DE202005012434U1 - Intake manifold for a multi-cylinder internal combustion engine comprises a resonance container with round intake elements incorporating at least one window between respective connector elements - Google Patents

Abstract

The intake manifold for a multi-cylinder internal combustion engine comprises a resonance container (1) with round intake elements (8) incorporating at least one window located between the respective connector elements (2, 3), and carrying a rotatable sleeve (10) with an opening (11) on its periphery.

Description

The The invention relates to an intake manifold with a resonant tank for a multi-cylinder internal combustion engine the type specified in the preamble of claim 1.

From the EP 0 628 707 B1 a resonance system is known, in which each cylinder bank of the internal combustion engine is associated with a resonant tank having pairs of individual intake manifolds of the cylinder connecting piece on an input side and an output side of the resonance container. For each pair of connecting pieces extending within the resonant tank pipe member is provided as an adjustable control member, which forms a separate flow channel between the connecting piece in a closed position. In the known arrangement, the pipe component consists of a fixedly connected to the container portion on which a longitudinally displaceable sleeve is arranged. By longitudinal displacement of the sleeve, the flow channel between the connecting piece can be changed, wherein the longitudinally displaceable sleeve can be applied to the opposite wall portion of the resonant tank and thereby the flow channel can be fluidly separated from the interior of the resonant tank. By moving the sleeve on the fixed pipe section, an annular gap can be opened and thereby a connection of the suction pipes are made to the interior of the resonant tank.

At the resonant tank is in the known arrangement an additional fresh air inlet over a Provided connecting pipe, wherein the connection piece of the input side extended Suction pipes are connected. By closing the control member are separate flow channels formed, the combustion air in the lower speed ranges over the feeds long suction tubes. In upper engine speed ranges, air is delivered through short flow paths supplied as the control elements in the open Position, whereby the filling value of the individual cylinders elevated can be. The individual Saugrohe on the input side form together with the resonant tank a vibration tube system.

The longitudinally movable Sliding sleeves between the intake manifold on the input side and Although the output side of the resonant tank, the annular gap between the fixed pipe section in the resonant tank and the opposite connecting branch optionally bridge. however is due to the required size of the annular gap for the production of flow connections With the required cross section a huge space required. In modern vehicles with larger internal combustion engines However, it is available standing space regularly very limited, so that the known arrangement often can not be used.

Of the The present invention is based on the object, the generic intake manifold develop such that the Space of the resonant tank is reduced and the required flow cross-sections with the adjustable Control member are selectively adjustable.

These The object is achieved by a Saugrohranlage solved with the features of claim 1.

According to the invention is for each Suction tube in the resonant tank a single round Saugrohrabschnitt between the respective connecting piece arranged and as a control member concentric with the Saugrohrabschnitt rotatably arranged rotary sleeve provided. At the circumference of the round Saugrohrabschnitte At least one window is provided which in the closed position the rotary sleeve is covered by the circumference of the rotary sleeve, thereby through separate flow channels the Saugrohrabschnitte are formed. The rotary sleeve is on your Perimeter with per window of an opening provided, which cooperates with the window and by twisting the rotary sleeve a fluidic connection of the Saugrohrabschnitte to the interior of the resonant tank creates. The formation of a window on the circumference of the suction tube allows a very big one Passage cross-section in proportion to the size, thereby the intake manifold and rotary sleeve assembly on very low Installation space can be arranged. The advantage here is the rotary sleeve outside arranged on the Saugrohrabschnitts, whereby on the one hand the flow cross-section inside the suction tube is not affected and on the other simple actuator for the rotary sleeve can be arranged.

In preferred embodiment of the invention is as an actuator Actuator provided, which in parallel lying in a plane Saugrohrabschnitten is arranged transversely to the Saugrohrabschnitten. The control rod carries one actuating pin per rotary sleeve, at a trained on the respective rotary bushing slide guided is, whereby a form-fitting and safe operation by longitudinal displacement the control rod is possible. The control rod can be led out of the resonant tank and there be actuated by an actuator.

Large flow cross sections with small travel ranges of the rotary sleeve can be provided if two diametrically opposite windows are provided in the suction pipe section. A simple installation of the rotary sleeve on the Saugrohrabschnitt results when the rotary sleeve is composed of two interconnected half-shells, which are placed around the suction pipe. Expediently, the suction pipe section is formed by a tube component which can be inserted into the resonance container and which can be preassembled with the rotary sleeve.

Of the required installation space of the intake manifold can be reduced when the compact resonant tank is integrated as an air collector in the intake manifold.

One embodiment The invention is explained below with reference to the drawing. It demonstrate:

1 a plan view of a resonant tank with to connecting piece of the suction pipes,

2 a cross section of the resonant tank according to II-II in 1 .

3 a longitudinal section of the resonant tank according to III-III in 1 ,

1 . 2 and 3 show a resonant tank of a not shown intake manifold of a multi-cylinder internal combustion engine. For the same components in each case the same reference numerals are used in all drawing figures.

The in 1 resonant container shown in plan view 1 points for each intake manifold 6a to 6f the cylinder in pairs connecting piece 2 on an input page 4 and connecting pieces 3 on a home page 5 on. The connecting pieces 2 . 3 are coaxial with the parallel container walls of the input side 4 and the output side 5 educated. Inside the container 7 is between the connecting piece of the individual suction pipes 6a to 6f each round intake manifold parts 8th used. The connecting pieces 2 . 3 are through the suction tube insert 8th connected with each other. On every suction tube insert 8th is a concentrically arranged rotary sleeve 10 rotatably mounted on the circumference openings 11 are omitted. Over the closed section and the recessed openings 11 at the peripheries of the rotary sleeves 10 The rotary sleeves with windows act on the circumference of the suction tube inserts 8th together. In the closed position, the rotary sleeve covers the windows in the suction tube inserts 8th from, creating a closed flow channel through each of the sealed suction pipes 6a to 6f arises. By rotation of the rotary sleeve 10 Optionally, a connection of the suction pipes 6a to 6f with the interior 7 be released of the container.

In this open position, the rotary sleeve is in 2 shown, with the circumference of the rotary sleeve 10 recessed opening 11 in overlap with the window 9 of the intake manifold component 8th is brought. The resonant tank 1 is in the present embodiment as a one-piece component with the aligned connecting piece 2 . 3 trained and takes the pipe component 8th as a separate component in its interior. The intake manifold component 8th with a rotating sleeve attached to it 10 form a very compact module, which optimally utilizes the available space. Appropriately, the container 1 at the same time fulfill the function of an air collector of the intake manifold. In the intermediate positions of the rotary sleeve between the closed position with complete completion of the flow channels and the open position, the vibration behavior of the intake manifold can be set safely and accurately. It can by opening or closing the access to the interior 7 by turning the rotary sleeves 10 Switching the intake manifolds to a higher power requirement of the internal combustion engine takes place in a rapid manner. Are the rotary sleeves in the open position, then deliver all the input tubes 2 Air in the resonant tank 1 and increase the air supply for the respective intake manifolds of the just fired cylinders.

Through the inserted pipe component 8th are direct flow paths through the resonant tank 1 available, whereby the dead volume of the intake manifold is reduced. In the closed position of the rotary sleeves, the intake air flows through a respective channel, so that an optimal reflection of the vacuum wave of the suction process can take place.

The rotary sleeves 10 are formed in two parts in the present embodiment and consist of two half-shells 16a . 16b , As in 3 shown, the half shells 16a . 16b be secured together with clip connections and therefore allow easy mounting on the outside of the pipe component 8th , Between the rotary sleeve 10 and the pipe component 8th is a sealing cage 12 arranged. The rotary sleeve 10 lies on the sealing cage 12 up and is guided by it. To increase the passage cross section from the intake manifold 6 to the interior 7 of the resonant tank 1 are two diametrically opposed windows 9 in the intake manifold 8th intended. Accordingly, at the rotary sleeve 8th opposite recesses 11 intended. The openings 11 the rotary sleeve 10 lie in the dividing plane of the half-shells 16a . 16b , thereby aligning with the intake manifold windows 9 interacting openings 11 is relieved. A large passage cross section is due to large arc angle of the openings 11 reached over something less than 90 °, with the sealing cage 12 always at the more than 90 ° amount ge closed peripheral portions of the rotary sleeve 10 is applied and thus the annular gap between the rotary sleeve 10 and the intake manifold 8th keeps tight.

For controlling the rotary sleeve 10 is an adjusting rod 13 provided, which transversely under the parallel in a plane suction tubes in the container 1 is arranged. On the circumference of each rotary sleeve 10 is a slide rail 14 arranged with a groove into which an adjusting pin 15 the control rod 13 intervenes. The control rod 13 is on one at the tank 1 supported leadership 17 ( 2 ) mounted longitudinally displaceable. By longitudinal displacement of the push rod 13 slide the stoppers 15 in the slide rails 14 the respective rotary sleeves 10 and force over a sliding crank movement twisting the rotary sleeves 10 , The push rod 13 is from the compact resonant tank 1 led out and is operated as required by an actuator, not shown.

Claims (9)

Intake manifold with a resonant tank for a multi-cylinder internal combustion engine, on which for individual intake pipes ( 6 . 6a -f) the cylinder in pairs connecting piece ( 2 . 3 ) on an input side ( 4 ) and an output side ( 5 ) of the resonant tank ( 1 ) are provided with an adjustable control member ( 10 ) for each pair of connecting pieces ( 2 . 3 ), which in a closed position a separate flow channel ( 18 ) between the connecting pieces ( 2 . 3 ) and fluidically from the interior ( 7 ) of the resonant tank ( 1 ), characterized in that in the resonant container ( 1 ) round suction pipe sections ( 8th ) of the suction pipes ( 6 . 6a -f) between the respective connecting pieces ( 2 . 3 ) are arranged, which in each case at the periphery with at least one window ( 9 ) are provided, and that as a control member concentric with the Saugrohrabschnitt ( 8th ) rotatably arranged rotary sleeve ( 10 ) is provided, which with a recessed in its periphery opening ( 11 ) per window ( 9 ) with the window ( 9 ) cooperates. Intake manifold according to claim 1, characterized in that the rotary sleeve ( 10 ) outside the suction pipe section ( 8th ) is arranged. Intake manifold according to claim 1 or 2, characterized in that between the rotary sleeve ( 10 ) and the Saugrohrabschnitt ( 8th ) a sealing cage ( 12 ) is arranged. Intake manifold according to claim 3, characterized in that in the Saugrohrabscnitt ( 8th ) two diametrically opposed windows ( 9 ) are provided. Intake manifold according to one of claims 1 to 4, characterized in that the rotary sleeve ( 10 ) of two interconnected half-shells ( 16a . 16b ) is composed. Intake manifold according to one of claims 1 to 5, characterized in that the Saugrohrabschnitte ( 8th ) lie parallel in a plane and transversely to the Saugrohrabschnitten ( 8th ) an adjusting rod ( 13 ) is arranged, which per rotary sleeve ( 10 ) an actuating pin ( 15 ), which in one at the respective Drehmuffe ( 10 ) trained slide rail ( 14 ) is guided. Intake manifold according to one of claims 1 to 6, characterized in that the resonance container ( 1 ) has an additionally releasable air inlet. Intake manifold according to one of claims 1 to 7, characterized in that the resonance container ( 1 ) is integrated as an air collector in the intake manifold. Intake manifold according to one of claims 1 to 8, characterized in that the suction tube section ( 8th ) by a in the resonant tank ( 1 ) usable tubular component ( 8th ) is formed.