IPC분류정보
국가/구분 |
United States(US) Patent
등록
|
국제특허분류(IPC7판) |
|
출원번호 |
US-0935143
(2008-03-29)
|
등록번호 |
US-8467989
(2013-06-18)
|
국제출원번호 |
PCT/JP2008/056248
(2008-03-29)
|
§371/§102 date |
20101206
(20101206)
|
국제공개번호 |
WO2009/122475
(2009-10-08)
|
발명자
/ 주소 |
- Sueoka, Hisayuki
- Yoshida, Hiroshi
- Otomura, Tatsumi
- Mitsushima, Hiroya
|
출원인 / 주소 |
|
대리인 / 주소 |
|
인용정보 |
피인용 횟수 :
0 인용 특허 :
10 |
초록
▼
The present invention provides a method for measuring a clearance (13) between facing surfaces of a first member (11) and a second member (12). The method includes a step (S1) of bringing a pair of probes each having a tip end (14) slightly larger than the clearance (13) into direct contact with the
The present invention provides a method for measuring a clearance (13) between facing surfaces of a first member (11) and a second member (12). The method includes a step (S1) of bringing a pair of probes each having a tip end (14) slightly larger than the clearance (13) into direct contact with the clearance (13) and measuring a separation distance between the two tip ends (14), and a calculating step (S2) of calculating and measuring a clearance value (d1) on the basis of the separation distance between the tip ends (14).
대표청구항
▼
1. A clearance measuring method for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the clearance into direct contact with the
1. A clearance measuring method for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the clearance into direct contact with the facing surfaces and measuring a center-to-center distance 2Y between the two tip ends, anda calculating step of calculating and measuring a clearance value d1 on the basis of the center-to-center distance 2Y between the tip ends,wherein, in the calculating step, on the basis of a predetermined relationship between the center-to-center distance 2Y between the tip ends and the clearance value to be calculated and measured, a measured value of the center-to-center distance between the tip ends is converted to the clearance value d1 as follows:when:radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, and a 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, andt 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,then: 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). 2. A clearance measuring method for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the clearance into direct contact with the facing surfaces and measuring a center-to-center distance 2Y between the two tip ends, anda calculating step of calculating and measuring a clearance value d2 on the basis of the center-to-center distance 2Y between the tip ends,wherein, in the calculating step, on the basis of a predetermined relationship between the center-to-center distance 2Y between the tip ends and the clearance value d2 to be calculated and measured, a measured value of the center-to-center distance 2Y between the tip ends is converted to the clearance value d2 as follows:when:radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, and a radius a 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,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, andαrepresents 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,then: 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 sin2 θ+cos2 θ=1, there is obtained: sin α=√{square root over ((1−cos2 α))} (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. 3. A clearance measuring method for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the clearance into direct contact with the facing surfaces and measuring a center-to-center distance 2Y between the two tip ends, anda calculating step of calculating and measuring a clearance value d3 on the basis of the center-to-center distance 2Y between the tip ends,wherein, in the calculating step, on the basis of a predetermined relationship between the center-to-center distance 2Y between the tip ends and the clearance value d3 to be calculated and measured, a measured value of the center-to-center distance 2Y between the tip ends is converted to the clearance value d3 as follows:when:radii r1 and r2 of the circular surfaces of the first member and the second member, respectively, and a 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;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,then: 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 sin2 θ+cos2 θ=1, there is obtained sin γ=√{square root over ((1−cos2 γ))} (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. 4. A clearance measuring method for measuring clearance between facing surfaces of a first member having a circular surface and a second member having a horizontal surface, comprising: a step of bringing a pair of probes each having a round tip end slightly larger than the clearance into direct contact with the facing surfaces and measuring a center-to-center distance 2Y between the two tip ends, anda calculating step of calculating and measuring a clearance value d4 on the basis of the center-to-center distance 2Y between the tip ends,wherein, in the calculating step, on the basis of a predetermined relationship between the center-to-center distance 2Y between the tip ends and the clearance value d4 to be calculated and measured, a measured value of the center-to-center distance 2Y between the tip ends is converted to the clearance value d4 as follows:when a radius r1 of the circular surface of the first member and a radius e of the tip ends are predetermined, from the Pythagorean theorem, there is obtained: r1+d4=√{square root over ((r1+e)2+Y2)}−e−r1; therefore, d4=√{square root over ((r1+e)2−Y2)}+e−r1. 5. A clearance measuring unit for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a pair of probes adapted to be brought into direct contact with the facing surfaces and having respective round tip ends slightly larger than the clearance;an arch bracket holding the pair of probes;moving means for moving the pair of probes to a position of the clearance or moving the first and second members to a position between the pair of probes;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; andcalculating means for calculating a clearance value on the basis of a measured center-to-center distance between the tip ends,wherein the moving means can move vertically and is connected to the bracket, andwherein 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. 6. A clearance measuring unit according to claim 5, 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 rollable along the taper surface of the rectilinear cam. 7. A clearance measuring unit according to claim 5, 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 facing surfaces. 8. A clearance measuring unit for measuring clearance between facing circular surfaces of a first member and a second member each having the circular surface, comprising: a pair of probes adapted to be brought into direct contact with the facing surfaces and having respective round tip ends slightly larger than the clearance;an arch bracket holding the pair of probes;moving means for moving the pair of probes to a position of the clearance or moving the first and second members to a position between the pair of probes;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; andcalculating means for calculating a clearance value on the basis of a measured center-to-center distance between the tip ends,wherein the moving means can move vertically and is connected to the bracket,wherein the bracket has through holes extending therethrough in a vertical direction,wherein pins are inserted through the respective through holes via respective compression springs urging the bracket upward in the vertical direction,wherein the moving means can move in the vertical direction and is connected to projecting portions of the pins; andwherein the bracket is floatably supported by the pins. 9. A clearance measuring unit according to claim 8, 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 facing surfaces. 10. A clearance measuring unit for measuring clearance between facing surfaces of a first member having a circular surface and a second member having a horizontal surface, comprising: a pair of probes adapted to be brought into direct contact with the facing surfaces and having respective round tip ends slightly larger than the clearance;an arch bracket holding the pair of probes;moving means for moving the pair of probes to a position of the clearance or moving the first and second members to a position between the pair of probes;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; andcalculating means for calculating a clearance value on the basis of a measured center-to-center distance between the tip ends, andwherein the moving means can move vertically and is connected to the bracket, andwherein 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. 11. A clearance measuring unit according to claim 10, wherein each of the tip 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 facing surfaces. 12. A clearance measuring unit according to claim 10, 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 rollable along the taper surface of the rectilinear cam. 13. A clearance measuring unit for measuring clearance between facing surfaces of a first member having a circular surface and a second member having a horizontal surface, comprising: a pair of probes adapted to be brought into direct contact with the facing surfaces and having respective round tip ends slightly larger than the clearance;an arch bracket holding the pair of probes;moving means for moving the pair of probes to a position of the clearance or moving the first and second members to a position between the pair of probes;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; andcalculating means for calculating a clearance value on the basis of a measured center-to-center distance between the tip ends, andwherein the bracket has through holes extending therethrough in a vertical direction;wherein pins are inserted through the respective through holes via respective compression springs urging the bracket upward in the vertical direction;wherein the moving means can move in the vertical direction and is connected to projecting portions of the pins; andwherein the bracket is floatably supported by the pins. 14. A clearance measuring unit according to claim 13, 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 facing surfaces.
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