DE8806637U1 - Intake manifold for four-cylinder internal combustion engines - Google Patents

Description

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Description

The invention relates to an intake manifold for internal combustion engines with four cylinders for motor vehicles with a substantially U-shaped hollow body in which a first chamber, which has an opening in its center for the supply of the combustion mixture and has two pairs of suction lines arranged next to one another and separated from one another by partition wall sections, and a second chamber are formed, which is separated from the first chamber by a partition wall and has an inlet opening and a discharge opening for a heat medium for the intake manifold.

The invention is based on the object of designing an intake manifold of this type in such a way that its functionality and its performance are increased compared to known intake manifolds.

According to the invention, this object is achieved in that the second chamber is divided longitudinally into two sub-chambers, which are separated from one another by a partition wall formed integrally with the intake manifold, which extends between the two pairs of suction lines and forms an inlet channel or a return channel for the heat medium, wherein the inlet opening and the discharge opening for the heat medium are located on opposite sides of the partition wall at the beginning of the inlet channel or at the end of the return channel.

This solution achieves better heating of the intake manifold by the heat medium, since the thermal exchange area between the medium and the manifold body is increased.

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In an advantageous development of the invention, it is provided that! ³ , the partition wall sections which delimit the suction lines of each pair from one another have a limited length which is preferably not greater than twice the diameter of each suction line.

According to a further feature of the invention, the partition of the intake manifold, which forms the bottom of the first chamber, has a pair of opposing arcuate grooves extending between the central opening for the supply of the combustion mixture and the outer suction lines of the two pairs of suction lines.

This measure makes it easier to start the cold engine, since the two grooves formed at the bottom of the first chamber ensure that the liquid part of the fuel that has not yet been atomized is also guided towards the two outer intake lines, so that the cylinders connected to these intake lines are also effectively supplied with fuel.

It may also be advantageous if the outer wall of the intake manifold has fastening eyes on the side facing away from the intake lines, which serve to attach control and monitoring elements.

Further features and advantages of the invention emerge from the claims and from the following description of an embodiment shown in the drawing.

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Figure 1 is a schematic plan view of an intake manifold for

Four-cylinder internal combustion engines according to the invention ,

Figure 2 a view of the intake manifold in the direction of the arrow II of Figure 1, Figure 3 a view of the intake manifold in the direction of the arrow

I11 of Figure 1,

Figure 4 is a sectional view in plane IV-IV of Figure 3,
Figure 5 is a sectional view in the plane VV of Figure 1,
Figure 6 is a cross-section in the plane VI-VI of Figure 1 and
Figure 7 shows a cross section in the plane VII-VII of Figure 1.

The figures show an intake manifold 1 for internal combustion engines with four cylinders for motor vehicles, which consists of a hollow metal body which is manufactured in one piece by casting in a known manner. The body of the intake manifold 1 has essentially a U-shape and is divided by a partition 2 into an upper chamber 3 and a lower chamber 4. The upper chamber 3 is provided in its center with an upper opening 5, on the outer edge of which a flange 6 is formed. The flange 6 serves to connect a feed element for the combustion mixture to the intake manifold 1, normally a carburetor. The upper chamber 3 is connected at its ends to two pairs of intake lines 7, 8 and 9, 10 which can be connected to the four cylinders of the engine. The suction lines 7, 8 and 9, 10 of each pair are separated from each other by a partition wall section 11 and 12, respectively, which according to the invention has a limited length and is formed on the body of the intake manifold 1. The length of each partition wall section 11 and 12 is preferably not greater than twice the diameter of each suction line.

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According to a further feature of the invention, two opposing, curved grooves 13 are formed on the top of the partition wall 2, which forms the bottom of the upper chamber 3, which grooves 13 extend between the central opening 5 and the outer suction lines 7 and 10 of the two pairs of suction lines. The grooves 13 have the task of collecting any liquid portion of the combustion mixture fed into the upper chamber 3 through the opening 5 during the starting of the cold engine and also of directing it in the direction of the outer suction lines 7 and 10. In this way, the liquid portion is also effectively guided to the cylinders connected to the outer suction lines 7 and 10, so that the two cylinders connected to the inner suction lines 8 and 9 do not receive the majority of the liquid phase and the still cold engine can be started more easily and runs more smoothly.

During operation, the lower chamber 4 serves to circulate a heat medium in the intake manifold 1, normally the engine's cooling liquid. In order to increase the heat exchange between this liquid and the walls of the intake manifold 1, the lower chamber 4 is divided longitudinally into two sub-chambers 4a and 4b by a partition wall 14 formed integrally with the intake manifold 1 and extending in the area between the intake line pairs 7, 8 and 9, 10. As Figure 4 clearly shows, the partition wall 14 consists of two arcuate sections 14a and 14b, which are separated from one another in the central area of the intake manifold 1 by an interruption 14c, and of a deflection section 14d, which extends parallel to the free end of section 14b. The two partial chambers 4a and 4b, which are separated from one another by the partition wall 14, practically form an inlet channel and a return channel for the heat medium, which enters the intake manifold 1 via an inlet opening 15 and leaves it via a discharge opening 16, with both openings being on the side of the intake manifold on which the deflection section 14d is also provided. i.e. on the

Side of the intake lines 9 and 10. On the opposite side of the intake manifold 1, two corresponding openings 17 and 18 are provided, which are normally closed by plugs.

The intake manifold 1 is designed so that an electric or other heater can be installed in the area of a central receiving opening 19 which is opposite the upper opening 5.

According to a further feature of the invention, the rear side of the intake manifold 1, which faces away from the intake lines 7, 8, 9 and 10, has four fastening eyes 20, which are partly in the form of a pipe socket and partly pierceable holes and are used for fastening auxiliary devices, for example for inflow control.

Claims (5)

I » · ■ ■ O ■■ ·· PATENT ATTORNEY DIPL-ING. GERHARD GUSTORF _{Office phone:} EUROPEAN PATENT ATTORNEY Private 0871/25719 G2 127 FIAT AUTO SpA
Via Giovanni Agnelli 200
Turin (Italy) Intake manifold for four-cylinder internal combustion engines Protection claims 1. Intake manifold for internal combustion engines with four cylinders for motor vehicles with a substantially U-shaped hollow body in which a first chamber is formed, which has an opening in its center for the supply of the combustion mixture and has two pairs of suction lines arranged next to one another and separated from one another by partition wall sections, and a second chamber which is separated from the first chamber by a partition wall and has an inlet opening and a discharge opening for a heat medium for the intake manifold, characterized in that the second chamber (4) is divided longitudinally into two sub-chambers (4a, 4b), which are separated from one another by a partition wall (14) formed in one piece with the intake manifold (1), which extends between the two pairs of suction lines (7, 8 and 9, 10) and forms an inlet channel (4a) and a return channel (4b) for the heat medium, the inlet opening (15) and the discharge opening (16) for the heat medium are located on opposite sides of the partition wall (14) at the beginning of the inlet channel (4a) and at the end of the return channel (4b). t( <· It Uli »· ·· I« >·■ · I ■ I JJ J 2. Intake manifold according to claim 1, characterized in that the partition wall (14) has a deflection section (14d) which is opposite the inlet opening (15). 3. Intake manifold according to claim 1 or 2, characterized in that the partition wall sections (11, 12) which delimit the intake lines (7, 8; 9, 10) of each pair from one another have a limited length which is preferably not greater than twice the diameter of each intake line (7, 8; 9, 10). 4. Intake manifold according to one of the preceding claims, characterized in that the partition wall (2) of the intake manifold (1), which forms the bottom of the first chamber (3), has a pair of opposing, arcuate grooves (13) which extend between the central opening (5) for the supply of the combustion mixture and the outer suction lines (7, 10) of the two pairs of suction lines. 5. Intake manifold according to one of the preceding claims, characterized in that the outer wall of the intake manifold (1) on the side facing away from the intake lines (7 to 10) has fastening eyes (20) which serve for fastening control and monitoring elements.