respective dispensing portion 41 b to partially divide the said portions.
- the septum 43 is obtained in the plate 4 main body 6 starting from the bottom wall 8. However, the septum 43 does not reach the plate 4 lid 7, in this manner leaving a passage port that allows the vapour passage from the collection portion 41 a to the dispensing portion 41 b, while preventing the passage of an optional fraction of liquid water. In fact, it remains entrapped by gravity in the collection portion 41 a, until evaporation.
- each side vapour chamber 41 has an essentially linear inner shaping.
- the side vapour chambers 41 are so shaped as to define therein a labyrinth-shaped path to exert a overheating process on the vapour contained therein which is similar to that described in relation to the overheating chamber 19.
- Each side vapour chamber 41 is connected to the boiler through a connection duct 44 connected to respective connectors 45 of the same side vapour chambers 41.
- the ironing system 1 further comprises a deflector 46 adapted to selectively direct at least the first "M1" and the second "M2" vapour dispensing means.
- the deflector 46 is adapted to selectively operate also the third "M3" vapour dispensing means.
- the deflector 46 is associated to the plate 4 at the above-described bracket 17.
- the deflector 46 comprises an inlet duct 47 to which the cited hose 5, coming from the boiler 2 and carrying therewith the vapour produced, is connected.
- the deflector 46 further comprises a first outlet duct 48 to which the supply duct 21 is connected in order to bring vapour to the overheating chamber 19, thereby operating the first "M1" vapour dispensing means.
- the deflector 46 further comprises a second outlet duct 49 to which the supply tube 34 is connected in order to bring the vapour to the pre-chamber 31 and, successively, to the expansion chamber 24, to operate the second dispensing means "M2".
- the deflector 46 also comprises a third outlet duct 50 to which the connection duct 44 is connected to bring vapour to the side vapour chambers 41, thereby operating the third dispensing means "M3". In other words, the operation of one of said dispensing means causes the complete deactivation of the other means.
- the deflector 46 allows partially and simultaneously operating at least two of said dispensing means. Thereby, one can obtain the combined dispensing of the first and/or second and/or third vapour.
- the deflector 46 also comprises a control handle 51 to select the vapour dispensing mode.
- the invention achieves the intended object and accomplishes important advantages.
- the ironing system 1 allows a user not only to select the amount of vapour to be dispensed, but also the type thereof.
- the ironing system 1 provides to dispense the first vapour which is suitable for normal fabrics that do not require particular operating conditions or measures.
- the second dispensing means "M2" When the user has to iron particularly resistant fabrics, he/she can operate the second dispensing means "M2" to obtain the second vapour to be dispensed in an extremely easy manner.
- the latter being particularly humid, allows for an easier stretching of the resistant fabric fibers.
- the ironing system 1 according to the present invention is generally capable of adapting the operating conditions thereof according to the type of fabric in an extremely easy manner.
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- Engineering & Computer Science (AREA)
- Textile Engineering (AREA)
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Description
- The present invention has as its object an ironing system. Particularly, the present invention has as its object an ironing system intended for a household application.
- Ironing systems are known, comprising a boiler necessary for the production of water vapour and, in some cases, a tank for water containment.
- The vapour produced by the boiler is conveyed to a dispensing plate which comprises a special chamber to collect and dispense the same vapour. The known ironing systems further comprise a resistor associated to the plate in order to heat it according to a predetermined temperature.
- The dispensing of vapour occurs through a plurality of through-holes obtained through a bottom wall of the plate. In detail, the holes have a vapour inlet section facing said chamber, and an outlet section obtained on a outer surface of the bottom wall. Such outer surface defines an ironing surface.
- The thus-dispensed vapour is characterized by a high rate and a high temperature, since, before escaping, it is exposed to the high temperatures induced by the resistor.
- The plate is further provided with a thermally insulated handle to allow a user to manoeuvre the same plate during the ironing operations. Suitable control members are associated to the plate to allow the user to select, for example, the plate temperature and/or the dispensed amount of vapour.
- By way of example, the control members comprise a thermostat for the adjustment of the plate temperature, and a tap arranged upstream said chamber to adjust the vapour flow.
- In the known systems, boiler and tank are distinct from the plate, and are fixed. Systems are further known, in which tank and boiler are integrated to the plate.
- Disadvantageously, the ironing systems of the known type, while they allow adjusting the plate temperature and the dispensed vapour flow, however they provide a single type of vapour, in terms of temperature, rate and humidity of the latter, as well as relative to the position and direction of vapour delivery.
- In other words, the known ironing systems ensure an extremely limited flexibility relative to the characteristics of the different fabrics to be ironed.
- In fact, the vapour dispensed by the known systems is directly determined by the temperature that is set on the thermostat of the ironing system, and therefore it is generally overheated vapour at high pressure, temperature and rate, and low humidity when the thermostat is set on the maximum temperature (about 210°C), whereas it is generally a very humid vapour (proximate to saturation) at a relatively low temperature and low pressure and rate when the thermostat is set on the minimum temperature (about 120°C).
- Accordingly, the known heating systems do not allow obtaining a type of vapour that is independent from the plate temperature as set on the ironing system thermostat.
- This type of vapour which is dependent on the plate temperature, while being adapted for ironing many kinds of fabric, is however unsuitable to iron particularly delicate fabrics, such as synthetic or silk fabrics, or particularly resistant, such as cotton or linen.
- In this context, the technical task of the present invention is to propose an ironing system which is free from the cited drawback.
- Particularly, it is the object of the present invention to propose an ironing system which is characterized by a greater flexibility relative to the type of fabric to be ironed.
-
WO 2004/085732 A discloses an ironing system having features of the preamble of claim 1. - In accordance with the present invention, the technical task and the object described are achieved by an ironing system comprising the technical characteristics set forth in one or more of the annexed claims.
- Further characteristics and the advantages of the present invention will be more clearly understood from the indicative, and therefore non-limitative, description of a preferred but not exclusive embodiment of an ironing system, as illustrated in the annexed drawings, in which:
-
Fig. 1 illustrates a perspective view of an ironing system in accordance with the present invention with some details removed in order to better highlight other ones; -
Fig. 2 illustrates an exploded view of the ironing system ofFig. 1 , -
Fig. 3 illustrates a first component of the ironing system ofFig. 1 in a first plan view; -
Fig. 4 illustrates the first component ofFig. 3 in a second plan view; -
Fig. 5 illustrates a sectional side view of a second component of the ironing system inFig. 1 ; -
Fig. 6 illustrates a perspective view of a third component of the ironing system inFig. 1 ; -
Fig. 7 illustrates a perspective view of a detail of the first component ofFigs. 3 and4 ; and -
Fig. 8 illustrates a sectional view of a detail inFig. 7 . - With reference to the annexed Figures, an ironing system according to the present invention has been generally indicated with 1.
- The ironing system 1 comprises a boiler 2, necessary to produce water vapour, which withdraws the necessary water from a tank (not shown) integrated in the boiler 2 and accessible through a
plug 3. - The ironing system 1 further comprises an
ironing plate 4 connected to the boiler 2 to dispense the produced vapour. - In the described embodiment, the boiler 2 and the
plate 4 are detached and distinct. Aspecial hose 5 connects the boiler 2 to theplate 4 to bring the produced vapour to the latter. - However, it shall be noted that the present invention finds advantageous application also in relation to those ironing systems in which the boiler 2 is integrated to the
plate 4 - The
plate 4 comprises amain body 6 which is manufactured, by way of example, by melting, and a lid 7 ovelappable to themain body 6. - The
plate 4 further comprises abottom wall 8 having anouter surface 8a which defines an ironing surface 9 of theplate 4. - The
plate 4bottom wall 8 has a plan essentially isoscele triangular shape with major sides which are rounded and confluent in avertex 10 arranged at afront portion 4a of theplate 4. - A minor side is opposed relative to the cited
vertex 10 and is arranged at arear portion 4b of theplate 4. - Furthermore, the
plate 4 comprises twoside walls 11 connected to thebottom wall 8 and further convergent at thevertex 10 of thebottom wall 8. Arear wall 12 is connected to theside walls 11 and to thebottom wall 8 at theplate 4rear portion 4b. - The
bottom wall 8, theside walls 11, and therear wall 12 are formed in theplate 4main body 6. - The
plate 4 further comprises aresistor 13 arranged inside theplate 4. Particularly, theresistor 13 is symmetrically arranged on thebottom wall 8 relative to a middle plane "P" of theplate 4. Still more precisely, in the described embodiment, theresistor 13 extends on theplate 4bottom wall 8 along an essentially "U"-shaped path. - Suitable
electrical connectors 14 allow the electrical supply of theresistor 13. In greater detail, the citedelectrical connectors 14 are arranged at theresistor 13 free ends in therear plate 4portion 4b. - The supply is brought to the
plate 4 thanks to anelectric cable 15 associated to thehose 5. - The
resistor 13 heats theplate 4 in accordance with a predetermined temperature as selected from the user. - Suitable control means allow selecting and keeping said predetermined temperature. By way of example, the control means comprise a thermostat (not shown).
- In the described embodiment, the
plate 4 is provided with ahandle 16 to allow a user to manoeuvre theplate 4, thus allowing the ironing operation. - The
handle 16 is supported to theplate 4 by abracket 17 rigidly connected to thesame plate 4. Acover 18 made in thermo-insulating material wraps thehandle 16 so as to avoid bums to the user and to increment the safety conditions of the ironing system 1. - Furthermore, the
plate 4 comprises a covering guard which is not illustrated in the annexed Figures. - The ironing system 1 further comprises first vapour dispensing means "M1", which are associated with the
plate 4 and connected to the boiler 2 to dispense a first vapour through the ironing surface 9. More precisely, by "first vapour" is means water vapour having predetermined characteristics relative to, for example, the temperature, pressure, and/or rate, and/or the dispensing position thereof, or the like. - The first vapour dispensing means "M1" comprise an
overheating chamber 19 which is connected to the boiler 2 to increase the temperature of the vapour to be dispensed. - More precisely, the
overheating chamber 19 is obtained in theplate 4. In still greater detail, theoverheating chamber 19 is obtained in theplate 4main body 6 and is defined in cooperation with the lid 7. - The
overheating chamber 19 comprises aninlet connector 20 which allows the connection to asupply duct 21 which introduces the vapour coming from the boiler 2 in thesame overheating chamber 19. In detail, theinlet connector 20 is obtained on theplate 4 lid 7. - The overheating
chamber 19 comprises a plurality ofpartition walls 22 which define a labyrinth-shaped path inside thesame overheating chamber 19. In this manner, the vapour introduced in theoverheating chamber 19 travels along path 25 before being dispensed. - The overheating
chamber 19 is obtained in the proximity of theresistor 13. In this manner, during the functioning, theplate 4bottom wall 8 and theoverheating chamber 19partition walls 22 are heated, and the vapour, by licking very hot surfaces, increases its own temperature, as well as its own pressure and rate, getting overheated. Typically, in these conditions, the vapour is at a temperature ranging between 200 °C and 220 °C. - In this context, the first vapour is overheated and is characterized by high temperature, pressure and rate and low humidity.
- Advantageously, the labyrinth path imposed to the vapour by the overheating
chamber 19 makes such overheating process quick and efficient. - The overheating
chamber 19 comprises a dispensingend portion 19a.Such end portion 19a is arranged in the proximity of theplate 4front portion 4a. - The first dispensing means "M1" further comprise a plurality of dispensing
nozzles 23 which obtained through theplate 4bottom wall 8 to allow the ejection of the first vapour. - The dispensing
nozzles 23 are in fluidic communication with the overheatingchamber 19. In greater detail, thenozzles 23 are in fluidic communication with the overheatingchamber 19end portion 19a. - The cited
dispensing nozzles 23 have a diameter which is constant and ranging between 1,5 and 3 mm. Preferably, thenozzles 23 diameter ranges between 2 and 2,5 mm. - The dispensing
nozzles 23 are arranged on theplate 4 in a "V"-configuration with the vertex facing theplate 4front portion 4. Correspondently, the overheatingchamber 19end portion 19a is as well essentially "V"-shaped. - In alternative embodiments, the dispensing
nozzles 23 are arranged according to different configurations, such as, for example, arched configurations. - The
nozzles 23 have respective development axes which are mutually parallel and orthogonal to the ironing surface 9. - Alternatively, the dispensing
nozzles 23 development axes have such a slope as to define an acute angle with the ironing surface 9. In other words, in this embodiment, thenozzles 23 development axis is oriented so that the overheated vapour escapes being directed towards theplate 4vertex 10. Advantageously, in this configuration, the escaped vapour interacts with a major surface of the fabric to be ironed, making the ironing operation more efficient. - The ironing system 1 further comprises second vapour dispensing means "M2" which are associated with the
plate 4 and connected to the boiler 2 to dispense a second vapour through the ironing surface 9. - The second vapour dispensing means "M2" comprise an expansion chamber connected to the boiler 2, which is adapted to reduce at least the vapour temperature and pressure before it is dispensed.
- The
expansion chamber 24 is arranged in fluidic communication with a dispensingchamber 25 to allow the passage and the dispensing of the cooled vapour in theexpansion chamber 24. - To such aim, a plurality of through-
holes 26 are obtained in theplate 4 and arranged in direct fluidic communication with the dispensingchamber 25 to allow the escape of the cooled vapour. In greater detail, theholes 26 are obtained in theplate 4bottom wall 8. - The
holes 26 have an increasing section from the dispensingchamber 25 towards the ironing surface 9.Such holes 26 have an average diameter ranging between 2 and 3,5 mm, preferably between 2,5 and 3 mm. - It shall be noticed that the
expansion chamber 24 and the dispensingchamber 25 are distinct from the describedoverheating chamber 19. Similarly, theholes 26 are distinct from the dispensingnozzles 23. - The dispensing
chamber 25 is integrally obtained in theplate 4. More precisely, the dispensingchamber 25 is defined by its owndefining walls 27 obtained in theplate 4main body 6 and by the cited lid 7. - On the contrary, the
expansion chamber 24 is arranged outside theplate 4. In greater detail, theexpansion chamber 24 is arranged above theplate 4. In still greater detail, theexpansion chamber 24 is rested to theplate 4 lid 7 by a plurality offeet 28 adapted to keep theexpansion chamber 24 lifted from the lid 7. - Advantageously, the
expansion chamber 24 being arranged outside theplate 4, the temperature thereof is below that of the rest of theplate 4. On the other hand, thefeet 28 keep theexpansion chamber 24 divided from theplate 4 lid 7, concurring to limit theexpansion chamber 24 heating. - Advantageously, the
expansion chamber 24 is overlaid to the dispensingchamber 25 so as to allow a quick transfer from theexpansion chamber 24 to the dispensingchamber 25 without the occurrence of significant changes in the characteristics of the cooled vapour. To this aim, theexpansion chamber 24 is directly connected to the dispensingchamber 25 by apassage port 29. - In greater detail, the
expansion chamber 24 comprises two mutually coupledshells 30. - The second dispensing means "M2" further comprise a pre-chamber 31 obtained inside the
plate 4.Such pre-chamber 31 is connected to the boiler 2 to receive the vapour from the latter, and is in fluidic communication with theexpansion chamber 24 in order to introduce the vapour in the latter. - As it shall be more clearly understood below, the cited pre-chamber 31 advantageously prevents that water in liquid state is introduced into the
expansion chamber 24. - The pre-chamber 31 is obtained at the
plate 4rear portion 4b. Particularly, the pre-chamber 31 is defined by theside walls 11 and therear wall 12 of theplate 4, as well as by a dividingdiaphragm 32 developing essentially parallel to theplate 4rear wall 12. - Therefore, the pre-chamber 31 is arranged in the vicinity of the
resistor 13, but is not arranged in direct contact with the latter. In other words, the pre-chamber 31 temperature is lower, relative to that of the zone which directly contacts theresistor 13. - The pre-chamber 31 comprises an
inlet coupling 33 to connect asupply tube 34 of the vapour coming from the boiler 2 and anoutlet coupling 35 to connect thesame pre-chamber 31 to theexpansion chamber 24 via asuitable connection tube 36 - As will be more clearly understood herein below, the first "M1" and second "M2" vapour dispensing means are selectively operable to obtain the dispensing of the first and/or second vapour.
- In use, when the second dispensing means "M2" are activated, the vapour coming from the boiler 2 is introduced in the pre-chamber 31. The latter, being heated at least in part by the
resistor 13, allows the vapour to keep a minimum temperature in order to avoid undesired condensations during the transfer of the same vapour from the pre-chamber 31 to theexpansion chamber 24. - Furthermore, the pre-chamber 31 allows intercepting optional water fractions in liquid state coming from the boiler 2 Such water fractions, remaining inside the pre-chamber 31, can evaporate before being brought into the
expansion chamber 24. - When the vapour enters the
expansion chamber 24, the volume which can be taken up by the same increases, consequently the vapour undergoes an expansion. Furthermore, theexpansion chamber 24 being at a relatively low temperature, the vapour is also cooled. This lowers the vapour temperature and pressure. - In this context, therefore, the second vapour is characterized by low dispensing temperature and rate and high humidity. The second vapour is thus proximate to the condensation condition, due to the high humidity thereof. Tipically, the second vapour is at a temperature ranging between 100 °C and 110 °C.
- The second vapour is then transferred to the dispensing
chamber 25 through thepassage port 29. In order to improve the expansion, in the described embodiment, afilter 37 occludes thepassage port 29 so as to induce a further diffusion of the vapour. Agasket 38 is arranged at thefilter 37 between theexpansion chamber 24 and the dispensingchamber 25. - Therefore, the vapour expanded and cooled is ejected from the dispensing
chamber 25 through theholes 26. - Advantageously, since the
holes 26 have an increasing section, the vapour is further expanded during the dispensing thereof. - The ironing system 1 further comprises third vapour dispensing means "M3" which are associated with the
plate 4 and connected to the boiler 2 to dispense a third vapour through the ironing surface 9. - The third dispensing means "M3" comprise first and second pluralities of dispensing
ducts 39 arranged along two distinct rows on eachside wall 11 of theplate 4 - In greater detail, the dispensing
ducts 39 are arranged in the proximity of theplate 4front portion 4a. - The dispensing
ducts 39 have anoutlet section 39a arranged at a higher height than the ironing surface 9. - Furthermore, in the described embodiment, the dispensing
ducts 39 have respective development axes "A" which are inclined towards the ironing surface 9, so as to dispense the vapour towards the latter (Fig. 8 ). In such a manner, the third vapour dispensed by the dispensingducts 39 licks the surface of a fabric to be ironed without passing through it. - Each development axis "A" results to be inclined relative to the ironing surface 9. Such slope can advantageously be of an angle ranging between 25° and 55°, preferably between 35° and 45°. Furthermore, the dispensing
ducts 39 development axes "A" are arranged preferably mutually parallel. Particularly, the development axes "A" are parallel to a middle plane "P" of theplate 4. - In this manner, the vapour flow dispensed by the dispensing
ducts 39 is always directed to the direction of theplate 4vertex 10, avoiding that the vapour flow may hit the user during the ironing operation. - In the described embodiment, the
plate 4 hasrecesses 40 respectively obtained on theside walls 11 of thesame plate 4. The dispensingducts 39 are obtained at said recesses 40. In greater detail, the dispensingducts 39outlet sections 39a are arranged at therecesses 40. - In still greater detail, each
recess 40 has asurface portion 40a, for example, planar or suitably shaped, which the dispensingducts 39 are facing. - With particular reference to the described embodiment, the
surface portions 40a of eachrecess 40 are arranged essentially parallel to the ironing surface 9, but they could also be arranged inclined. - The third vapour dispensing means "M3" further comprise a pair of
side vapour chambers 41 to collect the vapour produced by the boiler 2 and to dispense it through the described dispensingducts 39. - The
side vapour chambers 41 are preferably obtained in theplate 4 in the proximity of theside walls 11. Theside vapour chambers 41 are defined by arespective parting sheet 42 obtained in theplate 4main body 6. - Each
side vapour chamber 41 comprises acollection portion 41a in which the vapour coming from the boiler 2 enters, and a dispensingportion 41 b connected to thecollection portion 41 a and directly in fluidic communication with the dispensingducts 39. - Particularly, the
collection portion 41a can be, for example, an individual one for the twoside vapour chambers 41 and arranged at the tip plate, or can be double, and arranged on the plate sides, as in the illustrated example. - A
septum 43 is arranged between eachcollection portion 41 a and therespective dispensing portion 41 b to partially divide the said portions. - In greater detail, the
septum 43 is obtained in theplate 4main body 6 starting from thebottom wall 8. However, theseptum 43 does not reach theplate 4 lid 7, in this manner leaving a passage port that allows the vapour passage from thecollection portion 41 a to the dispensingportion 41 b, while preventing the passage of an optional fraction of liquid water. In fact, it remains entrapped by gravity in thecollection portion 41 a, until evaporation. - It shall be noticed that in the described embodiment, each
side vapour chamber 41 has an essentially linear inner shaping. However, in an alternative (and not shown) embodiment, theside vapour chambers 41 are so shaped as to define therein a labyrinth-shaped path to exert a overheating process on the vapour contained therein which is similar to that described in relation to theoverheating chamber 19. - Each
side vapour chamber 41 is connected to the boiler through aconnection duct 44 connected torespective connectors 45 of the sameside vapour chambers 41. - The ironing system 1 further comprises a
deflector 46 adapted to selectively direct at least the first "M1" and the second "M2" vapour dispensing means. - In the embodiment described herein, the
deflector 46 is adapted to selectively operate also the third "M3" vapour dispensing means. - In detail, the
deflector 46 is associated to theplate 4 at the above-describedbracket 17. - The
deflector 46 comprises aninlet duct 47 to which the citedhose 5, coming from the boiler 2 and carrying therewith the vapour produced, is connected. - The
deflector 46 further comprises afirst outlet duct 48 to which thesupply duct 21 is connected in order to bring vapour to theoverheating chamber 19, thereby operating the first "M1" vapour dispensing means. - The
deflector 46 further comprises asecond outlet duct 49 to which thesupply tube 34 is connected in order to bring the vapour to the pre-chamber 31 and, successively, to theexpansion chamber 24, to operate the second dispensing means "M2". - The
deflector 46 also comprises athird outlet duct 50 to which theconnection duct 44 is connected to bring vapour to theside vapour chambers 41, thereby operating the third dispensing means "M3". In other words, the operation of one of said dispensing means causes the complete deactivation of the other means. - However, in an alternative embodiment, the
deflector 46 allows partially and simultaneously operating at least two of said dispensing means. Thereby, one can obtain the combined dispensing of the first and/or second and/or third vapour. - The
deflector 46 also comprises acontrol handle 51 to select the vapour dispensing mode. - The invention achieves the intended object and accomplishes important advantages.
- In fact, the ironing system 1 according to the present invention allows a user not only to select the amount of vapour to be dispensed, but also the type thereof.
- In fact, the ironing system 1 provides to dispense the first vapour which is suitable for normal fabrics that do not require particular operating conditions or measures.
- When the user has to iron particularly resistant fabrics, he/she can operate the second dispensing means "M2" to obtain the second vapour to be dispensed in an extremely easy manner. The latter, being particularly humid, allows for an easier stretching of the resistant fabric fibers.
- On the other hand, when the user has to iron particularly delicate fabric, he/she will select the third dispensing means "M3" to obtain the third vapour which licks the fabric only at the surface thereof. Thereby, the fabric is not crossed by the vapour jet and there's no risk of damaging the latter.
- The ironing system 1 according to the present invention is generally capable of adapting the operating conditions thereof according to the type of fabric in an extremely easy manner.
Claims (27)
- An ironing system comprising a boiler (2) for the production of vapour, a plate (4) connected to said boiler (2) to dispense said vapour, a resistor (13) to heat said plate (4), said plate (4) comprising a bottom wall (8) defining an ironing surface (9); said plate (4) further comprising first dispensing means (M1) which are connected to said boiler (2) to dispense a first vapour through said ironing surface (9);
wherein said plate (4) further comprises second vapour dispensing means (M2), which are different from said first dispensing means (M1), connected to said boiler (2) to dispense a second vapour having physical predetermined characteristics different from said first vapour, said first (M1) and second dispensing means (M2) being selectively operable, and
said first vapour dispensing means (M1) comprise a overheating chamber (19) being connected to said boiler (2) _to increase the temperature of the vapour produced and dispense said first vapour, and
said overheating chamber (19) is obtained at said resistor and in said plate (4), said overheating chamber (19) comprising a plurality of partition walls (22) to define a labyrinth-shaped path to said vapour,
characterized in that said second dispensing means (M2) comprise a dispensing chamber (25) of said second vapour and an expansion chamber (24) connected to said boiler (2) and in fluidic communication with said dispensing chamber (25) to reduce the temperature and pressure of the dispensed vapour. - The ironing system according to claim 1, characterized in that it further comprises third vapour dispensing means (M3) to dispense a third vapour through said plate (4).
- The ironing system according to claim 1, characterized in that said first dispensing means (M1) comprise a plurality of dispensing nozzles (23) obtained through said bottom wall (8); said nozzles (23) being in fluidic communication with said overheating chamber (19).
- The ironing system according to claim 3, characterized in that said overheating chamber (19) comprises a dispensing end portion (19a) directly connected to said nozzles (23).
- The ironing system according to claim 3 or 4, characterized in that said nozzles (23) have a diameter ranging between 1,5 and 3 mm, preferably between 2 and 2,5 mm.
- The ironing system according to claim 1, characterized in that said expansion chamber (24) is located outside said plate (4).
- The ironing system according to claim 6, characterized in that said expansion chamber (24) is placed above said plate (4).
- The ironing system according to any of claims 1 to 7, characterized in that said expansion chamber (24) is directly connected to said dispensing chamber (25) through a passage port (29).
- The ironing system according to any of claims 1 to 8, characterized in that said second dispensing means (M2) further comprise a pre-chamber (31) arranged inside said plate (4), said pre-chamber (31) being connected to said boiler (2) and being in fluidic communication with said expansion chamber (24) to prevent the inlet of a water portion in said expansion chamber (24).
- The ironing system according to claim 9, characterized in that said said pre-chamber (31) is obtained at a rear portion (4b) of said plate (4).
- The ironing system according to claim 9 or 10, characterized in that said pre-chamber (31) is directly connected to said expansion chamber (24) through a connection tube (36).
- The ironing system according to any one of the preceding claims, characterized in that said holes (26) have a diameter ranging between 2 and 3,5 mm, preferably between 2,5 and 3 mm.
- The ironing system according to any of claims 2 to 12, characterized in that said third vapour dispensing means (M3) comprise at least one first plurality of vapour dispensing ducts (39) said ironing system being characterized in that it further comprises at least one first plurality of vapour dispensing ducts (39) arranged at at least one side wall (11) of said plate (4).
- The ironing system according to the preceding claim, characterized in that it further comprises at least one second plurality of vapour dispensing ducts (39), said first and said second pluralities of dispensing ducts being arranged along two distinct rows obtained at each side wall (11) of said plate (4).
- The ironing system according to claim 13 or 14, characterized in that said dispensing ducts (39) have respective development axes (A) inclined relative to said ironing surface (9); said development axes (A) being inclined relative to said ironing surface (9) of an angle ranging between 25° and 55°, preferably between 35° and 45°.
- The ironing system according to claim 13, 14 or 15, characterized in that said dispensing ducts (39) have respective development axes (A) arranged parallel to each other; said development axes (A) being parallel to a middle plane (P) which is orthogonal to said plate (4).
- The ironing system according to any of claims 13 to 16, characterized in that said dispensing ducts (39) have respective development axes (A) so inclined as to dispense the vapour towards the plate front part.
- The ironing system according to any of claims 13 to 17, characterized in that said dispensing ducts (39) have respective outlet sections (39a) arranged at a lifted level relative to said ironing surface (9).
- The ironing system according to any of claims 13 to 18, characterized in that said plate (4) has recesses (40) obtained at said respective side walls (11); said dispensing ducts (39) being obtained at said recesses (40).
- The ironing system according to the preceding claim, characterized in that each recess (40) has a surface portion (40a); said dispensing ducts (39) having respective outlet sections (39a) laying on said surface portion (40a)
- The ironing system according to the preceding claim, characterized in that each surface portion (40a) is essentially parallel to said ironing surface (9).
- The ironing system according to any of claims 13 to 21, characterized in that it comprises at least one side vapour chamber (41) for the collection and dispensing of said vapour, obtained in said plate (4); said side vapour chamber (41) comprising a collection portion (41a), and a dispensing portion (41b) connected to said collection portion (41 a) and directly in fluidic communication with said dispensing ducts (39).
- The system according to the preceding claim, characterized in that it comprises a pair of said side vapour chambers (41), each arranged in the proximity of said side walls (11).
- The system according to claim 22 or 23, characterized in that each side vapour chamber (41) comprises a septum (43) to partially divide said collection portion (41 a) from said dispensing portion (41 b); said septum (43) developing from said bottom wall (8) to reduce the passage of liquid water from said collection portion (41 a) to said dispensing portion (41 b).
- The ironing system according to any claim 22 to 24, characterized in that said side vapour chambers (41) are in fluidic communication with said boiler (2) through a connection duct (44).
- The ironing system according to any preceding claim, characterized in that it further comprises a deflector (46) to operate at least said first (M1) and second (M2) vapour dispensing means; said deflector (46) comprising an inlet duct (47) being connected to said boiler (2) and at least one first (48) and one second outlet duct (49) which are respectively connected to said first (M1) and second (M2) vapour dispensing means.
- The ironing system according to claims 2 and 26, characterized in that said deflector (46) further comprises a third outlet duct (50) connected to said third vapour dispensing means (M3).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
SI200831215T SI2072662T1 (en) | 2007-12-19 | 2008-12-16 | Ironing system |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
ITBS20070202 ITBS20070202A1 (en) | 2007-12-19 | 2007-12-19 | STRETCHING SYSTEM |
Publications (2)
Publication Number | Publication Date |
---|---|
EP2072662A1 EP2072662A1 (en) | 2009-06-24 |
EP2072662B1 true EP2072662B1 (en) | 2014-03-05 |
Family
ID=40315420
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
EP20080171843 Not-in-force EP2072662B1 (en) | 2007-12-19 | 2008-12-16 | Ironing system |
Country Status (5)
Country | Link |
---|---|
EP (1) | EP2072662B1 (en) |
ES (1) | ES2468246T3 (en) |
IT (1) | ITBS20070202A1 (en) |
PT (1) | PT2072662E (en) |
SI (1) | SI2072662T1 (en) |
Families Citing this family (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN101736567A (en) * | 2008-11-20 | 2010-06-16 | 厦门灿坤实业股份有限公司 | Explosive type steam-spray iron device |
CN113136720A (en) * | 2020-01-19 | 2021-07-20 | 漳州灿坤实业有限公司 | Steam iron |
Family Cites Families (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
FR2740787B1 (en) * | 1995-11-03 | 1999-06-11 | Moulinex Sa | STEAM IRON |
ITMO20020149A1 (en) * | 2002-05-30 | 2003-12-01 | Massimiliano Pineschi | PROFESSIONAL AND SEMI-PROFESSIONAL STEAM IRON |
EP1613806A1 (en) * | 2003-03-25 | 2006-01-11 | Koninklijke Philips Electronics N.V. | Steam ironing device |
CN100519916C (en) * | 2003-12-16 | 2009-07-29 | 皇家飞利浦电子股份有限公司 | Steam ironing device |
DE202005007735U1 (en) * | 2005-05-18 | 2005-07-21 | Eugster/Frismag Ag | Steam iron has sole plate with steam outlets and front wet steam spray nozzle with venturi system and air inlet |
-
2007
- 2007-12-19 IT ITBS20070202 patent/ITBS20070202A1/en unknown
-
2008
- 2008-12-16 EP EP20080171843 patent/EP2072662B1/en not_active Not-in-force
- 2008-12-16 ES ES08171843.9T patent/ES2468246T3/en active Active
- 2008-12-16 PT PT08171843T patent/PT2072662E/en unknown
- 2008-12-16 SI SI200831215T patent/SI2072662T1/en unknown
Also Published As
Publication number | Publication date |
---|---|
ITBS20070202A1 (en) | 2009-06-20 |
SI2072662T1 (en) | 2014-07-31 |
ES2468246T3 (en) | 2014-06-16 |
PT2072662E (en) | 2014-06-11 |
EP2072662A1 (en) | 2009-06-24 |
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