This application claims priority to EP Patent Application No. 09004139 filed Mar. 23, 2009, the contents of which is incorporated herein by reference in its entirety.
The invention relates to a fluid injector.
Increasingly stringent rules concerning the admissibility of noxious emissions from internal combustion engines which are arranged in vehicles render it necessary to take various measures which reduce the emissions.
One way to reduce these emissions is to improve the combustion process in the internal combustion engine. This may be achieved by a precise dosing of fluid into a combustion chamber of the internal combustion engine. In particular for small quantities of fluid the precise dosing is a challenge.
According to various embodiments, a fluid injector can be provided which enables a precise dosing of the fluid.
According to an embodiment, a fluid injector may comprise a valve body having a recess; a valve needle being arranged axially movable in the recess preventing a fluid flow out of an injection nozzle which extends away from the recess in a closing position and enabling the fluid flow of the injection nozzle apart from the closing position and being mechanically coupled to an axial end of a first spring which is preloaded to exert a force on the valve needle towards the injection nozzle; a first armature being mechanically coupled to the valve needle; a second armature being arranged in the recess axially movable away and towards a protrusion of the valve body, the second armature being mechanically coupled to an axial end of a second spring which is preloaded to exert a force on the second armature, the second armature being arranged and designed such that from a closing position of the valve needle towards a first given position away from the closing position the first armature and the second armature are mechanically decoupled, and from the first given position on, further away from the closing position, the first armature and the second armature are mechanically coupled; and a solenoid drive being designed and arranged to magnetically actuate the first armature and the second armature to move axially.
According to a further embodiment, at least one further armature can be arranged in the recess axially movable away and towards a respective further protrusion of the valve body, being mechanically coupled to an axial end of a respective further spring which is preloaded to exert a force on the at least one further armature, being arranged and designed such that from a closing position of the valve needle towards a respective further given position away from the closing position the first armature and the respective further armature are mechanically decoupled, and from the respective further given position on, further away from the first given position, the respective further armature and the first armature are mechanically coupled. According to a further embodiment, an adjusting tube can be arranged in the recess and being designed to preload the first spring, the second spring and the respective further spring by a mechanical coupling. According to a further embodiment, a multitude of adjusting tubes may equal the number of springs and may be arranged concentrically in the recess at a respectively given adjusting tube position such that each adjusting tube preloads a respective spring.
Exemplary embodiments are shown in the following with the aid of schematic drawings. The Figures are illustrating:
Elements of the same design or function are referred to by the same numerals.
According to various embodiments, a fluid injector may comprise a valve body with a recess and a valve needle being arranged axially moveable in the recess. In a closing position of the valve needle a fluid flow out of an injection nozzle which extends away from the recess is prevented and apart from the closing position the fluid flow through the injection nozzle is enabled. The valve needle is mechanically coupled to an axial end of a first spring which is preloaded to exert a force on the valve needle towards the injection nozzle. A first armature is mechanically coupled to the valve needle. A second armature is arranged in the recess axially moveable away and towards a protrusion of the valve body. The second armature is mechanically coupled to an axial end of a second spring which is preloaded to exert a force on the second armature. The second armature is arranged and designed such that from a closing position of the valve needle towards a first given position away from the closing position, the first armature and the second armature are mechanically decoupled, and from the first given position on, further away from the closing position, the first armature and the second armature are mechanically coupled. The fluid injector further comprises a solenoid drive which is designed and arranged to mechanically actuate the first armature and the second armature to move axially.
This enables a precise dosing of fluid through the injection nozzle by an actuation of the valve needle with a precisely determined lift given by the distance between the closing position and the first given position of the valve needle.
In an embodiment, at least one further armature is arranged in the recess being axially moveable away and towards a respective further protrusion of the valve body. The at least one further armature is mechanically coupled to an axial end of a respective further spring which is preloaded to exert a force on the at least one further armature. The at least one further armature is arranged and designed such that from the closing position of the valve needle towards a respective further given position away from the closing position, the first armature and the respective further armature are mechanically decoupled, and from the respective further given position on, further away from the first given position, the respective further armature and the first armature are mechanically coupled.
This enables a precise dosing of fluid through the injection nozzle with the possibility to drive the valve needle in a respective further opening position and such to increase the possible number of dosing intensities.
According to a further embodiment, an adjusting tube is arranged in the recess being designed to preload the first spring, the second spring, and the respective further spring by a mechanical coupling. This allows a simple preload of the first spring, the second spring, and the respective further spring by a mechanical coupling. In particular, for the closing position of the valve needle, the force which is exerted by the first spring is lower than the force which is exerted by the second spring. This means that the preload of the first spring is lower than the preload of the second spring.
According to a further embodiment, a multitude of adjusting tubes which equals the number of springs is arranged concentrically in the recess at a respective given position such that each adjusting tube preloads a respective spring. This enables easily to give the preload individually for the first spring, the second spring and the respective further spring.
A fluid injector (
In a closing position of the valve needle 12, it sealingly rests on a seat 20 and prevents a fluid flow through the at least one injection nozzle 18. The injection nozzle 18 may, for example, be an injection hole. It may, however, also be of some other type suitable for dosing fluid. Furthermore, there can be a multitude of injection nozzles 18 (
The second armature 24 is mechanically coupled to an axial end of a second spring 27 which is preloaded between the second armature 24 and the adjusting tube 10 in order to exert a force on the second armature 24. The preload of the second spring 28 is bigger than the preload of the first spring 16.
The first armature 14, the second armature 24, and the protrusion 26 are arranged and designed such that when the second armature 24 is mechanically coupled to the protrusion 26, there is a first gap 30 of a given size between the first armature 14 and the second armature 24. Furthermore, there is a second gap 32 of a further given size between the second armature 24 and the inner tube 6. In an embodiment the first gap 30 is smaller than the second gap 32.
The fluid injector is provided with a solenoid drive 34 which is arranged in a housing 35. The housing 35 is arranged partially around the valve body 2. Preferably, the solenoid drive 34 may be an electromagnetic drive, comprising a coil which can be preferably overmolded. The housing 35, the inner tube 6, the first armature 14 and the second armature 24 form an electromagnetic circuit together with the valve body 2.
The first threshold I1 corresponds to a lift of the valve needle 12 and the first armature 14 from a closing position PC to a first given Position P1 (
The second threshold I2 (
Dependent on the current I the solenoid drive 34 can be actuated such that either a smaller or a bigger quantity of fluid can be dosed through the injection nozzle 18. However, due to the discrete lifts with their respectively given height, the dosed quantity of the fluid is precisely determinable in both cases.
In an embodiment, the valve body 2 comprises at least one further protrusion and at least one further armature 36 with a respective further cavity 38 is arranged in the recess 4 being coupled to an axial end of a preloaded respective further spring 40 such that it couples to the respective further protrusion. It may for example also be possible to have a multitude of further armatures 36 being arranged in the recess 4. In an embodiment the preload of the respective further spring 40 is bigger than the preload of the second spring 28.
Number | Date | Country | Kind |
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09004139 | Mar 2009 | EP | regional |
Number | Name | Date | Kind |
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5979786 | Longman et al. | Nov 1999 | A |
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6796511 | Hohl | Sep 2004 | B2 |
6892966 | Keim | May 2005 | B2 |
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19948238 | Apr 2001 | DE |
1801409 | Jun 2007 | EP |
2194888 | Mar 1974 | FR |
0157392 | Aug 2001 | WO |
0212714 | Feb 2002 | WO |
Number | Date | Country | |
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20100264229 A1 | Oct 2010 | US |