IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0062315
(2009-03-23)
|
등록번호 |
US-8316699
(2012-11-27)
|
우선권정보 |
JP-2008-229205 (2008-09-08) |
국제출원번호 |
PCT/JP2009/055539
(2009-03-23)
|
§371/§102 date |
20110401
(20110401)
|
국제공개번호 |
WO2010/026797
(2010-03-11)
|
발명자
/ 주소 |
- Sueoka, Hisayuki
- Miyauchi, Yasuyoshi
- Morise, Yasuo
- Otomura, Tatsumi
- Mitsushima, Hiroya
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
3 인용 특허 :
6 |
초록
▼
The present invention provides a method and a device for accurately measuring and adjusting a valve clearance value to a desired value in an engine having a rocker-arm-type valve. According to a valve clearance measuring and adjusting method of the present invention, a pair of probes 60 each having
The present invention provides a method and a device for accurately measuring and adjusting a valve clearance value to a desired value in an engine having a rocker-arm-type valve. According to a valve clearance measuring and adjusting method of the present invention, a pair of probes 60 each having a round tip end 611 are brought into direct contact with a valve clearance CV of an engine having a rocker-arm-type valve 105, and a center-to-center distance between the two tip ends 611 is measured. An actual valve clearance value is calculated and measured on the basis of the center-to-center distance between the tip ends 611. The actual valve clearance value is adjusted to a desired valve clearance value, while the actual valve clearance value is measured in real time.
대표청구항
▼
1. A valve clearance measuring and adjusting method for a cylinder head which includes a valve assembled to a cylinder head main body, a rocker arm which is connected at one end to an end of the valve, and a can shaft which comes into contact with a cam shaft abutment portion of the rocker arm havin
1. A valve clearance measuring and adjusting method for a cylinder head which includes a valve assembled to a cylinder head main body, a rocker arm which is connected at one end to an end of the valve, and a can shaft which comes into contact with a cam shaft abutment portion of the rocker arm having an arcuate surface so as to open and close the valve, the rocker arm including an adjust screw for adjusting a valve clearance between the cam shaft and the cam shaft abutment portion, the method being characterized by comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the valve clearance into direct contact with the cam shaft and the cam shaft abutment portion and measuring a center-to-center distance between the two tip ends;a calculating step of calculating and measuring an actual valve clearance value on the basis of the center-to-center distance between the tip ends; andan adjusting step of rotating the adjust screw in an arbitrary direction, while measuring the actual valve clearance value in real time, to thereby adjust the actual valve clearance value to a desired valve clearance value. 2. A valve clearance measuring and adjusting method according to claim 1, wherein, in the calculating step, on the basis of a predetermined relationship between the center-to-center distance between the tip ends and the actual valve clearance value, a measured value of the center-to-center distance between the tip ends is converted to the valve clearance value. 3. A valve clearance measuring and adjusting method according to claim 1, wherein the adjusting step includes rotating the adjust screw in a fastening direction, while measuring the actual valve clearance value in real time, in a state in which the actual valve clearance value is set to be larger than the desired valve clearance value; andcontrolling rotation of the adjust screw such that the actual valve clearance value becomes equal to the desired valve clearance value. 4. A valve clearance measuring and adjusting method according to claim 3, wherein radii r1 and r2 of the circular surfaces of the cam shaft and the cam shaft abutment portion, respectively, and a radius e of the tip ends are predetermined; and when 2Y represents the center-to-center distance between the tip ends, and d1 represents the clearance value,on the basis of the center-to-center distance 2Y between the tip ends, the valve clearance value d1 is obtained by Expression 1: [Expression 1] when the radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, and the radius e of the tip ends are predetermined,a represents a center-to-center distance between the second member and the tip end,b represents a center-to-center distance between the first member and the tip end,s represents a segment corresponding to a segment b between the center of the first member and the center of the tip end and extending in a direction of extension of a center-to-center segment c between the first member and the second member,t represents a segment corresponding to a segment a between the center of the second member and the center of the tip end and extending in the direction of extension of the center-to-center segment c, and2Y represents a center-to-center distance between the tip ends, a=r2+e andb=r1+e; from the Pythagorean theorem, there are obtained s2=b2−Y2 andt2=a2−Y2; since c=s+t, there is obtained c=√{square root over ((b2−Y2))}+√{square root over ((a2−Y2))}; and since the clearance value d1 is represented by d1=c−(r1+r2), there is obtained d1=√{square root over ((b2−Y2))}+√{square root over ((a2−Y2))}−(r1+r2). 5. A valve clearance measuring and adjusting method according to claim 3, wherein the radii r1 and r2 of the circular surfaces of the cam shaft and the cam shaft abutment portion, respectively, and the radius e of the tip ends are predetermined; and when 2Y represents the center-to-center distance between the tip ends, and d2 represents the clearance value,on the basis of the center-to-center distance 2Y between the tip ends, the clearance value d2 is obtained by Expression 2: [Expression 2] when the radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, the radius e of the tip ends, and the clearance value d2 are predetermined,a represents a center-to-center distance between the second member and the tip end,b represents a center-to-center distance between the first member and the tip end,X represents a segment corresponding to a segment b between the center of the first member and the center of the tip end and extending in a direction of extension of a center-to-center segment c,2Y represents a center-to-center distance between the tip ends, andα represents an angle between the center-to-center segment c and the segment b between the center of the first member and the center of the tip end, a=r2+e (1),b=r1+e (2),c=r1+r2+d2 (3),X=b·cos α (4), andY=b·sin α (5); from the law of cosines a2=b2+c2−2bc·cos α, there is obtained cosα=(b2+c2-a2)2bc;(6) by assigning values (1) to (3) to Equation (6), there is obtained cos α (6)′; since sin2θ+cos2θ=1, there is obtained sin α=√{square root over ((1−cos2α))} (7); by assigning value (6)′ to Equation (7), there is obtained sin α (7)′; by assigning values (2), (6)′, and (7)′ to Equations (4) and (5), X and Y are obtained; and when Y is obtained, the clearance value d2 is determined from a predetermined relationship between Y and d2. 6. A valve clearance measuring and adjusting method according to claim 3, wherein radii r1 and r2 of the circular surfaces of the cam shaft and the cam shaft abutment portion, respectively, and a radius e of the tip ends are predetermined; and when 2Y represents the center-to-center distance between the tip ends, and d3 represents the clearance value,on the basis of the center-to-center distance 2Y between the tip ends, the clearance value d3 is obtained by Expression 3: [Expression 3] when the radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, the radius e of the tip ends, and a clearance value d3 are predetermined,a represents a center-to-center distance between the second member and the tip end,b represents a center-to-center distance between the first member and the tip end,2Y represents a center-to-center distance between the tip ends,α represents an angle between a center-to-center segment c and a segment b between the center of the first member and the center of the tip end, andβ represents an angle between the center-to-center segment c and a segment a between the center of the second member and the center of the tip end, a=r2+e (1),b=r1+e (2),c=r1+r2+d3 (3),c=b·cos α+a·cos β, andY=b·sin α=a·sin β; dividing both sides by ab gives Yab=sinαa=sinβb; from the law of sines sinαa=sinβb=sinγc, there is obtained sinγc=Yab; therefore, Y=abcsinγ;(4) from the law of cosines c2=a2+b2−2ab·cos γ, there is obtained cosγ=(a2+b2-c2)2ab;(5) by assigning values (1) to (3) to Equation (5), there is obtained cos γ (5)′; since sin2θ+cos2θ=1, there is obtained sin γ=√{square root over ((1−cos2γ))} (6); by assigning value (5)′ to Equation (6), there is obtained sin γ (6)′; by assigning values (1) to (3) and (6)′ to Equation (4), Y is obtained; and when Y is obtained, the clearance value d3 is determined from a predetermined relationship between Y and d3. 7. A valve clearance measuring and adjusting device for a cylinder head which includes a valve assembled to a cylinder head main body, a rocker arm which is connected at one end to an end of the valve, and a cam shaft which comes into contact with a cam shaft abutment portion of the rocker arm having an arcuate surface so as to open and close the valve, the rocker arm including an adjust screw for adjusting a valve clearance between the cam shaft and the cam shaft abutment portion, the device being characterized by comprising: a pair of probes adapted to be brought into direct contact with the cam shaft and the cam shaft abutment portion, and having respective round tip ends slightly larger than the valve clearance;moving means for moving the pair of probes to a position of the valve clearance;drive means connected to the pair of probes and adapted to open and close the probes;measuring means for measuring a center-to-center distance between the tip ends of the pair of probes;calculating means for calculating an actual valve clearance value on the basis of a measured center-to-center distance between the tip ends;a valve clearance adjusting unit which is provided such that it can move toward and away from the adjust screw, and which rotates the adjust screw in an arbitrary direction on the basis of the actual valve clearance value measured by the measuring means, to thereby adjust the actual valve clearance value to a desired valve clearance value. 8. A valve clearance measuring and adjusting device according to claim 7, wherein: the pair of probes is held by an arch bracket, andthe moving means which can move vertically is connected to the bracket. 9. A valve clearance measuring and adjusting device according to claim 8, wherein the drive means comprises: a linear motion guide held by the bracket and supporting the pair of probes in such a manner as to allow opening and closing of the pair of probes;a tension spring held by the bracket, provided in parallel with the linear motion guide, and adapted to close the pair of probes; anda slide mechanism held by the moving means and adapted to open the pair of probes. 10. A valve clearance measuring and adjusting device according to claim 9, wherein the slide mechanism comprises an actuator provided unitarily with the moving means and adapted to provide vertically rectilinear driving, and a rectilinear cam connected to the actuator and having a taper surface formed at a tip end thereof; androllers are provided at facing inner side surfaces, respectively, of the pair of probes in such a manner as to be reliable along the taper surface of the rectilinear cam. 11. A valve clearance measuring and adjusting device according to claim 8, wherein: the bracket has through holes extending therethrough in a vertical direction;pins are inserted through the respective through holes via respective compression springs urging the bracket upward in the vertical direction;the moving means which can move in the vertical direction are connected to projecting portions of the pins; andthe bracket is floatably supported by the pins. 12. A valve clearance measuring and adjusting device according to claim 7, wherein each of the tip ends assumes the form of a column having a substantially circular section, and peripheral surfaces of the substantially circular columns are brought into direct contact with the cam shaft and the cam shaft abutment portion. 13. A valve clearance measuring and adjusting device according to claim 7, wherein the valve clearance adjusting unit comprises a nut runner section which includes at least one nut runner for rotating the adjust screw in an arbitrary direction; and a first elevating section which is connected to the nut runner section and which elevates and lowers the nut runner section in relation to the adjust screw. 14. A valve clearance measuring and adjusting device according to claim 7, further comprising a slide apparatus for sliding the probes, the moving means, the drive means, the measuring means, and the valve clearance adjusting unit in the longitudinal direction of the cam shaft. 15. A valve clearance measuring and adjusting device according to claim 7, further comprising a tilt apparatus for tilting the probes, the moving means, the drive means, the measuring means, and the valve clearance adjusting unit about a predetermined point in a plane perpendicular to the longitudinal direction of the cam shaft. 16. A valve clearance measuring and adjusting device according to claim 7, the calculating means includes a control apparatus for controlling rotation of the adjust screw by the valve clearance adjusting unit.
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