JP2006153118A - Chain tensioner device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a chain tensioner device capable of increasing degree of freedom in design. <P>SOLUTION: A chain tensioner 10 which assembles a plunger 15 and a spring 16 into a cylinder chamber 14 in a housing 11, communicates an oil supply passage 18 with a pressure chamber 17 formed in a back part of the plunger 15, and opens an oil inlet 18a of the oil supply passage 18 on an outer peripheral face of the housing 11 is fitted and fixed in a fitting hole 9 formed in a chain case 8. A peripheral channel 20 passing through a position of the oil inlet 18a of the oil supply passage 18 is formed at the outer periphery of the housing 11, and a supply passage 21 formed in the chain case 8 is communicated with the oil supply passage 18 through the peripheral channel 20 to increase degree of freedom in design on a chain tensioner 10 side. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention mainly relates to a chain tensioner device that maintains a constant tension of a camshaft drive chain.

  Generally, in a chain transmission that transmits the rotation of a crankshaft to a camshaft, an adjustment force of a chain tensioner is applied to the slack side of the chain to keep the chain tension constant.

  As the chain tensioner, one described in Patent Document 1 is conventionally known. This chain tensioner incorporates a plunger and a spring that presses the plunger outward in a cylinder chamber formed in the housing, and an oil supply passage that communicates from the outer periphery of the chain tensioner to a pressure chamber formed on the back of the plunger. The pushing force applied to the plunger from the chain by the hydraulic oil supplied from the oil supply passage into the pressure chamber is buffered.

In a chain tensioner device using an oil supply type chain tensioner as described above, a fitting hole is usually formed in the chain case of the engine, a housing is fitted in the fitting hole, and the bolt is tightened to the chain case. The chain case is provided with a supply passage communicating with the oil supply passage of the chain tensioner, and hydraulic oil discharged from the hydraulic pump to the supply passage is supplied from the oil supply passage into the pressure chamber.
Japanese Patent Laid-Open No. 10-30695

  By the way, in the chain tensioner device as described above, the oil inlet of the oil supply passage that opens at the outer peripheral surface of the housing and the oil outlet of the supply passage that opens at the inner peripheral surface of the fitting hole when the chain tensioner is attached to the chain case. It is necessary to match, the diameter of the oil inlet and the oil outlet is relatively small, it is very difficult to match both due to assembly errors and processing errors when assembling the chain tensioner, and the design freedom is low There was a problem.

  An object of the present invention is to ensure communication between an oil outlet of a supply passage formed in a tensioner attachment target such as a chain case and an oil inlet of an oil supply passage formed in an oil supply type chain tensioner in the attached state of the chain tensioner. It is to provide a chain tensioner device that can be designed with a high degree of freedom.

  In order to solve the above-described problems, in the present invention, a plunger and a spring that presses the plunger outward are incorporated in a cylinder chamber formed in the housing, and the pressure chamber formed in the back of the plunger in the housing. There is an oil supply chain tensioner that has an oil supply passage that communicates with the oil supply passage, and an oil inlet of the oil supply passage is opened at the outer peripheral surface of the housing, and this oil supply type chain tensioner is fitted into a fitting hole formed on the tensioner installation target. The tensioner mounting object is provided with a supply passage that opens at the inner peripheral surface of the fitting hole, and hydraulic fluid supplied from the supply passage to the oil supply passage is caused to flow into the pressure chamber from the chain. In the chain tensioner device configured to cushion the pushing force applied to the plunger, the outer peripheral surface of the housing and the inner periphery of the fitting hole The circumferential groove of wider than the oil inlet of the diameter of the oil supply passage to at least one at the adopting the structure provided so as to pass through the position of the oil inlet in.

  As described above, a circumferential groove extending in the circumferential direction through the oil inlet of the oil supply passage is formed in at least one of the outer circumferential surface of the housing and the inner circumferential surface of the fitting hole formed in the tensioner mounting target. By making the width dimension larger than the diameter of the oil inlet, the oil inlet of the oil supply passage can be reliably communicated with the oil outlet of the supply passage through the circumferential groove in the assembled state of the chain tensioner. For this reason, the freedom degree of design can be raised and processing and an assembly can be facilitated.

  Hereinafter, embodiments of the present invention will be described with reference to the drawings. FIG. 1 shows a chain transmission for driving a camshaft, and a chain 5 is stretched between a sprocket 2 attached to an end of a crankshaft 1 and a sprocket 4 attached to an end of a camshaft 3. .

  The chain guide 6 contacts the slack side chain 5a of the chain 5, and the lower end portion of the chain guide 6 is supported by a shaft 7. The chain guide 6 is swingable about the shaft 7.

  The chain transmission is covered with a chain case 8 as a tensioner attachment target. A fitting hole 9 is formed in the chain case 8 at a position facing the chain guide 6, and a chain tensioner 10 for pressing the chain guide 6 toward the chain 5 is incorporated in the fitting hole 9.

  The chain tensioner 10 has a cylindrical housing 11 fitted in the fitting hole 9. The housing 11 is fitted into the fitting hole 9 from the outside of the chain case 8, and the mounting flange 12 provided at the rear end in the fitting direction is fastened to the chain case 8 by tightening a bolt 13 screwed into the chain case 8. Fixed.

  As shown in FIG. 2, a cylinder chamber 14 having a closed end is formed in the housing 11, a plunger 15 that can slide in the cylinder chamber 14, and a spring 16 that presses the plunger 15 toward the chain guide 6. Is incorporated.

  The housing 11 has an oil supply passage 18 communicating with a pressure chamber 17 formed on the back of the plunger 15, and a check valve 19 is provided at the oil outlet of the oil supply passage 18. When the pressure of the hydraulic oil in the pressure chamber 17 becomes higher than the supply pressure of the hydraulic oil supplied to the oil supply passage 18, the check valve 19 closes the oil supply passage 18 and the hydraulic oil in the pressure chamber 17 flows backward to the oil supply passage 18. To prevent.

  An oil inlet 18a of the oil supply passage 18 opens at the outer peripheral surface of the housing 11, and a circumferential groove 20 is provided on the outer peripheral surface of the housing 11 so as to pass through the position of the oil inlet 18a. The groove width of the circumferential groove 20 is larger than the diameter of the oil inlet 18a.

  On the other hand, a supply path 21 is provided in the chain case 8 as shown in FIGS. 2 and 3, and an oil outlet 21 a of the supply path 21 is formed in the housing 11 by opening at the inner peripheral surface of the fitting hole 9. It communicates with the circumferential groove 20.

  For this reason, when hydraulic fluid discharged from a hydraulic pump (not shown) is supplied to the supply passage 21, the hydraulic fluid is sent from the circumferential groove 20 into the oil supply passage 18 and flows into the pressure chamber 17.

  As shown in FIG. 2, the plunger 15 has an oil drain passage 22 communicating with the pressure chamber 17 and the outside, and a relief valve 23 is incorporated in the oil drain passage 22. The relief valve 23 is opened when the pressure of the hydraulic oil in the pressure chamber 17 exceeds a set pressure, and leaks the hydraulic oil in the pressure chamber 17 to the outside.

  Between the housing 11 and the plunger 15, a backward movement restricting means 30 for preventing the plunger 15 from moving backward by a predetermined amount toward the closed end of the cylinder chamber 14 is provided.

  As shown in FIG. 4, the backward movement restricting means 30 forms a ring receiving groove 31 on the inner periphery of the opening end of the cylinder chamber 14, and a register ring 32 that is elastically deformable in the radial direction in the ring receiving groove 31. A plurality of circumferential grooves 33 fastened by the register ring 32 are provided at equal intervals in the axial direction on the outer periphery of the plunger 15, and the inner diameter of each circumferential groove 33 has a small diameter toward the tip of the plunger 15. The taper surface 33a and the engagement surface 33b facing radially outward are provided at the small diameter end of the taper surface 33a.

  In the backward movement restricting means 30 having the above-described configuration, the taper surface 33 a allows the forward movement of the plunger 15 by the action of expanding the register ring 32, and comes into contact with the rear wall surface 31 a of the ring receiving groove 31 to stop. The backward movement of the plunger 15 is restricted by the engagement of the engagement surface 33 b with the ring 32.

  In the chain tensioner device configured as described above, when the chain 5 vibrates due to a change in angular velocity during one rotation of the crankshaft 1 or a torque fluctuation of the camshaft 3, and the chain 5 becomes slack, the plunger is pressed by the spring 16. 15 moves outward to absorb the slack of the chain 5.

  When the plunger 15 moves forward, the diameter of the register ring 32 is increased by the tapered surface 33a of the circumferential groove 33, so that the forward movement of the plunger 15 is not hindered. When the movement amount of the plunger 15 becomes larger than the pitch of the circumferential groove 33, the next circumferential groove 33 corresponds to the register ring 32.

  Further, when the plunger 15 moves forward, the volume of the pressure chamber 17 increases and the pressure decreases. When the pressure becomes lower than the supply pressure of the hydraulic oil supplied to the oil supply passage 18, the check valve 19 opens and the oil supply passage is opened. The hydraulic oil is supplied from 18 into the pressure chamber 17.

  On the other hand, when the chain 5 is tensioned, a pushing force is applied to the plunger 15 via the chain guide 6. At this time, since the pressure in the pressure chamber 17 becomes high, the check valve 19 closes the oil supply passage 18 and the pushing force is buffered by the hydraulic oil sealed in the pressure chamber 17.

  When the pressure in the pressure chamber 17 exceeds the set pressure of the relief valve 23, the relief valve 23 is opened, and the hydraulic oil in the pressure chamber 17 is discharged to the outside from the oil discharge passage 22. For this reason, the chain 5 is not over-tensioned, and the chain 5 can be prevented from being broken due to an increase in tension.

  When the chain tensioner 10 is assembled, the housing 11 of the chain tensioner 10 is fitted into the fitting hole 9 from the outside of the chain case 8, and the mounting flange 12 is attached to the chain case 8 by tightening the bolt 13 screwed into the chain case 8. To fix.

  When the chain tensioner 10 is installed as described above, a circumferential groove 20 is formed on the outer periphery of the housing 11 so as to pass through the position of the oil inlet 18a of the oil supply passage 18. The groove width of the circumferential groove 20 is equal to that of the oil inlet 18a. Since the diameter is larger, the oil supply passage 18 is supplied via the circumferential groove 20 even if there is a deviation in the circumferential direction and the axial direction of the housing 11 between the oil outlet 21a of the supply passage 21 and the oil inlet 18a of the oil supply passage 18. It communicates with the road 21 reliably.

  Therefore, the assembly of the chain tensioner 10 is not required to be performed with high accuracy, the assembly work can be easily performed, and the degree of freedom in designing the chain tensioner 10 can be increased.

  When the chain tensioner 10 is attached, the gap between the fitting hole 9 and the fitting surface of the housing 11 is sealed by the attachment of the seal ring 40 or the seal member 41 shown in FIG.

  In the embodiment, the peripheral groove 20 is formed on the outer peripheral surface of the housing 11, but the peripheral groove may be provided on the inner peripheral surface of the fitting hole 9.

Partially cutaway front view showing an embodiment of a chain tensioner device according to the present invention Sectional view along the line II-II in FIG. Sectional view along line III-III in FIG. Sectional drawing which expands and shows a backward movement control means

Explanation of symbols

8 Chain case (Tensioner installation target)
9 Fitting hole 10 Chain tensioner 11 Housing 14 Cylinder chamber 15 Plunger 16 Spring 17 Pressure chamber 18 Oil supply passage 18a Oil inlet 20 Circumferential groove 21 Supply passage 21a Oil outlet

Claims (1)

  A plunger and a spring that presses the plunger outward are incorporated in a cylinder chamber formed in the housing. The housing is provided with an oil supply passage communicating with the pressure chamber formed on the back of the plunger, and an oil inlet of the oil supply passage Has an oil supply type chain tensioner that is opened on the outer peripheral surface of the housing, and this oil supply type chain tensioner is fitted and fixed in a fitting hole formed on the tensioner mounting object, and the above-mentioned fitting is applied to the tensioner mounting object. A chain provided with a supply path that opens at the inner peripheral surface of the hole, and hydraulic oil supplied to the oil supply path from the supply path flows into the pressure chamber to buffer the pushing force applied to the plunger from the chain. In the tensioner device, the diameter of the oil inlet of the oil supply passage on at least one of the outer peripheral surface of the housing and the inner peripheral surface of the fitting hole Ri chain tensioner device the wide circumferential groove, characterized in that provided to pass through the position of the oil inlet.

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