SE537641C2 - Process of an HC dosing system and an HC dosing system - Google Patents
Process of an HC dosing system and an HC dosing system Download PDFInfo
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- SE537641C2 SE537641C2 SE1350272A SE1350272A SE537641C2 SE 537641 C2 SE537641 C2 SE 537641C2 SE 1350272 A SE1350272 A SE 1350272A SE 1350272 A SE1350272 A SE 1350272A SE 537641 C2 SE537641 C2 SE 537641C2
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N9/00—Electrical control of exhaust gas treating apparatus
- F01N9/002—Electrical control of exhaust gas treating apparatus of filter regeneration, e.g. detection of clogging
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N3/00—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust
- F01N3/02—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust
- F01N3/021—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust by means of filters
- F01N3/023—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust by means of filters using means for regenerating the filters, e.g. by burning trapped particles
- F01N3/025—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust by means of filters using means for regenerating the filters, e.g. by burning trapped particles using fuel burner or by adding fuel to exhaust
- F01N3/0253—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for cooling, or for removing solid constituents of, exhaust by means of filters using means for regenerating the filters, e.g. by burning trapped particles using fuel burner or by adding fuel to exhaust adding fuel to exhaust gases
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N3/00—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust
- F01N3/08—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for rendering innocuous
- F01N3/10—Exhaust or silencing apparatus having means for purifying, rendering innocuous, or otherwise treating exhaust for rendering innocuous by thermal or catalytic conversion of noxious components of exhaust
- F01N3/103—Oxidation catalysts for HC and CO only
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N9/00—Electrical control of exhaust gas treating apparatus
-
- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N2610/00—Adding substances to exhaust gases
- F01N2610/03—Adding substances to exhaust gases the substance being hydrocarbons, e.g. engine fuel
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N2610/00—Adding substances to exhaust gases
- F01N2610/14—Arrangements for the supply of substances, e.g. conduits
- F01N2610/1433—Pumps
- F01N2610/144—Control thereof
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F01—MACHINES OR ENGINES IN GENERAL; ENGINE PLANTS IN GENERAL; STEAM ENGINES
- F01N—GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR MACHINES OR ENGINES IN GENERAL; GAS-FLOW SILENCERS OR EXHAUST APPARATUS FOR INTERNAL COMBUSTION ENGINES
- F01N2900/00—Details of electrical control or of the monitoring of the exhaust gas treating apparatus
- F01N2900/06—Parameters used for exhaust control or diagnosing
- F01N2900/18—Parameters used for exhaust control or diagnosing said parameters being related to the system for adding a substance into the exhaust
- F01N2900/1806—Properties of reducing agent or dosing system
- F01N2900/1808—Pressure
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02A—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE
- Y02A50/00—TECHNOLOGIES FOR ADAPTATION TO CLIMATE CHANGE in human health protection, e.g. against extreme weather
- Y02A50/20—Air quality improvement or preservation, e.g. vehicle emission control or emission reduction by using catalytic converters
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02T—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO TRANSPORTATION
- Y02T10/00—Road transport of goods or passengers
- Y02T10/10—Internal combustion engine [ICE] based vehicles
- Y02T10/40—Engine management systems
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- Engineering & Computer Science (AREA)
- Chemical & Material Sciences (AREA)
- Combustion & Propulsion (AREA)
- Mechanical Engineering (AREA)
- General Engineering & Computer Science (AREA)
- Materials Engineering (AREA)
- Health & Medical Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Toxicology (AREA)
- Exhaust Gas After Treatment (AREA)
Abstract
SAM MAN DRAG Uppfinningen hanfor sig till ett forfarande vid ett HC-doseringssystem innefattande en doseringsenhet (250) for att dosera bransle in i en motors avgaskanal (290) uppstroms ett partikelfilter (270) for rening av avgaser frAn namnda motor, dar namnda HC- doseringssystem inbegriper trycksattningsorgan (230) for att mata bransle frAn en behAllare (205) till namnda doseringsenhet (250) anordnad att under tryck dosera namnda bransle till namnda avgaskanal (290). Forfarandet innefattar steget att: - under perioder av icke fortlopande dosering av bransle, under fortsatt uppratthAllen drift av namnda trycksattningsorgan (230), sanka trycket (s301; s320) hos namnda bransle vid doseringsenheten (250) jarnfort med trycket vid fortlopande dosering. Uppfinningen avser ocksA en datorprogramprodukt innefattande programkod (P) for en dator (200; 210) for att implementera ett forfarande enligt uppfinningen. Uppfinningen 1 avser ocksa ett HC-doseringssystem och ett motorfordon som är utrustat med sagda HC- doseringssystem. SUMMARY The invention relates to a method of an HC dosing system comprising a dosing unit (250) for dosing fuel into an engine exhaust duct (290) upstream of a particulate filter (270) for purifying exhaust gases from said engine, wherein said HC dosing systems include pressurizing means (230) for supplying fuel from a container (205) to said dosing unit (250) arranged to dose said fuel under pressure to said exhaust duct (290). The method comprises the step of: - during periods of non-continuous dosing of fuel, during continued maintenance operation of said pressurizing means (230), lowering the pressure (s301; s320) of said branch at said dosing unit (250) with the pressure at continuous dosing. The invention also relates to a computer program product comprising program code (P) for a computer (200; 210) for implementing a method according to the invention. The invention 1 also relates to an HC dosing system and a motor vehicle which is equipped with said HC dosing system.
Description
Forfarande vid ett HC-doseringssystem och ett HC-doseringssystem TEKN ISKT OMRADE Foreliggande uppfinning avser ett forfarande vid ett HC-doseringssystem (Hydro Carbon, kolvate) innefattande en doseringsenhet for att dosera bransle in i en motors avgaskanal. Uppfinningen avser ocksa en datorprogramprodukt innefattande programkod for en dator for att implementera ett forfarande enligt uppfinningen. Uppfinningen avser ocksa ett HC- doseringssystem samt ett motorfordon som är utrustat med HC-doseringssystemet. TECHNICAL FIELD The present invention relates to a process for an HC dosing system (Hydro Carbon, carbonate) comprising a dosing unit for dosing fuel into an engine exhaust duct. The invention also relates to a computer program product comprising program code for a computer for implementing a method according to the invention. The invention also relates to an HC dosing system and a motor vehicle equipped with the HC dosing system.
BAKGRUND I fordon av idag anvands t.ex. diesel som bransle i DPF-system (Diesel Particulate Filter) innefattande ett partikelfilter. Partikelfiltret är anordnat att fanga upp t.ex. dieselpartiklar och sot. Vid aktiv regenerering av partikelfiltret tillfors diesel ett avgasror nedstroms en motor, vilket diesel leds in i en oxidationskatalysator, aven benamnd DOC. I oxidationskatalysatorn forbranns sagda diesel och astadkommer en homing av temperaturen hos avgassystemet. P5 detta sat kan aktiv regenerering av partikelfiltret som är anordnat nedstroms oxidationskatalysatorn astadkommas. BACKGROUND In today's vehicles, e.g. diesel as a fuel in DPF (Diesel Particulate Filter) systems including a particulate filter. The particle filter is arranged to capture e.g. diesel particles and soot. During active regeneration of the particle filter, diesel is fed to an exhaust pipe downstream of an engine, which diesel is led into an oxidation catalyst, also called DOC. In the oxidation catalyst, said diesel is combusted and provides a homing of the temperature of the exhaust system. In this way, active regeneration of the particle filter arranged downstream of the oxidation catalyst can be achieved.
I en typ av DPF-system inbegrips en behallare som innehaller diesel. DPF-systemet har aven en pump som är anordnad att pumpa upp namnda diesel fran beh5llaren via en sugslang och tillfora det via en trycksatt slang till en doseringsenhet som ar anordnad vid ett avgassystem hos fordonet, sasom t.ex. vid ett avgasror hos avgassystemet. Behallaren kan vara fordonets bransletank eller en separat behallare hos DPF-systemet. Doseringsenheten är anordnad att injicera en erforderlig mangd diesel in i avgasroret uppstroms partikelfiltret enligt drivrutiner inlagrade i en styrenhet hos fordonet. For att lattare reglera trycket vid sm5 eller inga doseringsmangder best5r systemet aven av en returslang som är anordnad fran en trycksida hos systemet tillbaka till behllaren. Doseringen kan t ex ske i en forutbestamd takt, sAsom t ex mellan 1 Hz, dar doseringsenheten är Open under en viss forutbestamd period av varje takt, varvid bransle under tryck harvid kan doseras. 1 Det finns ett standigt behov att reducera mangden emissioner frAn motorer hos motorfordon. Detta galler inte minst tunga motorfordon sAsom t.ex. lastbilar och bussar eftersom lagkrav p5 alit mindre emissioner fortlopande skArps. Det är sAledes av yttersta vikt att HC-doseringssystem hos fordon uppvisar fullgod funktion for att inte prestanda harvid reduceras. One type of DPF system includes a container containing diesel. The DPF system also has a pump which is arranged to pump up said diesel from the container via a suction hose and supply it via a pressurized hose to a dosing unit which is arranged at an exhaust system of the vehicle, such as e.g. at an exhaust pipe of the exhaust system. The container can be the vehicle's fuel tank or a separate container with the DPF system. The dosing unit is arranged to inject a required amount of diesel into the exhaust pipe upstream of the particulate filter according to drivers stored in a control unit of the vehicle. In order to more easily regulate the pressure at small or no dosage amounts, the system also consists of a return hose which is arranged from a pressure side of the system back to the container. The dosing can, for example, take place at a predetermined rate, such as between 1 Hz, where the dosing unit is open for a certain predetermined period of each rate, whereby fueled industry can be dosed. 1 There is a constant need to reduce the amount of emissions from engines of motor vehicles. This applies not least to heavy motor vehicles such as e.g. trucks and buses because legal requirements p5 alit minor emissions continuously skArps. It is therefore of the utmost importance that the HC dosing system of vehicles performs a satisfactory function so that performance is not reduced.
Vid mAnga driftfall hos fordonet sker ingen dosering av brAnsle i avgassystemet, eftersom aktiv regenerering inte är erforderligt sA ofta. Ett sAdant driftfall är dA regenerering av partikelfiltret inte är erforderlig, dA partikelfiltret inte anses ha en tillrackligt hog inlagringsgrad. Ett annat sAdant driftfall kan t ex. vara dA fordonets avgastemperatur är lagre An en viss forutbestarnd temperatur. Ett annat sAdant driftfall dA det inte sker nAgon dosering kan vara dA en rAdande temperatur hos en yta hos eller komponent i hos avgaskanalen frAn fordonets motor är lagre An en viss forutbestamd temperatur. Harvid kan inte doserat bransle forangas i onskvard utstrackning. Lackage av bransle kan ha negativ pA ett efterbehandlingssystem hos ett fordon. Det bor pApekas att ett efterbehandlingssystem hos exempelvis tunga fordon av idag stAr for en betydande del av det totala vardet hos fordonet. In many operating cases of the vehicle, no fuel is metered into the exhaust system, as active regeneration is not required as often. Such an operating case is when regeneration of the particle filter is not required, since the particle filter is not considered to have a sufficiently high degree of storage. Another such operational case can e.g. be dA the vehicle's exhaust temperature is lower At a certain predetermined temperature. Another such operating case where no dosing takes place may be when a prevailing temperature of a surface of or component of the exhaust duct from the vehicle's engine is lower than a certain predetermined temperature. In this case, the dosed industry cannot be evaporated to any great extent. Leakage of fuel can have a negative effect on a finishing system of a vehicle. It should be noted that a finishing system in, for example, heavy vehicles of today accounts for a significant part of the total value of the vehicle.
Doseringsenheten hAlls sAledes vid mAnga driftfall stangd for att dosering av bransle helt enkelt är icke onskvard. The dosing unit is thus kept closed in many operating cases so that dosing of fuel is simply not undesirable.
DA branslet hos HC-doseringssystemet är trycksatt kan det av olika anledningar forekomma oifmskat lackage av bransle frAn doseringsenheten till avgaskanalen, Aven under perioder dA doseringsenheten Ar stAngd for att inte dosera bransle. Detta lackage kan vid ogynnsamma forhAllanden orsaka oonskade transienta temperaturhojningar hos avgaser frAn sagda motor vilket kan pAverka HC-doseringssystemet negativt. Detta kan Aven ha negativ inverkan pA ett SCR-system hos fordonet. As the branch of the HC dosing system is pressurized, there may for various reasons be unintentional leakage of fuel from the dosing unit to the exhaust duct, Even during periods when the dosing unit is closed for not dosing the branch. In the event of adverse conditions, this leakage can cause undesired transient temperature rises in exhaust gases from said engine, which can adversely affect the HC dosing system. This can also have a negative effect on an SCR system of the vehicle.
Ett problem forknippat med branslelackage hos doseringsenheten d dosering inte skall ske är att detta bransle ibland inte forAngas eller fOrbranns pA ett koorekt satt, varvid detta bransle kan lagras i katalysatorer anordnade nedstroms ett doseringsstalle hos en 2 avgaskanal fran en motor. Detta kan paverka sagda katalysatorer negativt eller medfora en oonskad forbranning pa fel stalle hos avgaskanalen. Oonskat lackage av bransle hos doseringsenheten kan paverka ett efterbehandlingssystem negativt, bland annat i termiskt avseende. A problem associated with industry leakage of the dosing unit when dosing should not take place is that this industry is sometimes not evaporated or burned in a correct manner, this industry can be stored in catalysts arranged downstream of a dosing stall of a 2 exhaust duct from an engine. This can adversely affect said catalysts or lead to undesired combustion at the wrong location of the exhaust duct. Unwanted leakage of fuel at the dosing unit can adversely affect a finishing system, including in thermal terms.
Det är saledes onskvart att sakerstalla att inget eller minimalt lackage av bransle forekommer da doseringsenheten är stangd. It is thus unreasonable to state that no or minimal leakage of fuel occurs when the dosing unit is closed.
SAMMANFATTNING AV UPPFINNINGEN Ett syfte med foreliggande uppfinning är att tillhandahalla ett nytt och fordelaktigt fiforfarande vid ett HC-doseringssystem far att fiforhindra lackage av bransle da en doseringsenhet hos HC-doseringssystemet är stangd. SUMMARY OF THE INVENTION An object of the present invention is to provide a new and advantageous procedure in an HC dosing system which prevents the leakage of fuel when a dosing unit of the HC dosing system is closed.
Ett annat syfte med uppfinningen är att tillhandahalla ett nytt och fordelaktigt HC- doseringssystem och ett nytt och fordelaktigt datorprogram vid ett HC-doseringssystem. Another object of the invention is to provide a new and advantageous HC dosing system and a new and advantageous computer program with an HC dosing system.
Ytterligare ett syfte med uppfinningen ar att tillhandahalla ett forfarande, ett HCdoseringssystem och ett datorprogram vid ett HC-doseringssystem for att astadkomma forbattrad prestanda hos ett motorfordon. A further object of the invention is to provide a method, an HC dosing system and a computer program in an HC dosing system for achieving improved performance of a motor vehicle.
Ytterligare ett syfte med uppfinningen är att tillhandahalla ett forfarande, ett HCdoseringssystem och ett datorprogram vid ett HC-doseringssystem for att reducera risk for oifmskade temperaturhojningar hos avgaser hos en avgaskanal fran en motor. A further object of the invention is to provide a method, an HC dosing system and a computer program in an HC dosing system for reducing the risk of undesired temperature rises of exhaust gases of an exhaust duct from an engine.
Ytterligare ett syfte med uppfinningen ar att tillhandahalla ett forfarande, ett HCdoseringssystem och ett datorprogram vid ett HC-doseringssystem for att minska risk for lackage av bransle Iran en doseringsenhet for dosering av bransle till avgaskanal for att leda avgaser fran en motor. A further object of the invention is to provide a method, an HC dosing system and a computer program in an HC dosing system for reducing the risk of fuel leakage Iran a dosing unit for dosing fuel to an exhaust duct to conduct exhaust gases from an engine.
Dessa syften uppnas med ett forfarande vid ett HC-doseringssystem enligt patentkrav 1. 3 Enligt en aspekt av foreliggande uppfinning tillhandah5lls ett forfarande vid ett HCdoseringssystem innefattande en doseringsenhet far att dosera bransle in i en motors avgaskanal uppstroms ett partikelfilter for rening av avgaser fr5n namnda motor, dar namnda HC-doseringssystem inbegriper trycksattningsorgan (230) for att mata bransle fr5n en beh5llare till namnda doseringsenhet anordnad att under tryck dosera namnda bransle till namnda avgaskanal. Forfarandet innefattar steget att: - under perioder av icke fortlopande dosering av bransle, under fortsatt uppratthAllen drift av namnda trycksattningsorgan, sanka trycket hos namnda bransle vid doseringsenheten jamfort med trycket vid fortlopande dosering. These objects are achieved by a method of an HC dosing system according to claim 1. According to one aspect of the present invention there is provided a method of an HC dosing system comprising a dosing unit for dosing fuel into an engine exhaust duct upstream of a particulate filter for purifying exhaust gases from said engine. , wherein said HC dosing system includes pressurizing means (230) for supplying fuel from a container to said dosing unit arranged to dose pressurize said fuel to said exhaust duct. The method comprises the step of: - during periods of non-continuous dosing of fuel, during continued maintenance of said pressurizing means, lowering the pressure of said branch at the dosing unit compared with the pressure at continuous dosing.
Enligt en aspekt av foreliggande uppfinning tillhandah5lls ett forfarande vid ett HCdoseringssystem for att rena avgaser frAn en motor dar namnda HC-doseringssystem inbegriper trycksattningsorgan for att mata bransle fr5n en beh5llare till en doseringsenhet anordnad att under tryck dosera namnda bransle till en avgaskanal, dar forfarandet innefattar steget att under perioder av icke fortlopande dosering av bransle, under drift av namnda trycksattningsorgan, sanka trycket hos namnda bransle vid doseringsenheten jamfort med trycket vid fortlopande dosering. According to one aspect of the present invention there is provided a method of an HC metering system for purifying exhaust gases from an engine wherein said HC metering system includes pressurizing means for supplying fuel from a container to a metering unit arranged to pressurize metering said fuel into an exhaust duct, the method comprising: the step of during periods of non-continuous dosing of fuel, during operation of said pressurizing means, lowering the pressure of said fuel at the dosing unit compared with the pressure at continuous dosing.
Enligt en aspekt av uppfinningen kan trycksattningsorganet mata bransle frAn en behAllare till namnda doseringsenhet och harvid trycksatta sagda bransle till ett lampligt tryck, exempelvis ett tryck mellan 5 och 15 Bar, exempelvis 9 Bar, vid dosering av sagda bransle till sagda avgaskanal. Vid perioder av icke fortlopande dosering av branslet kan trycket hos branslet sankas frAn en hogre trycknivA (dar dosering fortlopande sker) till en lagre trycknivA, exempelvis en trycknivA mellan 1 och 6 Bar, sAsom 2 Bar eller 5 Bar. Enligt ett exempel kan trycket hos branslet sankas frAn en tryckniv5 om exempelvis 50 Bar, dar dosering sker, till en tryckniv5 om exempelvis 5 Bar, dar fortlopande dosering inte sker. According to an aspect of the invention, the pressurizing means can supply fuel from a container to said dosing unit and thereby pressurize said fuel to a suitable pressure, for example a pressure between 5 and 15 Bar, for example 9 Bar, when dosing said fuel to said exhaust duct. During periods of non-continuous dosing of the industry, the pressure in the industry can be reduced from a higher pressure level (where dosing takes place continuously) to a lower pressure level, for example a pressure level between 1 and 6 Bar, such as 2 Bar or 5 Bar. According to one example, the pressure in the industry can be reduced from a pressure level of, for example, 50 Bar, when dosing takes place, to a pressure level of, for example, 5 Bar, where continuous dosing does not take place.
Genom att sanka trycket has branslet vid doseringsenheten minskar risken for lackage av branslet under perioder av icke-dosering av sagda bransle. Ett lackage av bransle kan pAverka HC-doseringssystemets funktion negativt, vilket kan Ora att icke onskvarda avgaser emitteras fr5n ett efterbehandlingssystem hos fordonet. Lackage av bransle hos doseringsenheten kan orsaka att en traffyta hos avgaskanalen pAverkas negativt, vilket kan pAverka funktionen hos HC-doseringssystemet negativt. 4 DA trycksattningsorganet aven under icke-dosering arida är i drift gar det snabbare att aterigen arbeta upp trycket till en niva da dosering av branslet sker jamfort med forfarande dar trycksattningsorganet stangs av helt. Tillika kan fordelaktigt kylning av doseringsenheten medelst ett daromkring flodande bransle uppratthallas. By lowering the pressure of the fuel at the dosing unit, the risk of leakage of the fuel during periods of non-dosing of said fuel is reduced. A leakage of fuel can adversely affect the function of the HC dosing system, which can mean that undesirable exhaust gases are emitted from a finishing system of the vehicle. Leakage of fuel in the dosing unit can cause a trafficking surface of the exhaust duct to be adversely affected, which can adversely affect the function of the HC dosing system. Since the pressurizing means, even during non-dosing arida, is in operation, it is faster to work up the pressure again to a level when dosing of the fuel takes place in comparison with the procedure where the pressurizing means is switched off completely. At the same time, advantageous cooling of the dosing unit can be maintained by means of a fuel flowing around it.
En period av icke fortlopande dosering av bransle kan vara en viss forutbestarnd tid som är installbar. Ett exempel pa ett tidsintervall inom vilket namnda installbara forutbestamda tid är kan vara mellan 1 s och 60 s, men aven andra forutbestamda tidsperioder är mojliga. A period of non-continuous dosing of fuel can be a certain pre-determined time that is installable. An example of a time interval within which said installable predetermined time is may be between 1 s and 60 s, but other predetermined time periods are also possible.
En period av icke fortlopande dosering av bransle kan inbegripa ett visst bestamt antal takter dA dosering inte sker. A period of non-continuous dosing of fuel may involve a certain number of beats when dosing does not take place.
Enligt en aspekt av uppfinningen kan trycket hos branslet vid doseringsenheten sankas fran en forsta hogre tryckniva till en lagre andra tryckniva efter en forutbestarnd tidsperiod av ickedosering och darefter tillbaka till sagda fOrsta hogre tryckniva, eller annan lamplig hogre tryckniva, efter en forutbestamd tidsperiod av dosering. According to one aspect of the invention, the pressure of the industry at the dosing unit may be reduced from a first higher pressure level to a lower second pressure level after a predetermined period of non-dosing and then back to said first higher pressure level, or other appropriate higher pressure level, after a predetermined period of dosing.
Enligt ett utforingsexempel kan ett tryck hos sagda bransle vid doseringsenheten hojas fran sagda lagre tryckniva till sagda hogre tryckniva vid en faststalld doseringsbegaran. Harvid kan dosering av bransle aterupptas (startas) da sagda tryck hos branslet nr sagda hogre tryckniva. According to an exemplary embodiment, a pressure of said fuel at the dosing unit can be increased from said lower pressure level to said higher pressure level at a fixed dosing cup. In this case, dosing of the fuel can be resumed (started) when the said pressure at the fuel reaches the said higher pressure level.
Enligt en aspekt av uppfinningen kan trycket hos branslet vid doseringsenheten sankas med en viss forutbestamd trycksankningshastighet. According to one aspect of the invention, the pressure of the industry at the metering unit can be collected at a certain predetermined pressure drop rate.
Enligt en aspekt av uppfinningen kan en period av icke fortlopande dosering intraffa beroende pa driftsfall hos motorn. Ett driftsfall da fortlopande dosering inte sker kan vara da avgaserna fran motorn har en temperatur som understiger en viss forutbestamd temperatur. Ett annat driftsfall da fortlopande dosering inte sker kan vara da motorn gar pa tomgang. Det finns aven andra driftsfall da fortlopande dosering av bransle inte sker. Vid ett antal driftsfall 6 fortlopande dosering inte sker kan det uppfinningsmassiga forfarandet anvandas. According to one aspect of the invention, a period of non-continuous dosing may occur depending on the operating condition of the engine. An operating case where continuous dosing does not take place can be when the exhaust gases from the engine have a temperature that is below a certain predetermined temperature. Another operating case where continuous dosing does not occur may be when the engine is idling. There are also other operational cases as continuous dosing of fuel does not take place. In a number of operating cases 6 continuous dosing does not take place, the inventive method can be used.
Dosering av bransle medelst doseringsenheten sker framst d partikelfiltret ska regenereras. Dosing of fuel by means of the dosing unit takes place before the particle filter is to be regenerated.
Enligt en annan aspekt av foreliggande uppfinning kan trycket hos branslet under perioder av icke fortliipande dosering endast sankas 6 vissa kriterier är uppfyllda. Dessa kriterier kan t ex vara ett eller flera av foljande: temperaturen 6 avgaserna är under ett visst forutbestamt varde; och/eller lackage av branslet hos doseringsenheten har detekterats. According to another aspect of the present invention, the pressure of the industry can be reduced during periods of non-continuous dosing only if certain criteria are met. These criteria can be, for example, one or more of the following: the temperature 6 the exhaust gases are below a certain predetermined value; and / or leakage of the industry of the dosing unit has been detected.
Sagda lackage kan faststallas 6 lampligt satt. Enligt denna aspekt och endast i de fall 6 ett eller tier av ovanst6ende kriterier är uppfyllda sanks trycket under perioder av ickedosering av bransle. Said varnish can be fixed 6 light set. According to this aspect and only in cases where one or ten of the above criteria are met, the pressure of sanctions is met during periods of non-dosing of industry.
UppratthAllen drift av namnda trycksattningsorgan innebar att trycksattningsorganet är i drift, dvs. det stangs inte ay. Maintaining all operation of said pressurizing means meant that the pressurizing means is in operation, i.e. it does not close ay.
Trycksattningsorganet kan t ex innefatta en pump, sAsom t ex en membranpump. The pressurizing means may, for example, comprise a pump, such as a diaphragm pump.
Forfarandet kan innefatta steget att: sanka trycket hos namnda bransle vid doseringsenheten genom att reducera ett varvtal hos namnda trycksattningsorgan. Harvid stadkommes ett effektivt sat att sanka sagda tryck 6 lampligt sat. Sagda trycksattningsorgan kan harvid styras till att andra sagda tryck relativt snabbt. The method may comprise the step of: lowering the pressure of said fuel at the metering unit by reducing a speed of said pressurizing means. In this case an effective set is achieved to lower said pressure 6 suitably. Said pressurizing means can then be controlled to other said pressures relatively quickly.
Enligt en aspekt av uppfinningen är trycksattningsorganet en pump for vilken varvtalet kan justeras far att minska dess effekt och darmed minska trycket hos branslet vid sagda doseringsenhet. 6 Forfarandet kan innefatta steget att: - sanka trycket hos namnda bransle vid doseringsenheten genom att reducera en slagfrekvens hos namnda trycksattningsorgan. Harvid Astadkommes ett effektivt satt att sanka sagda tryck. Sagda trycksattningsorgan kan harvid styras till att andra sagda tryck relativt snabbt. According to one aspect of the invention, the pressurizing means is a pump for which the speed can be adjusted to reduce its effect and thereby reduce the pressure of the industry at said dosing unit. The method may comprise the step of: - lowering the pressure of said fuel at the dosing unit by reducing a stroke frequency of said pressurizing means. In doing so, an effective way of collecting said pressure is achieved. Said pressurizing means can then be controlled to other said pressures relatively quickly.
Enligt en aspekt av uppfinningen är trycksattningsorganet en pump for vilken slagfrekvensen kan justeras for att minska effekten och darmed minska trycket hos branslet vid doseringsenheten. According to one aspect of the invention, the pressurizing means is a pump for which the stroke frequency can be adjusted to reduce the effect and thereby reduce the pressure of the industry at the dosing unit.
Forfarande kan innefatta steget att: - sanka trycket hos namnda bransle vid doseringsenheten genom att styra en ventilkonfiguration hos en nedstromssida hos doseringsenheten. Harvid Astadkommes ett effektivt satt att sanka sagda tryck. Sagda trycksattningsorgan kan harvid styras till att andra sagda tryck relativt snabbt. Genom att Oka en genomstromning av bransle hos ventilkonfigurationen kan trycket hos branslet vid doseringsenheten sankas p5 ett effektivt satt. The method may comprise the step of: - lowering the pressure of said branch at the dosing unit by controlling a valve configuration of a downstream side of the dosing unit. In doing so, an effective way of collecting said pressure is achieved. Said pressurizing means can then be controlled to other said pressures relatively quickly. By increasing the flow of fuel in the valve configuration, the pressure of the fuel at the dosing unit can be reduced in an efficient manner.
Enligt en aspekt av uppfinningen sanks trycket hos branslet vid doseringsenheten genom att fullt Oppna sagda ventilkonfiguration placerad nedstroms doseringsenheten. Vid normalt tryck, sAsom vid fortlopande dosering av bransle, kan ventilkonfigurationen vara stangd eller endast vara oppen till en viss del. Vid en trycksankning av branslet, s5som vid icke fortlopande dosering av bransle, kan ventilkonfigurationen oppnas mer och branslet kan lattare passera genom ventilkonfigurationen, vilket medfor att trycket hos branslet vid doseringsenheten minskar. According to one aspect of the invention, the pressure of the industry at the dosing unit is lowered by fully opening said valve configuration located downstream of the dosing unit. At normal pressure, such as during continuous dosing of fuel, the valve configuration may be closed or only open to a certain extent. With a pressure drop of the fuel, as with non-continuous dosing of fuel, the valve configuration can be opened more and the fuel can pass more easily through the valve configuration, which means that the pressure of the fuel at the dosing unit decreases.
For trycksattningsorgan med ett styrbart deplacement kan sagda styrning av ett tryck hos branslet vid doseringsenheten Astadkommas under bibehAllet varvtal. Dvs, enligt ett utfOrande kan sagda tryckforandringar stadkommas utan att andra ett varvtal hos sagda trycksattningsorgan. 7 Forfarandet kan innefatta steget att: sanka trycket hos namnda bransle vid doseringsenheten genom att leda namnda bransle fr5n namnda trycksattningsorgan till namnda beh5llare forbi namnda doseringsenhet. For pressurizing means with a controllable displacement, said control of a pressure of the branch at the dosing unit can be achieved during the maintained speed. That is, according to one embodiment, said pressure changes can be effected without changing a speed of said pressurizing means. The method may comprise the step of: lowering the pressure of said fuel at the dosing unit by passing said fuel from said pressurizing means to said container past said dosing unit.
Enligt en aspekt kan branslet, d5 trycket ska sankas, ledas forbi doseringsenheten, frn trycksattningsorganet till beh5llaren. En ventilkonfiguration bestAende av en eller flera ventiler kan t ex styra flodet av bransle, antingen till doseringsenheten eller forbi doseringsenheten. Sagda forsta styrenhet kan vara anordnad att styra sagda ventilkonfiguration i enlighet med fOreliggande uppfinning. According to one aspect, when the pressure is to be collected, the fuel can be led past the dosing unit, from the pressurizing means to the container. A valve configuration consisting of one or more valves can, for example, control the flow of fuel, either to the dosing unit or past the dosing unit. Said first control unit may be arranged to control said valve configuration in accordance with the present invention.
Fbrfarande kan innefatta steget att: sanka trycket hos namnda bransle vid doseringsenheten genom att styra ett matningsorgan anordnat nedstroms doseringsenheten. The method may comprise the step of: lowering the pressure of said fuel at the dosing unit by controlling a feeding means arranged downstream of the dosing unit.
Genom att placera ett matningsorgan nedstroms doseringsenheten kan trycket hos branslet sankas genom att matningsorganet sanker trycket nedstroms doseringsenheten. By placing a supply means downstream of the dosing unit, the pressure of the branch can be reduced by the supply means collecting the pressure downstream of the dosing unit.
Matningsorganet kan t ex vara en pump sasom en membranpump eller en annan typ av pump. The supply means may, for example, be a pump such as a diaphragm pump or another type of pump.
Forfarandet kan innefatta steget att: sanka trycket hos namnda bransle vid doseringsenheten vasentligt. The method may comprise the step of substantially lowering the pressure of said fuel at the dosing unit.
Trycket kan t ex sankas frAn en nivA p5 9 Bar till en nivA p5 2 Bar. Alternativt kan trycket sankas fr5n en niv5 pa 9 Bar till en niv5 pa 5 Bar. Att sanka trycket vasentligt kan innebara att trycket sanks med minst 20 % relativt trycket hos reduktionsmedlet vid fortlopande dosering. Att sanka trycket vasentligt kan innebara att trycket sanks med minst 40 % relativt trycket hos branslet vid fortlopande dosering. Att sanka trycket has namnda bransle vid doseringsenheten vasentligt kan innebara att sanka trycket med mer an 80% relativt trycket hos branslet vid fortlopande dosering. The pressure can, for example, be reduced from a level of p5 9 Bar to a level of p5 2 Bar. Alternatively, the pressure can be reduced from a level of 9 Bar to a level of 5 Bar. Lowering the pressure significantly can mean that the pressure drops by at least 20% relative to the pressure of the reducing agent during continuous dosing. Lowering the pressure significantly can mean that the pressure drops by at least 40% relative to the pressure in the industry during continuous dosing. Lowering the pressure of the said branch at the dosing unit can significantly mean lowering the pressure by more than 80% relative to the pressure of the branch during continuous dosing.
FOrfarandet kan innefatta en steglos sankning av trycket. Denna steglosa sankning av trycket hos branslet kan 5stadkommas med nagon av de komponenter som sanker trycket s5som: 8 trycksAttningsorganet; en ventilkonfiguration nedstroms doseringsenheten; Atminstone en ventilkonfiguration som leder bransle forbi doseringsenheten. The process may involve a stepless lowering of the pressure. This stepless lowering of the pressure of the industry can be accomplished with any of the components which lower the pressure such as: the pressure setting means; a valve configuration downstream of the dosing unit; At least one valve configuration that directs fuel past the dosing unit.
Den steglosa sankningen kan ske med varierande hastighet. Hastigheten kan variera beroende pA olika parametrar sAsom motortyp mm, och den kan Aven variera under en pAgAende sankning av trycket av branslet. The stepless collection can take place at varying speeds. The speed can vary depending on different parameters such as engine type, etc., and it can also vary during an ongoing reduction of the pressure of the industry.
Forfarandet kan innefatta en sankning av trycket hos branslet i steg. The process may involve a reduction in the pressure of the industry in steps.
Denna sankning av trycket hos branslet i steg kan Astadkommas med nAgon av de komponenter som kan Astadkomma sankning av trycket sAsom: trycksAttningsorganet; en ventilkonfiguration nedstriims doseringsenheten; Atminstone en ventilkonfiguration som leder bransle forbi doseringsenheten. This lowering of the pressure of the industry in steps can be accomplished with any of the components which can effect a lowering of the pressure such as: the pressurizing means; a valve configuration downstream of the dosing unit; At least one valve configuration that directs fuel past the dosing unit.
Trycket hos branslet kan sankas i godtyckligt antal steg. The pressure in the industry can be reduced in any number of steps.
Forfarandet kan innefatta steget att: vid Aterupptagen fortlopande dosering, höja trycket hos namnda bransle vid doseringsenheten. The method may comprise the step of: in the case of resumption of continuous dosing, raising the pressure of said industry at the dosing unit.
Forfarandet kan innefatta steget att: hoja trycket hos namnda brat-Isle vid doseringsenheten fore det att fortlopande dosering Aterupptas eller startas. The method may comprise the step of: raising the pressure of said brat-Isle at the dosing unit before continuous dosing is resumed or started.
Forfarandet kan innefatta steget att: hoja trycket hos namnda bransle vid doseringsenheten fore det att fortlopande dosering Aterupptas eller startas pA basis av en faststalld doseringsbegaran. The method may comprise the step of: raising the pressure of said industry at the dosing unit before continuous dosing is resumed or started on the basis of a fixed dosing request.
Efter en period av ickedosering av branslet kan branslet Aterigen doseras. Harvid hi5js trycket hos branslet vid doseringsenheten igen till en lamplig trycknivA som är installd for dosering av branslet. 9 Forfarandet kan innefatta steget att: - vid en forutbestamd tid innan en faststalld tidpunkt da fortlopande dosering av bransle ska upphora, paborja trycksankning hos namnda bransle vid doseringsenheten. After a period of non-dosing of the industry, the industry can be dosed again. Then the pressure of the branch at the dosing unit is raised again to a suitable pressure level which is set for dosing the branch. The procedure may comprise the step of: - at a predetermined time before a fixed time when continuous dosing of fuel is to cease, start pressure reduction of said industry at the dosing unit.
For att trycket hos branslet ska vara pa en lag niva da doseringsenheten stangs kan trycksankningen enligt ett exempelutforande paborjas en forutbestamd tid innan en faststalld tidpunkt cla dosering av bransle ska upphora. In order for the pressure in the industry to be at a legal level when the dosing unit is closed, the pressure drop can, according to an exemplary embodiment, be started for a predetermined time before a fixed time cla dosing of the industry should cease.
FOrfarandet är latt att implementera i existerande motorfordon. Programkodf6r att styra en trycksankning av ett bransle vid en doseringsenhet i ett HC-doseringssystem for att forhindra lackage av bransle da doseringsenheten är stangd, enligt en aspekt av uppfinningen, kan installeras i en styrenhet hos fordonet vid tillverkning av detsamma. En kopare av fordonet kan saledes fa mojlighet att valja forfarandets funktion som ett tillval. Alternativt kan programkod f6r att utfora det innovativa forfarandet installeras i en styrenhet hos fordonet vid uppgradering vid en servicestation. I detta fall kan programoden laddas in i ett minne i styrenheten. The procedure is easy to implement in existing motor vehicles. Program code for controlling a pressure drop of a fuel at a dosing unit in an HC dosing system to prevent leakage of fuel when the dosing unit is closed, according to an aspect of the invention, can be installed in a control unit of the vehicle during manufacture thereof. A buyer of the vehicle may thus have the option of choosing the function of the procedure as an option. Alternatively, program code for performing the innovative procedure can be installed in a control unit of the vehicle when upgrading at a service station. In this case, the program mode can be loaded into a memory in the control unit.
Programkod for trycksankning av ett bransle vid en doseringsenhet i ett HCdoseringssystem for att forhindra lackage av bransle da doseringsenheten är stangd kan latt uppdateras eller bytas ut. Vidare kan olika delar programkoden bytas ut oberoende av varandra. Denna modulara konfiguration är fordelaktig ur ett underhallsperspektiv. Program code for pressure reduction of a fuel at a dosing unit in a HC dosing system to prevent leakage of fuel when the dosing unit is closed can be easily updated or replaced. Furthermore, different parts of the program code can be exchanged independently of each other. This modular configuration is advantageous from an underpass perspective.
Enligt en aspekt av foreliggande uppfinning tillhandahalls ett HC-doseringssystem anordnat att dosera bransle in i en motors avgaskanal uppstr6ms ett partikelfilter f6r rening av avgaser fran namnda motor, dar namnda HC-doseringssystem innefattar: — en doseringsenhet anpassad att under tryck dosera namnda bransle till namnda avgaskanal; ett trycksattningsorgan anpassat att mata bransle fran en behallare till namnda doseringsenhet; organ anpassat att under perioder av icke fortlopande dosering av bransle, under fortsatt uppratthallen drift av namnda trycksattningsorgan, sanka trycket hos namnda bransle vid doseringsenheten jamfort med trycket vid fortlopande dosering. According to one aspect of the present invention, there is provided an HC dosing system arranged to dose fuel into an engine exhaust duct upstream of a particulate filter for purifying exhaust gases from said engine, said HC dosing system comprising: a dosing unit adapted to dose said fuel to said fuel under pressure. exhaust duct; a pressurizing means adapted to supply fuel from a container to said dosing unit; means adapted to, during periods of non-continuous dosing of fuel, during continued upright operation of said pressurizing means, lower the pressure of said fuel at the dosing unit compared with the pressure at continuous dosing.
Enligt en aspekt av uppfinningen tillhandahAlls ett HC-doseringssystem varvid namnda trycksattningsorgan innefattar en pump med styrbart varvtal. Enligt en aspekt av uppfinningen tillhandahAlls ett HC-doseringssystem varvid namnda trycksattningsorgan innefattar en pump med styrbar slagfrekvens. Anordningen kan innefatta en ventilkonfiguration anordnad hos en nedstromssida hos doseringsenheten. Anordningen kan innefatta organ for att sanka trycket hos namnda bransle vasentligt. Anordningen kan innefatta organ for att sanka trycket hos namnda bransle stegliist. Anordningen kan innefatta organ for att sanka trycket hos namnda bransle i steg. Anordningen kan innefatta organ for att leda namnda bransle frAn namnda trycksattningsorgan till namnda behAllare forbi namnda doseringsenhet. Anordningen kan innefatta ett matningsorgan anordnat nedstroms doseringsenheten. HC-doseringssystemet kan innefatta ett DPF. HCdoseringssystemet kan innefattas i ett DPF-system. HC-doseringssystemet kan inbegripa en DOC-enhet anordnad uppstroms sagda partikelfilter hos sagda avgaskanal frAn sagda motor. Branslet kan vara diesel eller annat kolvatebaserat bransle. According to one aspect of the invention, there is provided an HC dosing system wherein said pressurizing means comprises a pump with controllable speed. According to one aspect of the invention, there is provided an HC dosing system wherein said pressurizing means comprises a pump with controllable stroke frequency. The device may comprise a valve configuration arranged at a downstream side of the dosing unit. The device may comprise means for substantially lowering the pressure of said fuel. The device may comprise means for lowering the pressure of said fuel step. The device may comprise means for lowering the pressure of said fuel in steps. The device may comprise means for directing said fuel from said pressurizing means to said container past said dosing unit. The device may comprise a feeding means arranged downstream of the dosing unit. The HC dosing system may include a DPF. The HC dosing system may be included in a DPF system. The HC dosing system may comprise a DOC unit arranged upstream of said particulate filter of said exhaust duct from said engine. The fuel can be diesel or other carbonate-based fuel.
Ovanst5ende syften uppnAs ocks5 med ett motorfordon som innefattar det uppfinningsmassiga HC-doseringssystemet. Motorfordonet kan vara en lastbil, buss eller personbil. The above objects are also achieved with a motor vehicle comprising the HC dosing system according to the invention. The motor vehicle can be a truck, bus or car.
Enligt en aspekt av uppfinningen tillhandahalls ett datorprogram for trycksankning av ett bransle vid en doseringsenhet i ett HC-doseringssystem for att forhindra lackage av bransle dA doseringsenheten ar stangd, dar namnda datorprogram innefattar programkod for att orsaka en elektronisk styrenhet eller en annan dator ansluten till den elektroniska styrenheten att utfora stegen enligt nAgot av patentkraven 1-11. According to one aspect of the invention, there is provided a computer program for pressurizing a fuel at a metering unit in an HC metering system to prevent leakage of fuel when the metering unit is closed, said computer program comprising program code for causing an electronic controller or other computer connected thereto. electronic control unit to perform the steps according to any one of claims 1-11.
Enligt en aspekt av uppfinningen tillhandahAlls ett datorprogram for trycksankning av ett bransle vid en doseringsenhet i ett HC-doseringssystem for att forhindra lackage av bransle doseringsenheten är stangd, dar namnda datorprogram innefattar programkod lagrad pA ett, av en dator lasbart, medium for att orsaka en elektronisk styrenhet eller en annan dator ansluten till den elektroniska styrenheten att utfora stegen enligt n5got av patentkraven 1-11. 11 Enligt en aspekt av uppfinningen tillhandahalls ett datorprogram vid ett HCdoseringssystem, dar namnda datorprogram innefattar programkod for att orsaka en elektronisk styrenhet eller en annan dator ansluten till den elektroniska styrenheten att utfora stegen enligt nAgot av patentkraven 1-11. According to one aspect of the invention, there is provided a computer program for pressure sinking a fuel at a metering unit in an HC metering system to prevent leakage of the fuel metering unit is closed, said computer program comprising program code stored on a computer readable medium to cause a electronic control unit or another computer connected to the electronic control unit to perform the steps according to any one of claims 1-11. According to one aspect of the invention, there is provided a computer program in an HC dosing system, said computer program comprising program code for causing an electronic controller or another computer connected to the electronic controller to perform the steps of any of claims 1-11.
Enligt en aspekt av uppfinningen tillhandahalls ett datorprogram vid ett HCdoseringssystem, dar namnda datorprogram innefattar programkod lagrad pa ett, av en dator lasbart, medium for att orsaka en elektronisk styrenhet eller en annan dator ansluten till den elektroniska styrenheten att utfora stegen enligt nAgot av patentkraven 1-11. According to one aspect of the invention, there is provided a computer program in an HC dosing system, said computer program comprising program code stored on a computer readable medium for causing an electronic controller or another computer connected to the electronic controller to perform the steps of any of claims 1. -11.
Enligt en aspekt av uppfinningen tillhandahalls en datorprogramprodukt innefattande en programkod lagrad pa ett, av en dator lasbart, medium for att utfora forfarandestegen enligt nagot av patentkraven 1-11, nar namnda programkod kors pa en elektronisk styrenhet eller en annan dator ansluten till den elektroniska styrenheten. According to one aspect of the invention, there is provided a computer program product comprising a program code stored on a computer readable medium for performing the method steps of any of claims 1-11, when said program code is crossed on an electronic control unit or another computer connected to the electronic control unit. .
Ytterligare syften, fordelar och nya sardrag hos den foreliggande uppfinningen kommer att framga for fackmannen av foljande detaljer, liksom via utovning av uppfinningen. Medan uppfinningen är beskriven nedan, bor det framga att uppfinningen inte är begransad till de specifika beskrivna detaljerna. Fackman som har tillgAng till larorna hari kommer att karma igen ytterligare applikationer, modifieringar och inforlivanden inom andra omraden, vilka är inom omfanget for uppfinningen. Additional objects, advantages, and novel features of the present invention will become apparent to those skilled in the art from the following details, as well as through the practice of the invention. While the invention is described below, it should be understood that the invention is not limited to the specific details described. Those skilled in the art having access to the teachings will again appreciate further applications, modifications and incorporations within other fields which are within the scope of the invention.
OVERSIKTLIG BESKRIVNING AV RITNINGARNA For en mer komplett forsthelse av foreliggande uppfinning och ytterligare syften och fordelar darav, Ors nu hanvisning till foljande detaljerade beskrivning som ska lasas tillsammans med de Atfoljande ritningarna dar lika hanvisningsbeteckningar avser lika delar i de olika figurerna, och i vilka: Figur 1 schematiskt illustrerar ett fordon, enligt en utforingsform av uppfinningen; Figur 2a schematiskt illustrerar ett HC-doseringssystem, enligt en utforingsform av uppfinningen; 12 Figur 2b schematiskt illustrerar en doseringsenhet hos HC-doseringssystemet; Figur 3a schematiskt illustrerar ett flodesschema for ett forfarande, enligt en utforingsform av uppfinningen; Figur 3b i ytterligare detalj schematiskt illustrerar ett flodesschema for ett forfarande, enligt en aspekt av uppfinningen; Figur 4a schematiskt illustrerar ett diagram, enligt en aspekt av uppfinningen; Figur 4b schematiskt illustrerar ett diagram, enligt en aspekt av uppfinningen; Figur 4c schematiskt illustrerar ett diagram, enligt en aspekt av uppfinningen; Figur 4d schematiskt illustrerar ett diagram, enligt en aspekt av uppfinningen; och Figur 5 schematiskt illustrerar en dator, enligt en utforingsform av uppfinningen. SUMMARY DESCRIPTION OF THE DRAWINGS For a more complete understanding of the present invention and further objects and advantages thereof, we will now refer to the following detailed description which is to be read in conjunction with the accompanying drawings in which like reference numerals refer to like parts in the various figures, and in which: 1 schematically illustrates a vehicle, according to an embodiment of the invention; Figure 2a schematically illustrates an HC dosing system, according to an embodiment of the invention; Figure 2b schematically illustrates a dosing unit of the HC dosing system; Figure 3a schematically illustrates a flow chart of a process, according to an embodiment of the invention; Figure 3b schematically illustrates in further detail a flow chart of a method, according to an aspect of the invention; Figure 4a schematically illustrates a diagram, according to an aspect of the invention; Figure 4b schematically illustrates a diagram, according to an aspect of the invention; Figure 4c schematically illustrates a diagram, according to an aspect of the invention; Figure 4d schematically illustrates a diagram, according to an aspect of the invention; and Figure 5 schematically illustrates a computer, according to an embodiment of the invention.
DETAUERAD BESKRIVNING AV FIGURERNA Med hanvisning till Figur 1 visas en sidovy av ett fordon 100. Det exemplifierade fordonet 100 bestar av en dragbil 110 och en slapvagn 112. Fordonet kan vara ett tungt fordon, s5som en lastbil eller en buss. Fordonet kan alternativt vara en personbil. Fordonet kan alternativt vara en truck, dumper eller lyftkran, eller annan lamplig plattform inbegripande en motor och ett HC-doseringssystem. DETAILED DESCRIPTION OF THE FIGURES Referring to Figure 1, a side view of a vehicle 100 is shown. The exemplary vehicle 100 consists of a tractor 110 and a trailer 112. The vehicle may be a heavy vehicle, such as a truck or a bus. The vehicle can alternatively be a car. The vehicle may alternatively be a truck, dumper or crane, or other suitable platform including an engine and a HC dosing system.
Det bar papekas att uppfinningen lampar sig for tillampning hos ett godtyckligt lampligt HC- doseringssystem innefattande en doseringsenhet for bransle och ett partikelfilter och är saldes inte begransat till HC-doseringssystem hos motorfordon. Det innovativa forfarandet vid ett HC-doseringssystem och det innovativa HC-doseringssystemet enligt en aspekt av uppfinningen lampar sig val for andra plattformar som inbegriper ett HC-doseringssystem an motorfordon, sAsom t.ex. vattenfarkoster. Vattenfarkosterna kan vara av godtyckligt lampligt slag, sasom t.ex. motorbAtar, fartyg, farjor eller skepp. It was pointed out that the invention is suitable for application to any suitable HC dosing system comprising a fuel dosing unit and a particulate filter and is not limited to the HC dosing system of motor vehicles. The innovative process for an HC dosing system and the innovative HC dosing system according to an aspect of the invention are suitable for other platforms which include an HC dosing system for motor vehicles, such as e.g. watercraft. The watercraft can be of any suitable type, such as e.g. motorboats, ships, ferries or ships.
Det innovativa forfarandet och det innovativa HC-doseringssystemet enligt en aspekt av uppfinningen lampar sig aven val for t.ex. system inbegripande exempelvis en stenkross eller dylikt. 13 Det innovativa forfarandet och det innovativa HC-doseringssystemet enligt en aspekt av uppfinningen lampar sig aven val for t.ex. system inbegripande industrimotorer och/eller motordrivna industrirobotar. The innovative process and the innovative HC dosing system according to an aspect of the invention are also suitable for e.g. systems including, for example, a stone crusher or the like. The innovative method and the innovative HC dosing system according to an aspect of the invention are also suitable for e.g. systems including industrial engines and / or motorized industrial robots.
Det innovativa forfarandet och det innovativa HC-doseringssystemet enligt en aspekt av uppfinningen lampar sig aven val for olika slag av kraftverk, sAsom t.ex. ett elkraftverk innefattande en dieselgenerator. The innovative process and the innovative HC dosing system according to an aspect of the invention also make choices for different types of power plants, such as e.g. an electric power plant comprising a diesel generator.
Det innovativa forfarandet och det innovativa HC-doseringssystemet lampar sig val for ett godtyckligt lampligt motorsystem som inbegriper en motor och ett HC-doseringssystem med en doseringsenhet och ett partikelfilter, sAsom t.ex. hos ett lok eller annan plattform. The innovative process and the innovative HC dosing system make choices for an arbitrarily suitable engine system that includes an engine and an HC dosing system with a dosing unit and a particulate filter, such as e.g. at a locomotive or other platform.
Det innovativa forfarandet och det innovativa HC-doseringssystemet lampar sig val for ett godtyckligt lampligt system som inbegriper en NOR-generator och ett HC-doseringssystem med en doseringsenhet och ett partikelfilter. The innovative procedure and the innovative HC dosing system are suitable for an arbitrary lamp dosing system that includes a NOR generator and an HC dosing system with a dosing unit and a particulate filter.
Det uppfinningsmassiga forfarandet lampar sig val for ett lampligt system som alstrar avgaser med partiklar och ett filter som lagrar in partiklar, vilka partiklar kan fOrbrannas vid en regenerering av sagda filter, i synnerhet vid en aktiv regenerering av sagda filter. The method according to the invention is suitable for a suitable system which generates exhaust gases with particles and a filter which stores particles, which particles can be combusted during a regeneration of said filters, in particular during an active regeneration of said filters.
Det bOr pApekas att HC-doseringssystemet kan vara ett godtyckligt lampligt HCdoseringssystem, aven om det hari exemplifieras som ett HC-doseringssystem vid ett DPFsystem hos ett fordon. Trycksattningsorganen kan vara ett lampligt trycksattningsorgan, och behover inte vara en membranpump sAsom beskrivs hari. It should be noted that the HC dosing system can be any suitable HC dosing system, although it is exemplified as an HC dosing system in a DPF system of a vehicle. The pressurizing means may be a suitable pressurizing means, and need not be a diaphragm pump as described herein.
Uppfinningen är applicerbar p5 bransledoseringssystem som är anordnade att HO en temperatur hos avgaserna frAn motorn av andra anledningar an for att regenerera sagda partikelfilter. The invention is applicable to industry dosing systems which are arranged to HO a temperature of the exhaust gases from the engine for other reasons than to regenerate said particle filter.
Branslet hos HC-doseringssystemet kan vara ett lampligt bransle, sAsom t.ex. olja, Asom t.ex. smorjolja, diesel eller annat kolvatebaserat bransle, sAsom t.ex. bensin, etanol eller metan, etc. 14 Hari hanfor sig termen "lank" till en kommunikationslank som kan vara en fysisk ledning, s5som en opto-elektronisk kommunikationsledning, eller en icke-fysisk ledning, sAsom en trAdlos anslutning, till exempel en radio- eller mikrovAgslank. The fuel of the HC dosing system can be a suitable industry, such as e.g. oil, Asom e.g. lubricating oil, diesel or other hydrocarbon-based industries, such as e.g. petrol, ethanol or methane, etc. 14 The term "lank" refers to a communication link which may be a physical line, such as an optoelectronic communication line, or a non-physical line, such as a wireless connection, for example a radio link. or microwave Slim.
Hari hanfor sig termen "ledning" till en passage for att hAlla och transportera en fluid, sAsom t.ex. ett bransle i vatskeform. Ledningen kan vara ett ror av godtycklig dimension. Ledningen kan best 5 av ett godtyckligt, lampligt material, sAsom t.ex. plast, gummi eller metall. In this he refers to the term "conduit" to a passage for holding and transporting a fluid, such as e.g. a branch in liquid form. The pipe can be a rudder of any dimension. The wire can consist of an arbitrary, suitable material, such as e.g. plastic, rubber or metal.
Hari hanfor sig termen "bransle" till ett medel som anvands for aktiv regenerering av ett partikelfilter hos ett HC-doseringssystem. Namnda bransle är enligt ett utforande diesel. Naturligtvis kan andra slag av kolvatebaserade branslen anvandas. Hari anges diesel som ett exempel IDA ett bransle men en fackman inser att det innovativa forfarandet och den innovativa anordningen kan realiseras for andra typer av branslen, med erforderliga anpassningar, sAsom t.ex. anpassningar till adekvat kokstemperatur for valda branslen, i styralgoritmer for att exekvera programkod i enlighet med det innovativa forfarandet. The term "fuel" refers to an agent used for the active regeneration of a particulate filter in an HC dosing system. The said industry is according to a performing diesel. Of course, other types of carbonate based industries can be used. Hari states diesel as an example IDA a industry but a professional realizes that the innovative procedure and the innovative device can be realized for other types of industry, with the necessary adaptations, such as e.g. adjustments to adequate boiling temperature for selected industries, in control algorithms to execute program code in accordance with the innovative procedure.
Aven om termen HC-doseringssystem anvands hari for att ange ett partikelfiltersystem an inte uppfinningen begransad till anvandning av ett dieselpartikelfilter. Tvartom kan andra typer av partikelfilter anvandas enligt uppfinningen. En fackman inser vilket slags bransle som bast lampar sig for regenerering av det valda partikelfiltret. Although the term HC dosing system is used herein to indicate a particulate filter system, the invention is not limited to the use of a diesel particulate filter. On the contrary, other types of particle filters can be used according to the invention. One skilled in the art will recognize what kind of industry the bast lamps are for regenerating the selected particulate filter.
Med hanvisning till Figur 2a visas ett HC-doseringssystem 299 hos fordonet 100. HC- doseringssystemet 299 kan vara anordnad i dragbilen 110. HC-doseringssystemet 299 innefattar enligt detta exempel en behAllare 205 som an anordnad att haa ett bransle. BehAllaren 205 är anordnad att innehAlla en lamplig mangd bransle och är vidare anordnad att kunna fyllas p vid behov. Referring to Figure 2a, there is shown an HC dosing system 299 of the vehicle 100. The HC dosing system 299 may be located in the tractor 110. According to this example, the HC dosing system 299 includes a container 205 arranged to have a branch. The container 205 is arranged to contain a suitable amount of fuel and is further arranged to be able to be filled if necessary.
En forsta ledning 271 är anordnad att leda branslet till en pump 230 Irk behallaren 205. A first line 271 is provided to direct the fuel to a pump 230 Irk container 205.
Pumpen 230 kan aven benamnas trycksattningsorgan. Pumpen 230 kan vara en lamplig pump. Pumpen 230 kan vara en membranpump innefattande Atminstone ett filter. Pumpen 230 kan vara anordnad att drivas medelst en elmotor (ej visad). Pumpen 230 kan vara anordnad att pumpa upp branslet fran behallaren 205 via den forsta ledningen 271 och via en andra ledning 272 tillfora namnda bransle till en doseringsenhet 250. Doseringsenheten 250 kan inbegripa en elektriskt styrd doseringsanordning, medelst vilken ett flode av till avgassystemet tillsatt bransle kan styras. Pumpen 230 är anordnad att trycksatta branslet i den andra ledningen 272. Doseringsenheten 250 är anordnad med en strypningsenhet, vilken aven kan benamnas strypventil, mot vilken namnda tryck hos branslet kan byggas upp i anordningen 299. Strypningsenheten beskrivs ytterligare med hanvisning till Figur 2b. The pump 230 may also be referred to as the pressurizing means. The pump 230 can be a suitable pump. The pump 230 may be a diaphragm pump comprising at least one filter. The pump 230 may be arranged to be operated by means of an electric motor (not shown). The pump 230 may be arranged to pump up the fuel from the container 205 via the first line 271 and via a second line 272 supply said fuel to a dosing unit 250. The dosing unit 250 may comprise an electrically controlled dosing device, by means of which a flow of fuel added to the exhaust system can controlled. The pump 230 is arranged to pressurize the fuel in the second line 272. The dosing unit 250 is arranged with a throttling unit, which can also be called a throttling valve, against which said pressure of the fuel can be built up in the device 299. The throttling unit is further described with reference to Figure 2b.
Doseringsenheten 250 är anordnad att tillfora namnda bransle till en avgaskanal 290 hos fordonet 100. Narmare bestamt är doseringsenheten 250 anordnad att p5 ett styrt satt tillfora en lamplig mangd bransle till en avgaskanal 290 hos fordonet 100. Enligt detta utforande ar ett dieselpartikelfilter (DPF) 270 anordnad nedstroms ett lage hos avgassystemet dar tillforsel av bransle sker. Sagda dieselpartikelfilter kan aven benamnas DPF-enhet. Den mangd bransle som tillfors i avgassystemet är avsedd att forbrannas i en oxidationskatalysator 269, vilken är anordnad uppstroms sagda dieselpartikelfilter 270 hos avgaskanalen 290. The dosing unit 250 is arranged to supply said fuel to an exhaust duct 290 of the vehicle 100. More specifically, the dosing unit 250 is arranged to supply in a controlled manner a suitable amount of fuel to an exhaust duct 290 of the vehicle 100. According to this embodiment, a diesel particulate filter (DPF) 270 arranged downstream of a layer of the exhaust system where the supply of fuel takes place. Said diesel particulate filter can also be called a DPF unit. The amount of fuel supplied to the exhaust system is intended to be combusted in an oxidation catalyst 269, which is arranged upstream of said diesel particulate filter 270 of the exhaust duct 290.
Doseringsenheten 250 kan vara anordnad vid namnda avgaskanal 290 som är anordnad att leda avgaser fra'n en forbranningsmotor (ej visad) hos fordonet 100 till namnda och vidare till namnda dieselpartikelfilter 270 och vidare till en omgivning av fordonet. The dosing unit 250 may be arranged at said exhaust duct 290 which is arranged to direct exhaust gases from an internal combustion engine (not shown) of the vehicle 100 to said and further to said diesel particulate filter 270 and further to an environment of the vehicle.
Enligt ett exempel är en forkatalysator monterad i serie med partikelfiltret 270. Harvid är sagda forkatalysator anordnad uppstroms sagda partikelfilter 270. According to one example, a precatalyst is mounted in series with the particulate filter 270. In this case, said precatalyst is arranged upstream of said particulate filter 270.
En tredje ledning 273 är forefintligt anordnad mellan doseringsenheten 250 och behallaren 205. Den tredje ledningen 273 är anordnad att leda tillbaka icke doserat bransle som matats till doseringsenheten 250 till behAllaren 205. A third conduit 273 is provided disposed between the metering unit 250 and the container 205. The third conduit 273 is arranged to return non-metered fuel fed to the metering unit 250 to the container 205.
En fjarde ledning 274 anordnad att leda branslet mellan pumpen 230 och beftallaren 20 forbi doseringsenheten 250 kan enligt ett utforande vara inbegripen i HCdoseringssystemet. Den forsta styrenheten 200 kan vara signalansluten till en 16 ventilkonfiguration (ej visad) hos den fjarde ledningen 274. Den forsta styrenheten 200 kan harvid vara anpassad att styra ledning av branslet fran pumpen 230 eller den andra ledningen 272 direkt till behAllaren 205 utan att branslet passerar doseringsenheten 205. Harvid kan trycket vid doseringsenheten 250 reduceras pa' lampligt satt enligt en aspekt av uppfinningen. A fourth conduit 274 arranged to direct the fuel between the pump 230 and the sensor 20 past the dosing unit 250 may, according to one embodiment, be included in the HC dosing system. The first control unit 200 may be signal connected to a valve configuration (not shown) of the fourth line 274. The first control unit 200 may then be adapted to control the line of the fuel from the pump 230 or the second line 272 directly to the container 205 without the fuel passing dosing unit 205. In this case, the pressure at the dosing unit 250 can be reduced in an appropriate manner according to an aspect of the invention.
Den forsta styrenheten 200 är anordnad for kommunikation med pumpen 230 via en lank L230. Den forsta styrenheten 200 är anordnad att styra drift av pumpen 230. Enligt ett exempel är den forsta styrenheten 200 anordnad att styra pumpen 230 medelst en elmotor (ej visad). Den forsta styrenheten 200 är anordnad att styra ett tryck P hos branslet i den andra ledningen 272. Detta kan ske p5 olika lmpliga satt. Enligt ett exempel är den forsta styrenheten 200 anordnad att styra ett rAdande varvtal RPM hos pumpen 230. Harvid kan trycket andras 13'6 onskvart sat. Genom att iika varvtalet hos pumpen 230 kan trycket P iikas. Genom att sanka varvtalet hos pumpen 230 kan trycket P srikas. Enligt ett annat exempel är den forsta styrenheten 200 anordnad att andra en slaglangd hos pumpen 230. The first control unit 200 is arranged for communication with the pump 230 via a long L230. The first control unit 200 is arranged to control the operation of the pump 230. According to one example, the first control unit 200 is arranged to control the pump 230 by means of an electric motor (not shown). The first control unit 200 is arranged to control a pressure P of the branch in the second line 272. This can be done in various convenient ways. According to one example, the first control unit 200 is arranged to control a rotating speed RPM of the pump 230. In this case, the pressure of another 13'6 may be set four times. By equalizing the speed of the pump 230, the pressure P can be equalized. By lowering the speed of the pump 230, the pressure P can be reduced. According to another example, the first control unit 200 is arranged to second a stroke of the pump 230.
Genom att iika slaglangden pumpen 230 kan trycket P okas. Genom att minska slaglngden hos pumpen kan trycket P sankas. Enligt ett annat exempel är den forsta styrenheten 200 anordnad att andra en slagfrekvens hos pumpen 230. Genom att iika slagfrekvensen hos pumpen 230 kan trycket P iikas. Genom att minska slagfrekvensen hos pumpen 230 kan trycket P sankas. By equalizing the stroke of the pump 230, the pressure P can be increased. By reducing the stroke of the pump, the pressure P can be reduced. According to another example, the first control unit 200 is arranged to second a stroke frequency of the pump 230. By equalizing the stroke frequency of the pump 230, the pressure P can be equalized. By reducing the stroke frequency of the pump 230, the pressure P can be reduced.
En andra pump 300 kan enligt ett utforande inbegripas i HC-doseringssystemet. Sagda andra pump 300 kan ven benamnas matningsorgan eller matarorgan. Den forsta styrenheten 200 är anordnad for kommunikation med pumpen 300 via en lank L300. Den forsta styrenheten 200 är anordnad att styra drift av pumpen 300. Enligt ett exempel är den forsta styrenheten 200 anordnad att styra pumpen 300 medelst en elmotor (ej visad). Genom att styra pumpen 300 att reducera ett tryck hos branslet hos en uppstromssida av pumpen 300 kan trycket hos branslet i ledningen 272 sankas. A second pump 300 may, according to one embodiment, be included in the HC dosing system. Said second pump 300 may also be referred to as feed means or feed means. The first control unit 200 is arranged for communication with the pump 300 via a long L300. The first control unit 200 is arranged to control operation of the pump 300. According to one example, the first control unit 200 is arranged to control the pump 300 by means of an electric motor (not shown). By controlling the pump 300 to reduce a pressure of the branch of an upstream side of the pump 300, the pressure of the branch in the line 272 can be reduced.
Den forsta styrenheten 200 är anordnad for kommunikation med doseringsenheten 2 samt namnda strypningsenhet, vilken kan vara inbegripen i doseringsenheten 250. Genom att styra strypningsenheten kan trycket i ledningen 272 styras. Genom att minska 17 oppningen i strypningsenheten kan trycket P i ledningen 272 iikas och genom att forstora oppningen i strypningsenheten kan trycket P i ledningen 272 reduceras. The first control unit 200 is arranged for communication with the dosing unit 2 and said throttling unit, which may be included in the dosing unit 250. By controlling the throttling unit, the pressure in the line 272 can be controlled. By reducing the opening in the choke unit, the pressure P in the line 272 can be equalized and by enlarging the opening in the choke unit, the pressure P in the line 272 can be reduced.
Den forsta styrenheten 200 är anordnad att under perioder av icke fortlopande dosering av bransle, under fortsatt uppratthallen drift av namnda trycksattningsorgan 230, sanka trycket hos namnda bransle vid doseringsenheten 250 jamfOrt med trycket vid fortlopande dosering. Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att reducera varvtalet hos namnda trycksattningsorgan 230. Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att reducera en slagfrekvens hos namnda trycksattningsorgan 230. Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att styra en ventilkonfiguration (ej visad) hos en nedstromssida hos doseringsenheten 250. The first control unit 200 is arranged that during periods of non-continuous dosing of fuel, during continued upright operation of said pressurizing means 230, the pressure of said branch at said dosing unit 250 compares with the pressure at continuous dosing. The first control unit 200 is arranged to lower the pressure of said branch at the dosing unit 250 by reducing the speed of said pressurizing means 230. The first control unit 200 is arranged to lower the pressure of said branch at said dosing unit 250 by reducing a stroke frequency of said pressurizing means 230. the first control unit 200 is arranged to lower the pressure of said branch at the dosing unit 250 by controlling a valve configuration (not shown) of a downstream side of the dosing unit 250.
Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att styra ledning av namnda bransle fran namnda trycksattningsorgan 230 till namnda behallare 205 forbi namnda doseringsenhet 250. Branslet leds forbi namnda doseringsenhet via ledning 274. The first control unit 200 is arranged to lower the pressure of said fuel at the dosing unit 250 by guiding said branch of said fuel from said pressurizing means 230 to said container 205 past said dosing unit 250. The fuel is led past said dosing unit via line 274.
Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att styra matningsorgan 300 anordnat nedstroms doseringsenheten 250. Den forsta styrenheten 200 är anordnad att sanka trycket hos namnda bransle vid doseringsenheten vasentligt. Den forsta styrenheten 200 ar anordnad att sanka trycket hos namnda bransle steglost. Den forsta styrenheten 200 ar anordnad att sanka trycket hos namnda bransle i steg. Den forsta styrenheten 200 kan vara anordnad att vid aterupptagen fortlopande dosering, hoja trycket hos namnda bransle vid doseringsenheten 250. Den forsta styrenheten 200 kan vara anordnad att hoja trycket till en lamplig niva hos namnda bransle vid doseringsenheten 250 fore fortlopande dosering paborjas. Den forsta styrenheten 200 kan vara anordnad att höja trycket till en lamplig niva hos namnda bransle vid doseringsenheten 250 fore fortlopande dosering paborjas pa basis av en doseringsbegaran. Sagda begaran kan bestammas av lampligt system hos exempelvis fordonet 100. Den forsta styrenheten 200 är anordnad att vid en forutbestamd tid innan en faststalld tidpunkt cla fortlOpande dosering av bransle ska upphora, pabOrja trycksankning hos namnda bransle vid doseringsenheten 250. 18 Den forsta styrenheten 200 är anordnad for kommunikation med doseringsenheten 250 via en lank L250. Den forsta styrenheten 200 är anordnad att styra drift av doseringsenheten 250 for att t.ex. reglera tillforsel av branslet till avgassystemet hos fordonet 100. The first control unit 200 is arranged to lower the pressure of said branch at the dosing unit 250 by controlling feed means 300 arranged downstream of the dosing unit 250. The first control unit 200 is arranged to lower the pressure of said branch at the dosing unit substantially. The first control unit 200 is arranged to lower the pressure of said industry steplessly. The first control unit 200 is arranged to lower the pressure of said industry in steps. The first control unit 200 may be arranged to increase the pressure of said branch at the dosing unit 250 during resumed continuous dosing at the dosing unit 250. The first control unit 200 may be arranged to raise the pressure to a suitable level of said branch at the dosing unit 250 before continuous dosing. The first control unit 200 may be arranged to raise the pressure to an appropriate level of said fuel at the dosing unit 250 before continuous dosing is started on the basis of a dosing request. Said request can be determined by a suitable system of, for example, the vehicle 100. The first control unit 200 is arranged that at a predetermined time before a fixed time cla continuous dosing of fuel should cease, start pressure reduction of said branch at the dosing unit 250. 18 The first control unit 200 is arranged for communication with the dosing unit 250 via a long L250. The first control unit 200 is arranged to control the operation of the dosing unit 250 in order to e.g. regulate the supply of fuel to the exhaust system of the vehicle 100.
En andra styrenhet 210 är anordnad for kommunikation med den forsta styrenheten 200 via en lank L210. Den andra styrenheten 210 kan vara lostagbart ansluten till den forsta styrenheten 200. Den andra styrenheten 210 kan vara en till fordonet 100 extern styrenhet. Den andra styrenheten 210 kan vara anordnad att utfora de uppfinningsmassiga forfarandestegen enligt uppfinningen. Den andra styrenheten 210 kan anvandas for att ladda Over programkod till den forsta styrenheten 200, i synnerhet programkod for att utfora det uppfinningsmassiga forfarandet. Den andra styrenheten 210 kan alternativt vara anordnad for kommunikation med den forsta styrenheten 200 via ett internt natverk i fordonet. Den andra styrenheten 210 kan vara anordnad att utfora vasentligen likadana funktioner som den forsta styrenheten 200, sasom t.ex. att under icke fortlopande dosering av brnsle hos HC-doseringssystemet, under fortsatt uppratthAllen drift av namnda trycksattningsorgan, sanka trycket hos namnda bransle vid doseringsenheten jamfort med trycket vid fortlopande dosering. A second control unit 210 is arranged for communication with the first control unit 200 via a long L210. The second control unit 210 may be releasably connected to the first control unit 200. The second control unit 210 may be a control unit external to the vehicle 100. The second control unit 210 may be arranged to perform the inventive method steps according to the invention. The second control unit 210 can be used to load Over program code to the first control unit 200, in particular program code to perform the inventive method. The second control unit 210 may alternatively be arranged for communication with the first control unit 200 via an internal network in the vehicle. The second control unit 210 may be arranged to perform substantially the same functions as the first control unit 200, such as e.g. that during non-continuous dosing of fuel of the HC dosing system, during continued maintenance of said pressurizing means, lower the pressure of said fuel at the dosing unit compared with the pressure at continuous dosing.
Den forsta styrenheten 200 är anordnad for kommunikation med en forsta temperatursensor 240 via en lank L240. Temperatursensorn 240 är anordnad att detektera en rAdande temperatur Ti hos en avgasstrom frAn fordonets motor. Enligt ett exempel är den forsta temperatursensorn 240 anordnad hos namnda avgaskanal 290 direkt nedstrOms fordonets uppstroms doseringsenheten 250. Temperatursensorn 240 kan vara forefintligt anordnad p5 lampligt stalle hos namnda avgaskanal 290. Den forsta temperatursensorn 2 ar anordnad att fortlopande detektera en rAdande temperatur Templ hos avgasstrommen och skicka signaler innefattande information om namnda rAdande temperatur Tempi via lanken L240 till den forsta styrenheten 200. The first control unit 200 is arranged for communication with a first temperature sensor 240 via a long L240. The temperature sensor 240 is arranged to detect an ambient temperature Ti of an exhaust stream from the vehicle's engine. According to one example, the first temperature sensor 240 is arranged at said exhaust duct 290 directly downstream of the vehicle upstream dosing unit 250. The temperature sensor 240 may be provided at a suitable location of said exhaust duct 290. The first temperature sensor 2 is arranged to continuously detect an exhaust gas temperature and send signals containing information about the said temperature Tempi via the line L240 to the first control unit 200.
Den forsta styrenheten 200 är anordnad for kommunikation med en andra temperatursensor 260 via en lank L260. Den andra temperatursensorn 260 kan vara 19 anordnad att detektera en radande temperatur Temp2 hos en yta i avgassystemet dar branslet forangas. Den andra temperatursensorn 260 kan vara anordnad att detektera en radande temperatur Temp2 hos avgaskanalen 290 pa lampligt stalle. Den andra temperatursensorn 260 kan vara anordnad att detektera en radande temperatur Temp2 hos en lamplig yta eller komponent hos avgaskanalen 290. Enligt ett exempel är den andra temperatursensorn 260 anordnad hos avgaskanalen 290 uppstroms doseringsenheten 250. Enligt ett exempel är den andra temperatursensorn 260 anordnad i avgaskanalen 290 uppstr6ms doseringsenheten 250. Enligt ett annat exempel är den andra temperatursensorn 260 anordnad i en forangningsenhet (ej visad) eller en SCR-katalysator (ej visad) nedstroms partikelfiltret 270. Den andra temperatursensorn 260 är anordnad att fortlopande detektera en radande temperatur Temp2 hos en yta eller en komponent hos avgaskanalen 290 och skicka signaler innefattande information om namnda radande temperatur Temp2 via lanken L260 till den forsta styrenheten 200. The first control unit 200 is arranged for communication with a second temperature sensor 260 via a long L260. The second temperature sensor 260 may be arranged to detect a radiating temperature Temp2 of a surface in the exhaust system where the fuel evaporates. The second temperature sensor 260 may be arranged to detect a radiating temperature Temp2 of the exhaust duct 290 in a suitable place. The second temperature sensor 260 may be arranged to detect a radiating temperature Temp2 of a suitable surface or component of the exhaust duct 290. According to one example, the second temperature sensor 260 is arranged at the exhaust duct 290 upstream of the dosing unit 250. According to one example, the second temperature sensor 260 is arranged in the exhaust duct. 290 upstream of the dosing unit 250. According to another example, the second temperature sensor 260 is arranged in an evaporator unit (not shown) or an SCR catalyst (not shown) downstream of the particle filter 270. The second temperature sensor 260 is arranged to continuously detect a radiating temperature Temp2 of a surface or a component of the exhaust duct 290 and send signals including information about said radiating temperature Temp2 via the line L260 to the first control unit 200.
Enligt ett utf6rande finns det en temperatursensor anordnad mellan oxidationskatalysator 269 och partikelfiltret 270. Denna temperatursensor anvands harvid for att mojliggora overvakningidetektering av temperaturforlopp hos oxidationskatalysatorn 269. According to one embodiment, there is a temperature sensor disposed between the oxidation catalyst 269 and the particulate filter 270. This temperature sensor is used here to enable temperature detection monitoring of the oxidation catalyst 269.
Enligt ett utforande är den forsta styrenheten 200 och/eller den andra styrenheten 2 anordnad att berakna namnda f6rsta temperatur Tempt Detta kan ske medelst en inlagrad berakningsmodell. Den forsta styrenheten 200 och/eller den andra styrenheten 210 kan vara anordnade att berakna namnda forsta temperatur Tempi pa basis av exempelvis ett radande avgasmassflode, radande varvtal hos motorn och radande last hos motorn. According to one embodiment, the first control unit 200 and / or the second control unit 2 are arranged to calculate said first temperature Tempt. This can be done by means of a stored calculation model. The first control unit 200 and / or the second control unit 210 may be arranged to calculate said first temperature Tempi on the basis of, for example, a radiating exhaust mass flow, radiating speed of the engine and radiating load of the engine.
Enligt ett utf6rande är den forsta styrenheten 200 och/eller den andra styrenheten 2 anordnad att berakna namnda andra temperatur Temp2. Detta kan ske medelst en inlagrad berakningsmodell. Den forsta styrenheten 200 och/eller den andra styrenheten 210 kan vara anordnade att berakna namnda andra temperatur Temp2 pa basis av exempelvis ett radande avgasmassflode, radande varvtal hos motorn och radande last hos motorn. According to one embodiment, the first control unit 200 and / or the second control unit 2 are arranged to calculate said second temperature Temp2. This can be done by means of a stored calculation model. The first control unit 200 and / or the second control unit 210 may be arranged to calculate said second temperature Temp2 on the basis of, for example, a radiating exhaust mass flow, radiating speed of the engine and radiating load of the engine.
En forsta NOx-givare 255 är anordnad for kommunikation med den forsta styrenheten 200 via en lank L255. Den forsta NOx-givaren 255 är anordnad att fortlopande faststalla en radande NOR-halt hos avgasstrommen uppstroms namnda SCR-katalysator, exempelvis uppstroms namnda partikelfilter 270. Enligt ett exempel är den forsta NO,-givaren 255 anordnad hos avgaskanalen 290 uppstr6ms namnda doseringsenhet 250. Den fOrsta NO,- givaren 255 är anordnad att fortlopande skicka signaler innefattande information om en radande NOR-halt uppstroms namnda SCR-katalysator till den forsta styrenheten 200. A first NOx sensor 255 is provided for communication with the first control unit 200 via a long L255. The first NOx sensor 255 is arranged to continuously determine a radiating NOR content of the exhaust stream upstream of said SCR catalyst, for example upstream of said particle filter 270. According to an example, the first NOx sensor 255 is arranged at the exhaust duct 290 upstream of said dosing unit 250. The first NO 1 sensor 255 is arranged to continuously send signals including information about a radiating NOR content upstream of said SCR catalyst to the first control unit 200.
En andra NO,-givare 265 är anordnad for kommunikation med den forsta styrenheten 200 via en lank L265. Den andra NO,-givaren 265 är anordnad att fortlopande faststalla en radande NO,-halt hos avgasstrommen nedstroms namnda SCR-katalysator. Den andra NOR- givaren 265 är anordnad att fortlopande skicka signaler innefattande information om en radande NOR-halt nedstroms namnda SCR-katalysator till den fOrsta styrenheten 200. A second NO 1 sensor 265 is provided for communication with the first control unit 200 via a long L265. The second NO 1 sensor 265 is arranged to continuously determine a radiating NO 2 content of the exhaust gas stream downstream of said SCR catalyst. The second NOR sensor 265 is arranged to continuously send signals including information about a radiating NOR content downstream of said SCR catalyst to the first control unit 200.
Enligt ett utfOrande är den forsta styrenheten 200 och/eller den andra styrenheten 210 anordnad att berakna namnda forsta NOR-halt uppstroms namnda SCR-katalysator. Detta kan ske medelst en inlagrad berakningsmodell. Den forsta styrenheten 200 och/eller den andra styrenheten 210 kan vara anordnade att berakna namnda forsta NON-halt pa basis av exempelvis ett radande avgasmassflode, radande varvtal hos motorn och radande last hos motorn. According to one embodiment, the first control unit 200 and / or the second control unit 210 are arranged to calculate said first NOR content upstream of said SCR catalyst. This can be done by means of a stored calculation model. The first control unit 200 and / or the second control unit 210 may be arranged to calculate said first NON content on the basis of, for example, a radiating exhaust mass flow, radiating speed of the engine and radiating load of the engine.
Den forsta styrenheten 200 är anordnad att faststalla en radande NO,-omvandlingsgrad pa basis av namnda beraknade eller uppmatta NON-halt uppstroms namnda SCR-katalysator och namnda uppmatta NOR-halt nedstroms namnda SCR-katalysator. The first control unit 200 is arranged to determine a radiating NO, conversion degree on the basis of said calculated or fed NON content upstream of said SCR catalyst and said fed NOR content downstream of said SCR catalyst.
Den forsta styrenheten 200 är anordnad att fortlopande styra drift av HCdoseringssystemet 299 pa basis av sagda forsta temperatur Templ och/eller sagda andra temperatur Temp2. The first control unit 200 is arranged to continuously control the operation of the HC dosing system 299 on the basis of said first temperature Temp and / or said second temperature Temp2.
Den forsta styrenheten 200 är anordnad for kommunikation med en trycksensor 279 via en lank L279. Trycksensorn 279 är anordnad att detektera ett radande tryck P hos branslet hos den andra ledningen 272. Enligt ett exempel är trycksensorn 271 anordnad hos namnda doseringsenhet 250 for att detektera ett tryck P has branslet vid doseringsenheten 250. The first control unit 200 is arranged for communication with a pressure sensor 279 via a long L279. The pressure sensor 279 is arranged to detect a radiating pressure P of the branch of the second line 272. According to an example, the pressure sensor 271 is arranged of said dosing unit 250 to detect a pressure P of the branch at the dosing unit 250.
Trycksensorn 271 kan vara forefintligt anordnad pa lampligt stalle for att mata ett tryck hos branslet vid doseringsenheten 250. Trycksensorn 271 är anordnad att fortlopande 21 detektera ett radande tryck P hos branslet och skicka signaler innefattande information om namnda radande tryck P via lanken L271 till den forsta styrenheten 200. The pressure sensor 271 may be provided in a suitable place to supply a pressure of the branch at the dosing unit 250. The pressure sensor 271 is arranged to continuously detect a radiating pressure P of the branch and send signals including information about said radiating pressure P via the line L271 to the first the control unit 200.
Enligt ett utforande är den forsta styrenheten 200 och/eller den andra styrenheten 2 anordnad att berakna namnda tryck P hos branslet vid sagda doseringsenhet 250. Detta kan ske medelst en inlagrad berakningsmodell. Den forsta styrenheten 200 och/eller den andra styrenheten 210 kan vara anordnade att berakna namnda Tryck P pa basis av exempelvis ett radande varvtal hos pumpen 230 och/eller installningar hos ventilkonfigurationen 288 och/eller varvtal hos pumpen 300 och/eller installningar hos ventilorgan hos sagda fjarde ledning 274. According to one embodiment, the first control unit 200 and / or the second control unit 2 are arranged to calculate said pressure P of the industry at said dosing unit 250. This can be done by means of a stored calculation model. The first control unit 200 and / or the second control unit 210 may be arranged to calculate said pressure P on the basis of, for example, a radiating speed of the pump 230 and / or installations of the valve configuration 288 and / or speeds of the pump 300 and / or installations of valve means of said fourth line 274.
Den forsta styrenheten 200 är anordnad att fortlopande faststalla en radande igensattningsgrad hos sagda partikelfilter 270. Detta kan goras pa lampligt satt. Den forsta styrenheten 200 är anordnad att fortlopande styra drift av HC-doseringssystemet 299 pa basis av namnda igensattningsgrad. Harvid kan det exempelvis avgoras om, och i sa fall nar, en aktiv regenerering av sagda partikelfilter 270 ska in itieras. Den forsta styrenheten 200 är anordnad att styra ett regenereringsfOrlopp hos sagda partikelfilter 270, exempelvis genom fortlopande dosering av sagda bransle for att astadkomma erforderlig temperaturhojning hos avgaser i sagda avgaskanal 290. Dessa dosering kan ske vid ett darfor lampligt tryck P, exempelvis 9 Bar. Vid icke-dosering styrs sagda tryck P till ett lagre tryck, exempelvis 2 Bar, enligt en aspekt av foreliggande uppfinning. The first control unit 200 is arranged to continuously determine a radiating degree of clogging of said particle filter 270. This can be done in an appropriate manner. The first control unit 200 is arranged to continuously control the operation of the HC dosing system 299 on the basis of said degree of clogging. In this case, it can be decided, for example, whether, and in that case when, an active regeneration of said particle filter 270 is to be initiated. The first control unit 200 is arranged to control a regeneration process of said particle filter 270, for example by continuous dosing of said fuel to achieve the required temperature rise of exhaust gases in said exhaust duct 290. These dosing can take place at a suitable pressure P, for example 9 Bar. In the case of non-dosing, said pressure P is controlled to a lower pressure, for example 2 Bar, according to an aspect of the present invention.
Den fOrsta styrenheten 200 är anordnad att styra atminstone ett SCR-system hos fordonet pa basis av namnda NOR-halt uppstroms namnda SCR-katalysator och/eller namnda NOR- halt nedstroms namnda SCR-katalysator. The first control unit 200 is arranged to control at least one SCR system of the vehicle on the basis of said NOR content upstream of said SCR catalyst and / or said NOR content downstream of said SCR catalyst.
Den f6rsta styrenheten 200 är anordnad att fortlopande styra drift av HCdoseringssystemet 299 pa basis av sagda tryck P hos branslet hos doseringsenheten 250. The first control unit 200 is arranged to continuously control the operation of the HC dosing system 299 on the basis of said pressure P of the industry of the dosing unit 250.
Figur 2b visar schematiskt doseringsenheten 250. Doseringsenheten 250 innefattar en vagg 252 med ett sate 253 och ett langstrackt don 251. Sagda don 251 kan vara ett stift eller en 22 nal. Sagda don 251 är forskjutbart anordnat. Sagda don 251 är anordnad att medelst lamplig utrustning, exempelvis en elektromagnetisk utrustning, forskjutas i en fram och tillbakagaende rorelse markerad i Figur 2b i form av en dubbelriktad pil R. Sagda don 251 är forskjutbart anordnat mellan tva andlagen. Vid ett forsta andlage, vilket visas i figur 2b, ligger donets ena ande vasentligen an mot ett sate 253, varvid doseringsenheten 250 är stangd och ingen dosering ska ske. Vid ett andra andlage ligger donets ena ande inte an mot sagda sate 253, varvid doseringsenheten 250 är oppen och dosering kan ske. Figure 2b schematically shows the dosing unit 250. The dosing unit 250 comprises a cradle 252 with a sate 253 and an elongate device 251. Said device 251 may be a pin or a 22 needle. Said device 251 is slidably arranged. Said device 251 is arranged to be displaced by means of lamp equipment, for example an electromagnetic equipment, in a reciprocating movement marked in Figure 2b in the form of a bidirectional arrow R. Said device 251 is displaceably arranged between two breaths. In a first breath, as shown in Figure 2b, one end of the device abuts substantially against a sate 253, the dosing unit 250 being closed and no dosing taking place. At a second abutment, one spirit of the device does not abut said sate 253, whereby the dosing unit 250 is open and dosing can take place.
Bransle är anordnat att ledas till doseringsenheten 250 via ledningen 272 under tryck. Vid dosering av bransle fors donet i en uppatriktad rorelse, vilket medfor att bransle kan passera ut genom en passage 254 till avgaskanalen 290. Vid fortlopande dosering kan donet 251 i en forutbestamd tidsperiod under en viss takt kvarhallas vid sagda andra vandlage sa att bransle kan doseras in i avgaskanalen 290 och under en bestamd tidsperiod under en viss takt kan donet 251 kvarhallas i sagda forsta andlage, och harvid ligga an mot sagda sate 253, sa att bransle inte doseras in i avgaskanalen 290. Bransle is arranged to be led to the dosing unit 250 via the line 272 under pressure. When dosing the fuel, the device is moved in an upward direction, which means that the fuel can pass out through a passage 254 to the exhaust duct 290. In the case of continuous dosing, the device 251 can be retained for a predetermined period of time at a certain rate at said other water layers. into the exhaust duct 290 and for a certain period of time at a certain rate the device 251 can be retained in said first breath, and thereby abut against said sate 253, so that fuel is not dosed into the exhaust duct 290.
Trots att donet 251 befinner sig i sagda forsta andlage, liggande an mot satet 253, kan ett visst lackage av bransle forekomma mellan donet 251 och satet 253, i synnerhet under ett relativt hogt tryck P hos sagda bransle vid doseringsenheten 250. Det uppfinningsmassiga forfarandet, dar sagda tryck hos sagda bransle reduceras da dosering inte ska ske, minskar harvid fordelaktigt sagda lackage. Although the device 251 is in said first abutment, abutting the set 253, a certain leakage of fuel can occur between the device 251 and the set 253, in particular under a relatively high pressure P of said branch at the dosing unit 250. The inventive method, where said pressure in said industry is reduced as dosing should not take place, this advantageously reduces said leakage.
Bransle tillfors harvid doseringsenheten 250 via passagen 272. Bransle som inte doseras matas harvid fran doseringsenheten 250 till sagda behallare 205 via ledningen 273. En flodesriktning for sagda icke-doserade bransle visas med pilar F i Figur 2b. Fuel is supplied to the dosing unit 250 via the passage 272. Fuel that is not dosed is fed from the dosing unit 250 to said container 205 via the line 273. A river direction for said non-dosed fuel is shown by arrows F in Figure 2b.
Den forsta styrenheten 200 är anordnad far kommunikation med en ventilkonfiguration 288 via en lank L288. Sagda forsta styrenhet 200 ar anordnad att styra ventilkonfigurationen 288 och kan harvid stalla in en oppningsgrad hos sagda ventilkonfiguration 288. Genom att styra ventilkonfigurationen 288 till ett atminstone delvis oppet lage kan trycket P hos sagda bransle hos doseringsenheten 250 sankas, enligt en aspekt av foreliggande uppfinning. Genom att styra ventilkonfigurationen 288 till ett 23 atminstone delvis oppet lage, samtidigt som sagda trycksattningsorgan 230 styr en trycksankning hos branslet, kan trycket P hos branslet hos doseringsenheten 250 fordelaktigt sankas relativt snabbt. Enligt en aspekt av foreliggande uppfinning kan alltsa fordelaktiga synergieffekter harvid astadkommas. Det bor papekas att trycket hos branslet hos doseringsenheten 250 kan hojas genom att styra ventilkonfigurationen mot ett stangt lage. The first control unit 200 is arranged for communication with a valve configuration 288 via a long L288. Said first control unit 200 is arranged to control the valve configuration 288 and can thereby set an opening degree of said valve configuration 288. By controlling the valve configuration 288 to an at least partially open layer, the pressure P of said branch of the dosing unit 250 can be reduced, according to an aspect of the present invention. . By controlling the valve configuration 288 to an at least partially open layer, at the same time as said pressurizing means 230 controls a pressure drop of the branch, the pressure P of the branch of the dosing unit 250 can advantageously be lowered relatively quickly. According to one aspect of the present invention, thus, beneficial synergy effects can be achieved. It should be noted that the industry pressure of the metering unit 250 can be increased by directing the valve configuration toward a rod bearing.
Sagda doseringsenhet 250 kan utformas enligt alternativa utf6randen. Styrning av dosering medelst sagda don 251 är enbart ett exempelutforande. Andra doseringskonfigurationer är realiserbara. Enligt ett exempel kan en forskjutbar platta, vilken tacker sagda passage 254, vara anordnad for dosering av bransle pa ett liknande satt. Said dosing unit 250 can be designed according to alternative embodiments. Dosage control by means of said device 251 is only an exemplary embodiment. Other dosage configurations are realizable. According to one example, a displaceable plate, which thanks to said passage 254, may be provided for dosing fuel in a similar manner.
Figur 3a illustrerar schematiskt ett flOdesschema Over ett forfarande vid ett HCdoseringssystem innefattande en doseringsenhet 250 for att dosera bransle in i en motors avgaskanal 290 uppstroms ett partikelfilter 270 for rening av avgaser Iran namnda motor, dar namnda HC-doseringssystem inbegriper trycksattningsorgan 230 for att mata bransle fran en behallare 205 till namnda doseringsenhet 250 anordnad att under tryck dosera namnda bransle till namnda avgaskanal 290. Forfarandet inbegriper ett forsta forfarandesteg s301. Forfarandesteget s301 innefattar steget att: - under perioder av icke fortlopande dosering av bransle, under fortsatt uppratthallen drift av namnda trycksattningsorgan 230, sanka trycket hos namnda bransle vid doseringsenheten jamfort med trycket vid fortlopande dosering. Figure 3a schematically illustrates a flow chart of a method of an HC dosing system comprising a dosing unit 250 for dosing fuel into an engine exhaust duct 290 upstream of a particulate filter 270 for purifying exhaust gas in said engine, said HC dosing system including pressurizing means 230 for feeding fuel. from a container 205 to said dosing unit 250 arranged to dose under pressure said fuel to said exhaust duct 290. The method comprises a first method step s301. The process step s301 comprises the step of: - during periods of non-continuous dosing of fuel, during continued sustained operation of said pressurizing means 230, lowering the pressure of said branch at the dosing unit compared with the pressure at continuous dosing.
Efter steget s301 avslutas forfarandet. After step s301, the procedure is terminated.
Figur 3b illustrerar schematiskt ett flodesschema for ett forfarande vid ett HC- doseringssystem innefattande en doseringsenhet 250 for att dosera bransle in i en motors avgaskanal 290 uppstroms ett partikelfilter 270 for rening av avgaser fran namnda motor, dar namnda HC-doseringssystem inbegriper trycksattningsorgan 230 for att mata bransle fran en behallare 205 till namnda doseringsenhet 250 anordnad att under tryck dosera namnda bransle till namnda avgaskanal 290, enligt en aspekt av foreliggande uppfinning. 24 Forfarandet innefattar ett forfarandesteg s305. Forfarandesteget s305 inbegriper att steget att fortlopande dosera br5nsle medelst sagda doseringsenhet 250 till sagda avgaskanal 209. Dosering kan harvid ske vid ett tryck P1, exempelvis 9 Bar. Efter forfarandesteget s305 utfors ett efterfoljande steg s310. Figure 3b schematically illustrates a flow chart of a process in an HC dosing system comprising a dosing unit 250 for dosing fuel into an engine exhaust duct 290 upstream of a particulate filter 270 for purifying exhaust gases from said engine, said HC dosing system including pressurizing means 230 for feeding fuel from a container 205 to said dosing unit 250 arranged to dose said fuel under pressure to said exhaust duct 290, according to an aspect of the present invention. The method comprises a method step s305. The process step s305 comprises the step of continuously dosing fuel by means of said dosing unit 250 to said exhaust duct 209. Dosing can then take place at a pressure P1, for example 9 Bar. After the process step s305, a subsequent step s310 is performed.
Forfarandesteget s310 kan inbegripa steget att aktivera det uppfinningsmassiga forfarandet. Namnda aktivering kan ske automatiskt. Sagda aktivering kan ske da den forsta styrenheten 200 faststaller att sagda fortlopande dosering av bransle ska avbrytas. Sagda aktivering kan alternativt ske d5 den forsta styrenheten 200 faststaller att sagda fortlopande dosering av bransle har avbrutits. The method step s310 may include the step of activating the inventive method. Named activation can take place automatically. Said activation can take place when the first control unit 200 determines that said continuous dosing of fuel must be interrupted. Said activation can alternatively take place when the first control unit 200 determines that said continuous dosing of fuel has been interrupted.
Forfarandesteget s310 kan inbegripa steget att faststalla ett behov av att sanka trycket hos branslet. Sagda behovet av att sanka trycket hos branslet kan faststallas genom att inbegripa ett eller fler av foljande steg: ett drifttillst5nd hos sagda motorn kontrolleras; tid som passerat fran starten av icke fortlopande dosering registreras; en radande avgastemperatur och eller temperatur hos en lamplig yta eller komponent hos sagda avgaskanal 290 detekteras; - ett rAdande avgasflode detekteras. The process step s310 may include the step of determining a need to lower the pressure of the industry. Said need to lower the pressure of the industry can be determined by including one or more of the following steps: an operating condition of said engine is checked; time elapsed from the start of non-continuous dosing is recorded; a radiating exhaust temperature and or temperature of a suitable surface or component of said exhaust duct 290 is detected; - an exhaust gas flow is detected.
Efter forfarandesteget s310 utfors ett efterfoljande Rirfarandesteg s320. After the procedure step s310, a subsequent stirring step s320 is performed.
Forfarandesteget s320 inbegriper steget att under forutbestamda driftbetingelser hos namnda HC-doseringssystem sanka trycket P hos branslet. Sagda sankning kan inbegripa en sankning fr5n ett tryck P1 till ett tryck P2, enligt vad som beskrivs med hanvisning till exempelvis Figur 4a-4d. Sagda forutbestamda driftbetingelser kan inbegripa att dosering av bransle ska upphOra eller har upphort. Sagda driftbetingelser kan faststallas p5 basis av sagda steg som exemplifierats i forfarandesteg s310, exempelvis genom jamforelse med i den forsta styrenheten 200 inlagrade kriterier. Steget s320 kan inbegripa att sanka namnda tryck genom genom att: reducera ett radande varvtal RPM hos trycksattningsorganet 230; reducera en slagfrekvens hos trycksattningsorganet 230; eller styra en ventilkonfigu ration 288 hos en nedstromssida hos doseringsenheten 250; och/eller - leda bransle fran trycksattningsorganet 230 till behallaren 205 forbi doseringsenheten 250; och/eller styra ett ytterligare trycksattningsorgan 300 anordnat nedstroms doseringsenheten 250. The process step s320 comprises the step of lowering the pressure P of the industry under predetermined operating conditions of said HC dosing system. Said lowering may include a lowering from a pressure P1 to a pressure P2, as described with reference to, for example, Figures 4a-4d. Said predetermined operating conditions may include that dosing of industry shall cease or have ceased. Said operating conditions can be determined on the basis of said steps as exemplified in process step s310, for example by comparison with criteria stored in the first control unit 200. Step s320 may include lowering said pressure by: reducing a radiating speed RPM of the pressurizing means 230; reducing a stroke frequency of the pressurizing means 230; or controlling a valve configuration 288 of a downstream side of the metering unit 250; and / or - directing fuel from the pressurizing means 230 to the container 205 past the dosing unit 250; and / or controlling an additional pressurizing means 300 arranged downstream of the dosing unit 250.
Forfarandet s320 kan inbegripa steget att sanka trycket hos branslet vasentligt. Forfarandet s320 kan inbegripa steget att sanka trycket hos branslet steglost. Forfarandet s320 kan alternativt inbegripa steget att sanka trycket hos branslet i steg. Method s320 may include the step of substantially lowering the pressure of the industry. Method s320 may include the step of lowering the pressure of the industry steplessly. Method s320 may alternatively include the step of lowering the pressure of the industry in steps.
Efter forfarandesteget s320 utfors ett efterfoljande forfarandesteg s330. After the procedure step s320, a subsequent procedure step s330 is performed.
Forfarandesteget s330 kan inbegripa steget att faststalla om en inlagringsgrad hos partikelfiltret 270 understiger ett forutbestamt varde. Om inte, kan det faststallas ett behov av att starta dosering av bransle igen. The method step s330 may include the step of determining if a degree of storage of the particulate filter 270 is less than a predetermined value. If not, there may be a need to start fueling dosing again.
Forfarandesteget s330 kan inbegripa steget att faststalla behov av att aka trycket hos branslet. Vid Aterupptagen dosering av branslet ska trycket hos branslet i ledning 272 vid doseringsenheten 250 Ater okas for att fa en korrekt dosering av bransle i avgaskanalen. Alternativt kan sagda behov faststallas pA basis av en begat-an om att starta fortlopande dosering av bransle. Efter steget s330 utfors ett efterfoljande steg s340. The process step s330 may include the step of determining the need to drive the pressure of the industry. During re-dosing of the fuel, the pressure of the fuel in line 272 at the dosing unit 250 Ater must be increased to obtain a correct dosing of fuel in the exhaust duct. Alternatively, said need can be determined on the basis of a request to start continuous dosing of fuel. After step s330, a subsequent step s340 is performed.
Forfarandesteget s340 inbegriper att, vid faststallt behov, starta dosering av bransle frAn doseringsenheten 250 till avgaskanalen 290 och harvid Ater hoja trycket P pa lampligt sat, exempelvis frAn ett tryck P2 till ett tryck P1. Alternativt kan trycket P hojas pA lampligt sat, exempelvis frAn ett tryck P2 till ett tryck P1, varefter dosering av bransle frAn doseringsenheten 250 till avgaskanalen 290 startas. Efter forfarandesteget s340 avslutas det uppfinningsmassiga forfarandet. 26 Med hanyisning till Figur 4a visas ett diagram dar trycket P hos branslet vid doseringsenheten 250 anges som en funktion av tiden T. Trycket P kan matas medelst sagda trycksensor 279. Alternativt kan trycket P beraknas medelst den forsta styrenheten 200 pa lampligt satt. Vid en tidpunkt TO stangs dosering av branslet ay. Vid en tidpunkt Ti, initieras en trycksankning hos branslet yid doseringsenheten fran en forsta forutbestamd tryckniva P1 till en andra forutbestarnd tryckniva P2. Tidpunkten Ti intraffar yid en viss forutbestamd tidsperiod efter TO. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 2 sekunder. I Figur 4a visas ett exempel dar trycksankningen sker steglost. Vid en viss tidsperiod efter Ti, yid en tidspunkt T2, har trycket P natt den andra forutbestamda nivan P2. Den forutbestamda tidsperioden mellan tidpunkten Ti och tidpunkten T2, och armed trycksankningshastigheten, kan exempelvis bero pa olika driftsfaktorer hos fordonet. Den forsta trycknivan P1 kan exempelvis vara 9 Bar. Den andra trycknivan P2 kan vara exempelvis 2 Bar. Tidsperioden mellan tidpunkterna Ti och T2 kan vara exempelvis 5 sekunder. Vid initiering ay dosering av bransle medelst doseringsenheten 250 kan trycket P styras till en lamplig tryckniva, exempelvis till sagda forsta tryckniva Pi, pa lampligt satt, exempelvis steglost. The process step s340 comprises, if the need is determined, starting dosing of fuel from the dosing unit 250 to the exhaust duct 290 and thereby again raising the pressure P in an appropriate manner, for example from a pressure P2 to a pressure P1. Alternatively, the pressure P can be increased in a suitable manner, for example from a pressure P2 to a pressure P1, after which dosing of fuel from the dosing unit 250 to the exhaust duct 290 is started. After the process step s340, the inventive process is completed. Referring to Figure 4a, a diagram is shown in which the pressure P of the industry at the dosing unit 250 is indicated as a function of time T. The pressure P can be supplied by said pressure sensor 279. Alternatively, the pressure P can be calculated by means of the first control unit 200 in a suitable manner. At a time TWO rod dosing of the branch ay. At a time T1, a pressure drop in the industry is initiated by the dosing unit from a first predetermined pressure level P1 to a second predetermined pressure level P2. The time Ti occurs yid a certain predetermined time period after TO. This time period can be an appropriate time period, for example 2 seconds. Figure 4a shows an example where the pressure drop takes place steplessly. At a certain time period after Ti, yid a time T2, the pressure P night has the second predetermined level P2. The predetermined time period between time T1 and time T2, and the armed pressure drop rate, may, for example, depend on various operating factors of the vehicle. The first pressure level P1 can, for example, be 9 Bar. The second pressure level P2 can be, for example, 2 Bar. The time period between the times T1 and T2 can be, for example, 5 seconds. When initiating the dosing of fuel by means of the dosing unit 250, the pressure P can be controlled to a suitable pressure level, for example to said first pressure level Pi, in a suitable manner, for example stepless.
Enligt ett exempelutforande kan sagda tryck P1 dar det är tillampligt sankas direkt till sagda tryck P2. Enligt ett exempelutforande kan sagda tryck P2 dar det är tillampligt iikas direkt till sagda tryck Pl. According to an exemplary embodiment, said pressure P1, where applicable, can be collected directly to said pressure P2. According to an exemplary embodiment, said pressure P2 can be applied directly to said pressure P1 where applicable.
Med hanvisning till Figur 4b visas ett diagram dar trycket P hos branslet vid doseringsenheten 250 anges som en funktion av tiden T. Trycket P kan matas medelst sagda trycksensor 279. Alternativt kan trycket P beraknas medelst den forsta styrenheten 200 pa lampligt sat. Vid en tidpunkt TO stangs dosering av branslet ay. Vid en tidpunkt Ti initieras trycksankningen hos branslet yid doseringsenheten 250 fran en forsta forutbestamd tryckniva P1 till en andra forutbestamd tryckniva P2. Tidpunkten Ti intraffar yid en viss forutbestarnd tidsperiod efter TO. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 2 sekunder. I Figur 4b illustreras en utforingsform dar trycksankningen sker i ett lampligt antal steg, exempelvis 5 steg. Sagda steg kan vara inbordes olika stora. Sagda steg kan vara inbordes lika stora. Vid en viss tidsperiod efter Ti, vid en tidpunkt T2, har trycket P natt den andra forutbestamda nivan P2. Den 27 forutbestamda tidsperioden mellan tidspunkten Ti och tidspunkten 12, tillika stegen i vilka trycksankningen sker, kan bero p5 olika driftsfaktorer hos fordonet. Den forsta tryckniv5n P1 kan exempelvis vara 9 Bar. Den andra tryckniv5n P2 kan vara exempelvis 2 Bar. Tidsperioden mellan tidpunkterna Ti och T2 kan vara exempelvis 5 sekunder. Ett steg kan vara exempelvis 1 eller 2 Bar. Vid initiering av dosering av bransle medelst doseringsenheten 250 kan trycket P styras till en lamplig tryckniv5, exempelvis till sagda forsta trycknivA P1, p5 lampligt sat, exempelvis steglost. Referring to Figure 4b, a diagram is shown in which the pressure P of the branch at the dosing unit 250 is indicated as a function of time T. The pressure P can be supplied by said pressure sensor 279. Alternatively, the pressure P can be calculated by means of the first control unit 200 in a suitable manner. At a time TWO rod dosing of the branch ay. At a time T1, the pressure drop of the industry yid the dosing unit 250 is initiated from a first predetermined pressure level P1 to a second predetermined pressure level P2. The time Ti occurs yid a certain predetermined time period after TO. This time period can be an appropriate time period, for example 2 seconds. Figure 4b illustrates an embodiment where the pressure drop takes place in an appropriate number of steps, for example 5 steps. Said steps can be on board different sizes. Said steps can be on board the same size. At a certain time period after T1, at a time T2, the pressure P night has the second predetermined level P2. The predetermined time period between time Ti and time 12, as well as the steps in which the pressure drop takes place, may depend on different operating factors of the vehicle. The first pressure level P1 can, for example, be 9 Bar. The second pressure level P2 can be, for example, 2 Bar. The time period between the times T1 and T2 can be, for example, 5 seconds. A step can be, for example, 1 or 2 Bar. When initiating dosing of fuel by means of the dosing unit 250, the pressure P can be controlled to a suitable pressure level 5, for example to said first pressure level P1, p5 suitably set, for example stepless.
Med hanvisning till Figur 4c visas ett diagram d5r trycket P hos branslet vid doseringsenheten 250 anges som en funktion av tiden T. Trycket P kan matas medelst sagda trycksensor 279. Alternativt kan trycket P beraknas medelst den forsta styrenheten 200 pa lampligt sat. Vid en tidpunkt TO stangs dosering av brat-Islet ay. Vid en tidpunkt Ti initieras en trycksankning hos branslet vid doseringsenheten 250 fr5n en forsta forutbestamd trycknivA P1 till en forutbestamd trycknivA PX. Tidpunkten Ti intraffar vid en viss forutbestarnd tidsperiod efter TO. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 5 sekunder. I Figur 4c illustreras en utforingsform dar trycksankningen sker i tv5 steg. Vid en viss tidsperiod efter Ti, initieras en trycksankning d trycket steglost sanks frAn sagda forsta forutbestamda tryckniv5 P1 till sagda tryckniv5 PX. Trycket P nAr sagda trycknivA PX vid en andra tidpunkt T2. Tidpunkten 12 intraffar vid en viss forutbestamd tidsperiod efter tidpunkten Ti. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 2 sekunder. Den forutbestamda tidsperioden mellan tidpunkten Ti och tidpunkten T2, och darmed trycksankningshastigheten, kan exempelvis bero p5 olika driftsfaktorer hos fordonet. Flarvid uppratth5lls sagda tryckniv5 PX till en forutbestamd tidpunkt T3. Vid sagda tidpunkt T3 initieras en andra steglos trycksankning frAn sagda trycknivA PX till en andra tryckniv5 P2. Trycket P na'r sagda andra tryckniv5 P2 vid en fiat-de tidpunkt T4. Tidpunkten T4 Intl-Oar vid en viss forutbestamd tidsperiod efter tidpunkten T3. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 3 sekunder. Den forutbestamda tidsperioden mellan tidpunkten T3 och tidpunkten T4, och darmed trycksankningshastigheten, kan exempelvis bero p5 olika driftsfaktorer hos fordonet. Den forsta trycknivk P1 kan exempelvis vara Bar. Den andra trycknivk P2 kan vara exempelvis 2Bar. Trycknivk PX kan vara exempelvis Bar. Vid initiering av dosering av bransle medelst doseringsenheten 250 kan trycket P 28 styras till en lamplig tryckniva, exempelvis till sagda forsta tryckniva P1, pa lampligt sat, exempelvis steglost. Referring to Figure 4c, a diagram is shown in which the pressure P of the branch at the dosing unit 250 is indicated as a function of the time T. The pressure P can be supplied by said pressure sensor 279. Alternatively, the pressure P can be calculated by the first control unit 200 in a suitable manner. At a time TWO rod dosing of brat-Islet ay. At a time Ti, a pressure drop in the industry at the dosing unit 250 is initiated from a first predetermined pressure level P1 to a predetermined pressure level PX. The time Ti occurs at a certain predetermined time period after TO. This time period can be an appropriate time period, for example 5 seconds. Figure 4c illustrates an embodiment where the pressure drop takes place in two steps. At a certain time period after Ti, a pressure drop is initiated when the pressure drops steplessly from said first predetermined pressure level P1 to said pressure level PX. The pressure P is said pressure level PX at a second time T2. Time 12 occurs at a certain predetermined time period after time Ti. This time period can be an appropriate time period, for example 2 seconds. The predetermined time period between the time T1 and the time T2, and thus the pressure drop speed, may, for example, depend on different operating factors of the vehicle. In doing so, said pressure level PX is maintained at a predetermined time T3. At said time T3 a second stepless pressure drop is initiated from said pressure level PX to a second pressure level P2. The pressure P reaches said second pressure level P2 at a fixed time T4. Time T4 Intl-Oar at a certain predetermined time period after time T3. This time period can be an appropriate time period, for example 3 seconds. The predetermined time period between time T3 and time T4, and thus the pressure drop speed, may, for example, depend on different operating factors of the vehicle. The first pressure level P1 can, for example, be Bar. The second pressure level P2 can be, for example, 2Bar. Pressure level PX can be, for example, Bar. When initiating dosing of fuel by means of the dosing unit 250, the pressure P 28 can be controlled to a suitable pressure level, for example to said first pressure level P1, in a suitable manner, for example stepless.
Genom att forst styra trycket P fran sagda niva P1 till sagda niva PX, och harvid avvakta en viss tidsperiod, astadkommes fordelaktigt mojlighet for utvardering och val om huruvida en ytterligare trycksankning fran nivan PX till sagda niva P2 ska genomforas eller ej. For det fall en ytterligare trycksankning fran nivan PX inte är erforderlig kan, vid start av dosering, en tryck6kning till sagda niva P1 astadkommas relativt snabbt, jamfort med en tryckokning fran trycknivan P2 till trycknivan P1. By first controlling the pressure P from said level P1 to said level PX, and thereby waiting for a certain period of time, it is advantageously possible to evaluate and choose whether a further pressure drop from level PX to said level P2 is to be carried out or not. In the event that a further pressure drop from the level PX is not required, at the start of dosing, a pressure increase to said level P1 can be achieved relatively quickly, compared with a pressure increase from the pressure level P2 to the pressure level P1.
Med hanvisning till Figur 4d visas ett diagram dar trycket P hos branslet vid doseringsenheten 250 anges som en funktion av tiden T. Trycket P kan matas medelst sagda trycksensor 279. Alternativt kan trycket P beraknas medelst den forsta styrenheten 200 pa lampligt satt. Vid tiden TO stangs dosering av branslet ay. Vid en tidpunkt Ti initieras en trycksankning hos branslet vid doseringsenheten 250 fran en forsta forutbestamd tryckniva P1 till en tryckniva PX. Tidpunkten Ti intraffar vid en viss forutbestamd tidsperiod efter TO. Denna tidsperiod kan vara en lamplig tidsperiod, exempelvis 3 sekunder. I Figur 4c illustreras en utforingsform dar trycksankningen sker i tva steg. Vid en viss tidsperiod efter Ti, initieras en trycksankning da trycket sanks till sagda niva PX. Vid tidspunkten T2, som intraffar en viss forutbestamd tidsperiod efter Ti, exempelvis 10 sekunder, initieras en andra trycksankning fran trycknivan PX till en andra tryckniva P2. Den forsta trycknivan P1 kan exempelvis vara 15 Bar. Den andra trycknivan P2 kan vara exempelvis 5 Bar. Trycknivan PX kan vara exempelvis 10 Bar. Harvid sker sagda trycksankningar vasentligen momentant. Vid initiering av dosering av bransle medelst doseringsenheten 250 kan trycket P styras till en lamplig tryckniva, exempelvis till sagda fOrsta tryckniva P1, pa lampligt sat, exempelvis steglost. Referring to Figure 4d, a diagram is shown in which the pressure P of the branch at the dosing unit 250 is indicated as a function of time T. The pressure P can be supplied by said pressure sensor 279. Alternatively, the pressure P can be calculated by means of the first control unit 200 in a suitable manner. At time TWO rod dosing of the branch ay. At a time Ti, a pressure drop in the industry at the dosing unit 250 is initiated from a first predetermined pressure level P1 to a pressure level PX. The time Ti occurs at a certain predetermined time period after TO. This time period can be an appropriate time period, for example 3 seconds. Figure 4c illustrates an embodiment where the pressure drop takes place in two steps. At a certain time period after Ti, a pressure drop is initiated when the pressure drops to said level PX. At time T2, which occurs a certain predetermined time period after T1, for example 10 seconds, a second pressure drop is initiated from the pressure level PX to a second pressure level P2. The first pressure level P1 can, for example, be 15 Bar. The second pressure level P2 can be, for example, 5 Bar. The pressure level PX can be, for example, 10 Bar. In this case, said pressure drops take place essentially momentarily. When initiating dosing of fuel by means of the dosing unit 250, the pressure P can be controlled to a suitable pressure level, for example to said first pressure level P1, in a suitable manner, for example stepless.
Det bor papekas att trycksankning av branslet vid doseringsenheten 250 enligt vissa utforingsformer endast sker under forutbestamda kriterier. Dessa kriterier kan t ex vara ett eller flera av foljande: 29 temperaturen hos en lamplig yta hos eller komponent i hos avgaskanalen 290 eller hos avgaserna i avgaskanal 290 understiger ett visst forutbestamt varde, exempelvis 200 grader Celsius; lackage av bransle hos doseringsenheten 250 har detekterats; - regenerering av partikelfiltret 270 är inte erforderlig; regenerering av partikelfiltret 270 är inte aktiv. It should be noted that pressure reduction of the fuel at the dosing unit 250 according to certain embodiments only takes place under predetermined criteria. These criteria may be, for example, one or more of the following: the temperature of a luminescent surface of or component i of the exhaust duct 290 or of the exhaust gases in exhaust duct 290 is below a certain predetermined value, for example 200 degrees Celsius; branch leakage of the dosing unit 250 has been detected; regeneration of the particle filter 270 is not required; regeneration of the particle filter 270 is not active.
Med hanvisning till Figur 5, visas ett diagram av ett utforande av en anordning 500. Styrenheterna 200 och 210 som beskrivs med hanvisning till Figur 2 kan i ett utforande innefatta anordningen 500. Anordningen 500 innefattar ett icke-flyktigt minne 520, en databehandlingsenhet 510 och ett las/skriv-minne 550. Det icke-flyktiga minnet 520 har en fiforsta minnesdel 530 van i ett datorprogram, sA som ett operativsystem, är lagrat for att styra funktionen hos anordningen 500. Vidare innefattar anordningen 500 en buss-controller, en seriell kommunikationsport, 1/0-organ, en A/D-omvandlare, en tids- och datum inmatnings- och overforingsenhet, en handelseraknare och en avbrytningscontroller (ej visade). Det icke-flyktiga minnet 520 har ocks6 en andra minnesdel 540. Referring to Figure 5, there is shown a diagram of an embodiment of a device 500. The controllers 200 and 210 described with reference to Figure 2 may in one embodiment include the device 500. The device 500 includes a non-volatile memory 520, a data processing unit 510, and a read / write memory 550. The non-volatile memory 520 has a fifteenth memory portion 530 used in a computer program, such as an operating system, stored to control the operation of the device 500. Further, the device 500 includes a bus controller, a serial communication port, I / O means, an A / D converter, a time and date input and transfer unit, a trade calculator and an interrupt controller (not shown). The non-volatile memory 520 also has a second memory portion 540.
Det tillhandahalles ett datorprogram P som kan innefatta rutiner for trycksankning av ett bransle vid en doseringsenhet i ett HC-doseringssystem for att forhindra lackage av bransle da doseringsenheten är stangd. Datorprogrammet P kan innefatta rutiner for att under perioder av icke fortlopande dosering av bransle, under fortsatt uppratth5lIen drift av namnda trycksattningsorgan 230, sanka trycket P hos namnda bransle vid doseringsenheten 250 jamfort med trycket vid fortlopande dosering. Datorprogrammet P kan innefatta rutiner for att sanka trycket P hos namnda bransle vid doseringsenheten 2 genom att reducera varvtalet hos namnda trycksattningsorgan 230. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att reducera slagfrekvensen hos namnda trycksattningsorgan 230. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att styra en ventilkonfiguration 288 hos en nedstromssida hos doseringsenheten 250. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle vid doseringsenheten 250 genom att styra ledning av namnda bransle frAn namnda trycksattningsorgan 230 till namnda behAllare 205 forbi namnda doseringsenhet 250. Sagda styrning kan inbegripa styrning av 5tminstone en ventilkonfiguration (ej visad) hos exempelvis sagda ledning 274. Branslet kan harvid ledas forbi namnda doseringsenhet via sagda ledning 274. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle vid doseringsenheten genom att styra ett matningsorgan 300 anordnat nedstroms doseringsenheten 250. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle vid doseringsenheten vasentligt. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle steglost. Datorprogrammet P kan innefatta rutiner for att sanka trycket hos namnda bransle i steg. Datorprogrammet P kan innefatta rutiner for att vid 5terupptagen fortlopande dosering, hoja trycket hos namnda bransle vid doseringsenheten 250. Datorprogrammet P kan innefatta rutiner for att vid en forutbestamd tid innan en faststalld tidpunkt d5 fortlopande dosering av bransle ska upphora, paborja trycksankning hos namnda bransle vid doseringsenheten 250. A computer program P is provided which may include routines for pressure reduction of a fuel at a metering unit in an HC metering system to prevent leakage of fuel when the metering unit is closed. The computer program P may comprise routines for during periods of non-continuous dosing of fuel, during continued maintenance of said pressurizing means 230, lowering the pressure P of said branch at dosing unit 250 compared with the pressure at continuous dosing. The computer program P may include routines for lowering the pressure P of said fuel at the metering unit 2 by reducing the speed of said pressurizing means 230. The computer program P may include routines for lowering the pressure of said branch at the metering unit 250 by reducing the stroke frequency of said pressurizing means 230. The computer program P may include routines for lowering the pressure of said fuel at the metering unit 250 by controlling a valve configuration 288 of a downstream side of the metering unit 250. The computer program P may include routines for lowering the pressure of said branch at the metering unit 250 by controlling line of said branch from said pressurizing means 230 to said container 205 past said dosing unit 250. Said control may comprise controlling at least one valve configuration (not shown) of, for example, said line 274. The fuel may then be led past said dosing unit via said line 274. The computer program P may include routines for lowering the pressure of said branch at the metering unit by controlling a feed means 300 disposed downstream of the metering unit 250. The computer program P may include routines for substantially lowering the pressure of said branch at the metering unit. The computer program P may include routines for lowering the pressure in said industry steplessly. The computer program P may include routines for lowering the pressure of said industry in steps. The computer program P may comprise routines for increasing the pressure of said branch at the dosing unit 250 when the continuous dosing is resumed. The computer program P may comprise routines for, at a predetermined time before a fixed time d5 continuous dosing of the branch ceases, dosage unit 250.
Programmet P kan vara lagrat p5 ett exekverbart vis eller pa komprimerat vis i ett minne 560 och/eller i ett las/skrivminne 550. The program P can be stored p5 in an executable manner or in a compressed manner in a memory 560 and / or in a read / write memory 550.
Nar det är beskrivet att databehandlingsenheten 510 utfor en viss funktion ska det forstAs att databehandlingsenheten 510 utfor en viss del av programmet vilket är lagrat i minnet 560, eller en viss del av programmet som är lagrat i las/skrivminnet 550. When it is described that the data processing unit 510 performs a certain function, it should be understood that the data processing unit 510 performs a certain part of the program which is stored in the memory 560, or a certain part of the program which is stored in the read / write memory 550.
Databehandlingsanordningen 510 kan kommunicera med en dataport 599 via en databuss 515. Det icke-flyktiga minnet 520 är avsett for kommunikation med databehandlingsenheten 510 via en databuss 512. Det separata minnet 560 är avsett att kommunicera med databehandlingsenheten 510 via en databuss 511. Las/skrivminnet 5 är anordnat att kommunicera med databehandlingsenheten 510 via en databuss 514. Till dataporten 599 kan t.ex. lankarna L210, L230, L240, L250, L255, L260, L265, L279, L288 och L300 anslutas (se Figur 2a och Figur 2b). The data processing device 510 can communicate with a data port 599 via a data bus 515. The non-volatile memory 520 is intended for communication with the data processing unit 510 via a data bus 512. The separate memory 560 is intended to communicate with the data processing unit 510 via a data bus 511. Read / write memory 5 is arranged to communicate with the data processing unit 510 via a data bus 514. To the data port 599, e.g. the lanes L210, L230, L240, L250, L255, L260, L265, L279, L288 and L300 are connected (see Figure 2a and Figure 2b).
Nar data mottages p5 dataporten 599 lagras det temporart i den andra minnesdelen 540. When data is received at the data port 599, it is temporarily stored in the second memory portion 540.
Nar mottaget indata temporart har lagrats, är databehandlingsenheten 510 iordningstalld att utfora exekvering av kod pa ett vis som beskrivits ovan. 31 Enligt ett utforande innefattar signaler mottagna pa dataporten 599 information om ett radande tryck P hos branslet vid sagda doseringsenhet 250. Enligt ett utforande innefattar signaler mottagna pa dataporten 599 information om en radande temperatur hos en lamplig yta hos eller komponent i hos avgaskanal 290 och/eller en radande temperatur hos avgaserna i sagda avgaskanal 290. Once the received input data has been temporarily stored, the data processing unit 510 is ready to perform code execution in a manner described above. According to one embodiment, signals received on the data port 599 comprise information about a radiating pressure P of the branch at said dosing unit 250. According to one embodiment, signals received on the data port 599 comprise information about a radiating temperature of a suitable surface of or component i of the exhaust duct 290 or a radiating temperature of the exhaust gases in said exhaust duct 290.
De mottagna signalerna pa dataporten 599 kan anvandas av anordningen 500 for att sanka trycket av ett bransle vid doseringsenheten 250 i ett HC-doseringssystem for forhindra lackage av bransle da doseringsenheten är stangd. The received signals on data port 599 may be used by the device 500 to lower the pressure of a fuel at the metering unit 250 of an HC metering system to prevent leakage of fuel when the metering unit is closed.
Delar av metoderna beskrivna hari kan utforas av anordningen 500 med hjalp av databehandlingsenheten 510 som kor programmet lagrat i minnet 560 eller las/skrivminnet 550. N a r anordningen 500 kor programmet, exekveras hari beskrivna forfaranden. Parts of the methods described herein may be performed by the device 500 using the data processing unit 510 as the program stored in the memory 560 or the read / write memory 550. When the device 500 runs the program, the methods described herein are executed.
Den foregaende beskrivningen av de foredragna utforingsformerna av foreliggande uppfinning har tillhandahallits i syftet att illustrera och beskriva uppfinningen. Det är inte avsett att vara uttommande eller begransa uppfinningen till de beskrivna varianterna. Uppenbarligen kommer manga modifieringar och variationer att framga for fackmannen. The foregoing description of the preferred embodiments of the present invention has been provided for the purpose of illustrating and describing the invention. It is not intended to be exhaustive or to limit the invention to the variations described. Obviously, many modifications and variations will occur to those skilled in the art.
UtfOringsformerna valdes och beskrevs for att bast forklara principerna av uppfinningen och dess praktiska tillampningar, och darmed mojliggiira for fackman att forsta uppfinningen for olika utforingsformer och med de olika modifieringarna som är lampliga for det avsedda bruket. 32 The embodiments were selected and described in order to best explain the principles of the invention and its practical applications, thereby enabling those skilled in the art to understand the invention for various embodiments and with the various modifications which are appropriate to the intended use. 32
Claims (24)
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SE1350272A SE537641C2 (en) | 2013-03-07 | 2013-03-07 | Process of an HC dosing system and an HC dosing system |
PCT/SE2014/050252 WO2014137272A1 (en) | 2013-03-07 | 2014-03-03 | Method pertaining to an hc dosing system and an hc dosing system |
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SE1350272A1 SE1350272A1 (en) | 2014-09-12 |
SE537641C2 true SE537641C2 (en) | 2015-09-01 |
Family
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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SE1350272A SE537641C2 (en) | 2013-03-07 | 2013-03-07 | Process of an HC dosing system and an HC dosing system |
Country Status (2)
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SE (1) | SE537641C2 (en) |
WO (1) | WO2014137272A1 (en) |
Family Cites Families (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
US5709080A (en) * | 1996-03-15 | 1998-01-20 | Caterpillar Inc. | Leak detection method and apparatus for an exhaust purification system |
ATE523238T1 (en) * | 2007-05-16 | 2011-09-15 | Amminex As | METHOD AND APPARATUS FOR THE SAFE STORAGE AND USE OF VOLATILE AMMONIA STORAGE MATERIALS |
DE102008010073B4 (en) * | 2008-02-19 | 2010-10-21 | Thomas Magnete Gmbh | System and method for metering a fluid |
DE102008000932A1 (en) * | 2008-04-02 | 2009-10-08 | Robert Bosch Gmbh | Device for dosing a liquid reducing agent |
EP2204555B1 (en) * | 2009-01-02 | 2011-08-03 | Sensirion AG | Ammonia storage system |
US8409515B2 (en) * | 2009-07-14 | 2013-04-02 | GM Global Technology Operations LLC | Exhaust gas treatment system |
-
2013
- 2013-03-07 SE SE1350272A patent/SE537641C2/en not_active IP Right Cessation
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2014
- 2014-03-03 WO PCT/SE2014/050252 patent/WO2014137272A1/en active Application Filing
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WO2014137272A1 (en) | 2014-09-12 |
SE1350272A1 (en) | 2014-09-12 |
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