JP2012251590A - Tensioner - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a low cost tensioner which exerts a long time stabilized pressing force onto a cam chain even if using no push rod.SOLUTION: The tensioner includes: a belt-like rubber or resin material sliding surface sliding a chain or a belt; side walls provided in both sides in the width direction of the sliding surface so that the chain or the belt does not come free of the sliding surface; and a belt-like metal reinforcing plate provided integrally with the back side of the sliding surface, and the tensioner is also provided with a mounting part provided at its one end to hold it on the housing side. The mounting part has a nearly S shape part formed at the one end in the metal reinforcing plate, and a first and second arc engagement parts formed by the S shape part are engaged with a first and second fixing pins, respectively.

Description

The present invention relates to a tensioner.
The present invention also relates to a tensioner for tensioning a chain or belt used as power transmission means.

  Furthermore, the present invention relates to a tensioner suitably used as a tensioner for a cam chain of an internal combustion engine.

  Conventionally, in a mechanical device using a chain or belt winding transmission means, in order to prevent the tension of the chain or belt from being relaxed and the power transmission efficiency being lowered, the tension of the chain or belt is tensioned. There is a tensioner.

Specifically, it is used in the form shown in FIG.
That is, FIG. 5 is a longitudinal sectional view passing through the cam chain chamber of the internal combustion engine, and the left side of the figure is the front.
The crankshaft 10 and the drive sprocket 11 rotate in the direction of the arrow in the figure.
The driven sprocket 31 and the camshaft 30 driven via the cam chain 20 are rotated in the direction of the arrow.
A cam chain guide 40 for guiding the cam chain 20 is provided along the cam chain 20 on the side pulled by the drive sprocket 11, and is fixed to the housing 50 side constituting the cam chain chamber.
The cross section of the cam chain guide 40 on the side sliding with the cam chain 20 is a concave groove substantially corresponding to the width of the cam chain 20, and the cam chain 20 slides on the bottom of the groove.

On the other hand, a cam chain tensioner 90 is provided along the cam chain 20 on the side pushed by the drive sprocket 11.
The cam chain tensioner 90 is supported so as to be swingable around a mounting portion 400 at the lower end thereof.
A tensioner lifter 70 is provided through the housing 50, and a rubber chain elastic member receiving portion 800 provided on the cam chain tensioner 20 is pushed by the tip of the push rod 71 protruding into the chain chamber, and the cam chain tensioner pressed. 20 pushes the cam chain 20 to prevent the cam chain 20 from slackening.

As shown in FIG. 6, the cam chain tensioner 90 includes a reinforcing plate made of a steel-based metal having high elasticity, and a belt-like sliding made of a rubber-like elastic material formed integrally with the reinforcing plate. It is comprised from the surface part.
The sliding surface portion of the cam chain tensioner 90 is curved and molded into the shape of the deflection of the cam chain 20, and the cross section on the sliding portion side of the cam chain tensioner 90 is a concave groove substantially corresponding to the width of the cam chain 20. The cam chain 20 slides along the bottom of the groove.
That is, side wall portions are provided on both sides in the width direction of the sliding surface portion so that the cam chain 20 does not come off from the sliding surface portion.

However, since the receiving portion 800 made of a rubber-like elastic material is always subjected to a load by the push rod 71, when used for a long period of time, the receiving portion 800 made of a rubber-like elastic material is set (permanent strain). The problem that the pressing force to the cam chain 20 decreases was caused.
In particular, when exposed to a high-temperature environment such as an internal combustion engine, the settling (permanent distortion) of the receiving portion 800 made of a rubber-like elastic material was remarkable.

In order to solve such problems, a proposal has been made to use a tension applying spring. (Patent Document 1)
However, this type of tensioner has a problem that the structure becomes complicated and the manufacturing cost increases.

Japanese Patent Application Laid-Open No. 6-193693

  The present invention has been made in view of the above-described problems, and an object thereof is to provide a tensioner that can stably exert a pressing force on a cam chain for a long period of time without using a push rod. To do.

The tensioner of the present invention includes a belt-like rubber or resin sliding surface portion for sliding a chain or belt, and both sides of the sliding surface portion in the width direction so that the chain or belt does not come off the sliding surface portion. A side wall provided on the side and a band-shaped metal reinforcing plate provided integrally on the back side of the sliding surface are disposed, and a mounting part for swingably holding on the housing side on one end side In the tensioner with
The attachment portion forms a substantially S-shaped portion at one end of the metal reinforcing plate, and each of the first arc-shaped engaging portion and the second arc-shaped engaging portion formed by the S-shaped portion. Further, the first fixing pin and the second fixing pin are engaged with each other, thereby generating a pressing force that presses the sliding surface portion against the chain or the belt.

The present invention has the following effects.
According to the tensioner of the first aspect of the invention, it is possible to provide a tensioner that can stably exert a pressing force on the cam chain for a long period of time without using a push rod.
According to the tensioner of the second aspect of the present invention, it is possible to adjust the pressing force applied to the chain or the belt only by changing the relative position of the fixing pin.

According to the tensioner of the invention described in claim 3, when a larger pressing force is required for the tensioner, a push rod can be used in combination.
According to the tensioner of the invention described in claim 4, a larger and more stable pressing force can be applied to the tensioner.

The longitudinal cross-sectional view of the tensioner which concerns on 1st Embodiment of this invention. The principal part longitudinal cross-sectional view which passes along the cam chain chamber of the internal combustion engine to which the tensioner according to the present invention is applied. The longitudinal cross-sectional view of the tensioner which concerns on 2nd Embodiment of this invention. The longitudinal cross-sectional view of the tensioner which concerns on 3rd Embodiment of this invention. The principal part longitudinal cross-sectional view which passes along the cam chain chamber of the internal combustion engine to which the conventional tensioner is applied. The side view of the tensioner which concerns on a prior art.

The best mode for carrying out the present invention will be described below with reference to the drawings.

<First Embodiment>
In FIG. 1, a tensioner 9 according to the present invention includes a sliding surface portion 1 made of a belt-like rubber or resin material for sliding a chain or a belt, and a slide so that the chain or belt does not come off the sliding surface portion 1. Side wall portions 2 provided on both sides in the width direction of the moving surface portion 1 and a band-shaped metal reinforcing plate 3 integrally provided on the back surface side of the sliding surface portion 1 are disposed and held on the housing side at one end side. And a mounting portion 4 for carrying out the operation.

  And this attachment part 4 forms the substantially S-shaped part 41 in the one end part of the metal reinforcement board 3, and the 1st circular arc-shaped engaging part 411 and 2nd circle | round | yen formed by this S-shaped part 41 are used. The first fixing pin 51 and the second fixing pin 52 are engaged with each of the arcuate engaging portions 412 to generate a pressing force that presses the sliding surface portion 1 against the chain or the belt.

Further, as shown by an arrow in the figure, the second fixing pin 52 is adjusted in the mutual position with the first fixing pin 51 to adjust the pressing force for pressing the sliding surface portion 1 against the chain or the belt. It can also be possible.
In this way, the pressing force against the chain or belt can be adjusted simply by changing the relative position of the fixing pin.

  In the present embodiment, only the second fixed pin 52 is movable, but only the first fixed pin 51 may be movable, and both the first fixed pin 51 and the second fixed pin 52 are movable. It is also possible to make the mutual position of the first fixed pin 51 and the second fixed pin 52 variable.

  As the rubber-like elastic material or resin material constituting the sliding surface portion 1 and the side wall portion 2, various rubber materials or resin materials are appropriately selected and used. However, in an environment used in an internal combustion engine, heat resistance A rubber material or a resin material having an oil resistance against engine oil is selected.

Various metal materials can be used as the material of the belt-shaped metal reinforcing plate 3, but spring steel such as SK85 material and SWRH62A material is particularly preferably used.
And it is preferable that the metal reinforcement board 3 raises an intensity | strength by quenching and tempering after press molding.

Specifically, the tensioner 9 shown in FIG. 1 is used in the form shown in FIG.
That is, FIG. 2 is a longitudinal sectional view passing through the cam chain chamber of the internal combustion engine, and the right side of the figure is the front.
The crankshaft 10 and the drive sprocket 11 rotate in the direction of the arrow in the figure.
The driven sprocket 31 and the camshaft driven via the cam chain 20 are rotated in the direction of the arrow.
A cam chain guide 40 for guiding the cam chain 20 is provided along the cam chain 20 on the side pulled by the drive sprocket 11, and is fixed to the housing 50 side constituting the cam chain chamber.
The cross section of the cam chain guide 40 on the side sliding with the cam chain 20 is a concave groove substantially corresponding to the width of the cam chain 20, and the cam chain 20 slides on the bottom of the groove.

On the other hand, a tensioner 9 is provided along the cam chain 20 on the side pushed by the drive sprocket 11.
The tensioner 9 has an upper end (upper in the drawing) held by a first fixing pin 51 and a second fixing pin 52 so as to be swingable on the housing 50 side.
Further, the second fixing pin 52 is connected to the driving means 60 in order to change the mutual position with the first fixing pin 51, as indicated by an arrow in the drawing of FIG.

Second Embodiment
Next, the tensioner 9 according to the second embodiment of the present invention will be described with reference to FIG.
The difference from the tensioner 9 according to the first embodiment described above is that the push rod abuts on the surface of the metal reinforcing plate 3 opposite to the sliding surface portion 1 away from the S-shaped portion 41. The point is that a receiving portion 8 made of material is provided.
As a result, when a larger pressing force is required for the tensioner 9, it can be used in combination with the push rod.

<Third Embodiment>
Next, a tensioner 9 according to a third embodiment of the present invention will be described based on FIG.
The difference from the tensioner 9 according to the second embodiment described above is that the second arcuate engagement portion 412 of the S-shaped portion 41 of the metal reinforcing plate 3 is shorter than that of the second embodiment. Is a point.
That is, since the area where the second arcuate engagement portion 412 and the second fixing pin 52 engage with each other is reduced, the S-shaped portion 41 of the metal reinforcing plate 3 is replaced with the first fixing pin 51 and It is easy to attach to and detach from the second fixing pin 52.

  Further, the present invention is not limited to the best mode for carrying out the invention described above, and various other configurations can be adopted without departing from the gist of the present invention.

  It is suitably used as a tensioner for a cam chain of an internal combustion engine.

DESCRIPTION OF SYMBOLS 1 Sliding surface part 2 Side wall part 3 Metal reinforcement board 4 Mounting part 8 Receiving part 9 Tensioner 41 S-shaped part 51 1st fixing pin 52 2nd fixing pin 60 Drive means 411 1st circular arc-shaped engaging part 412 2 arcuate engagement parts

Claims (4)

A sliding surface portion (1) made of a belt-like rubber or resin material for sliding the chain or belt, and the sliding surface portion (1) so that the chain or belt does not come off from the sliding surface portion (1). Side wall portions (2) provided on both sides in the width direction and a strip-shaped metal reinforcing plate (3) integrally provided on the back surface side of the sliding surface portion (1) are disposed, and a housing is provided on one end side. In the tensioner (9) provided with a mounting part (4) for holding on the side,
The attachment portion (4) forms a substantially S-shaped portion (41) at one end of the metal reinforcing plate (3), and a first arc-shaped engagement formed by the S-shaped portion (41). When the first fixing pin (51) and the second fixing pin (52) engage with each of the portion (411) and the second arcuate engagement portion (412), the sliding surface portion (1 ) Is applied to the chain or belt to generate a pressing force.   By making the mutual position of the first fixing pin (51) and the second fixing pin (52) variable, the pressing force for pressing the sliding surface portion (1) against the chain or belt can be adjusted. The tensioner according to claim 1, wherein:   A rubber elastic material receiving portion (a push rod (71) abuts on the surface of the metal reinforcing plate (3) opposite to the sliding surface portion (1) away from the S-shaped portion (41)). The tensioner according to claim 1 or 2, wherein 8) is provided.   The tensioner according to any one of claims 1 to 3, wherein a material of the metal reinforcing plate (3) is spring steel.

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