JPH0588190U - Signal generator for internal combustion engine - Google Patents

Abstract

(57) [Abstract] [Purpose] To suppress the vibration of the signal emission electrons due to the vibration of the internal combustion engine and prevent the damage of the signal emission electrons. A mounting plate portion 205a provided on a cover 205 of a signal generator 2 is bolted to a base plate 1 at a position near the front surface of the cover 205 to fix the base plate 1 to a case of an internal combustion engine.
Protrusions 109 are provided on the base plate 1, and the protrusions are brought into contact with the rear end side of the cover 205 for signal emission to the open end on the bottom side of the cover 205.

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a signal generator mounted on an internal combustion engine.

[0002]

[Prior Art]

 Generally, in an internal combustion engine ignited by a non-contact ignition device, an electric signal generated at a predetermined rotational angle position of the engine is required to determine the ignition timing of the ignition device. Therefore, a signal generator that generates a signal at a predetermined rotation angle position in synchronization with the rotation of the internal combustion engine is provided. Generally, a flywheel magnet generator is attached to an internal combustion engine, and the output of the generator drives the ignition device and charges the battery. Although it is possible to provide the signal generator and the magnet generator completely separately, it is preferable to incorporate the signal generator into the magnet generator in order to miniaturize the engine. Therefore, in general, a signal is output by forming a relaxer in a part of the flywheel magnet rotor to form a signal rotor, and outputting a signal voltage according to the magnetic flux change caused by the reluctor of the rotor. The generator is attached to the case of the internal combustion engine.

FIGS. 3 and 4 show the configuration of a conventional signal generator of this kind. In these figures, 1'is a base plate fixed to a case of an internal combustion engine (not shown), and 2 is a base plate. It is a signal emitting electron fixed to the plate 1 '. The base plate 1 ′ has an annular inlay portion 101, an annular outer frame 103 concentrically surrounding the inlay portion and connected to the inlay portion 101 via a rib 102, and an outer frame 103. And a protruding portion 104 protruding in the radial direction from the outer peripheral portion of the outer peripheral portion of the outer frame 103, and a signal generator mounting portion 105 is provided in a part of the outer frame 103. The signal generator mounting portion 105 is formed in a shape that is recessed inward in the radial direction with respect to the other portion of the outer frame 103, and two ribs are provided between the signal transmitter mounting portion 105 and the spigot portion 101. They are connected by 106.

The signal generator 2 has a pulser plate 201 having a substrate portion 201 a and a standing wall portion 201 b bent at a right angle from one end of the substrate portion, and one of the magnetic pole portions on the rising wall portion 201 b of the pulser plate 201. The permanent magnet 202 is brought into contact with the iron core 203, the iron core 203 whose rear end portion is brought into contact with the other magnetic pole portion of the magnet 202, and the signal coil 204 wound around the iron core 203 are provided. It is housed in a pulsar cover 205 made of a ferromagnetic material such as. Plate-shaped arm portions 201c, 201c extending in a direction orthogonal to the axis of the iron core 203 are formed on the other end side of the substrate portion 201a of the pulsar plate 201, and mounting holes are provided in these arm portions, respectively.

The tip of the iron core 203 is a magnetic pole portion 203 a, and the magnetic pole portion 203 a is opposed to the signal generating rotor 3. The rotor 3 comprises a reluctor 301 formed on the boss portion of a flywheel magnet rotor attached to the rotary shaft of an internal combustion engine.

As shown in FIG. 5, the pulsar cover 205 has a structure in which the front surface facing the rotor 3 and the bottom surface facing the base plate 1 ′ are open, and the opening on the bottom surface side of the cover. Mounting plate portions 205a and 205a are provided so as to project from the ends to both sides, and these mounting plate portions are in contact with arm portions 201c and 201c provided on the substrate portion 201a of the pulser plate. The mounting plate portions 205a and 205a of the cover 205 are provided with mounting holes 205b and 205b which are aligned with the mounting holes of the arm portions 201c and 201c of the pulser plate 201.

The arm portions 201c, 201c of the pulsar plate are brought into contact with the pedestal portions 105a, 105a projecting from the signal generator mounting portion 105 of the base plate 1'and inserted into the mounting holes 205b, 205b. The mounting plate portions 205a and 205a of the cover 205 and the arm portions 201c and 201c of the pulsar plate are fastened to the seat portions 105a and 105a with the bolts 4 and 4 fastened together. Both ends of the signal coil 204 are led to the outside through lead wires 206.

The base plate 1 ′ is positioned concentrically with the rotary shaft of the engine by fitting the inner periphery of the spigot portion 101 with the spigot portion formed on the case side of the internal combustion engine, and is provided on the protruding portion 104. It is fixed to the case of the engine by the bolts inserted in the mounting holes 107.

The signal generator 2 and the rotor 3 constitute a signal generator. When the internal combustion engine rotates, every time the reluctor 301 of the rotor 3 faces the magnetic pole portion 203a at the tip of the iron core 203, the permanent magnet 202-the iron core 203-the reluctor 301-the base portion 201a of the pulsar plate-the standing wall portion 201b-the permanent magnet. The magnetic path of the magnet 202 is formed, and the amount of magnetic flux flowing through the iron core 203 increases. Therefore, when the reluctor 301 faces the magnetic pole portion 203a at the tip of the iron core 203, the amount of magnetic flux interlinking with the signal coil 204 increases, and when the reluctor 301 finishes facing the magnetic pole portion 203a, the signal coil 204 chains. The intersecting magnetic flux is reduced. A pulser-shaped signal voltage having different polarity is induced in the signal coil 204 by these changes in magnetic flux.

As described above, when the signal generator is provided inside the magnet generator, the signal coil is affected by the magnetic flux generated by the magnet provided in the rotor of the magnet generator. There is a fear. Further, in the low engine speed range of the internal combustion engine, the rotational speed changes considerably during one revolution of the engine, so that the temporal change rate of the magnetic flux interlinking with the signal coil 204 changes and the output of the signal coil changes. To do. If the signal output fluctuates when the engine is running at low speed, the ignition operation becomes unstable and the operation of the engine becomes unstable. Therefore, it is necessary to minimize the fluctuation of the signal output when running at low speed. Especially in outboard motors, the internal combustion engine is operated at low speed for a long time during trolling, so it is necessary to reduce fluctuations in signal output in order to perform stable ignition operation at low speed. ..

Therefore, in order to stabilize the signal voltage induced in the signal coil and suppress the generation of noise, in the above signal generator, the constituent elements of the signal generating electron are housed in the pulser cover 205 made of a ferromagnetic material. Although they are arranged, in order to induce a signal voltage in the signal coil, as described above, the permanent magnet 202-the iron core 203-the reluctor 301-the base portion 201a of the pulsar plate-the standing wall portion 201b-the magnetism of the permanent magnet 202 is set. Since the passage needs to be formed, the front side and the bottom side of the pulsar cover 205 must be open. Therefore, the center of gravity G of the signal emitting electrons (see FIG. 4) is closer to the back side of the cover than the fastening position of the bolts 4, and a distance h is generated between the fastening position of the signal emitting electrons and the center of gravity. Inevitable.

[0012]

[Problems to be solved by the device]

 As described above, in the signal generator incorporated in the magnet generator, the signal generators 2 are bolted to the base plate 1'at a position closer to the front side of the cover than the center of gravity position thereof. Therefore, when vibration of the internal combustion engine is applied, the signal generator 2 may be swung in the direction of the arrow B around the fastening portion by the bolt 4, and the signal generator may be damaged early.

An object of the present invention is to provide a signal generator for an internal combustion engine in which signal emitting electrons are prevented from being shaken by vibration.

[0014]

[Means for Solving the Problems]

 According to the present invention, a rotor for signal generation constituted by providing a reluctor on a boss portion of a flywheel magnet rotor attached to a rotary shaft of an internal combustion engine and a base plate fixed to a case of the internal combustion engine are fixed. The present invention relates to a signal generator for an internal combustion engine, which includes a signal generator that generates a signal voltage according to a change in magnetic flux generated by a reluctor.

The signal emitting electron has a structure in which components are housed in a cover made of a ferromagnetic material having an opening on a front surface facing the rotor and a bottom surface facing the base plate. A mounting plate is provided so as to extend from the opening end on the bottom side of the cover to both sides.The mounting plate of the cover is bolted to the base plate at a position closer to the front side of the cover than the center of gravity of the signal generator. Has been done.

In the present invention, a protrusion is provided on the base plate on the back side of the cover of the signal-generating electronics so as to come into contact with the opening end on the bottom side of the cover.

[0017]

[Action]

 As described above, when the projection provided on the base plate is brought into contact with the opening end on the bottom side of the cover on the back side of the cover of the signal generator, the signal generator touches when the vibration of the internal combustion engine is transmitted. Therefore, it is possible to prevent the signal generator from being damaged, and it is possible to improve the durability of the signal generator.

[0018]

【Example】

 FIG. 2 shows the overall construction of the embodiment of the present invention. In FIG. 2, 10 is a cup-shaped iron flywheel, and 11 is an inner periphery of the peripheral wall of the flywheel 10. The permanent magnet 12 is fixed by, and 12 is a protective cover that protects the magnet 11. The protective cover 12 is made of a thin plate material other than a ferromagnetic material, such as stainless steel or aluminum. A boss 13 is provided at the center of the bottom wall of the flywheel 10, and the boss 13 is fitted on the rotary shaft of the internal combustion engine.

A flywheel magnet rotor 14 is constituted by the flywheel 10 and the permanent magnet 11. Inside the magnet rotor 14, an annular star iron core 15 is formed by radially projecting a large number of salient pole portions from an annular yoke portion, and a generator coil 16 wound around each salient pole portion of the iron core 15. And a stator 17 composed of the magnet rotor 14 and the stator 17 and the magnet rotor 14 constitute a flywheel magnet generator. A ring gear 18 is attached to the outer periphery of the flywheel 10 so as to mesh with a pinion gear attached to a starter motor for starting the internal combustion engine.

In FIG. 2, 20 is a case of the internal combustion engine, and 21 is a hole through which the rotation shaft of the engine is led out. The case of the engine is provided with a cylindrical spigot portion 22 concentrically surrounding the rotating shaft.

The stator 17 of the magnet generator is attached to the base plate 1 together with the signal generators 2. As shown in FIGS. 1A and 1B, the base plate 1 includes a ring-shaped inlay portion 101, a connecting portion 102, an outer frame 103, and a protruding portion 104 provided with a mounting hole 107. Although it has a signal generator mounting portion 105 and a connecting portion 106, and has a structure similar to that of the base plate 1 ′ that has been conventionally used, in the present invention, the signal transmitter mounting portion 105 has a diameter. An arm portion 108 that protrudes outward in the direction is provided, and a protrusion 109 that protrudes toward the signal generating electron 2 side is provided at the tip of the arm portion 108. The base plate 1 is positioned concentrically with the rotating shaft of the engine by fitting the inlay portion 101 thereof to the outer periphery of an inlay portion 22 provided in the case of the internal combustion engine.

The signal generator 2 is constructed in exactly the same manner as the conventional one, and its constituent elements are housed in a pulsar cover 205 made of a ferromagnetic material such as iron, and a mounting plate portion provided in the cover 205. 205a and 205a are in contact with the substrate portion 201a of the pulser plate. The signal emitting electrons are arranged in a state in which the substrate portion 201a of the pulser plate is brought into contact with the pedestal portion 105a provided on the signal emitting device mounting portion 105 of the base plate, and fastened to the signal emitting electron mounting portion by the bolt 4. It is fixed.

The height of the protrusion 109 is adjusted so that the protrusion 109 is elastically contacted to the opening end on the bottom surface side of the cover 205 on the back surface side of the cover 205 with a predetermined pressure in the state where the signal generator 2 is thus mounted. Is set.

Two reluctors 301, which are projections, are provided on the outer periphery of the boss 13 provided on the flywheel magnet rotor 14 at intervals of 180 degrees, and the boss 13 constitutes the signal generating rotor 3. The magnetic pole portion 203a at the tip of the iron core of the signal generating electron 2 faces the rotor 3 via a predetermined gap, and the signal generating electron 2 and the rotor 3 constitute a signal generator.

The stator 17 of the magneto-generator is arranged with the three mounting holes 15 a provided in the iron core 15 aligned with the three mounting holes 107 provided in the base plate 1, and the iron core 15 The stator 17 and the base plate 1 are fastened together by the bolts 23 screwed into the case of the internal combustion engine through the respective mounting holes and the mounting holes 107 of the base plate 1 and fixed to the case of the engine.

As in the above-described embodiment, the base plate 1 is provided with the protrusion 109 protruding toward the signal emitting side, and the protrusion 109 is abutted against the open end of the cover of the signal emitting side 2 on the back side of the cover 205. When they are brought into contact with each other, the vibration generated in the signal-generating electrons when the vibration of the internal combustion engine is applied is absorbed and suppressed by the elasticity of the pulsar cover 205 and the base plate 1 (in particular, the elasticity of the arm portion 108 in the above embodiments). can do.

Further, by adjusting the height of the protrusion 109 to adjust the contact pressure between the protrusion 109 and the opening end of the pulsar cover 205, it is possible to appropriately adjust the vibration absorbing effect.

In the above-mentioned embodiment, the reluctor is formed by the protrusion, but the reluctor can be formed by the concave portion.

[0029]

[Effect of the device]

 As described above, according to the present invention, the vibration of the signal generating electron is suppressed by bringing the protrusion provided on the base plate into contact with the opening end on the bottom side of the cover on the back side of the signal emitting electron cover. As a result, it is possible to reduce the contact of the signal generating electrons when the vibration of the internal combustion engine is transmitted, and it is possible to prevent the signal generating electrons from being damaged and improve the durability of the signal generator. is there.

[Brief description of drawings]

FIG. 1A is an enlarged sectional view showing a main part of an embodiment of the present invention. (B) is a front view showing a base plate used in the same embodiment and a signal emitting device attached to the base plate.

FIG. 2 is a vertical cross-sectional view showing the overall configuration of the embodiment of the present invention.

FIG. 3 is a front view showing a base plate and signal generators used in a conventional signal generator.

FIG. 4 is an enlarged sectional view of a main part of a conventional signal generator.

FIG. 5 is a perspective view showing a cover of a signal generating electron.

[Explanation of symbols]

 1 base plate 105 signal emitting electronic mounting portion 108 arm portion 109 projection 2 signal emitting electron 201 pulsar plate 201a substrate portion 201b standing wall portion 202 permanent magnet 203 iron core 204 signal coil 205 pulsar cover 3 rotor 301 reluctor 4 bolt 10 flywheel 11 permanent Magnet 13 Boss 14 Flywheel Magnet Rotor 15 Armature Iron Core 16 Generator Coil 17 Magnet Generator Stator

Claims (1)

[Scope of utility model registration request] 1. A signal generating rotor comprising a flywheel magnet rotor mounted on a rotary shaft of an internal combustion engine and a reluctor provided at a boss of the rotor, and a base plate fixed to a case of the internal combustion engine. A signal generator that generates a signal voltage in response to a change in magnetic flux that is fixed and is generated by the reluctor, and the signal generator has a front surface facing the rotor and a bottom surface facing the base plate. Has a structure in which components are housed in a cover made of a ferromagnetic material, and a mounting plate portion is provided so as to project from the opening end on the bottom surface side of the cover to both sides. In a signal generator for an internal combustion engine bolted to the base plate at a position closer to the front side of the cover than the center of gravity of the generator, the base plate is the cover on the back side of the cover of the signal generator. On the bottom side of A signal generator for an internal combustion engine, comprising a protrusion that abuts an opening end.