JPH0642123Y2 - Auto tensioner - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial field of application] The present invention relates to an automatic tensioner for adjusting the tension of a belt, and particularly, the damper is downsized.

[Conventional technology]

FIGS. 5 and 6 show an auto tensioner filed by the applicant of the present application in Japanese Patent Application No. 63-183283, which has the advantage that the initial position of the tension pulley can be easily adjusted and the number of parts is small.

The tension pulley 31 is mounted on the eccentric ring via the rolling bearing 32.
Mounted around 33. Also, in the eccentric hole of the eccentric ring 33,
The fixing bolt 36 is inserted through the slide bearing 34 and the fulcrum sleeve 35.

The fixing bolt 36 also penetrates a mounting portion 38 provided on the damper cylinder 37 and is fastened to a wall surface of a mounting target 39 such as an engine block.

Inside the damper cylinder 37, a liquid chamber 40 for a damper is provided, and a tension adjusting coil spring 44 of a belt 43 is attached to a bearing 42 fixed to a piston rod 41 that moves integrally with a piston 45 inserted in the liquid chamber 40. To apply a spring force in the protruding direction to the piston rod 41.

The piston 45 divides the liquid chamber 40 into an upper liquid chamber 40a and a lower liquid chamber 40b, and a check valve 46 provided in the piston 45 opens and closes a communication passage 47 between the upper liquid chamber 40a and the lower liquid chamber 40b. Lower chamber 40b
Is pressurized, the check valve 46 closes the communication passage 47,
Open when decompressed. Also, the outer peripheral surface of the piston 45 and the liquid chamber
A required leak gap (not shown) is provided between the inner peripheral surfaces of 40.

The tip of the piston rod 41 engages with the projection 53 protruding inward from the eccentric wheel 33, transmits the spring force of the tension adjusting coil spring 44 to the eccentric wheel 33, and causes the tension pulley 31 to swing.

In addition, in the figure, 48 is a coil spring for connecting the piston 45 and the piston rod 41, 49 is an oil seal, 50 is an elongated hole for mounting integrally with the cylinder 37, 51 is a mounting bolt, and 52 is a set pin.

In the above tensioner, with the fixing bolt 36 lightly tightened, hang the belt 43 on the tension pulley 31 to adjust the initial position of the tensioner, then tighten the fixing bolt 36, and then bolt the fixing slot 36 to the mounting long hole 50. Installation target by inserting 51
To conclude. After that, when the set pin 52 is pulled out, the piston rod 41 projects and the belt is pulled through the tension pulley 31.
Apply a predetermined tension to 43.

[Problems to be solved by the device]

In the above auto tensioner, a tension adjusting coil spring 44 is inserted inside the damper cylinder 37. The coil spring 44 needs to have a spring force of about 5 to 15 kg in consideration of the tension of the belt 43. Therefore, it is necessary to reduce the diameter of the cylinder 37 for accommodating the coil spring to a certain value or less. Can not. Therefore, there is a problem that the above-mentioned auto tensioner cannot be used when the space w between the attachment target 39 and the tension pulley 31 cannot be sufficiently set.

Then, this invention aims at solving the said problem by adding a twist to the coil spring for tension adjustment.

[Means for Solving the Problems]

In order to solve the above-mentioned problems, the present invention applies a spring force of a tension adjusting spring to an eccentric wheel of a tension pulley, and an actuator of a damper is provided in the eccentric wheel to buffer the rotation of the eccentric wheel when the tension of a belt increases. In an auto tensioner that is partially engaged, the above tension adjusting spring is composed of a torsion coil spring fitted around an eccentric ring, one end of the torsion coil spring is engaged with the eccentric ring, and the other end is a damper cylinder. It is configured to be engaged with.

[Action]

When the tension of the belt increases and the tension pulley swings around the fixing bolt, the actuator is pushed in to exert a cushioning effect. The swing of the tension pulley increases the spring force of the torsion coil spring, and the swing of the tension pulley stops at the point of balance with the tension of the belt.

On the contrary, when the tension of the belt decreases, the tension pulley swings in the opposite direction. Therefore, the spring force of the torsion coil spring is reduced, and the swinging of the tension pulley is stopped at the point of balance with the belt tension.

〔Example〕

In the auto tensioner shown in FIGS. 1 and 2, the tension pulley 1 is mounted around the eccentric ring 3 via the rolling bearing 2 as in the conventional case, and the slide bearing 4 and the fulcrum are mounted in the eccentric hole of the eccentric ring 3. The fixing bolt 6 penetrates through the sleeve 5.

The fixing bolt 6 also penetrates a mounting portion 8 provided on the damper cylinder 7, and is fastened to a wall surface of a mounting target 9 such as an engine block.

A liquid chamber 10 for a damper is provided inside the damper cylinder 7, and a plunger as an actuator is provided in the liquid chamber 10.
11 is inserted. The plunger 11 has a cylindrical shape, and a lower half portion thereof is a sliding portion. Further, a communication hole 12 between the inside of the plunger 11 and the lower liquid chamber 10b of the liquid chamber 10 is provided at the lower end thereof, and a check valve 13 is provided at the lower end of the communication hole 12. A return coil spring 14 for the plunger 11 is interposed between the lower end of the plunger 11 and the bottom surface of the liquid chamber 10.

A communication hole 15 between the inside of the plunger 11 and the upper liquid chamber 10a is provided on the swinging portion of the plunger 11, and an O-ring 16 is fitted on the communication hole 15. Further, a cap 18 having an O-ring 17 is fitted loosely on the upper end of the plunger 11 so as to allow air to flow in and out.

The cap 18 may be provided with an air vent hole for adjusting the internal pressure.

On the other hand, a torsion coil spring 19 is fitted around the inner end side of the eccentric wheel 3 that supports the tension pulley 1.
One end of the torsion coil spring 19 has an engagement hole 20 formed in the eccentric ring 3.
, And the other end is inserted into an engagement hole 21 (see FIG. 2) formed in the damper cylinder 7.

Further, the tip of the plunger 11 comes into contact with the protrusion 23 provided on the inner end surface of the eccentric wheel 3.

In addition, 24 is a snap ring, 25 is a long hole for mounting, 26 is a mounting bolt, 27 is a set pin, and 28 is a belt.

The autotensioner of the embodiment has the above-mentioned configuration, and when the tension of the belt 28 increases and the tension pulley 1 swings around the fixing bolt 6, the plunger 11 is pushed. When the plunger 11 is pushed in, the hydraulic fluid in the non-liquid chamber 10b moves from the leak gap between the plunger 11 and the inner peripheral surface of the liquid chamber 10 to the upper liquid chamber 10a, and buffers the operation of the plunger 11.
The hydraulic fluid that has moved to the upper liquid chamber 10a enters the inside of the plunger 11 through the communication hole 15. The plunger 11 stops at the balance point between the tension of the belt 28 and the spring force of the torsion coil spring 19.
In this case, the spring force of the restoring coil spring 14 is smaller than that of the torsion coil spring 19 and can be ignored. Further, the air inside the plunger 11 is discharged to the outside air around the O-ring 17 of the cap 18.

On the other hand, when the tension of the belt 28 decreases, the tension pulley 1 swings in the opposite direction. Therefore, the spring force of the torsion coil spring 19 is reduced, and the swing of the tension pulley 1 is stopped at the point of balance with the tension of the belt 28. Plunger
The return coil spring 14 moves up 11 by following the movement of the protrusion 23. In this case, since the check valve 13 opens the communication passage 12, the hydraulic fluid in the plunger 11 moves to the lower fluid chamber 10b.

Next, in the embodiment shown in FIGS. 3 and 4, the support bolt 6'of the tension pulley 1 is screwed to the mounting portion 8 of the damper cylinder 7, and the damper cylinder 7 is fixed with the fixing bolt 29.
The mounting bolt 26 is fixed to the mounting target 9 such as a cylinder block, and the mounting bolt 26 is fixed to the mounting target 9 inserted into the elongated hole 25.

In this case, the tension pulley 1 and the damper cylinder 7 swing around the fixing bolt 29. Other configurations and operations are similar to those described above.

[Effect of device]

As described above, according to the present invention, the belt tension adjusting spring is constructed by the torsion coil spring fitted around the eccentric ring of the tension pulley, one end of the torsion coil spring is engaged with the eccentric ring, and the other end is the damper cylinder. Since they are engaged with each other, the diameter of the damper cylinder can be reduced. Therefore, it can be applied even when the distance w between the tension pulley and the attachment target is narrower than the conventional one.
Further, since the tension adjusting spring is provided outside the damper cylinder, the length of the plunger can be increased, and even if the diameter of the plunger is small, a long leak down time can be secured and a sufficient cushioning effect can be obtained.

[Brief description of drawings]

FIG. 1 is a sectional view of the embodiment in a used state, FIG. 2 is a sectional view taken along line II-II of the same, FIG. 3 is a sectional view of another embodiment in a used state, and FIG. 4 is a sectional view of FIG. A sectional view taken along the line III-III, FIG. 5 is a sectional view of the conventional example in a used state, and FIG. 6 is a sectional view taken along the line VI-VI in FIG. 1 ... Tension pulley, 3 ... Eccentric wheel, 6 ... Fixing bolt, 6 '... Support bolt, 7 ... Damper cylinder, 8 ... Mounting part, 10 ... Liquid chamber, 11 ... Plunger, 13 ... … Check valve, 19… Torsion coil spring, 20, 21… Engagement hole.

Claims (1)

[Scope of utility model registration request] 1. An eccentric wheel of a tension pulley is provided with a spring force of a tension adjusting spring, and an actuator of a damper is engaged with a part of the eccentric wheel to buffer rotation of the eccentric wheel when the tension of a belt increases. In the auto tensioner, the tension adjusting spring is configured by a torsion coil spring fitted around an eccentric ring, one end of the torsion coil spring is engaged with the eccentric ring, and the other end is engaged with a damper cylinder. Auto tensioner.