JP2012140871A - Locker arm unit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a locker unit arm whose manufacturing cost is reduced and which has a clip with improved assembling reliability.SOLUTION: Both edges in a width direction at one end in the longitudinal direction of a locker arm 20, a recessed groove 28 is provided to penetrate therethrough in the height direction. The clip 60 has a fitting part 61 having a fitting groove 65 in a substantially U shape, and a pair of locking pieces 62 protruded from both ends in the width direction of the fitting part 61 to the height direction. Both locking pieces 62 are inserted into the recessed groove 28 and locked with the locker arm 20. A lash adjuster 40 is fitted into the fitting groove 65 and locked with the clip 60, while both locking pieces 62 are locked in the locker arm 20. In a process in which the lash adjuster 40 is fitted into the fitting groove 65, the fitting part 61 is elastically expanded by the lash adjuster 40 in a direction to expand the groove width of the fitting groove 65, and while the fitting part 61 is expanded, a state is maintained in which both locking pieces 62 are housed in the recessed groove 28.

Description

  The present invention relates to a rocker arm unit used in a valve gear for an internal combustion engine.

  Patent Document 1 discloses a conventional rocker arm unit. The rocker arm unit includes a rocker arm, a lash adjuster, and a clip that connects the two. The lash adjuster is attached to the cylinder head. The rocker arm is configured to extend in the length direction, one end in the length direction is supported by the lash adjuster, the other end in the length direction is brought into contact with the valve, and can be rotated to the middle in the length direction. A roller mounted on the cam is brought into contact with the cam. When the cam is driven, the roller is driven to rotate, and the rocker arm swings with the top of the lash adjuster as a fulcrum, so that the valve opens and closes accordingly.

  The clip has a pair of elastic pieces that can be inserted into and removed from the lash adjuster in a direction substantially parallel to the length direction of the rocker arm and can elastically hold the upper end of the lash adjuster. When assembling to the cylinder head, the rocker arm is prevented from falling off from the lash adjuster through the clip, and the assembling workability is improved.

JP 2010-275920 A

  By the way, the above-mentioned conventional clip has a problem that the manufacturing cost is high because the structure is relatively complicated. Further, the clip is easily detached from the lash adjuster while being bent by both elastic pieces by being pulled in a direction parallel to the length direction of the rocker arm. For this reason, there is a dislike that the clip mounting reliability is inferior.

  The present invention has been completed based on the above circumstances, and an object of the present invention is to provide a rocker arm unit having a clip with reduced manufacturing cost and improved assembly reliability.

  As means for achieving the above object, the invention of claim 1 is characterized in that a supporting member attached to a cylinder head and one end portion in the length direction are supported by the supporting member, and the other end portion in the length direction is provided. A rocker arm that is brought into contact with the valve and a longitudinal intermediate portion is brought into contact with the cam and swings by the cam to open and close the valve, and the support member and the rocker arm are connected to each other. A rocker arm unit including a plate-like clip that is configured to have one end portion in the length direction orthogonal to the width direction and the length direction at both end edges in the width direction orthogonal to the length direction of the rocker arm. A concave groove that penetrates in the height direction is formed, and the clip includes a fitting portion having a substantially U-shaped fitting groove and a pair of protrusions protruding in the height direction from both ends in the width direction of the fitting portion. From the locking piece The both locking pieces are inserted into the concave groove in the height direction and locked to the rocker arm, and the support member is in a state where the both locking pieces are locked to the rocker arm. In the process of being fitted into the fitting groove and locked to the fitting portion, and the support member is fitted into the fitting groove, the fitting portion is brought into contact with the support member by the contact. It is characterized in that it is elastically expanded in the direction of expanding the groove width of the joint groove, and the both locking pieces maintain the state accommodated in the concave groove while the fitting portion is expanded. .

  According to a second aspect of the present invention, in the one according to the first aspect, in the state where the support member is locked to the fitting portion, an opening edge portion of the fitting groove in the fitting portion, the rocker arm, It is characterized in that a displacement permissible space for allowing rocking displacement of the rocker arm is secured.

<Invention of Claim 1>
Since the clip is plate-shaped and consists of a fitting part having a substantially U-shaped fitting groove and a pair of locking pieces protruding in the height direction from both ends in the width direction, the overall shape is simple and manufactured. Cost is kept low. Further, in the process in which the support member is fitted into the fitting groove, the fitting portion is elastically expanded in the direction of widening the groove width of the fitting groove by contact with the support member, There is a risk that the piece will slip out of the groove and the clip may accidentally fall off the rocker arm. However, according to the present invention, the clip is prevented from inadvertently dropping from the rocker arm in order to maintain the state in which both the locking pieces are accommodated in the concave groove while the fitting portion is expanded. As a result, the assembly reliability of the clip is improved.

<Invention of Claim 2>
In a state where the support member is locked to the fitting portion, a displacement allowable space that allows rocking displacement of the rocker arm is secured between the opening edge of the fitting groove in the fitting portion and the rocker arm. During the swinging, the sliding surface of the rocker arm is prevented from being damaged by the opening edge of the fitting groove in the fitting portion.

It is sectional drawing of the internal combustion engine containing the rocker arm unit which concerns on Embodiment 1 of this invention. It is sectional drawing of a rocker arm unit. It is a side view of a rocker arm unit. It is a principal part fracture | rupture front view of a rocker arm unit. It is a side view of a rocker arm. It is a top view of a rocker arm. It is sectional drawing of a rocker arm. It is a side view of the rocker arm to which the clip was attached. It is a principal part fracture | rupture front view of the rocker arm to which the clip was attached. It is a side view of a rocker arm and a lash adjuster to which a clip is attached. It is a perspective view of a clip. It is a principal part fracture | rupture front view showing the state of the process in which a lash adjuster is fitted in the fitting groove of the fitting part of a clip.

<Embodiment 1>
A first embodiment of the present invention will be described with reference to FIGS. The rocker arm unit 10 according to the first embodiment includes a rocker arm 20, a lash adjuster 40, and a clip 60. The rocker arm unit 10 is incorporated in a valve gear for an internal combustion engine.

  As shown in FIG. 1, the cylinder head 90 is formed with a ventilation path 91 (intake port or exhaust port) and a stem hole 92 that communicates with the ventilation path 91 and opens to the outer surface of the cylinder head 90. A valve 80 (intake valve or exhaust valve) for opening and closing the air passage 9 is mounted in the stem hole 92 of the cylinder head 90 so as to be able to reciprocate vertically between the valve open position and the valve close position. The valve 80 is always biased in the valve closing direction (upward) by the valve spring 81. The upper end portion of the valve 80 protrudes upward from the opening of the stem hole 92 on the upper surface of the cylinder head 90.

The lash adjuster 40 includes a plunger 41 elongated in the vertical direction and a body 42 in which the plunger 41 is accommodated so as to be movable in the vertical direction. The body 42 is inserted by being fitted into the mounting hole 93 of the cylinder head 90.
As shown in FIGS. 2 and 10, a substantially hemispherical support portion 43 is formed on the upper end portion of the plunger 41. The support portion 43 can support the front end portion (one end portion in the length direction) of the rocker arm 20, and the surface thereof is a convex curved slide surface 44. An oil supply hole 45 for supplying hydraulic oil to the rocker arm 20 is formed in the center portion (upper end portion) of the support portion 43 so as to penetrate in the vertical direction.

  The body 42 has a bottomed cylindrical shape elongated in the vertical direction, and a body hole 46 communicating with the oil flow path 95 of the cylinder head 90 is formed through the peripheral wall thereof.

  A plunger hole 48 communicating with the body hole 46 through the communication space 47 is formed through the peripheral wall of the plunger 41. A mounting groove 49 in which the clip 60 is mounted is formed in the peripheral wall of the plunger 41 directly below the support portion 43 in the circumferential direction. On both upper and lower edges of the mounting groove 49, an expanding surface 50 that extends in a tapered shape is formed over the entire circumference.

  The interior of the plunger 41 is a low-pressure chamber 51, and a high-pressure chamber 52 is defined between the lower end of the body 42 and the lower surface of the bottom wall of the plunger 41. A communication hole 53 that communicates with the low pressure chamber 51 and the high pressure chamber 52 is formed through the bottom wall of the plunger 41. A spherical check valve 54 that can open and close the communication hole 53 is inserted into the high-pressure chamber 52.

  Oil flowing through the oil flow path 95 flows into the low pressure chamber 51 through the body hole 46, the communication space 47, and the plunger hole 48, and further flows into the high pressure chamber 52 from the communication hole 53. When the hydraulic pressure fluctuates between the low pressure chamber 51 and the high pressure chamber 52, the check valve 54 is displaced in the vertical direction to open and close the communication hole 53. As a result, the oil flows between the low pressure chamber 51 and the high pressure chamber 52, and the support position of the support portion 43 with respect to the rocker arm 20 varies.

  As shown in FIGS. 5 to 7, the rocker arm 20 has an arm body 21 that is elongated in the front-rear direction (length direction). A roller accommodating portion 23 that rotatably accommodates the roller 22 is formed at the center in the front-rear direction of the arm body 21. The upper end of the roller 22 is disposed above the upper end of the arm main body 21 and is in contact with the outer peripheral surface of the cam 100 from below.

  A pad-shaped valve contact portion 24 is formed at the rear end portion (the other end portion in the length direction) of the arm main body 21. The valve abutment portion 24 abuts against the upper end of the valve 80 from above and presses the valve 80 so that the valve 80 is opened against the urging force of the valve spring 81. A substantially hemispherical dome-shaped support receiving portion 25 that receives the support portion 43 of the plunger 41 in a fitted state is formed at the front end portion of the arm body 21 so as to bulge. On the lower surface (inner peripheral surface) of the support receiving portion 25, a concave spherical slide receiving surface 26 capable of sliding on the sliding surface 44 of the support portion 43 is formed.

  In addition, a plate-like base portion 27 that surrounds the periphery of the support receiving portion 25 is formed at the front end portion of the arm main body 21. A pair of concave grooves 28 are formed at both end edges in the width direction of the base portion 27 so as to penetrate in the vertical direction (the thickness direction, the height direction perpendicular to the length direction and the width direction). . The concave groove 28 has a substantially rectangular shape in plan view, and is open outward on both sides in the width direction of the arm body 21. As will be described later, the concave groove 28 is formed with a depth that exceeds at least the amount of bending of the locking piece 62 that is bent and deformed when the lash adjuster 40 is assembled.

  Next, the clip 60 will be described. The clip 60 is a metal plate material made of SK (carbon tool steel) or SUS (stainless steel) or the like, and is adjusted to a predetermined hardness by heat treatment or the like. And predetermined spring property is provided. As shown in FIG. 11, the clip 60 includes a substantially U-shaped fitting portion 61 and a pair of locking pieces 62 protruding upward (in the height direction) from both ends of the fitting portion 61 in the width direction. Become.

  The fitting portion 61 includes a pair of arm portions 63 that extend substantially parallel to each other along the front-rear direction, and a connecting portion 64 that extends in the width direction by connecting the front ends of both arm portions 63. Both locking pieces 62 are configured to stand upward from the outer edges of the rear end portions of both arm portions 63. A substantially U-shaped fitting groove 65 is formed between the both arm parts 63 and the connecting part 64 in the fitting part 61 so as to open rearward. The upper end portion of the plunger 41 is inserted into the fitting groove 65 of the fitting portion 61 in a fitted state. At this time, the inner edges of both arm portions 63 are inserted into the mounting groove 49 of the plunger 41 and can be locked.

  Further, as shown in FIG. 9, an inwardly tapered stepped portion 66 extending over the entire length in the front-rear direction is formed on each of the arm portions 63. The inner region disposed between the two stepped portions 66 in the fitting portion 61 is disposed one step lower than the outer region disposed outward in the width direction of the two stepped portions 66. This inner region is an opening edge of the fitting groove 65 including the connecting portion 64.

  As shown in FIG. 8, both the locking pieces 62 are rectangular when viewed from the side and have a long strip shape in the vertical direction, and are inserted into the both concave grooves 28 of the rocker arm 20 from below. The front-rear width of the locking piece 62 is substantially the same as or slightly smaller than the front-rear width of the recessed groove 28. Further, a locking claw 67 that is brought into contact with and latched on the upper surface of the base portion 27 of the rocker arm 20 is bent at a substantially right angle at the distal end portion of the locking piece 62.

The structure of the rocker arm unit 10 according to the present embodiment is as described above. Next, the function and effect will be described.
Both locking pieces 62 of the clip 60 are inserted into the both concave grooves 28 of the rocker arm 20 from below. When the outer portions of both the arm portions 63 in the clip 60 come into contact with the lower surface of the base portion 27 of the rocker arm 20 (see FIGS. 8 and 9), the front end portions of both the locking pieces 62 are then bent inward. The pawl 67 is formed, and the rocker arm 20 holds the clip 60 in the disengagement restricted state. At this time, in the inner region of the stepped portion 66 in the fitting portion 61, a displacement allowable space 69 that allows rocking displacement of the rocker arm 20 is secured between the lower surface of the rocker arm 20.

  Next, as shown in FIG. 10, the support portion 43 of the plunger 41 is directly opposed below the support receiving portion 25 of the rocker arm 20. In this state, the support portion 43 of the plunger 41 is inserted into the support receiving portion 25 from below. As shown in FIG. 12, in the insertion process of the plunger 41, the sliding surface 44 of the support portion 43 of the plunger 41 slides on the opening edge of the fitting groove 65 of the fitting portion 61, and the both arm portions 63 are connected. With the portion 64 as a fulcrum, the fitting groove 65 is elastically expanded and deformed in the direction of expanding the groove width. In the meantime, both the locking pieces 62 are displaced in a direction away from the bottom surface of the groove in the concave groove 28, but maintain the state of being accommodated in the concave groove 28. For this reason, both the locking pieces 62 are held in the concave groove 28 in a state where play in the front-rear direction is restricted, and the clip 60 is prevented from dropping forward.

  When the support portion 43 of the plunger 41 is inserted into the support receiving portion 25 at a normal depth, both arm portions 63 of the clip 60 are elastically restored and fit into the mounting groove 49 of the plunger 41. Thus, as shown in FIGS. 2 to 4, the plunger 41 is held by the rocker arm 20 via the clip 60 in a disengagement restricted state.

  Note that the above-described assembly operation of the clip 60 and the plunger 41 may be performed at any timing before or after the lash adjuster 40 is attached to the cylinder head 90.

  In the above case, if the clip 60 is pulled forward, the front ends of both locking pieces 62 come into contact with the front surfaces of the inner walls of both concave grooves 28, and the pulling-out operation of the clip 60 is restricted. When the rocker arm 20 swings as the cam 100 is driven, the rocker arm 20 slides on the sliding surface 44 of the support portion 43. At this time, the swinging displacement of the rocker arm 20 is absorbed by the displacement allowable space 69. Therefore, the opening edge of the fitting groove 65 of the clip 60 is prevented from sliding on the sliding surface 44 of the support portion 43.

  As described above, according to the present embodiment, the clip 60 is plate-shaped and has a fitting part 61 having a substantially U-shaped fitting groove 65 and a pair of protrusions protruding in the height direction from both ends in the width direction. Since it consists of the locking piece 62, it becomes a simple shape as a whole, and the manufacturing cost can be kept low.

  Further, while the fitting portion 61 is expanded, the state in which both the locking pieces 62 are accommodated in the concave groove 28 is maintained, so that the clip 60 is prevented from inadvertently dropping from the rocker arm 20. As a result, the assembly reliability of the clip 60 is improved.

  Further, in a state where the lash adjuster 40 is locked to the fitting portion 61, a displacement allowance that allows the rocker arm 20 to swing and displace between the opening edge of the fitting groove 65 in the fitting portion 61 and the rocker arm 20. Since the space 69 is secured, the sliding surface 44 of the rocker arm 20 is prevented from being damaged by the opening edge of the fitting groove 65 in the fitting portion 61 while the rocker arm 20 swings.

<Other embodiments>
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.
(1) The locking claw may be bent in advance before the clip is attached to the rocker arm. In this case, in the process of attaching the clip to the rocker arm, the locking claw slides on the groove bottom surface of the groove of the rocker arm, the locking piece is elastically expanded, and the clip is normally attached to the rocker arm. It is sufficient that the locking piece is elastically restored and the locking claw is hooked on the upper surface of the rocker arm.
(2) Instead of the lash adjuster, a pivot that supports the rocker arm at a substantially constant position in the height direction may be used.

DESCRIPTION OF SYMBOLS 10 ... Rocker arm unit 20 ... Rocker arm 28 ... Concave groove 40 ... Rush adjuster (support member)
DESCRIPTION OF SYMBOLS 60 ... Clip 61 ... Fitting part 62 ... Locking piece 65 ... Fitting groove 69 ... Displacement allowable space 80 ... Valve 90 ... Cylinder head 100 ... Cam

Claims (2)

A support member attached to the cylinder head;
One end portion in the length direction is supported by the support member, the other end portion in the length direction is brought into contact with the valve, and an intermediate portion in the length direction is brought into contact with the cam. A rocker arm that is moved to open and close the valve;
A rocker arm unit comprising a plate-like clip for connecting the support member and the rocker arm to each other,
At both end edges of the rocker arm in the width direction perpendicular to the length direction, a concave groove is formed that penetrates one end of the length direction in the height direction perpendicular to the width direction and the length direction,
The clip comprises a fitting portion having a substantially U-shaped fitting groove and a pair of locking pieces protruding in the height direction from both ends in the width direction of the fitting portion,
The both locking pieces are inserted in the concave direction in the height direction and locked to the rocker arm,
The support member is fitted into the fitting groove and locked to the fitting portion in a state where the both locking pieces are locked to the rocker arm.
In the process of fitting the support member into the fitting groove, the fitting portion is elastically expanded in a direction of widening the groove width of the fitting groove by contact with the support member, and the fitting is performed. A rocker arm unit, wherein the locking piece is maintained in the concave groove while the joint portion is expanded.   In a state where the support member is locked to the fitting portion, a displacement permissible space for allowing rocking displacement of the rocker arm is provided between the opening edge portion of the fitting groove in the fitting portion and the rocker arm. The rocker arm unit according to claim 1, wherein the rocker arm unit is secured.

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