電気車用歯車の歯元応力
スポンサーリンク
概要
- 論文の詳細を見る
As a part of the research program probing into the cause of failures in the nose suspension type traction gears, measurements of fillet stresses occurring in both sides of gear tooth surfaces of a running electric locomotive were carried out using wire resistance strain gauges with the following results ; 1. Nose suspension type traction gears are not free from occurrence of uneven contact at the sides ; actually the whole width of tooth surface does not share the load uniformly. 2. Maximum fillet stress of gear develops at the side nearer to the motor when the motor is preceding the wheel in the running direction. 3. The proportion of the fillet stress at the side nearer to the motor to the calculated fillet stress on the assumption of uniform tooth contact is 3.9 maximum for EF 58 locomotive and 11 maximum for DF 50. Maximum measured stress caused by uneven contact, even when the actual output torque was small, turned out often larger than the calculated value assuming uniform tooth contact under maximum load. 4. When the wheel precedes the motor in the running direction, it is clearly observed in the DF 50 locomotive having less weight of motor that the movement of tooth contact from the wheel side to the motor side takes place. 5. In the quill drive transmission mechanism, uneven contact was observed by measuring the fillet stresses of gear at both sides of the tooth surface when the shafts of pinion and gear were misaligned.
- 社団法人日本材料学会の論文
- 1959-08-15
著者
関連論文
- セミ・インターナショナル・シンポジウム歯車部会の記
- クラウニング歯車の歯面内部の応力 : 二つのだ円体が接触するさいの内部の応力
- クラウニング歯車の歯面内部の応力 : 二つのだ円体が接触するさいの内部の応力
- クラウニングした歯車の歯元応力
- クラウニングした歯車の歯元応力
- 釣掛式電動機装荷方式における電車用片当り防止歯車
- 電気車用歯車の歯元応力
- 釣掛式電車用歯車の片当り強度とクラウニング決定法
- 電車用歯車の磨耗
- レリービングした平歯車の歯元応力