Tension Adjusting Device for Engine Accessory Driving Belt

Abstract

A tension adjusting device for an engine accessory driving belt is provided which can maintain high sealability in the bearing portion about which a pulley arm supporting a tension pulley pivots for a long period of time.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a front view of a tension adjusting device for an engine accessory driving belt embodying the present invention;

FIG. 2 is a sectional view taken along line II-II of FIG. 1;

FIG. 3 is a partial enlarged sectional view of FIG. 2;

FIG. 4 is a sectional view taken along line IV-IV of FIG. 1;

FIG. 5 is a sectional view of a conventional support structure for a pulley arm; and

FIG. 6 is a sectional view of a conventional coupling structure for coupling a pulley arm to a hydraulic auto-tensioner.

DESCRIPTION OF REFERENCE NUMERALS

• B belt
• 1 tension pulley
• 2 pulley arm
• 3 boss
• 4 shaft inserting hole
• 6 fulcrum shaft
• 7 bolt
• 7 a head
• 10 washer
• 11 cylindrical portion
• 12 slinger
• 13 labyrinth
• 20 hydraulic auto-tensioner
• 37 coupling piece
• 43 bush inserting hole
• 45 bush
• 46 washer
• 46 a cylindrical portion
• 47 bolt
• 47 a head
• 49 annular protrusion
• 50 labyrinth

BEST MODE FOR EMBODYING THE INVENTION

Now the embodiments of the present invention are described with reference to FIGS. 1 to 4. As mentioned above, FIG. 1 shows the tension adjusting device for a belt for driving engine accessories according to the present invention. FIGS. 2 and 3 show a bearing portion for pivotally supporting the pulley arm 2. As shown in FIGS. 2 and 3, the pulley arm 2 is provided with a boss 3 protruding from both sides thereof. The boss 3 is formed with a shaft receiving hole 4 comprising a stepped hole. A shoulder 4a is formed on the inner periphery of the shaft receiving hole 4 at one end thereof.

A pair of tubular slide bearings 5 are pressed into the shaft receiving hole 4. Each slide bearing 5 has a flange 5a at one end thereof. The flange 5a of one slide bearing 5 abuts the shoulder 4a of the shaft receiving hole 4, and the flange 5a of the other slide bearing 5 abuts the other end of the boss 3.

A tubular fulcrum shaft 6 is inserted in the pair of slide bearings 5. The fulcrum shaft 6 is fixed to an engine block 8 by tightening a bolt 7 inserted through a central hole 6a thereof. The fulcrum shaft 6 is fixed to the engine block 8 with washers 9 and 10 in abutment with both ends thereof so that the pulley arm 2 is pivotable about the fulcrum shaft 6.

The washer 10 is disposed between the head 7a of the bolt 7 and the end surface of the fulcrum shaft 6. The washer 10 has an outer cylindrical portion 11 covering the other end of the boss 3. A slinger 12 is mounted on the outer periphery of the boss 3 at the other end thereof. The slinger 12 comprises a cylindrical portion 12a pressed onto the other end of the boss 3, and a flange 12b formed at one end of the cylindrical portion 12a. A labyrinth 13 is formed between the slinger 12 and the cylindrical portion 11 of the washer 10.

By mounting the slinger 12 having the flange 12b on the other end of the boss 3 to form the labyrinth 13 between the slinger 12 and the cylindrical portion 11 of the washer 10, it is possible to prevent entry of muddy water and dust into the contact portion between the fulcrum shaft 6 and the slide bearings 5. The flange 12b of the slinger 12 prevents the entry of any muddy water that may flow along the surface of the pulley arm 2 and drip onto the bearing portion into the labyrinth 13.

Because the labyrinth 13 is a non-contact seal, it maintains its sealing function and prevents entry of muddy water and dust for a long period of time even if the pulley arm 2 pivots about the fulcrum shaft 6 at a high speed. Since the sealing structure is simple, the entire device can be manufactured at a low cost.

FIG. 4 shows a hydraulic auto-tensioner 20 for applying a regulating force to the pulley arm 2. The auto-tensioner 20 comprises a cylinder 21 made of an aluminum alloy and filled with hydraulic oil, an oil seal 22 sealing the top opening of the cylinder 21 with air trapped in the cylinder 21 on the hydraulic oil, a rod 23 slidably extending through the oil seal 22, a return spring biasing the rod 23 outwardly of the cylinder 21, and a hydraulic damper 25 for dampening the pressing force applied to the rod 23.

The return spring 24 is provided around the cylinder 21 with one end thereof supported by a flange 26 provided on the outer periphery of the cylinder at the bottom end thereof and the other end pressed against a spring washer 27 mounted to the top end of the rod, thereby biasing the rod 23 outwardly of the cylinder 21.

The hydraulic damper 25 includes a plunger 29 slidably mounted in a sleeve 28 having a closed bottom to define a pressure chamber 30 and a reservoir chamber 31 in the cylinder 21. The plunger 29 is formed with a passage 32 through which the pressure chamber 30 communicates with the reservoir chamber 31. The hydraulic damper 25 further includes a check valve 33 for opening and closing the passage 32, and a plunger spring 34 mounted in the pressure chamber 30 and pressing the plunger 29 against the bottom of the rod 23.

The check valve 33 closes the passage 32 when the pressure in pressure chamber 30 exceeds the pressure in the reservoir chamber 31.

The auto-tensioner further includes a wear ring 35 supporting a mid-portion of the rod 23 and movable up and down together with the rod 23, while being guided along the inner wall of the cylinder 21.

As shown in FIG. 4, a coupling piece 36 provided at the bottom end of the cylinder 21 is pivotally supported by the engine block 8, and a coupling piece 37 provided on the spring washer 27 at the top end of the rod 23 is coupled to the pulley arm 2, thereby mounting the hydraulic auto-tensioner 20 in position.

With the auto-tensioner 20 thus mounted, when the belt B slackens, the return spring 24 pushes the rod 23 out of the cylinder 21, thus pivoting the pulley arm 2 to press the tension pulley 1 against the belt B. The belt B is thus re-tensioned.

When the tension of the belt B increases, a pressing force is applied to the rod 23 through the tension pulley 1 and the pulley arm 2. The pressing force is dampened by the hydraulic damper 25.

When the pressing force exceeds the spring force of the return spring 24, the pressure in the pressure chamber 30 exceeds the pressure in the reservoir chamber 31, so that the passage 32 is closed by the check valve 33. Thereafter, hydraulic oil in the pressure chamber 30 gradually leaks through a small gap between the sliding surfaces of the plunger 29 and the closed-bottomed sleeve 28 into the reservoir chamber 31, allowing the rod 23 to retract until the force of the return spring 24 balances with the pressing force. The tension of the belt B is thus kept constant.

The coupling piece 36 provided at the bottom end of the cylinder 21 is formed with a through hole 38 extending between both sides thereof. A tubular slide bearing 39 is pressed in the through hole 38. A bush 40 is inserted in the slide bearing 39. A bolt 42 is inserted through a pair of washers 41 in abutment with the respective ends of the bush 40 and a central bore 40a formed in the bush 40, and threaded into the engine block 8 and tightened to fix the bush 40 to the engine block 8 and thus to couple the hydraulic auto-tensioner 20 to the engine block 8.

The coupling piece 37 of the spring washer 27 mounted on the top end of the rod 23 is formed with a bush inserting through hole 43 extending between both sides thereof. A tubular slide bearing 44 is pressed in the hole 43. A tubular bush 45 is inserted in the slide bearing 44. A bolt 47 is inserted through the bush 45 and a pair of washers 46 in abutment with the respective ends of the bush 45, and threaded into a threaded hole 48 formed in the pulley arm 2 and tightened to sandwich the bush 45 between the head 47a of the bolt 47 and the pulley arm 2, thereby coupling the auto-tensioner 20 to the pulley arm 2.

The coupling piece 37 has annular protrusions 49 formed at the respective open ends of the bush inserting hole 43 to extend toward the respective washers 46. The washers 46 are each formed with an outer cylindrical portion 46a covering the corresponding annular protrusion 49, thereby defining a labyrinth 50 between the cylindrical portion 46a and the annular protrusion 49.

By providing each of the washers 46 with the outer cylindrical portion 46a, which covers the annular protrusion 49, thus defining the labyrinth 50 therebetween, it is possible to prevent entry of muddy water and dust into between the contact surfaces of the slide bearing 44 and the bush 45.

Since the labyrinth 50 is a non-contact seal, even when the pulley arm 2 and the coupling piece 37 pivot relative to each other, it maintains its sealing function and prevents entry of muddy water and dust for a long period of time.

The seal structure, which consists of the annular protrusions 49 of the coupling piece 37 and the outer cylindrical portions 46a of the washers 46, is extremely simple and thus can be manufactured at a low cost.

The coupling piece 36 at the bottom end of the cylinder 21 may be coupled to the engine block 8 using the coupling structure through which the pulley arm 2 is coupled to the coupling piece 37 at the top end of the rod 23.

Claims

1. A tension adjusting device for an engine accessory driving belt comprising a tension pulley configured to be brought into contact with the engine accessory driving belt, a pivotable pulley arm supporting said tension pulley and having a boss at one end thereof, said boss being formed with a shaft inserting hole, a tubular fulcrum shaft mounted in said shaft inserting hole, a bolt axially extending through said fulcrum shaft and configured to be brought into threaded engagement with an engine block and tightened to fix said fulcrum shaft to the engine pulley, thereby pivotally supporting said pulley arm, and a hydraulic auto-tensioner for applying a regulating force to said pulley arm, thereby pressing said tension pulley against the belt, characterized in that a washer is disposed between a head of said bolt and an end surface of said boss, said washer having a cylindrical portion covering an end portion of said boss including said end surface, and that a slinger is mounted on said end portion of said boss, said cylindrical portion of said washer and said slinger defining a labyrinth therebetween.

2. A tension adjusting device for an engine accessory driving belt comprising a tension pulley configured to be brought into contact with the engine accessory driving belt, a pivotable pulley arm supporting said tension pulley, a hydraulic auto-tensioner for applying a regulating force to said pulley arm, thereby pressing said tension pulley against the belt, said auto-tensioner having at one end thereof a coupling piece formed with a bush inserting through hole extending between two sides thereof, a tubular bush inserted in said bush inserting through hole, and a bolt inserted through said bush and brought into threaded engagement with said pulley arm and tightened to fix said bush to said pulley arm, thereby pivotally coupling said one end of said hydraulic auto-tensioner to said pulley arm, characterized in that two washers are disposed between opposed surfaces of said bush and said pulley arm and between opposed surfaces of said bush and a head of said bolt, respectively, each of said washers having an outer cylindrical portion extending toward said coupling piece, and that said coupling piece has two annular protrusions each formed at one of two open ends of said bush inserting through hole, said cylindrical portion of each of said washers and the corresponding one of said annular protrusions defining a labyrinth therebetween.