JP2006189075A - Chain tensioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a chain tensioner capable of restraining wear on a sliding surface between a cylinder chamber and a plunger. <P>SOLUTION: In the chain tensioner, a register ring 13 is assembled in a ring receiving groove 12 formed on an inner periphery of an opening of the cylinder chamber 2, and a plurality of circumferential grooves 14 fastened by the register ring 13 are axially formed on the outer periphery of the plunger 3 at even intervals. The register ring 13 is fitted on the first circumferential groove 14 located on a pointed head side of the plunger 3, and a pointed head side of an outer peripheral cylinder surface 3a at a front side of the first circumferential groove 14 is supported by an inner peripheral cylinder surface 2a at a front side of the ring receiving groove 12 of the cylinder chamber 2 while the register ring 13 is held between a connecting surface 14b of the first circumferential groove 14 and a locking surface 12b of the ring receiving groove 12. Generation of inclination is prevented on the plunger 3 while the chain repeating forward and backward movements of the plunger 3 is in a tension adjusting state, and generation of wear on the sliding surface between the plunger 3 and cylinder chamber 2 is restrained. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention relates to a chain tensioner that maintains a constant tension of a chain such as a camshaft drive chain in an internal combustion engine.

  Generally, in a chain transmission that drives a camshaft of an automobile engine, an adjustment force of a chain tensioner is applied to the slack side of the chain so as to keep the chain tension constant.

  As the chain tensioner, a plunger slidable in a cylinder chamber formed in the housing and a spring for pressing the plunger outward are incorporated, and the housing communicates with a damper chamber formed on the back of the plunger. 2. Description of the Related Art Conventionally, an oil supply passage is provided, a check valve is incorporated in the oil supply passage, and the pushing force applied to the plunger by hydraulic oil supplied from the oil supply passage to the damper chamber is buffered.

  By the way, in the chain tensioner as described above, when the engine is stopped, if the chain is held in a tension state by the stop posture of the cam, the plunger may be pushed into the chain to be largely retracted. At this time, when the engine is restarted, a large slack occurs in the chain, and the plunger moves greatly in the outward direction. In this case, the hydraulic pump that supplies the hydraulic oil from the oil supply passage to the damper chamber is immediately after start-up and delays in filling the damper chamber with the hydraulic oil, so that air remains in the damper chamber and the damping characteristics are deteriorated. May occur.

  In order to eliminate such inconvenience, in the chain tensioner described in Patent Document 1, as shown in FIGS. 8 to 11, a ring receiving groove 23 is formed on the inner periphery of the opening of the cylinder chamber 22 formed in the housing 21. A register ring 24 that is elastically deformable in a radial direction is accommodated in the ring accommodating groove 23, and an outer peripheral cylinder of a plunger 26 that is incorporated in the cylinder chamber 22 and is given outward projecting property by a spring 25. A plurality of circumferential grooves 27 are provided on the surface at equal intervals in the axial direction, a tapered surface 27a having a small diameter end on the inner end of each circumferential groove 27 and a small diameter end of the tapered surface 27a. The engagement surface 27b is provided, and the plunger 26 is engaged by engagement between the register ring 24 engaged with the engagement surface 27b and the lock surface 23a provided on the rear side of the ring receiving groove 23. So as to prevent the backward motion.

  Further, in the chain tensioner, in order to facilitate the assembly thereof, a small diameter portion 28 is formed at the distal end portion of the plunger 26, and the set surface 29 is continuous with the rear end of the outer peripheral cylindrical surface 28 a of the small diameter portion 28. The plunger 26 can be held in the pushed-in state by the engagement of the register ring 24 engaged with the set surface 29 and the stopper surface 23b on the front side of the ring receiving groove 23.

  In the chain tensioner having the above-described configuration, after the assembly, the diameter of the register ring 24 is expanded to unlock the plunger 26, and the plunger 26 is protruded outward by the pressing of the spring 25. The chain guide 30 shown in FIG. 8 is pressed to apply tension to the chain 31.

Here, if the plunger 26 is configured to simply press the chain guide 30, the chain guide 30 may swing due to vibration of the chain 31. In order to suppress the swing, the guide groove is formed in the plunger contact portion of the chain guide 30. 32, and the tip end portion of the small diameter portion 28 of the plunger 26 is fitted into the guide groove 32 so as to prevent the chain guide 30 from shaking.
JP 2001-355691 A

  In the chain tensioner as described above, when the diameter of the register ring 24 that engages the set surface 29 of the plunger 26 is expanded and the engagement with the set surface 29 is released, the plunger 26 moves outward by the pressing force of the spring 25. As shown in FIG. 9, the register ring 24 is in a state of being fitted into the first circumferential groove 27 located on the plunger tip side of the plurality of circumferential grooves 27 arranged in the axial direction. In this state, when the chain 31 vibrates due to a change in tension of the chain 31 due to torque fluctuation of the camshaft, the plunger 26 repeats forward and backward movements as shown in FIGS.

  At this time, when the axial length of the outer cylindrical surface 28a from the outer peripheral edge 29a of the set surface 29 to the space between the first circumferential grooves 27 is short, as shown in FIGS. 10 and 11, the outer peripheral cylindrical surface 28a Is not guided by the inner circumferential cylindrical surface 22a on the opening end side of the ring housing groove 23 of the cylinder chamber 22. As a result, when the plunger 26 is pushed in by the chain guide 30, the plunger 26 is inclined, and wear easily occurs at the sliding portion between the inner peripheral surface of the cylinder chamber 22 and the outer peripheral cylindrical surface 26a of the plunger 26. In addition, the operability of the register ring 24 may be hindered.

  Further, when the plunger 26 moves forward by the pressing of the spring 25, the outer peripheral edge 29 a of the set surface 29 comes into contact with the inner peripheral edge 23 b ′ of the stopper surface 23 b of the ring receiving groove 23 and the movement of the plunger 26 is inhibited. There is a fear.

  The chain tensioner having means for restricting the backward movement of the plunger 26 is omitted from the set surface 29 shown in FIG. 9, and a small-diameter portion for stabilizing the chain guide 30 is provided at the tip of the plunger, and an outer peripheral cylinder at the small-diameter portion. There is a chain tensioner in which an inclined surface is continuous at the rear end of the surface, and even in such a chain tensioner, when the cylindrical surface length from the outer peripheral edge of the inclined surface to the first circumferential groove is short, the above-mentioned The same problem may occur.

  An object of the present invention is to provide a chain tensioner that can suppress wear on the sliding surfaces of the cylinder chamber and the plunger and that does not hinder the sliding of the plunger and the operability of the register ring.

  In order to solve the above-described problem, in the first invention, a slidable plunger having a small diameter portion at a tip in a cylinder chamber formed in a housing, and a spring that presses the plunger outward. Built-in, a register ring that is elastically deformable in a radial direction is accommodated in a ring accommodating groove formed in the inner periphery of the opening of the cylinder chamber, and a plurality of circumferential grooves are equally spaced in the axial direction on the outer peripheral cylindrical surface of the plunger. Providing a tapered surface having a small-diameter end on the distal end side of the plunger on an inner periphery of each circumferential groove, an engaging surface continuing to the small-diameter end of the tapered surface, and a register ring engaged with the engaging surface; In the chain tensioner that prevents the plunger from moving backward by engagement of a lock surface formed on the rear side of the ring receiving groove, the chain tensioner is positioned on the distal end side of the circumferential groove aligned in the axial direction. The axial length of the outer peripheral cylindrical surface on the plunger tip side from the first circumferential groove at the tip is set so that the register ring that engages with the engagement surface of the first circumferential groove engages with the lock surface of the ring housing groove. A configuration is adopted in which the distal end portion of the outer peripheral cylindrical surface is slidably guided by the inner peripheral cylindrical surface in front of the ring housing groove of the cylinder chamber.

  Here, when the side surface from the rear end of the small diameter portion to the outer peripheral cylindrical surface of the plunger is a set surface that can be engaged with the register ring, the register ring that engages with the set surface and the stopper surface on the front side of the ring receiving groove Since the plunger can be held in the pushed-in state by the engagement, a chain tensioner that can be easily assembled can be obtained.

  In the second aspect of the invention, a slidable plunger having the same diameter over the entire length in the axial direction and a spring for pressing the plunger outward are incorporated in a cylinder chamber formed in the housing. A register ring that is elastic in the radial direction is accommodated in a ring accommodating groove formed in the inner periphery of the opening of the cylinder chamber, and a plurality of circumferential grooves are provided at equal intervals in the axial direction on the outer peripheral cylindrical surface of the plunger. Provided on the inner periphery of the circumferential groove is a tapered surface with a small diameter end on the tip of the plunger, and an engagement surface continuous with the small diameter end of the tapered surface. In the chain tensioner which prevents the plunger from moving backward by engagement with a lock surface provided on the side, the first state-of-the-art first located on the plunger tip side of the circumferential groove aligned in the axial direction A set groove that can hold the register ring in a fitted state is provided at a position that is offset from the circumferential groove toward the plunger tip side, and the outer peripheral cylindrical surface from the set groove to the plunger tip. The outer circumferential surface on the front side of the set groove is the cylinder chamber in a state where the register ring that engages with the engagement surface of the first circumferential groove engages with the lock surface on the rear side of the ring receiving groove. The length is set so that it is slidably guided on the inner cylindrical surface on the front side of the ring receiving groove, and the groove width of the set groove is shorter than the length from the ring receiving groove to the opening end of the cylinder chamber. .

  In the chain tensioner according to the first aspect of the present invention, even if the plunger repeatedly advances and retreats in the tension adjustment state of the chain in which the register ring is fitted to the first circumferential groove, the plunger tip side from the first circumferential groove of the plunger The tip of the outer peripheral cylindrical surface located at is always slidably guided by the inner peripheral cylindrical surface located closer to the opening end than the ring housing groove of the cylinder chamber, so that the tension adjustment to fit the register ring into the first circumferential groove Even if the plunger is pushed by the chain guide in this state, the plunger does not tilt. For this reason, wear on the sliding surfaces of the cylinder chamber and the plunger can be suppressed, and the register ring and the plunger do not tilt relatively, so that the operability of the register ring can be kept good.

  In the chain tensioner according to the second aspect of the present invention, even if the plunger repeatedly advances and retreats in the tension adjustment state of the chain in which the register ring is fitted in the first circumferential groove, the plunger tip side from the plunger set groove The distal end portion of the outer peripheral cylindrical surface located at the position is always slidably guided by the inner peripheral cylindrical surface located closer to the opening end than the ring housing groove of the cylinder chamber.

  For this reason, similarly to the first invention, wear on the sliding surfaces of the cylinder chamber and the plunger can be suppressed, and the operability of the register ring can be kept good.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 to 3 show a first embodiment of a chain tensioner according to the present invention. As shown in the figure, a cylinder chamber 2 having a closed end is formed in a housing 1 attached to the engine block, and a plunger 3 is slidably incorporated in the cylinder chamber 2.

  The plunger 3 has a hollow chamber 4 that opens at its rear end surface, and a small diameter portion 5 is provided at the tip. A side surface from the rear end of the outer peripheral cylindrical surface of the small diameter portion 5 to the outer peripheral cylindrical surface of the plunger 2 is an inclined surface 6. The small diameter portion 5 is inserted into a guide groove 32 formed at the plunger abutting portion of the chain guide 30 so that the chain guide 30 is prevented from shaking. Here, since the chain guide 30 is the same as that shown in FIG. 8, only the plunger contact portion is shown.

  The plunger 3 is given outward projectability by a spring 7 incorporated between the closed end of the hollow portion 4 and the closed end of the cylinder chamber 2.

  The housing 1 is provided with an oil supply passage 9 communicating with a damper chamber 8 formed at the back of the plunger 3, and a check valve 10 is incorporated on the oil outlet side of the oil supply passage 9. When the pressure of the hydraulic oil in the damper chamber 8 becomes higher than the supply pressure of the hydraulic oil supplied to the oil supply passage 9, the check valve 10 closes the oil supply passage 9 and allows the hydraulic oil in the damper chamber 8 to flow into the oil supply passage 9. To prevent.

  Between the housing 1 and the plunger 3, there is provided a retraction amount restricting means 11 for preventing the plunger 3 from retreating beyond a predetermined amount toward the closed end of the cylinder chamber 2.

  As shown in FIG. 3, the retraction amount restricting means 11 is formed with a ring receiving groove 12 in the inner periphery of the opening of the cylinder chamber 2, and can be elastically deformed in the radial direction provided in the register ring 13 in the ring receiving groove 12. A plurality of circumferential grooves 14 that are fastened by the ring portion 13a are provided at equal intervals in the plunger axial direction, and the distal ends of the plungers 3 are arranged on the inner circumferences of the circumferential grooves 14 respectively. A tapered surface 14a having a small diameter toward the surface, and an engaging surface 14b that can be engaged with the ring portion 13a are provided continuously at the small diameter end of the tapered surface 14a.

  Here, the front wall surface located at the opening end side of the cylinder chamber 2 of the ring receiving groove 12 is a stopper surface 12 a that prevents the register ring 13 from moving forward, and the rear wall surface is the rear wall of the register ring 13. The lock surface 12b prevents movement.

  Further, the groove depth at the intersection of the tapered surface 14a and the engagement surface 14b of the circumferential groove 14 is smaller than the wire diameter of the register ring 13, and the ring portion 13a of the register ring 13 is formed on the engagement surface 13b of the circumferential groove 14. The outer peripheral portion of the ring portion 13a faces the outer peripheral cylindrical surface 3a of the plunger 3 in an engaged state.

  As shown in FIG. 2, the register ring 13 has a pair of operation piece portions 13b facing the outside from a window 15 provided at the opening end portion of the housing 1, and the ring portion is obtained by picking the pair of operation piece portions 13b. 13a expands in diameter.

  In the backward movement restricting means 11 configured as described above, the taper surface 14 a allows the plunger 3 to move forward by the action of expanding the diameter of the ring portion 13 a of the register ring 13, and the register ring is placed on the lock surface 12 b of the ring receiving groove 12. Thirteen ring portions 13a come into contact with each other, and the backward movement of the plunger 3 is restricted by the engagement of the engagement surface 14b with the ring portion 13b.

As shown in FIG. 3, when the most peripheral circumferential groove 14 located on the plunger tip side of the plurality of circumferential grooves 14 arranged in the axial direction of the plunger 3 is a first circumferential groove 14, the first circumferential groove 14, the axial length L ₁ of the outer peripheral cylindrical surface 3 a located on the plunger tip side is such that the ring portion 13 a of the register ring 13 engaged with the engaging surface 14 b of the first circumferential groove 14 locks the ring receiving groove 12. In a state of engaging with the surface 12 b, the length is longer than the distance W ₁ from the first circumferential groove 14 to the stopper surface 12 a of the ring housing groove 12.

  The chain tensioner shown in the first embodiment has the above-described structure. As shown in FIGS. 1 and 3, the chain tensioner is located at the distal end side of the plunger 3 of a plurality of circumferential grooves 14 provided at equal intervals in the axial direction. In the tension adjustment state of the chain in which the register ring 13 is fitted in the first circumferential groove 14 at the tip, the chain vibrates due to a change in angular velocity during one rotation of the crankshaft or a torque fluctuation of the camshaft, and the chain is tensioned. When the pushing force is applied to the plunger 3, the pushing force is buffered by the hydraulic oil in the damper chamber 8.

  Further, when slack occurs in the chain, the plunger 3 moves outward by pressing of the spring 7 to absorb the slack of the chain.

  When the plunger 3 repeats advancing and retreating due to a change in chain tension, the ring portion 13a of the register ring 13 moves in the ring receiving groove 12, and the plunger 3 is pushed into the first circumferential groove as shown in FIG. When the plunger 3 is retracted until the ring portion 13a of the register ring 13 that engages the 14 engaging surface 14b engages with the lock surface 12b of the ring receiving groove 12, the plunger 3 does not retract further.

  At this time, the distal end portion of the outer peripheral cylindrical surface 3a located closer to the distal end side of the plunger than the first circumferential groove 14 of the plunger 3 is supported by the inner peripheral cylindrical surface 2a on the opening end side of the ring housing groove 12 of the cylinder chamber 2. It is in.

  For this reason, even if the ring portion 13a of the register ring 13 fitted in the first circumferential groove 14 repeats forward and backward movements in the ring receiving groove 12, the outer periphery on the plunger tip side from the first circumferential groove 14 of the plunger 3 The cylindrical surface 3a is slidably guided by the inner peripheral cylindrical surface 2a on the front side of the ring housing groove 12 of the cylinder chamber 2, and the sliding guide prevents the plunger 3 from being inclined.

  Therefore, the plunger 3 always moves smoothly in the axial direction, the wear on the sliding surfaces of the cylinder chamber 2 and the plunger 3 can be suppressed, and the plunger 3 and the register ring 13 can be relatively inclined. Therefore, the operability of the register ring 13 can be kept good.

  When the plunger 3 moves in the outward direction, the ring portion 13a of the register ring 13 comes into contact with the stopper surface 12a of the ring receiving groove 12 and stops, and the first circumferential groove with respect to the ring portion 13a in the stopped state. 14 taper surface 14a moves, and the ring portion 13a is pushed by the taper surface 14a to expand its diameter. Therefore, the forward movement of the plunger 3 is not hindered, and when the forward movement amount of the plunger 3 becomes larger than the pitch of the circumferential groove 14, the next circumferential groove 14 corresponds to the ring portion 13 a of the register ring 13. .

  4 and 5 show a second embodiment of the chain tensioner according to the present invention. In this embodiment, the side surface from the rear end of the small diameter portion 5 of the plunger 3 to the outer peripheral cylindrical surface 3a of the plunger 3 is an arc-shaped set surface 16 with which the ring portion 13a of the register ring 13 can be engaged. It differs from the chain tensioner shown in.

  For this reason, only the formation part of the set surface 16 is enlarged here, and the other part is abbreviate | omitted.

  As shown in the second embodiment, by forming the set surface 16 at the rear end of the small diameter portion 5, the ring portion 13a of the register ring 13 is engaged with the set surface 16, and the ring portion 13a is shown in FIG. As shown in FIG. 4, the plunger 3 can be pushed into the cylinder chamber 2 by being sandwiched between the set surface 16 and the stopper surface 12a of the ring receiving groove 12, so that the chain tensioner can be assembled easily. Can be improved.

  After the chain tensioner is assembled, the pair of operation pieces 13b of the register ring 13 shown in FIG. 2 is picked, the plunger 3 is moved outward by the diameter expansion of the ring portion 13a, and the chain guide 30 is pressed by the plunger 3. Hold the chain in tension.

  As shown in FIG. 5, in the tension adjustment state of the chain in which the ring portion 13 a of the register ring 13 is fitted to the first circumferential groove 14, the ring portion of the register ring 13 is engaged with the engagement surface 14 b of the first circumferential groove 14. When the plunger 3 is retracted until the ring portion 13a engages and the ring portion 13a engages with the lock surface 12b of the ring housing groove 12, the outer circumferential cylindrical surface 3a of the plunger 3 on the front side of the first circumferential groove 14 The axial length is such a length that the tip is supported by the inner circumferential cylindrical surface 3 a on the front side of the ring housing groove 12 of the cylinder chamber 2.

  For this reason, also in the second embodiment, it is possible to prevent the plunger 3 from being inclined in the tension adjustment state in which the ring portion 13a of the register ring 13 is fitted into the first circumferential groove 14, and the plunger 3 can be moved back and forth smoothly.

  6 and 7 show a third embodiment of the chain tensioner according to the present invention. In this third embodiment, the register 3 has the same diameter over the entire length in the axial direction from the front end to the rear end, and at a position offset from the first circumferential groove 14 toward the front end of the plunger. It differs from the chain tensioner of the first embodiment shown in FIGS. 1 to 3 in that a set groove 17 having a groove depth shallower than the wire diameter is provided.

  For this reason, the same components as those of the first chain tensioner are denoted by the same reference numerals and description thereof is omitted.

In the chain tensioner according to the third embodiment, as shown in FIG. 7, the ring portion 13 a of the register ring 13 is sandwiched between the engagement surface 14 b of the first circumferential groove 14 and the lock surface 12 b of the ring receiving groove 12. Thus, the outer peripheral cylindrical surface 3a on the front side of the set groove 17 of the plunger 3 is set to a length that is slidably guided by the inner peripheral cylindrical surface 2a on the front side of the ring housing groove 12 of the cylinder chamber 2. The groove width W ₂ of the set groove 17 is shorter than the axial length L ₂ of the inner peripheral cylindrical surface 2 a from the ring housing groove 12 to the open end of the cylinder chamber 2.

  For this reason, even if the plunger 3 repeatedly advances and retreats in the tension adjustment state of the chain in which the ring portion 13a of the register ring 13 is fitted in the first circumferential groove 14, the outer peripheral cylindrical surface on the front side of the first circumferential groove 14 3a is always slidably guided on the inner peripheral cylindrical surface 2a on the front side of the ring housing groove 12 of the cylinder chamber 2. As a result, the plunger 3 can smoothly move forward and backward without tilting, can suppress wear on the sliding surfaces of the plunger 3 and the cylinder chamber 2, and keep the operability of the register ring 14 good. be able to.

  Further, since the set groove 17 is formed at the tip of the plunger 3, the ring portion 13a of the register ring 13 fitted into the set groove 17 is engaged with the stopper surface 12a of the ring receiving groove 12 as shown in FIG. Since the plunger 3 can be held in the pushed-in state by combining, the chain tensioner can be easily assembled.

Longitudinal front view showing a first embodiment of a chain tensioner according to the present invention Sectional view along the line II-II in FIG. Sectional drawing which expands and shows a part of FIG. The expanded sectional view of only the principal part which shows 2nd Embodiment of the chain tensioner which concerns on this invention Sectional drawing of the state which made the register ring fitted to the 1st circumferential groove of the chain tensioner shown in FIG. 4 engage with the lock surface of a ring accommodation groove | channel. The expanded sectional view of only the principal part which shows 3rd Embodiment of the chain tensioner which concerns on this invention Sectional drawing of the state which engaged the register ring fitted to the 1st circumferential groove of the chain tensioner shown in FIG. 6 with the lock surface of the ring accommodation groove Longitudinal front view showing a conventional chain tensioner Sectional drawing which expands and shows a part of FIG. Sectional drawing which shows the tension adjustment state of the chain tensioner shown in FIG. Sectional drawing which shows the tension adjustment state of the chain tensioner shown in FIG.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Housing 2 Cylinder chamber 2a Inner peripheral cylindrical surface 3 Plunger 5 Small diameter part 7 Spring 12 Ring accommodation groove 12a Stopper surface 12b Lock surface 14 Circumferential groove 14a Taper surface 14b Engagement surface 16 Set surface 17 Set groove W ₂ Groove width L ₁ axial length: axial length of the outer cylindrical surface of the first circumferential groove of the plunger tip end cutting edge L ₂ axial length: the axis of the inner circumferential cylindrical surface of the ring receiving groove to the open end of the cylinder chamber Direction length

Claims (3)

  A ring receiving groove formed in the inner periphery of the opening of the cylinder chamber by incorporating a slidable plunger having a small-diameter portion at the tip and a spring that presses the plunger outward in a cylinder chamber formed in the housing. A register ring that is elastically deformable in the radial direction is accommodated therein, and a plurality of circumferential grooves are provided at equal intervals in the axial direction on the outer peripheral cylindrical surface of the plunger. And an engagement surface continuous to the small diameter end of the taper surface, and by engaging a register ring that engages with the engagement surface and a lock surface formed on the rear side of the ring receiving groove. In the chain tensioner designed to prevent the plunger from moving backward, the outer peripheral cylindrical surface on the plunger tip side from the most advanced first circumferential groove located on the plunger tip side of the circumferential groove aligned in the axial direction. When the register ring that engages with the engagement surface of the first circumferential groove engages with the lock surface of the ring housing groove, the tip end of the outer cylindrical surface is on the front side of the ring housing groove of the cylinder chamber. A chain tensioner characterized in that it has a length that is slidably guided on the inner circumferential cylindrical surface.   A side surface from the rear end of the small-diameter portion to the outer peripheral cylindrical surface of the plunger is a set surface that can be engaged with the register ring, a register ring that engages with the set surface, and a stopper surface that is formed on the front side of the ring receiving groove, The chain tensioner according to claim 1, wherein the plunger is held in a pushed-in state by engagement.   A slidable plunger having the same diameter over the entire length in the axial direction and a spring that presses the plunger outward are incorporated in a cylinder chamber formed in the housing, and formed on the inner periphery of the opening of the cylinder chamber. A register ring that is elastic in the radial direction is housed in the ring housing groove, and a plurality of circumferential grooves are provided at equal intervals in the axial direction on the outer peripheral cylindrical surface of the plunger. A tapered surface having a small diameter end and an engagement surface continuous to the small diameter end of the tapered surface, and a register ring engaged with the engagement surface and a lock surface provided on the rear side of the ring receiving groove In the chain tensioner configured to prevent the plunger from retreating by engagement, the distal end of the circumferential groove aligned in the axial direction from the first circumferential groove on the plunger tip side to the plunger tip side. A set groove that is shallower than the wire diameter of the register ring and that can hold the register ring in a fitted state is provided at the offset position, and the axial length of the outer peripheral cylindrical surface from the set groove to the plunger tip is In a state where the register ring that engages with the engagement surface of the first circumferential groove engages with the lock surface on the rear side of the ring housing groove, the outer circumferential surface on the front side of the set groove is on the front side of the ring housing groove of the cylinder chamber. The chain tensioner is characterized in that it has a length that is slidably guided on the inner peripheral cylindrical surface, and the groove width of the set groove is shorter than the length from the ring receiving groove to the opening end of the cylinder chamber.

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