JP2006189103A - Chain tensioner - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a chain tensiner which is small-sized and light weighted, and excellent in a damping effect. <P>SOLUTION: A plunger 4 and a spring 6 to press the plunger 4 outward are assembled in a cylinder chamber 3 of a housing 1. A lubricating passage 8 is installed in the housing 1 to communicate to a pressure chamber 7 formed at the back of the plunger 4. A cylinder 15 is fitted in the outer periphery of the housing 1, a helical groove 16 is installed in the inner periphery of the cylinder 15, and a semi-radial through hole 17 to communicate the pressure chamber 7 and the helical groove 16 is formed in the housing 1 so as to discharge air retained above the working fluid in the pressure chamber 7 from the through hole 17 and the helical groove 16 outward. <P>COPYRIGHT: (C)2006,JPO&NCIPI

Description

  The present invention mainly relates to a chain tensioner that keeps the tension of a camshaft drive chain constant in an internal combustion engine.

  As shown in FIG. 7, a chain 34 is passed between a sprocket 31 attached to the crankshaft 30 and a sprocket 33 attached to the end of the camshaft 32 to transmit the rotation of the crankshaft 30 to the camshaft 32. In the chain transmission device, the swingable chain guide B is brought into contact with the slack side chain 34a of the chain 34, and an adjustment force of the chain tensioner 40 is applied to the chain guide B so as to keep the tension of the chain 34 constant. ing.

  As the chain tensioner 40, as shown in FIG. 8, a plunger 43 and a spring 44 that presses the plunger 43 outward are incorporated in a cylinder chamber 42 formed in the housing 41. An oil supply passage 46 that communicates with the pressure chamber 45 formed in the back portion of 43 is provided, and the pushing force applied to the plunger 43 from the chain 34 by the hydraulic oil supplied from the oil supply passage 46 to the pressure chamber 45 is buffered. Is known.

  In the chain tensioner as described above, since the working oil supplied to the oil supply passage 46 is engine oil, air is often included in the working oil.

  Further, when the plunger 43 moves rapidly in the outward direction, the pressure in the pressure chamber 45 rapidly decreases, so that air breaks out from the hydraulic oil and air accumulates on the hydraulic oil in the pressure chamber 45. There is.

  Here, if air accumulates on the hydraulic oil in the pressure chamber 45, when the chain 34 is tensioned and the plunger 43 is pushed in, the plunger 43 compresses the air. The function as a tensioner cannot be fully exhibited.

  In order to solve such a problem, a chain tensioner having an air vent passage has been proposed.

  Here, in the conventional chain tensioner shown in FIG. 8, the housing 41 is provided with a screw hole 47 that communicates with the pressure chamber 45 from the upper periphery of the housing 41, and a screw 48 is screw-engaged with the screw hole 47. Using the screw clearance formed between the screw engaging portions of the hole 47 as an air vent passage, when the pressure in the pressure chamber 45 into which the plunger 43 is pushed increases, air on the hydraulic oil flows out from the air vent passage to the outside. I have to.

  By the way, in the conventional chain tensioner, since the air vent passage is formed by screwing the screw 48 into the radial screw hole 47 formed in the housing 41, the outer diameter of the housing 41 is increased, It is difficult to form a long air vent passage, and when the plunger 43 is pushed in, the hydraulic oil in the pressure chamber 45 easily leaks from the air vent passage, and a good damping effect cannot be obtained. There was an inconvenience.

  An object of the present invention is to provide a chain tensioner capable of reducing the outer diameter size and weight of a housing and exhibiting an excellent damping effect.

  In order to solve the above-described problem, in the first invention, in the chain tensioner configured to buffer the pushing force applied to the plunger by the hydraulic oil supplied from the oil supply passage formed in the housing into the pressure chamber, A cylindrical body is fitted to the outer periphery of the housing, a spiral groove reaching the tip of the cylindrical body is provided on one of the fitting surfaces, and the housing has a radial through hole that communicates the upper part of the pressure chamber with the spiral groove. The formed structure was adopted.

  According to a second aspect of the present invention, in the chain tensioner configured to buffer the pushing force applied to the plunger by the hydraulic oil supplied from the oil supply passage formed in the housing to the pressure chamber, a male screw is provided on the outer periphery of the housing. The male screw is engaged with a female screw provided on the inner periphery of the cylindrical body, and the housing has a screw clearance formed between the male screw and the screw engaging portion of the female screw and an upper portion of the pressure chamber. A configuration in which a through hole in the radial direction for communication was formed was adopted.

  Further, according to a third aspect of the present invention, in the chain tensioner configured to cushion the pushing force applied to the plunger by the hydraulic oil supplied from the oil supply passage formed in the housing into the pressure chamber, the tensioner is attached to the outer periphery of the housing. A spiral groove forming a spiral air vent passage is provided between the inner peripheral surfaces of the housing insertion hole formed in the object, and a radial through hole extending from a part of the spiral groove to the upper part of the pressure chamber is formed in the housing. The formed structure was adopted.

  In any one of the first to third inventions, a long air vent passage can be formed without increasing the outer diameter size of the housing, and a small and lightweight with an excellent damping effect. A chain tensioner can be obtained.

  Hereinafter, embodiments of the present invention will be described with reference to FIGS. 1 and 2 show a first embodiment of a chain tensioner according to the present invention. As shown in the figure, the housing 1 has a cylindrical shape, and a flange 2 that is bolted to a tensioner attachment target such as an engine cover is provided at the rear end thereof.

  The housing 1 is formed with a cylinder chamber 3 extending in the axial direction from the front end surface thereof, and a plunger 4 is slidably incorporated in the cylinder chamber 3.

  The plunger 4 has a hollow chamber 5 that opens at its rear end surface, and a spring 6 incorporated between the closed end of the hollow chamber 5 and the closed end of the cylinder chamber 3 presses the plunger 4 outward.

  The housing 1 is provided with an oil supply passage 8 communicating with a pressure chamber 7 formed at the back of the plunger 4, and a check valve 9 is incorporated on the oil outlet side of the oil supply passage 8. When the pressure of the hydraulic oil in the pressure chamber 7 becomes higher than the supply pressure of the hydraulic oil supplied to the oil supply passage 8, the check valve 9 closes the oil supply passage 8 and the hydraulic oil in the pressure chamber 7 flows into the oil supply passage 8. To prevent.

  Between the housing 1 and the plunger 4, there is provided a backward movement restricting means 10 for preventing the plunger 4 from moving backward toward a closed end of the cylinder chamber 3 by a predetermined amount or more. The backward movement restricting means 10 forms a ring accommodating groove 11 on the inner periphery of the opening end of the cylinder chamber 3, accommodates a register ring 12 elastically deformable in the radial direction in the ring accommodating groove 11, and A plurality of circumferential grooves 13 to be tightened by the register ring 12 are provided on the outer periphery at equal intervals, a tapered surface 13a having a small diameter toward the tip of the plunger 4 on the inner periphery of each circumferential groove 13, and the tapered surface 13a An engagement surface 13b is provided at the small-diameter end, and the taper surface 13a allows the plunger 4 to move forward by the action of expanding the diameter of the register ring 12, and comes into contact with the rear wall surface 11a of the ring receiving groove 11 to stop The retraction movement of the plunger 4 is restricted by the engagement of the engagement surface 13 b with 12.

  An O-ring 14 and a cylinder 15 are fitted on the outer periphery of the housing 1. The O-ring 14 seals between the housing insertion hole formed in the tensioner attachment target and the fitting surface of the housing 1 inserted into the housing insertion hole.

  A spiral groove 16 is formed on the inner periphery of the cylindrical body 15. The spiral groove 16 forms a spiral air vent passage with the cylindrical outer peripheral surface of the housing 1, and the air vent passage is formed on the outer periphery of the pressure chamber 7 by a through hole 17 extending in a radial direction from the upper outer periphery of the housing 1. It communicates with the upper part.

  The chain tensioner shown in the first embodiment has the above-described structure, and this chain tensioner is similar to the chain tensioner shown in FIG. 7 by inserting the housing 1 into the housing insertion hole a formed in the tensioner attachment target A. The flange 2 is bolted to the tensioner attachment object A, and the chain guide B is pressed by the plunger 4 to which the outward protrusion is imparted by the spring 6.

  In the assembled state of the chain tensioner as described above, when the chain 34 vibrates due to a change in the angular velocity during one rotation of the crankshaft 30 or a torque fluctuation of the camshaft 32 and the chain 34 is loosened, the spring 6 is pressed. As a result, the plunger 4 moves outward to absorb the slack of the chain 34.

  When the plunger 4 moves forward, the register ring 12 is pushed by the tapered surface 13a of the circumferential groove 13 to expand its diameter, so that the forward movement of the plunger 4 is not hindered. When the movement amount of the plunger 4 becomes larger than the pitch of the circumferential groove 13, the next circumferential groove 13 corresponds to the register ring 12.

  On the other hand, when the chain 34 is tensioned, a pushing force is applied to the plunger 4 via the chain guide B, the check valve 9 closes the oil supply passage 8, and the pushing force is buffered by the working oil in the pressure chamber 7. At this time, when the pressure in the pressure chamber 7 becomes high and air accumulates on the hydraulic oil, the air flows from the through hole 17 to the spiral groove 16 and is discharged to the outside.

  As in the first embodiment, the spiral groove 16 is formed on the inner periphery of the cylinder 15 fitted to the outer periphery of the housing 1, so that the housing 1 can be formed without increasing the outer diameter size. A long air vent passage can be formed between the cylindrical outer peripheral surfaces.

  For this reason, when the pushing force applied to the plunger 4 is buffered, the hydraulic oil in the pressure chamber 7 is less likely to leak from the air vent passage, and a small and light chain tensioner with an excellent damping effect can be obtained.

  FIG. 3 shows a second embodiment of the chain tensioner according to the present invention. In this embodiment, the spiral groove 18 is formed in the cylindrical outer peripheral surface of the housing 1, and the first is that a spiral air vent passage is formed between the cylindrical inner peripheral surface 19 of the cylindrical body 15. This is different from the embodiment. For this reason, the same components as those in the first embodiment are denoted by the same reference numerals, and description thereof is omitted.

  Also in the second embodiment, similarly to the first embodiment, a small and light chain tensioner having an excellent damping effect can be obtained.

  4 and 5 show a third embodiment of the chain tensioner according to the present invention. In this embodiment, a male screw 20 is formed on the outer periphery of the housing 1, a female screw 22 provided on the inner periphery of the cylindrical body 21 is screw-engaged with the male screw 20, and a helical screw formed between the screw engaging portions. The gap 23 is used as an air vent passage. Since other configurations are the same as those of the first embodiment, the same components are denoted by the same reference numerals and description thereof is omitted.

  Also in the third embodiment, a small and light chain tensioner having an excellent damping effect can be obtained as in the first embodiment.

  FIG. 6 shows a fourth embodiment of the chain tensioner according to the present invention. In this embodiment, the spiral groove 24 is formed in the cylindrical outer peripheral surface of the housing 1, and the chain tensioner is inserted into the housing insertion hole a of the tensioner attachment target A so that the housing 1 The spiral groove 24 is formed as a spiral air vent passage with respect to the peripheral surface. Since other configurations are the same as those of the first embodiment, the same components are denoted by the same reference numerals and description thereof is omitted.

  In the fourth embodiment as well, a long air vent passage can be formed, and a smaller and lighter chain tensioner having an excellent damping effect can be obtained.

Longitudinal front view showing a first embodiment of a chain tensioner according to the present invention Sectional drawing which expands and shows a part of backward movement control means shown in FIG. Longitudinal front view showing a second embodiment of the chain tensioner according to the present invention Longitudinal front view showing a third embodiment of a chain tensioner according to the present invention FIG. 4 is an enlarged sectional view showing a part of FIG. Longitudinal front view showing a fourth embodiment of the chain tensioner according to the present invention. Front view of camshaft drive chain transmission Longitudinal front view showing a conventional chain tensioner

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Housing 3 Cylinder chamber 4 Plunger 6 Spring 7 Pressure chamber 8 Oil supply passage 15 Cylinder 16 Spiral groove 17 Through-hole 18 Spiral groove 20 Male screw 21 Cylinder 22 Female screw 23 Screw gap 24 Spiral groove A Tensioner installation target a Housing insertion hole

Claims (3)

  A plunger that is slidable in a cylinder chamber formed in the housing and a spring that presses the plunger outward are incorporated, and the housing has an oil supply passage that communicates with a pressure chamber formed on the back of the plunger. In the chain tensioner provided and buffering the pushing force applied to the plunger by the hydraulic oil supplied from the oil supply passage to the pressure chamber, a cylindrical body is fitted to the outer periphery of the housing, and one of the fitting surfaces The chain tensioner is characterized in that a spiral groove reaching the tip of the cylinder is provided in the housing, and a radial through-hole is formed in the housing to communicate the upper part of the pressure chamber with the spiral groove.   A plunger that is slidable in a cylinder chamber formed in the housing and a spring that presses the plunger outward are incorporated, and the housing has an oil supply passage that communicates with a pressure chamber formed on the back of the plunger. In the chain tensioner provided and buffering the pushing force applied to the plunger by the hydraulic oil supplied to the pressure chamber from the oil supply passage, a male screw is formed on the outer periphery of the housing, and the inner periphery of the cylinder is formed on the male screw. The housing is formed with a threaded engagement, and the housing is formed with a radial through-hole that communicates the screw clearance formed between the male thread and the thread engaging portion of the female thread with the upper portion of the pressure chamber. A chain tensioner characterized by   A plunger that is slidable in a cylinder chamber formed in the housing and a spring that presses the plunger outward are incorporated, and the housing has an oil supply passage that communicates with a pressure chamber formed on the back of the plunger. In a chain tensioner provided and buffering the pushing force applied to the plunger by the hydraulic oil supplied to the pressure chamber from the oil supply passage, the inner periphery of the housing insertion hole formed on the outer periphery of the housing on the tensioner mounting target A chain tensioner characterized in that a spiral groove forming a spiral air vent passage is provided between the surfaces, and a radial through hole extending from a part of the spiral groove to the upper portion of the pressure chamber is formed in the housing.

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