JP4073285B2 - Starter motor mounting structure - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a starter motor mounting structure in an internal combustion engine, and in particular, closes the disposition positions of the starter motor and the crankshaft so that the distance between the rotation shaft of the starter motor and the crankshaft is shortened. The present invention relates to a mounting structure for a starter motor in the internal combustion engine having the above structure.
[0002]
[Prior art]
In the conventional internal combustion engine, the starter motor is attached in a relationship located outside the outline with respect to the outline drawn by the outer shell of the crankcase of the internal combustion engine. The starter motor is compared with the crankshaft. The starter motor has a large distance between the rotation shaft and the crankshaft, and the transmission of the rotational driving force from the starter motor to the crankshaft is substantially a plurality of intermediate shafts. (See, for example, Patent Document 1).
[0003]
[Patent Document 1]
Japanese Unexamined Patent Publication No. 7-208141 (page 3, FIGS. 1 and 2)
[0004]
[Problems to be solved by the invention]
As shown in FIGS. 5 and 6, the conventional starter motor described in Patent Document 1 is attached to the crankcase 01 of the internal combustion engine as viewed from the side. In relation to the outer shape drawn by the outer shell portion of the case 01 in FIG.
[0005]
The starter motor 02 and the crankshaft 05 are disposed at positions separated from each other, and the distance between the rotation shaft 02d of the starter motor 02 and the crankshaft 05 is large. gear transmission of the rotational driving force from the motor 02 to the crankshaft 05, from said rotary shaft 02d integral with the gear 02e of the starter motor 02, a gear ₀₃ of the intermediate shaft _04, gear ₀₃ 2 of the intermediate shaft 04 _2, made through the gear ₀₅ of the crankshaft 05, the transmission of drive force is made by interposing a plurality of the intermediate shaft 04 _1, 04 _2. (See FIG. 6).
[0006]
As described above, in the conventional starter motor mounting structure in the internal combustion engine, the main body structure portion of the starter motor is located outside the outline drawn by the crankcase when viewed from the side of the crankcase (the plane perpendicular to the crankshaft). The starter motor is located in a position where the crankshaft and the starter motor are separated from each other, and the distance between the rotation shaft of the starter motor and the crankshaft is relatively Largely, the transmission of the rotational driving force from the starter motor to the crankshaft is made through a plurality of intermediate shafts, at least two intermediate shafts in the case of transmission by gears.
[0007]
However, the transmission of the rotational driving force through the plurality of intermediate shafts not only complicates the structure of the power transmission mechanism, but also increases the number of parts such as gears, thereby increasing the size of the engine. Furthermore, the loss of transmission efficiency of the rotational driving force is also increased.
[0008]
Therefore, in the situation described above, an improved structure that focuses on the starter motor mounting structure in the internal combustion engine, in particular, the simplification of the mechanism for transmitting the rotational driving force from the starter motor to the crankshaft, There is a need for a good measure for an appropriate improved structure with a view to improving the transmission efficiency and further reducing the cost by reducing the number of parts.
[0009]
The present invention relates to an improvement in a starter motor mounting structure in an internal combustion engine for solving the above-described problems, and relates to a starter motor, a crankshaft, a driven gear provided on one side of the crankshaft, and the crankshaft. A primary drive gear provided on the other side; a gear of the starter motor for transmitting the rotational driving force of the starter motor to the driven gear; and an intermediate gear; Supported by an annular support portion comprising an opening provided so as to protrude from the case outer shell, and the other side portion of the starter motor is attached and supported by a mounting boss provided in the crank case outer shell. In the starter motor mounting structure, a primary driven gear meshing with the primary drive gear is connected to the other side of the starter motor. One side along the rotation axis of the casing of the starter motor that is in the vicinity in the crankshaft direction extends from the other side of the starter motor to the one side along the rotation axis of the casing. A pair of mounting arms that are fitted and supported by being inserted and extended so that the other side portion of the starter motor spreads out from the other side portion of the starter motor toward the other side. The bolts are attached and supported by a pair of mounting bosses protruding a predetermined amount from a position substantially corresponding to the primary driven gear in the outer case of the crankcase so that the bolts are in a direction perpendicular to the rotation axis of the starter motor. The mounting support position is arranged so as to be substantially at the same height as the center position of the starter motor, and the distance between the pair of mounting boss portions is larger than the diameter of the starter motor. Those characterized that no.
[0012]
DETAILED DESCRIPTION OF THE INVENTION
Hereinafter, an embodiment of the present invention will be described with reference to FIGS.
[0013]
FIG. 1 shows a longitudinal section in a direction along a crankshaft (not shown) of a crankcase 1 in an internal combustion engine. FIG. 1 shows a partial structure of the crankcase 1, and FIG. The starter motor 2 which is a characteristic structure part of the invention and its peripheral structure part are described.
[0014]
Also shown is an intermediate gear 3 etc. that meshes with a gear 2e integral with the rotating shaft 2d of the starter motor 2, and the intermediate gear 3 is driven on one side of the crankshaft 6 not shown in FIG. By meshing with the gear 5, the rotational driving force of the starter motor 2 is transmitted to the crankshaft 6 via the intermediate gear 3 (see FIG. 2).
[0015]
The intermediate gear 3 is a gear having a structure having two gear portions, a large-diameter gear portion 3a and a small-diameter gear portion 3b. The large-diameter gear portion 3a of the intermediate gear 3 is integrated with the rotating shaft 2d of the starter motor 2. The small gear portion 3b of the intermediate gear 3 meshes with the driven gear 5 provided on one side of the crankshaft 6 (see FIG. 2). The rotational driving force of the starter motor 2 is transmitted to the crankshaft 6 through meshing with the gear 5.
[0016]
A primary drive gear (not shown) is provided on the other side of the crankshaft 6 with respect to one side of the crankshaft 6 to which the rotational driving force from the starter motor 2 is transmitted. The primary drive gear is a primary driven gear. 7 meshes.
[0017]
1 to 3, 8 is a clutch, 9 is a speed change mechanism, 10 is a timing chain, and 11 is a cylinder block.
[0018]
The crankcase 1 is provided with a structure portion used for mounting the starter motor 2 on the outer shell portion on the upper portion thereof, and the structure portion has a structure including a recess 1a. The crankshaft on one side of the crankshaft 6 which is a storage portion for the intermediate gear 3 and the driven gear 5 for transmitting the rotational driving force of the rotary shaft 2d of the starter motor 2 to the crankshaft 6. The crankcase is sandwiched between an inner space region and a crankcase inner space region on the other side of the crankshaft 6 that is a housing portion for the gear for meshing the primary drive gear and the primary driven gear 7. It is formed on the outer shell of the upper part of the case 1 corresponding to the space.
[0020]
The arrangement of the starter motor 2 is performed by accommodating the lower portion of the starter motor 2 in the arrangement state of the starter motor 2 in the concave portion 1a, whereby the arrangement state of the starter motor 2 in the concave portion 1a. In this case, the protrusion amount of the starter motor 2 from the outline drawn by the outer shell portion of the crankcase 1 is suppressed to a considerable amount.
[0021]
When the starter motor 2 is disposed in the recess 1a, the starter motor 2 has an opening 1e provided so that the front rotary shaft 2d side protrudes from the upper shell portion of the crankcase 1. The outer case of the crankcase 1 is supported by a pair of mounting arms 2f and 2g, which are supported by an annular support 1d comprising a rear portion 2b extending obliquely rearward from the rear portion 2b of the starter motor 2. Are attached to and supported by mounting bosses 1b and 1b projecting a predetermined amount.
[0022]
More specifically, the support of the front portion of the starter motor 2 by the annular support portion 1d is an annular shape provided at one side forming end in the longitudinal direction of the recess 1a on the upper outer shell portion of the crankcase 1. The opening portion 1e is fitted and supported by the casing portion forward projecting portion 2a of the starter motor 2 with a ring-shaped elastic member 2c (for example, an O-ring) interposed therebetween.
[0023]
And the fitting support of the motor casing part forward protrusion 2a by the opening 1e is such that the center of the opening 1e substantially coincides with the center of the rotating shaft 2d of the starter motor 2. From this relationship, the relationship in which the center of the opening 1e substantially coincides with the longitudinal center of the motor 2 is substantially derived.
[0024]
The support of the motor 2 via the pair of mounting arms 2f and 2g in the rear portion 2b of the starter motor 2 is more specifically in the longitudinal direction of the recess 1a on the upper outer shell of the crankcase 1. This is done via two mounting bosses 1b, 1b that protrude from the other side forming end by a considerable amount (see FIG. 4).
[0025]
Then, the tip ends of the pair of mounting arms 2f and 2g extending obliquely rearward from the rear portion 2b of the starter motor 2 are respectively provided with bolts 1c and the like above the two mounting boss portions 1b and 1b. The two mounting bosses 1b and 1b are formed on the outer side of the upper part of the crankcase 1 substantially corresponding to the upper part of the primary driven gear 7 in the crankcase 2, as can be understood from FIG. It is provided at a position on the shell.
[0026]
The pair of mounting arms 2f and 2g extending from the rear portion 2b of the starter motor 2 has a substantially square shape from the rear portion 2b of the starter motor 2 obliquely rearward as shown in an enlarged view in FIG. The pair of mounting arms 2f, 2g are extended diagonally rearward from the rear portion 2b of the motor-shaped motor 2 in the shape of the letter C, and are attached to the right side in the illustrations of FIGS. This is a kind of compromise selection related to the presence of the cylinder block 11 on the arm 2f side.
[0027]
That is, due to the presence of the cylinder block 11, the right mounting arm 2 f cannot be extended in a direction perpendicular to the longitudinal direction of the motor 2, while the starter motor 2 has a rotational torque at the time of its starting. For the stable support of the motor 2 against the above-mentioned, the above-mentioned C shape is used in the contradictory situation that the support by the mounting arm extending perpendicular to the longitudinal direction of the motor 2 is required. The support structure with the mounting arms 2f and 2g extending to each other is selected.
[0028]
In addition, the mounting support of the rear portion 2b of the starter motor 2 by the two mounting boss portions 1b and 1b via the pair of mounting arms 2f and 2g having a C-shape is as seen in a side view of the starter motor 2. The pair of mounting arms 2f and 2g extending from the motor 2 from the substantially same height as the center line toward the diagonally rearward direction make the motor 2 relatively to the mounting support position. The center of gravity is set at a low position, and stable support is provided. Further, attachment support that is advantageous in suppressing fluctuations in rotational torque in the starter motor 2, in particular, fluctuations in rotational torque when the motor 2 is started up is provided.
[0029]
The starter motor 2 includes the mounting support through a pair of mounting arms 2f and 2g extended in the shape of the letter C by the two mounting boss portions 1b and 1b in the rear portion 2b, The starter motor 2 is supported by the three-point support of the opening portion 1e of the annular support portion 1d in the front projecting portion 2a at the front portion and the support that aligns the center line of the opening portion 1e with the rotation axis of the motor 2. Is supported in a substantially horizontal state, and the center of gravity of the motor 2 is substantially at the same height or slightly below the mounting support position of the motor 2, so that the starter motor 2 is extremely stable and Mounted and supported in a solid state.
[0030]
1 to 4 is configured as described above, the starter motor 2 is substantially housed in the recess 1a formed on the outer shell of the crankcase 1 at the lower part thereof. Therefore, the amount of protrusion from the outline drawn by the outer shell of the crankcase 1 can be suppressed to be relatively small.
[0031]
Therefore, the mounting position of the starter motor 2 approaches the crankshaft 6, and the distance between the two shafts of the rotation shaft 2d of the starter motor 2 and the crankshaft 6 is shortened. The rotational driving force can be transmitted from 2d to the crankshaft 6 through the single intermediate shaft 4, the structure thereof is greatly simplified, the number of parts such as gears can be reduced, and the rotation speed can be reduced. Loss in driving force transmission can also be suppressed.
[0032]
The starter motor 2 is mounted and supported by the mounting boss portions 1b and 1b via a pair of mounting arms 2f and 2g extending from the rear portion 2b of the motor 2 so as to extend obliquely rearward in a C shape. The support is strong, and a stable mounting support that can appropriately cope with fluctuations in the rotational torque of the motor 2 is obtained.
[0033]
The starter motor 2 is mounted and supported via a support by the annular support portion 1d at the front portion of the motor 2 and a pair of mounting arms 2f and 2g having a C-shape at the rear portion 2b of the motor 2. The mounting boss portions 1b and 1b support three points in a substantially horizontal state, and the motor 2 is supported at substantially the same height as the center height in the side view of the starter motor 2. Therefore, the center of gravity of the motor 2 is substantially the same position or slightly below the mounting support position, so that the mounting support of the motor 2 is extremely stable, and the rotational torque when the motor 2 is started An attachment support structure for the starter motor 2 that can appropriately cope with fluctuations is provided.
[Brief description of the drawings]
FIG. 1 is a longitudinal sectional view of a crankcase showing the main structure of the present invention.
FIG. 2 is a cross-sectional view of the internal combustion engine of the present invention as viewed from one side perpendicular to the crankshaft.
FIG. 3 is a cross-sectional view of the internal combustion engine of the present invention as viewed from the other side perpendicular to the crankshaft.
FIG. 4 is an enlarged view of a starter motor mounting portion of the present invention.
FIG. 5 is a cross-sectional view of a conventional internal combustion engine and a partial structure of a crankcase.
FIG. 6 is a cross-sectional view showing a main structure portion of a conventional invention.
[Explanation of symbols]
1 ... crankcase, 1a ... recess, 1b ... mounting boss, 1c ... bolt, 1d ... annular support, 1e ... aperture, 2 ... starter motor, 2a: forward projecting portion of starter motor casing, 2b: rear portion of starter motor, 2c: annular elastic body, 2d: rotating shaft, 2e: gear portion integrated with rotating shaft, 2f, 2g: mounting arm, 3 ... intermediate gear, 3a ... large diameter gear part, 3b ... small diameter gear part, 4 ... intermediate shaft, 5 ... driven gear of crankshaft, 6 ... Crankshaft, 7 ... Primary driven gear, 8 ... Clutch, 9 ... Speed change mechanism, 10 ... Timing chain, 11 ... Cylinder block

Claims (2)

A starter motor, a crankshaft, a driven gear provided on one side of the crankshaft, a primary drive gear provided on the other side of the crankshaft, and a rotational driving force of the starter motor are transmitted to the driven gear. A starter motor gear and an intermediate gear for
One side portion of the starter motor is supported by an annular support portion having an opening provided so as to protrude from the crankcase outer shell portion, and the other side portion of the starter motor is supported by the crankcase outer shell portion. In the mounting structure of the starter motor that is mounted and supported by the mounting boss provided in
A primary driven gear meshing with the primary drive gear is in the vicinity of the other side of the starter motor in the crankshaft direction;
One side portion along the rotation axis of the casing of the starter motor is fitted and supported by being inserted into the annular support portion from the other side portion of the starter motor toward one side portion along the rotation axis of the casing. And
The other side portion of the starter motor is connected to the crankcase outer shell portion via a pair of mounting arms that extend from the other side portion of the starter motor to the other side so as to spread in a C shape . Among them, a pair of mounting bosses projecting a predetermined amount from a position substantially corresponding to the primary driven gear is mounted and supported so that the bolt is in a direction perpendicular to the rotation axis of the starter motor ,
The mounting support position is arranged to be at substantially the same height as the center position of the starter motor,
The starter motor mounting structure is characterized in that an interval between the pair of mounting boss portions is wider than a diameter of the starter motor.   The crankcase outer shell portion is divided at a position substantially corresponding to the primary driven gear of the crankcase outer shell portion, and has a boss portion for fastening them, and the pair of mounting boss portions are positioned in the vicinity of the boss portion. The motor mounting structure according to claim 1, wherein:

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