JP4806314B2 - Chain tensioner - Google Patents

Description

  The present invention mainly relates to a chain tensioner used for maintaining tension of a timing chain that drives a camshaft of an engine.

  In general, an engine transmits rotation of a crankshaft to a camshaft through a timing chain housed in an engine room in an engine cover, and the rotation of the camshaft opens and closes a valve in a combustion chamber. Here, in order to keep the tension of the chain within an appropriate range, a tension adjusting device comprising a chain guide provided so as to be able to swing around a fulcrum shaft and a chain tensioner that urges the chain guide in a direction to press the chain guide against the chain. Is often used.

  As a chain tensioner to be incorporated in this tension adjusting device, it has a bottomed cylindrical housing that is inserted into a tensioner mounting hole formed in the engine cover and opens toward the engine cover. A flange portion fixed to the outer surface is formed, a plunger for pressing a chain is inserted into the housing so as to be slidable in the axial direction, a pressure chamber is formed, oil is stored in the pressure chamber, and the volume of the pressure chamber A return spring that urges the plunger in a direction to expand the pressure chamber, and an oil supply passage that communicates the pressure chamber with the outside is formed in the housing, and only the oil flow from the outside into the pressure chamber is allowed in the oil supply passage. A check valve is provided, and the end of the pressure chamber side of the plunger is cylindrical, and the internal thread formed on the inner periphery of the end of the pressure chamber is Flip incorporate screw rod forming an external thread on the outer periphery to be engaged with the pressure chamber, which is provided a spring biasing in a direction away the screw rod from the plunger is known (Patent Document 1).

  In this chain tensioner, the plunger moves to a position where the pressure in the pressure chamber and the biasing force of the return spring are balanced with the tension of the chain, thereby absorbing the fluctuation in the tension of the chain and keeping the tension of the timing chain within an appropriate range.

In such a chain tensioner, in order to prevent the chain from becoming over-tensioned, a relief passage that communicates the pressure chamber with the outside is formed in the housing, and the pressure in the pressure chamber is set in advance in the relief passage. There are some that incorporate a relief valve that opens when it becomes larger.
JP 10-1332039 A

  However, when the relief valve is incorporated in the housing, the diameter of the housing increases and the chain tensioner increases in size. Therefore, in order to suppress the increase in the size of the chain tensioner, a relief valve is incorporated into the flange portion of the housing, and the oil that has flowed out of the relief valve is returned to the engine room through a groove formed in the inner surface of the tensioner mounting hole. Can be considered.

  However, in this case, since the flange portion of the housing is increased in size, if there are other parts in the vicinity of the tensioner attachment hole, the flange part easily interferes with the parts, and it is difficult to install in a narrow space.

  The problem to be solved by the present invention is to reduce the size of the chain tensioner having a relief valve that returns the oil in the pressure chamber to the engine room so that it can be easily installed even when the space near the tensioner mounting hole of the engine cover is narrow. is there.

  In order to solve the above-mentioned problem, a relief passage for communicating the pressure chamber to the outside is formed in the plunger, and a relief valve is opened in the relief passage when the pressure in the pressure chamber becomes higher than a preset pressure. Is provided.

  In the chain tensioner of the present invention, since the relief valve is provided on the plunger, the diameter of the housing can be suppressed smaller than when the relief valve is incorporated into the housing, and moreover than when the relief valve is incorporated into the flange portion of the housing. However, the flange portion can be kept small. Therefore, it is easy to attach even when the space near the tensioner attachment hole of the engine cover is narrow.

  FIG. 1 shows a chain transmission device incorporating a chain tensioner according to an embodiment of the present invention. In this chain transmission device, a sprocket 2 fixed to a crankshaft 1 and a sprocket 4 fixed to a camshaft 3 are connected via a chain 5, and the chain 5 controls the rotation of the crankshaft 1 as a camshaft. 3, and the valve (not shown) of the combustion chamber is opened and closed by the rotation of the camshaft 3. The sprockets 2 and 4 and the chain 5 are accommodated in an engine room in the engine cover 6.

  A chain guide 8 is provided in the engine room so as to be swingable about the fulcrum shaft 7. A chain tensioner that urges the engine cover 6 in a direction to press the chain guide 8 against the chain 5 is provided. 9 is attached.

  The chain tensioner 9 has a housing 11 that is inserted into a tensioner mounting hole 10 formed in the engine cover 6. A flange portion 13 that is fixed to the outer surface of the engine cover 6 with bolts 12 is formed on the outer periphery of the housing 11.

  As shown in FIG. 2, the housing 11 is formed in a bottomed cylindrical shape that opens into the engine cover 6, and a plunger 14 for pressing a chain is slidable in the axial direction in the housing 11. Inserted, a pressure chamber 15 is formed in the housing 11 by the plunger 14.

  A return spring 16 that urges the plunger 14 in the direction of expanding the volume of the pressure chamber 15 is incorporated in the pressure chamber 15, and oil is stored in the pressure chamber 15. An oil supply passage 17 that communicates with the pressure chamber 15 from the outside of the housing 11 is formed in the housing 11. The oil supply passage 17 has an opening to the outside connected to an oil passage 18 formed in the engine cover 6, and the oil passage 18 is connected to an oil supply pump (not shown).

  A check valve 19 that allows only the flow of oil from the outside into the pressure chamber 15 is provided at the opening of the oil supply passage 17 toward the pressure chamber 15. The check valve 19 includes a valve seat 20 that is press-fitted into the inner periphery of the housing 11, a spherical valve body 21 that is detachably provided on the valve seat 20, and a retainer 22 that regulates the movement range of the valve body 21. Consists of.

  When the pressure in the pressure chamber 15 becomes higher than the pressure in the oil supply passage 17, the check valve 19 closes the valve hole 23 formed in the valve seat 20 with the valve body 21 in close contact with the valve seat 20. When the internal pressure becomes lower than the pressure in the oil supply passage 17, the valve body 21 is separated from the valve seat 20 and opens the valve hole 23.

  The plunger 14 includes a cylindrical portion 24 that is inserted into the housing 11 and a cap portion 25 that is fitted into one end of the cylindrical portion 24 and contacts the chain guide 8. A female screw 26 is formed on the inner periphery of the cylindrical portion 24. ing. Further, a screw rod 27 coaxial with the plunger 14 is incorporated in the pressure chamber 15, and a male screw 28 formed on the outer periphery of the screw rod 27 is engaged with a female screw 26 on the inner periphery of the cylindrical portion 24. . The screw rod 27 has an axial through hole 29 formed therein.

  The female screw 26 and the male screw 28 are screw-engaged with play in the axial direction. Further, the female screw 26 and the male screw 28 are formed in a sawtooth shape having an asymmetric cross section along the axis, and the pressure side flank that receives pressure in a state where the force in the direction of reducing the volume of the pressure chamber 15 acts on the plunger 14. The flank angle of 30 is formed to be larger than the flank angle of the play side flank 31.

  The cap portion 25 is formed in a bottomed cylindrical shape that opens to the pressure chamber side, and has an escape passage 32 that allows the pressure chamber 15 to communicate with the engine room. A relief valve 33 that opens when the pressure in the pressure chamber 15 becomes higher than a preset pressure is provided at the opening of the relief passage 32 on the pressure chamber 15 side.

  As shown in FIG. 3, the relief valve 33 includes a valve seat 35 in which a valve hole 34 is formed, a spherical valve body 36 that can be brought into contact with and separated from the valve seat 35, and a valve body 36 attached to the valve seat 35. The valve spring 37 urges toward the valve hole 34 and a valve sleeve 38 that accommodates the valve spring 37 and the valve body 36, and oil flowing from the valve hole 34 of the valve seat 35 is released to the valve sleeve 38. A through hole 39 for discharging to the passage 32 is formed.

  The relief valve 33 is held in the cap portion 25 by a retainer 40 press-fitted into the cap portion 25. Between the cap part 25 and the screw rod 27, a spring seat 42 urged toward the cap part 25 by a spring 41 is provided, and an end surface of the spring sheet 42 on the cap part 25 side is formed in a spherical shape. .

  The spring seat 42 is positioned in the radial direction on the inner periphery of the cap portion 25. A cylindrical spacer 43 is incorporated between the spring seat 42 and the retainer 40, and the urging force of the spring 41 is transmitted to the cap portion 25 through the spring seat 42, the spacer 43, and the retainer 40 in this order. 27 is urged in a direction away from the cap portion 25.

  As shown in FIGS. 4 and 5, a groove 44 extending in the axial direction is formed on the side surface of the spacer 43, and a groove 45 extending in the radial direction is formed on the end surface of the spacer 43 on the retainer 40 side. As a result, the oil in the pressure chamber 15 can flow into the relief valve 33 through the radial through hole 46 formed in the cap portion 25, the grooves 44 and 45, and the through hole 47 formed in the retainer 40 in order. It has become.

  Next, an operation example of the chain tensioner 9 will be described.

  When the chain 5 is vibrated by driving the camshaft 3 and the tension of the chain 5 increases, the plunger 14 repeatedly moves forward and backward within the gap between the female screw 26 and the male screw 28, and the screw rod 27 rotates little by little. To do. By this rotation, the plunger 14 moves in the axial direction to a position where the pressure in the pressure chamber 15 and the biasing force of the return spring 16 are balanced with the tension of the chain 5, and absorbs the tension of the chain 5. At this time, oil leaks from the pressure chamber 15 to the engine room through the gap between the sliding surfaces of the housing 11 and the plunger 14.

  On the other hand, when the tension of the chain 5 becomes smaller, the pressure in the pressure chamber 15 becomes lower than the pressure in the oil supply passage 17, the check valve 19 opens, and oil flows into the pressure chamber 15 through the oil supply passage 17. As a result, the plunger 14 moves in the direction of expanding the volume of the pressure chamber 15, and moves to a position where the pressure in the pressure chamber 15 and the biasing force of the return spring 16 are balanced with the tension of the chain 5. At this time, when the amount of movement of the plunger 14 increases, the screw rod 27 moves away from the valve seat 20. After that, the screw rod 27 is slightly moved by the vibration transmitted from the chain 5 via the plunger 14 and the urging force of the spring 41. It moves to the valve seat 20 side while rotating one by one.

  Further, when the tension of the chain 5 suddenly increases with the screw rod 27 away from the valve seat 20, the pressure in the pressure chamber 15 rises and the relief valve 33 opens. As a result, as shown in FIG. 3, the oil in the pressure chamber 15 flows through the relief valve 33 to the escape passage 32, the plunger 14 moves in a direction to reduce the volume of the pressure chamber 15, and the tension of the chain 5 Is prevented from becoming excessive.

  Thereafter, when the engine stops, the plunger 14 moves to a position where the screw rod 27 contacts the valve seat 20. At this time, since the chain 5 does not vibrate, the screw rod 27 does not rotate, and the plunger 14 does not move from the position where the screw rod 27 contacts the valve seat 20. Therefore, when the engine is restarted, the looseness of the chain 5 can be quickly absorbed, and the tension of the chain 5 is easily stabilized.

  In this chain tensioner 9, since the relief valve 33 is provided on the plunger 14, the diameter of the housing 11 can be suppressed smaller than when the relief valve 33 is incorporated in the housing 11, and the relief valve 33 is attached to the flange portion 13. The flange part 13 can be suppressed smaller than the case where it incorporates. Therefore, the chain tensioner 9 is easy to attach even when the space near the tensioner attachment hole 10 of the engine cover 6 is narrow.

The front view which shows the chain transmission apparatus incorporating the chain tensioner of embodiment of this invention 1 is an enlarged cross-sectional view of the chain tensioner of FIG. FIG. 2 is an enlarged sectional view showing a state in which the relief valve of the chain tensioner of FIG. 2 is opened. Sectional view along line IV-IV in FIG. Enlarged perspective view of the spacer shown in FIG.

Explanation of symbols

6 Engine cover 10 Tensioner mounting hole 11 Housing 13 Flange portion 14 Plunger 15 Pressure chamber 16 Return spring 17 Oil supply passage 19 Check valve 26 Female screw 27 Screw rod 28 Male screw 32 Relief passage 33 Relief valve

Claims (1)

It has a bottomed cylindrical housing (11) that is inserted into a tensioner mounting hole (10) formed in the engine cover (6) and opens into the engine cover (6), and is provided on the outer periphery of the housing (11). A flange portion (13) fixed to the outer surface of the engine cover (6) is formed, and a chain pressing plunger (14) is inserted into the housing (11) so as to be slidable in the axial direction. 15) is formed, oil is stored in the pressure chamber (15), and a return spring (16) for urging the plunger (14) in the direction of expanding the volume of the pressure chamber (15) is provided. An oil supply passage (17) for communicating the chamber (15) with the outside is formed in the housing (11), and only the oil flow from the outside into the pressure chamber (15) is allowed in the oil supply passage (17). H A pressure valve side end portion of the plunger (14) is formed in a cylindrical shape, and a male screw (28) that engages with a female screw (26) formed on the inner periphery of the pressure chamber side end portion. In a chain tensioner provided with a spring (41) for incorporating a screw rod (27) formed on the outer periphery into the pressure chamber (15) and urging the screw rod (27) away from the plunger (14). ,
An escape passage (32) for communicating the pressure chamber (15) with the outside is formed in the plunger (14), and the pressure in the pressure chamber (15) is higher than a preset pressure in the escape passage (32). A relief valve (33) that opens when it becomes larger is provided , and the plunger (14) is fitted into a cylindrical portion (24) inserted into the housing (11) and one end of the cylindrical portion (24), The relief valve (33) comprises a retainer (40) press-fitted into the cap portion (25). The cap portion (25) comprises a bottomed cylindrical cap portion (25) in contact with the chain guide (8). A spring seat (42) is provided between the cap part (25) and the screw rod (27) and is biased toward the cap part (25) by the spring (41). The end surface of the spring seat (42) on the cap portion (25) side is formed in a spherical shape, and the spring seat (42) is positioned in the radial direction on the inner periphery of the cap portion (25), and the spring seat (42 ) And the retainer (40), a cylindrical spacer (43) is incorporated, and a groove (44) extending in the axial direction is formed on a side surface of the spacer (43), and the retainer (40) of the spacer (43) is formed. ) Side end face is formed with a radially extending groove (45), and oil in the pressure chamber (15) is passed through the radial through hole (46) formed in the cap portion (25), the retainer. The groove (44, 45) in the axial direction and radial direction of (40) and the through hole (47) formed in the retainer (40) can be passed in order to flow into the relief valve (33). Features Chain tensioner to be.

Images