JP5145075B2 - Device for detecting rotational position of camshaft in internal combustion engine - Google Patents

Description

  The present invention relates to an apparatus for detecting the rotational position of one or both of an intake valve and an exhaust valve.

  In recent internal combustion engines, control is performed such that the valve timing of one or both of the intake valve and the exhaust valve is changed according to the load or the like in the internal combustion engine. In the change control, it is necessary to always detect the rotational position of the cam shaft, and a magnetic cam sensor is used to detect the rotational position of the cam shaft.

  In this case, in Patent Document 1 as a prior art, the magnet-type cam sensor is mounted on a head cover attached to the upper surface of a cylinder head so as to cover the cam shaft, and the sensing unit in the cam sensor is connected to the cam A configuration is adopted in which a waveform signal is generated between the detected portion and the sensing portion by facing the detected portion in the shaft, and the rotational position of the camshaft is detected from the waveform signal. It is described.

Further, Patent Document 2 as another prior art describes a configuration in which an ignition electromagnetic coil for a spark plug in each cylinder of an internal combustion engine is provided at each cylinder location on the upper surface of the cylinder head. Has been.
JP 2003-322006 A Japanese Patent Application Laid-Open No. 11-303677

  However, in addition to the configuration in which a cam sensor is provided on the head cover that covers the upper surface of the cylinder head as in Patent Document 1, an ignition electromagnetic coil for each cylinder is provided as in Patent Document 2. In the case of the configuration, a waveform signal generated between the sensing part of the cam sensor and the detected object when the ignition electromagnetic coil approaches a sensing part of the cam sensor that is close to the detected part of the cam shaft. In this case, the radio wave of the waveform signal from the ignition electromagnetic coil propagates and overlaps as a noise signal. As a result, there is an error or inability to detect the rotation position of the cam shaft by the cam sensor. There was a problem of adverse effects.

  In particular, this problem, that is, the adverse effect of the ignition electromagnetic coil disposed on the upper surface of the head cover on the detection of the rotational position of the camshaft, was made of synthetic resin in order to reduce the weight of the head cover. In some cases, it became prominent.

  It is a technical object of the present invention to provide a rotational position detection device that solves these problems.

In order to achieve this technical problem, claim 1 of the present invention provides:
“On the upper surface of the head cover that covers the upper surface of the cylinder head, an ignition electromagnetic coil for each cylinder is provided, while a cam sensor that detects the rotational position of the cam shaft is provided on the head cover, and a sensing unit in the cam sensor is connected to the cam shaft. In an internal combustion engine mounted so as to be close to the detected part in
A shielding member for blocking radio waves from the ignition electromagnetic coil toward the sensing unit and the detected part is provided at a site between the sensing part and the detected part and the ignition electromagnetic coil , This shielding member is provided integrally with a bottom plate that forms the bottom of the gas-liquid separation chamber for blow-by gas inside the head cover, and a part of the bottom plate is bent downward . "
It is characterized by that.

  According to the first aspect of the invention, since the radio wave traveling from the ignition electromagnetic coil to the sensing unit and the detected unit can be blocked by the shielding member provided therebetween, the cam sensor can detect the rotational position of the cam shaft. The adverse effects of the ignition electromagnetic coil can be reliably reduced even when the head cover is made of synthetic resin.

The shielding member can be configured to be attached to the cylinder head or the head cover. However, by adopting the configuration described in claim 1, the shielding member is disposed inside the head cover at the bottom of the blow-by gas gas-liquid separation chamber. Since it can be attached together with the bottom plate for forming, the number of parts can be reduced, and the assembly work can be reduced.

  Embodiments of the present invention will be described below with reference to the drawings.

  1 to 3 show a first embodiment.

  In these drawings, reference numeral 1 denotes a cylinder head in an internal combustion engine provided with a plurality of cylinders 2 in a row, and reference numeral 3 denotes a synthetic resin head cover that covers the upper surface of the cylinder head 1.

  On the upper surface of the cylinder head 1, a cam shaft 4 for an intake valve (not shown) of each cylinder 2 and a cam shaft 5 for an exhaust valve (not shown) of each cylinder 2 are arranged on both sides of the cylinder row. The bearings 17 and 18 are rotatably supported by bearings 17 and 18, and disc-shaped detected parts 6 and 7 are connected to cam shafts 4 and 5 at one ends of the cam shafts 4 and 5. 4 and 5 are provided to rotate together.

  On the other hand, gas-liquid separation chambers 8 and 9 for blow-by gas are provided in both the portion of the head cover 2 above the intake valve cam shaft 4 and the portion of the exhaust valve cam shaft 5 in the cylinder row. The bottom portions of the gas-liquid separation chambers 8 and 9 are closed by metal plate bottom plates 10 and 11 attached to the inner surface of the head cover 2, and the gas-liquid separation chambers 8 and 9 are closed. The blow-by gas that has entered the separation chambers 8 and 9 from the inlets 8a and 9a flows in the gas-liquid separation chambers 8 and 9 in a zigzag manner, and the oil components are separated. It is discharged to a blow-by gas processing unit such as a manifold (not shown).

  Further, an ignition electromagnetic coil 12 for an ignition plug (not shown) of each cylinder is arranged for each location of each cylinder 2 in a portion between the gas-liquid separation chambers 8 and 9 in the upper surface of the head cover 3. It is installed.

  Furthermore, magnet type cam sensors 13 and 14 are detachably attached to both the intake valve camshaft 4 portion and the exhaust valve camshaft 5 in the side surface of the head cover 3. The sensing portions 13a and 14a in the cam sensors 13 and 14 are brought close to the detected portions 6 and 7 in the cam shafts 4 and 5, so that the sensing portion 13a in one cam sensor 13 and the detected portion 6 in one cam sensor 13 are connected. The rotational position of the intake valve cam shaft 4 is detected by a waveform signal generated between them, and the exhaust valve is detected by a waveform signal generated between the sensing portion 14a of the other cam sensor 14 and the other detected portion 7. The rotational position of the cam shaft 5 is configured to be detected.

  The bottom plates 10, 11 made of metal plates in the gas-liquid separation chambers 8, 9 have shielding members 15 formed by bending downward at the inlets 8 a, 9 a side into the gas-liquid separation chambers 8, 9, 16 is integrally provided, and the shielding members 15 and 16 are positioned at portions between the ignition electromagnetic coil 12 and the detected portions 6 and 7 in the cam shafts 4 and 5, respectively. The shielding members 15 and 16 block the radio waves of the waveform signal generated in the ignition electromagnetic coil 12 from propagating as noise to the detected parts 6 and 7.

  Thus, even if the head cover 3 is made of a synthetic resin, it is ensured that the detection of the rotational positions of the cam shafts 4 and 5 by the cam sensors 13 and 14 has an adverse effect due to the electromagnetic coil 12 for ignition. Can be reduced.

  In the present embodiment, each of the shielding members 15 and 16 is such that the lubricating oil supplied to the bearing portions 17 and 18 of the cam shafts 4 and 5 is separated from the detected portions 6 and 7 and the gas-liquid separation. It also plays a role of preventing the chambers 8 and 9 from scattering toward the inlets 8a and 9a.

Each of the shielding members 15 and 16 can be configured by folding a part of each of the bottom plates 10 and 11 downward as in the second embodiment shown in FIG.

  Further, the cam sensors 13 and 14 can be attached to the upper surface of the head cover 3 instead of being attached to the side surface of the head cover 3 as shown in the figure.

It is a top view of an internal combustion engine. FIG. 2 is a sectional view taken along line II-II in FIG. 1. FIG. 3 is a sectional view taken along line III-III in FIG. 1. It is sectional drawing which shows 2nd Embodiment.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Cylinder head 2 Cylinder 3 Head cover 4,5 Cam shaft 6,7 Detected part 8,9 Gas-liquid separation chamber for blow-by gas 10,11 Bottom plate 12 Ignition electromagnetic coil 13,14 Cam sensor 13a, 14a Sensing part 15,16 Shielding Element

Claims (1)

An ignition electromagnetic coil for each cylinder is disposed on the upper surface of the head cover that covers the upper surface of the cylinder head, while a cam sensor that detects the rotational position of the cam shaft is provided on the head cover, and a sensing unit in the cam sensor is provided on the cam shaft. In an internal combustion engine mounted so as to be close to the detected part,
A shielding member for blocking radio waves from the ignition electromagnetic coil toward the sensing unit and the detected part is provided at a site between the sensing part and the detected part and the ignition electromagnetic coil , The internal combustion engine characterized in that the shielding member is integrally provided on a bottom plate forming a bottom portion of the gas-liquid separation chamber for blow-by gas inside the head cover, and is formed by bending a part of the bottom plate downward. Rotation position detecting device for the camshaft.

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