JP3448122B2 - Tensioner lever - Google Patents

Description

Description: BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a tensioner lever for a tensioner device. The tensioner lever of the present invention
It is suitable for applying a predetermined tension to a power transmission chain suspended around a crank sprocket and a cam sprocket of a vehicle engine. [0002] A tensioner device comprises a tensioner and a tensioner lever. The tensioner has a plunger provided with a projection output. The tensioner lever includes an arm fixed to the engine and swingable around one end, and a shoe extending from one end of the arm toward the other end. The back of the tensioner lever is pressed by the plunger to apply a predetermined tension to the chain. [0003] Japanese Utility Model Laid-Open No. 4-119563 (US Pat. No. 5,184,982) discloses a tensioner lever of this type. In the tensioner lever described in this publication, a pad portion is fixed to the back surface of the arm. However, in the tensioner lever described in the above publication, the shoe on the front side of the arm and the pad portion on the back side of the arm are separate bodies. Therefore, the shoe and the pad portion must be manufactured by separate molds, and further, the mounting to the arm must be performed separately. Further, a hole for mounting the pad portion must be formed in the arm, and the conventional tensioner lever is not practical. Accordingly, the present invention is directed to the tensioner lever, wherein the pad portion formed integrally with the tip of the shoe and pressed by the plunger of the tensioner is provided on one side with the tip of the arm. The pad extends around the edge to the rear surface of the arm, and the inside of the pad portion and the tip of the arm are combined in a stepwise manner, so that the relative position between the arm and the pad portion is accurately determined. The above problem was solved by accurately transmitting the pressing force of the tensioner to the chain. As described above, the pad portion integrally formed at the tip of the shoe extends to the back surface of the arm surrounding the tip of the arm and one side edge, and the inside of the pad portion and the tip of the arm. Are formed in a step-like manner, so that the relative position between the arm and the pad portion is accurately determined during the assembling operation, and the pressing force of the tensioner is accurately transmitted to the chain during use. FIG. 1 shows an example of use of a tensioner lever 10. The chain C is suspended around a crank sprocket S1 and a cam sprocket S2. The tensioner lever 10 is located near the crank sprocket S1.
One end is supported by the engine block. The tensioner lever 10 can swing about one end thereof. The tensioner lever 10 is pressed in the chain direction near the other end by the tensioner T. The tensioner lever 10 includes an arm 12 and a shoe 14. FIG. 2 is a front view of the arm 12. At one end thereof, a hole 16 for pivotally supporting the engine block is formed. At the other end, cut out 18 from one side edge
Are formed, and are narrow on the stairs. The other end has a smooth curved surface. Arm 12 is substantially I-shaped in cross section. The reason why the cross section is I-shaped is to strengthen the mounting of the shoe 14 and to improve the strength of the tensioner lever 10. FIG. 3 is a front view of the shoe 14. The shoe 14 is locked along the surface of the arm 12. The pad part 20 is integrally formed at the tip of the shoe 14.
The shoe 14 has locking pieces 22 in a staggered shape along both side edges. The shoe 14 has an L-shaped projection 24 that engages with the arm 12 on the fulcrum side where the arm 12 is pivotally supported. The pad portion 20 extends from the front surface to the rear surface so as to hold the arm 12. That is, the pad portion 20 extends to the back surface of the arm 12 so as to surround the tip of the arm 12 and one side edge of the arm 12. By staggering a part of the pad portion 20 formed on the side edge of the arm 12 with the locking piece 22, the shoe 14 is securely attached to the arm 12 as described later. The inside of the pad portion 20 is formed in a step shape, and is in close contact with the tip of the arm 12. By combining the tip of the arm 12 and the inside of the pad portion 20 in a stepped manner, the relative position between the arm 12 and the pad portion 20 can be accurately determined, and the pressing force of the tensioner T can be reduced by the chain C. Can be transmitted accurately. The pad portion 20 also protrudes from the arm 12 in a direction away from the rear surface. This is the tensioner T
This is for bringing the pad portion 20 into rolling contact with the pad portion 20. The pad portion 20 of the present embodiment is a part of a cylindrical shape, but may be a part of a spherical shape. FIG. 4 shows a method of assembling the arm 12 and the shoe 14. First, the tip of the shoe 14 is
Fit into the tip of Next, the locking pieces 22 formed in a staggered manner are hooked on the arm 12 one after another. As described above, since the pad portion 20 is mounted on the arm 12 together with the shoe 14, the mounting is easy and there is no erroneous assembly of the pad portion 20. As described above, the pad portion 20 is
Since it is formed integrally with the dies, the number of dies and the number of assembling steps can be reduced. Furthermore, the pad section 20 of the present embodiment
Contributes to preventing the relative movement of the arm 12 and the shoe 14. That is, by providing the pad portion 20 so as to surround the tip of the arm 12 and one side edge, the shoe 14 is prevented from shifting in the lateral direction in cooperation with the staggered locking pieces 22. In particular, the position of the pad portion 20 receiving the pressing force from the tensioner T becomes accurate. Naturally, the relative movement of the shoe 14 in the direction away from the arm 12 is prevented. Further, by providing the pad portion 20 so as to extend from the tip of the arm 12 to the back surface, the shoe 14 is prevented from moving in the running direction of the chain C in combination with the L-shaped projection 24. According to the present invention, since the pad portion is formed integrally with the shoe, a mold for the pad portion, which had to be separately prepared in the past, is unnecessary, and the pad portion is assembled. Man-hours can be reduced. Further, additional processing (for example, drilling processing) on the arm, which is conventionally required, is not required, and a significant cost reduction can be achieved. Further, the pad portion surrounds the tip of the arm and one side edge and extends to the back surface of the arm, and the inside of the pad portion and the tip of the arm are formed in a step-like shape and combined. Thus, the relative position between the arm and the pad portion is accurately determined, and the pressing force of the tensioner can be accurately transmitted to the chain.

BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a front view showing a usage example of a tensioner lever of the present invention. FIG. 2 is a front view of an arm constituting the tensioner lever. FIG. 3 is a front view of a shoe constituting the tensioner lever. FIG. 4 is a perspective view showing an example of mounting a shoe on an arm. [Description of Signs] C: Chain S1: Crank sprocket S2: Cam sprocket T: Tensioner 10: Tensioner lever 12: Arm 14: Shoe 16: Hole 18: .. Notch 20 ・ ・ ・ Pad portion 22 ・ ・ ・ Locking piece 24 ・ ・ ・ L-shaped projection

──────────────────────────────────────────────────続 き Continuation of the front page (56) References JP-A-3-24345 (JP, A) JP-A-8-135744 (JP, A) JP-A-5-42798 (JP, U) JP-A-4-42798 119653 (JP, U) JP 499142 (JP, B1) (58) Fields investigated (Int. Cl. ⁷ , DB name) F16H ^7/ 00-7/24 F02B 67/06

Claims (1)

(1) A tensioner lever having an arm that can swing around one end and a shoe extending from one end to the other end of the arm, and a tip of the shoe. A pad portion formed integrally with the arm and pressed by the plunger of the tensioner extends to the back surface of the arm surrounding the tip of the arm and one side edge, and the inside of the pad portion and the tip of the arm are stepped. A tensioner lever formed and combined, wherein the relative position between the arm and the pad portion is accurately determined so that the pressing force of the tensioner is accurately transmitted to the chain.