This application claims priority to Japanese Patent Application No. 2017-149429 filed on Aug. 1, 2017, the entire disclosure of which is incorporated by reference herein.
The present disclosure relates to a counterweight provided for a crankshaft of an engine, and a crankshaft provided with the counterweight.
As disclosed by Japanese Patent No. 5841977, for example, a counterweight has been provided for a crankshaft of an engine to create unbalance, thereby canceling a reciprocating inertia force.
To make the crankshaft lightweight, the shape of the counterweight may be adjusted. If doing so, however, a portion corresponding to the counterweight may disadvantageously become less filled in a process of forging the crankshaft.
In view of the foregoing, the present disclosure is aimed to provide a counterweight which can make a crankshaft lightweight, and allows a counterweight portion to be filled sufficiently in a forging process of the crankshaft, and a crankshaft provided with the counterweight.
The counterweight disclosed herein forms a crankshaft of an engine, and includes: an arm connecting a crank journal and crank pin of the crankshaft; a neck extending from a junction between the arm and the crank journal in a direction opposite to the crank pin with respect to a crankshaft center; and a weight continuous with a portion of the neck opposite to the arm, the weight being substantially fan-shaped when viewed along the crankshaft, wherein the weight has left and right shoulders continuous with the neck, each of the shoulders being tilted to be away from the neck at an angle with respect to a horizontal direction orthogonal to the crankshaft center when viewed along the crankshaft, the angle being 15° or more and 22.5° or less.
If the angle formed by the shoulder of the counterweight and the horizontal direction orthogonal to the crankshaft center is made smaller, the distance from the crankshaft center to the center of gravity of the counterweight can be made larger. Thus, the counterweight can be made lightweight, while maintaining unbalance required for the counterweight to function properly. On the other hand, if the angle is made larger, the counterweight is filled more sufficiently in the forging process.
According to the present disclosure, the angle formed by the shoulder of the counterweight and the horizontal direction orthogonal to the crankshaft center is set within the above-described range. This can make the counterweight lightweight, and allows the counterweight to be filled sufficiently in the forging process.
In one preferred embodiment, when viewed along the crankshaft, a ratio h/R of a width h of the neck to a radius R of the counterweight from the crankshaft center is 0.44 or more and 0.49 or less.
In this configuration, the ratio h/R is set within the above-described range. Thus, the counterweight can be made lightweight, while keeping in balance with the filling of the counterweight in the forging process.
Further, a crankshaft disclosed herein includes the counterweight described above.
In this configuration, a lightweight, high-performance crankshaft can be provided. This can contribute to improved fuel efficiency and reduced vehicle weight.
As can be seen in the foregoing, the present disclosure controls the angle formed by the shoulder of the counterweight and the horizontal direction orthogonal to the crankshaft center within the above-described range. This can make the counterweight lightweight, and allows the counterweight to be filled sufficiently in the forging process.
Embodiments of the present disclosure will be described in detail below with reference to the drawings. The following embodiments are merely exemplary ones in nature, and are not intended to limit the scope, applications, or use of the invention.
<Crankshaft>
The crankshaft C is provided for a longitudinal in-line four-cylinder gasoline engine. Note that the counterweight CW8 of this embodiment is used not only for the longitudinal in-line four-cylinder engine, but may also be used for the crankshafts of various types of engines such as transverse engines, diesel engines, other in-line multi-cylinder engines, V-type multi-cylinder engines, and single-cylinder engines.
The crankshaft C includes crank journals CJ forming a main shaft thereof, crank pins CP to be connected to a connecting rod (not shown), and counterweights CW each having an arm CA connecting an associated pair of the crank journal CJ and the crank pin CP together. The center axis of the crankshaft C will be hereinafter referred to as a “crankshaft center CS1.” The crankshaft center CS1 passes the centers of the crank journals CJ as will be described later.
The crankshaft C has five crank journals CJ which are pivotably supported by five bushings of a cylinder block (not shown). The crank journals CJ form a main shaft of the crankshaft C whose center is aligned with the crankshaft center CS1 of the crankshaft C. Four crank pins CP are provided to be shifted from the crankshaft center CS1 by a predetermined distance. Each crank pin CP is arranged between adjacent crank journals CJ. The crank pins CP are connected to a big end of a connecting rod (not shown), and function as starting points of a vertical motion of pistons as the crankshaft C rotates about the crankshaft center CS1.
—Direction—
In this specification, a “longitudinal direction” includes directions toward the front and rear of the crankshaft C as shown in
—Method of Manufacturing Crankshaft—
The crankshaft C is forged into a single piece including the crank journals CJ, the crank pins CP, and the counterweights CW.
<Counterweight>
The counterweight CW8 according to the embodiment will be described below.
A skeleton of the crankshaft C is comprised of eight counterweights CW, each of which is present between an adjacent pair of the crank journal CJ and the crank pin CP. In this specification, the eight counterweights CW arranged from the front to the rear are identified by reference characters CW1 to CW8 for the sake of convenience.
The counterweight CW8 according to this embodiment is the rearmost counterweight provided for the rear side of the crankshaft C. The counterweight CW8 according to this embodiment may be arranged at the position of any one of the counterweights CW1 to CW7, or two or more counterweights CW8 may be provided for the crankshaft C.
The counterweight CW8 includes, as described above, the arm CA, the neck 13 extending from the arm CA, and the weight 15 continuous with a portion of the neck 13 opposite to the arm CA.
—Arm—
As shown in
When the counterweight CW8 is viewed from behind, the first connection face 11 is a substantially round face as shown in
When the counterweight CW8 is viewed from the front, the second connection face 12 is a substantially round face with a slightly crushed top as shown in
Note that the first and second connection faces 11 are 12 are described for the sake of convenience. In an actual process of manufacturing the crankshaft C, the crank journals CJ, the crank pins CP, and the counterweights CW are integrally molded into a single piece.
—Neck—
As shown in
The neck 13 allows the center of gravity of the counterweight CW to be shifted downward from the crankshaft center CS1, i.e., toward the weight 15.
Specifically, as shown in
—Weight—
As shown in
When viewed along the crankshaft center CS1 as shown in
As shown in
In this embodiment, as shown in
Specifically, the shoulders 14 extend from the neck 13 below a line L1, which is a straight phantom line passing the lowermost point U1 of the first connection face 11 and extending in the horizontal direction. In other words, when viewed along the crankshaft center CS1, each of the left and right shoulders 14 is tilted to be away from the neck 13 at an angle α with respect to a horizontal direction orthogonal to the crankshaft center CS1, i.e., the line L1.
The center of gravity of the counterweight CW8 can be further shifted downward with a decrease in the angle α formed by each shoulder 14 of the counterweight CW8 and the line L1. In this way, the counterweight CW8 can be made lightweight, while maintaining the unbalance required for the counterweight CW8. On the other hand, if the angle α decreases, the crankshaft C may become less filled in the forging process. Therefore, in one preferred embodiment, the angle α is made larger so that the crankshaft is filled sufficiently.
On conditions that the radius R of the counterweight CW8 is 81 mm and the unbalance is constant, a forging simulation was performed to calculate the filling amount (mm3) of a metallic material that varies depending on the ratio h/R and the angle α. Conditions for the calculation are as follows. Specifically, a simplified die model corresponding to the shape of the counterweight CW8 of the crankshaft C only was formed. Then, the filling amount (mm3) of the metallic material per stroke of 1 mm was calculated on the assumption that a 6000-ton forging press is used to forge carbon steel JIS S45C of 1170° C. at a die temperature of 150° C.
First, as shown in
Then, as shown in
Every counterweight showed the similar filling amount irrespective of the shape as shown in
The results shown in
When viewed along the crankshaft center CS1 as shown in
In this range, the counterweight CW8 can be made lightweight, while keeping in balance with the filling of the counterweight in the forging process.
Other embodiments of the present disclosure will be described below. In the following description, components that have been described in the above embodiment are designated by the same reference characters, and are not described in detail.
It has been described in the above embodiment that the weight 15 of the counterweight CW8 is substantially fan-shaped. However, the shape of the weight 15 of the counterweights CW provided for the crankshaft C other than the counterweight CW8 is not limited to the substantial fan-shape. For example, as shown in
The present disclosure can provide a counterweight which can make a crankshaft lightweight and allows a counterweight portion to be filled sufficiently in a forging process of the crankshaft, and a crankshaft provided with the counterweight. Therefore, the present disclosure is particularly useful.
Number | Date | Country | Kind |
---|---|---|---|
2017-149429 | Aug 2017 | JP | national |
Number | Name | Date | Kind |
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8757027 | Williams | Jun 2014 | B2 |
9121472 | Lach | Sep 2015 | B2 |
9261131 | Harada et al. | Feb 2016 | B2 |
10066699 | Ono | Sep 2018 | B2 |
20160223943 | Goto | Aug 2016 | A1 |
Number | Date | Country |
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19745586 | Apr 1998 | DE |
0345424 | Dec 1989 | EP |
2015016476 | Jan 2015 | JP |
5841977 | Jan 2016 | JP |
2016107271 | Jun 2016 | JP |
Number | Date | Country | |
---|---|---|---|
20190040932 A1 | Feb 2019 | US |