DE9301632U1

DE9301632U1 - Flow body with a throttle device for a fuel supply system of an internal combustion engine

Info

Publication number: DE9301632U1
Application number: DE9301632U
Authority: DE
Original assignee: JAKOBS KLAUS DIPL ING FH; SCHMIDT EGON DIPL ING FH
Current assignee: JAKOBS KLAUS DIPL ING FH; SCHMIDT EGON DIPL ING FH
Priority date: 1993-02-05
Filing date: 1993-02-05
Publication date: 1994-06-09
Anticipated expiration: 2003-02-06

Description

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Durchströmkörper mit einer Drosseleinrichtung für eine Kr aft stoff versorgungs^u^e eis^er •^erbjr.eijp.i^ngskraf t maschineEGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply and combustion engine

BeschreibungDescription

Durchströmkörper mit einer Drosseleinrichtung für eine KraftstoffVersorgungsanlage einer Verbrennungskraftmaschine, womit die der Verbrennungskraftmaschine zugeführte Luft oder das Luft-Kraftstoffgemisch dosiert werden können.Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered.

Die heutigen Drosselklappenstutzen weisen ein zu großes Gewicht und eine komplizierte mechanische Bearbeitung auf.Today's throttle bodies are too heavy and require complicated mechanical processing.

Große Undichtigkeitsstellen sind, die Durchgangsbohrungen für die Drosselklappenwelle in dem Drosselklappenstutzen und die umlaufende Mantelfläche der Drosselklappe. Diese Durchtrittsstellen sind aufgrund der heutigen Drosselklappenkonstruktion nicht abgedichtet und somit für die heutzutage angestrebte Reduzierung der Leerlaufdrehzahl und somit für die Abgasemission von entscheidendem Nachteil.Large leakage points are the through holes for the throttle valve shaft in the throttle valve body and the surrounding surface of the throttle valve. These passage points are not sealed due to the current throttle valve design and are therefore a significant disadvantage for the reduction in idle speed that is currently being sought and thus for exhaust emissions.

Im Bereich der geschlossenen Drosselklappe ist zum Einstellen der Leckluftmenge die Drosselklappe unter einer definierten Schrägstellung eingebaut, was einen erheblichen Montage- und Justieraufwand darstellt.In the area of the closed throttle valve, the throttle valve is installed at a defined angle to adjust the amount of leakage air, which represents a considerable amount of assembly and adjustment work.

Nur aufgrund von sehr kleinen Fertigungstoleranzen kann der sich zwischen Drosselklappenstutzen und Drosselklappe ergebende Spalt klein gehalten werden.Only due to very small manufacturing tolerances can the gap between the throttle body and the throttle valve be kept small.

Der im Schutzanspruch 1 angegebenen Erfindung liegt das Problem zugrunde, einen Durchströmkörper mit einer Drosseleinrichtung so auszuführen, daß:The invention specified in claim 1 is based on the problem of designing a flow body with a throttle device in such a way that:

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Durchströmkörper mit einer Drosseleinrichtung für eineEGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a

^e«r_tl«ennungskraftmaschine^e«r _t l«nnungskraftmaschine

BeschreibungDescription

- die Drosseleinrichtung mit einfachen Mitteln gegenüber dem Durchströmkörper abgedichtet ist,- the throttle device is sealed against the flow body using simple means,

- die mechanische Bearbeitung zu einem großen Teil reduziert werden kann,- mechanical processing can be reduced to a large extent,

- die Lagerbohrungen der Welle durch das Gehäuse so auszuführen sind, daß sie keinen Einfluß mehr auf die Leckluftmenge haben,- the bearing bores of the shaft through the housing are designed in such a way that they no longer have any influence on the amount of leakage air,

- das Gewicht des Drosselklappenstutzen erheblich reduziert werden kann,- the weight of the throttle body can be significantly reduced,

- keine Leckluft in der Schließstellung des Systemes vorhanden ist.- there is no air leakage in the closed position of the system.

- in Vollaststellung des Drosselorganes kein Bauteil den Durchströmquerschnitt behindert.- when the throttle body is in the full load position, no component obstructs the flow cross-section.

Durch die Anordnung der Dosierklappenwelle außerhalb desBy arranging the metering flap shaft outside the

Durchströmquerschnittes und die Verwendung einer DichtungFlow cross-section and the use of a seal

je Dosierklappe, können die angegebenen Problem mit einfachen Mitteln gelöst werden.per dosing flap, the specified problems can be solved with simple means.

Der so ausgeführte Durchströmkörper kann ohne mechanische Nachbearbeitung in einem Arbeitsgang gefertigt werden. Da je eine Dichtung pro Dosierklappe vorhanden ist, kann die Leckluftmenge vollkommen eliminiert werden. Wird der Durchströmkörper aus zwei Hälften zusammengesetzt, so können die erforderlichen Dichtungen der Dosierklappen in die Trennebene integriert werden.The flow body designed in this way can be manufactured in one operation without mechanical post-processing. As there is one seal per metering flap, the amount of leakage air can be completely eliminated. If the flow body is assembled from two halves, the required seals of the metering flaps can be integrated into the parting plane.

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Durchströmkörper mit einer Drosseleinrichtung für eine Kraftstoffversorgungaanlage ftinejr VerbrennungskraftmaschineEGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system for an internal combustion engine

BeschreibungDescription

Durchströmkörper mit einer Drosseleinrichtung für eine KraftstoffVersorgungsanlage einer Verbrennungskraftmaschine, wobei die der Verbrennungskraftmaschine zugeführte Luft oder das Luft-Kraftstoffgemisch dosiert werden können.Flow body with a throttle device for a fuel supply system of an internal combustion engine, wherein the air or the air-fuel mixture supplied to the internal combustion engine can be metered.

Eine Abdichtung der Lagerstellen gegenüber den Dosierklappen ist nicht mehr erforderlich, da diese Leckluftstelle keinen Einfluß mehr auf die gesamt Leckluftmenge des Systemes hat. Ein Verklemmen der Dosierklappen im Durchströmkörper ist somit auch nicht möglich.Sealing the bearing points against the metering flaps is no longer necessary, as this leakage point no longer has any influence on the total leakage air volume of the system. Jamming of the metering flaps in the flow body is therefore also not possible.

Bei einer Ausführung mit geteiltem Durchströmkörper, kann das Unterteil direkt in die Sauganlage,das Oberteil direkt in das Gehäuse des Luftmassenmessers integriert werden.In a version with a split flow body, the lower part can be integrated directly into the intake system and the upper part directly into the housing of the air mass meter.

Durch die somit erfolgte Abdichtung kann der Verbrennungsmotor mit einer geringeren Leerlaufdrehzahl und damit mit geringerer Abgasemission betrieben werden. Außerdem entfällt der Verschleiß der heutzutage bekannten Drosselklappen. Dadurch, daß sich keine Welle mehr im Durchlaßquerschnitt befindet können die Strömungsverluste erheblich reduziert werden, wobei der Verbrennungsmotor eine wesentlich höhere Leistung abgibt. Ein weiterer Vorteil besteht darin, daß durch eine Abstimmung der Maße der Dosierklappen und der Trennebene jede gewünschte Regelkurve beim Anfahren aus der Schließstellung erreicht wird.The sealing effect achieved in this way means that the combustion engine can be operated at a lower idle speed and therefore with lower exhaust emissions. In addition, the wear and tear of the throttle valves known today is eliminated. As there is no longer a shaft in the passage cross-section, the flow losses can be significantly reduced, while the combustion engine delivers significantly more power. A further advantage is that by coordinating the dimensions of the metering valves and the separation plane, any desired control curve can be achieved when starting from the closed position.

Eine getrennte Bypass-Leerlaufeinrichtung ist möglich und gewährleistet einen größeren Regelbereich. Dadurch entfällt die heute übliche Betätigungskinematik mit progressiv ausgeführten Gelenken und auch die Ausführung mit Anlenkung über Seilscheibe bei in das Gehäuse integrierter Progressionskennlinie.A separate bypass idle device is possible and guarantees a larger control range. This eliminates the need for the actuation kinematics that are common today with progressive joints and also the design with control via a cable pulley with a progression characteristic integrated into the housing.

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Durchströmkörper mit einer Drosseleinrichtung für eine Kraftstoffversorgunjjse^njlage e»inejr VeiibseanungskraftmaschineEGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system of a diesel engine

BeschreibungDescription

Ausführungsbeispiele sind in den Fig.1-6 dargestellt. Es zeigen:Examples of embodiments are shown in Fig.1-6. They show:

Fig.l Vertikalschnitt B-B mit zwei Durchlaßquerschnitten mit Dichtung in der TrennebeneFig.l Vertical section B-B with two passage cross-sections with seal in the parting plane

Fig.2 Geteilter Durchströmkörper mit Trennebenendichtung Fig.3 Abdichtung einer Dosierklappe,Fig.2 Divided flow body with parting line seal Fig.3 Sealing of a dosing flap,

mit Dichtung in der Dosierklappe Fig.4 Abdichtung einer Dosierklappe,with seal in the dosing flap Fig.4 Sealing of a dosing flap,

mit Wustdichtung am Umfang des Durchlaßquerschnittes Fig.5 Abdichtung einer Dosierklappe,with bead seal on the circumference of the passage cross-section Fig.5 Sealing of a dosing flap,

mit Wulstdichtung am Umfang einer Dosierklappe Fig.6 Anlenkung der Dosierklappen über, Betätigungsgestängewith bead seal on the circumference of a metering flap Fig.6 Articulation of the metering flaps via, operating rod

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Durchströmkörper mit einer Drosseleinrichtung für eine Krafts toffVersorgungsanlage einer VerbrennungskraftmaschineEGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system of an internal combustion engine

BeschreibungDescription

Durchströmkörper mit einer Drosseleinrichtung für eine KraftstoffVersorgungsanlage einer Verbrennungskraftmaschine, womit die der Verbrennungskraftmaschine zugeführte Luft oder das Luft-Kraftstoffgemisch dosiert werden können.Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air supplied to the internal combustion engine or the air-fuel mixture can be metered.

In den Figuren sind die folgenden Bauteile dargestellt:The following components are shown in the figures:

Pos.l: Schwenkachse der Dosierklappe Pos.2: Schwenkachse der Dosierklappe Pos.3: Dosierklappe Pos.3a: Dosierklappenunterseite Pos.4: Dosierklappe Pos.4a: Dosierklappenoberseite Pos.5: Durchlaßquerschnitt der Dosierklappe Pos.6: Durchlaßquerschnitt der Dosierklappe Pos.7: Durchströmkörper Pos.8: Verbindungsgestänge Pos.9: Trennebene Pos.9a: Oberseite der Trennebene Pos.9b: Unterseite der Trennebene Pos.10: Durchströmrichtung Pos.11: Dichtung Pos.12: Dichtung Pos.13: Wulstdichtung Pos 14: Wulstdichtung Pos.15: Dichtung Pos.16: Oberteil Durchströmkörper Pos.17: Unterteil Durchströmkörper Pos.18: Trennebenendichtung Pos.19: VerbindungelementPos.l: swivel axis of the metering flap Pos.2: swivel axis of the metering flap Pos.3: metering flap Pos.3a: bottom of the metering flap Pos.4: metering flap Pos.4a: top of the metering flap Pos.5: passage cross-section of the metering flap Pos.6: passage cross-section of the metering flap Pos.7: flow body Pos.8: connecting rod Pos.9: parting plane Pos.9a: top of the parting plane Pos.9b: bottom of the parting plane Pos.10: flow direction Pos.11: seal Pos.12: seal Pos.13: bead seal Pos 14: bead seal Pos.15: seal Pos.16: upper part of the flow body Pos.17: lower part of the flow body Pos.18: parting plane seal Pos.19: connecting element

Claims

EGON SCHMIDT DIPL.-ING. (FH) / KLAUS JAKOBS DIPL^-INC(FH) Flow body with a throttle device for a fuel supply system of an internal combustion engine

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Protection claims

Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered.

1. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the pivot axes (1 and 2) of the metering flaps (3 and 4) lie outside the passage cross sections (5 and 6) of the flow body (7).

2. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the metering flap (3) is firmly connected to the metering flap (4) via mechanical connecting elements (8).

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system of an internal combustion engine

Protection claims

3. Flow body with a throttle device for a fuel supply system of an internal combustion engine, wherein the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the flow body (7) has a separating plane (9).

4. Flow body with a throttle device for a fuel supply system of an internal combustion engine, wherein the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the metering flap (3) opens against the flow direction (10).

5. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the metering flap (4) opens with the flow direction (10).

Protection claims

Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air supplied to the internal combustion engine or the air-fuel mixture can be metered.

6. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a seal (11) is introduced into the upper side (9a) of the separating plane (9), on which the metering flap (3), which opens against the flow direction, rests in the closed state.

7. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a seal (12) is introduced into the underside (9b) of the separating plane (9), on which the metering flap (4), which opens with the flow direction, rests in the closed state.

8. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a seal (15) is introduced into the underside (3a) of the metering flap (3).

■ &diams;

Protection claims

9. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a seal (15) is introduced into the top side (4a) of the metering flap (4).

10. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a bead seal (13) encloses the passage cross sections (5 and 6) of the parting plane (9).

11. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a bead seal (14) encloses the metering flaps (3 and 4).

Protection claims

12. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the flow body (7) consists of an upper part (16) and a lower part (17).

13. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that a seal (18) is inserted between the upper part (16) and the lower part (17) of the flow body (7).

14. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the seals (11 and 12) are joined together with the separating plane (9) using the 2-component plastics technology process.

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system e^inej; internal combustion engine

Protection claims

15. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the seal (13) together with the parting plane (9) are joined together using the 2-component plastics technology process.

16. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the seal (14) is joined together with a metering flap using the 2-component plastics technology process.

17·Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, characterized in that the seal (15) together with a metering flap are assembled using the 2-component plastics technology method.

EGON SCHMIDT DIPL.-ING.(FH) / KLAUS JAKOBS DIPL.-ING.(FH) Flow body with a throttle device for a fuel supply system e,jne.r, internal combustion engine

Protection claims

18·Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, according to protection claim 1, characterized in that

that the flow body (7) consists of a polymeric material.

19. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, according to protection claim 19, characterized in that

that the metering flaps (3 and 4) are made of a polymer material.

20. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, according to protection claim 1, characterized in that

that the metering flaps (3 and 4) are made of a polymer material.

Protection claims

21. Flow body with a throttle device for a fuel supply system of an internal combustion engine, with which the air or the air-fuel mixture supplied to the internal combustion engine can be metered, according to protection claim 21, characterized in that

that the upper part (16) and the lower part (17) of the flow body are made of polymeric material.