圆带 round belt
* q4 B0 T2 J/ X! T) E# [3 a3 F) f圆带传动 round belt drive
% x* s; _6 m5 N o圆弧齿厚 circular thickness
: m% g, G, ~6 E2 F9 @圆弧圆柱蜗杆 hollow flank worm& g t' Z5 J" p Y3 p! }8 b+ Z* R
圆角半径 fillet radius
7 Y( T8 T4 G: |8 c圆盘摩擦离合器 disc friction clutch/ u. P& n9 k; H) ~: `# M( Y9 T# |: [4 O
圆盘制动器 disc brake
! W c1 ]- ], @) P原动机 prime mover
. M4 N0 O, q/ D$ j, v原始机构 original mechanism% f! T7 {# ^5 b: F- }4 {/ A
圆形齿轮 circular gear9 F- y3 P) U: _2 N: t
圆柱滚子 cylindrical roller- }9 {% `' L: R* h& l1 F' }
圆柱滚子轴承 cylindrical roller bearing
/ o4 Q5 p6 I+ g) A* a7 F" P: y圆柱副 cylindric pair1 P0 m* u1 h, o- u5 `
圆柱式凸轮步进运动机构 barrel (cylindric) cam. }$ E% v/ q' b2 S* r" ]
圆柱螺旋拉伸弹簧 cylindroid helical-coil extension spring
( o# e% F$ O/ M圆柱螺旋扭转弹簧 cylindroid helical-coil torsion spring
9 O# \) T' G! B, T0 g, ~. \" ~圆柱螺旋压缩弹簧 cylindroid helical-coil compression spring
5 o( }' y$ u9 L& H3 [圆柱凸轮 cylindrical cam
0 t6 M7 t$ n) i& J: M6 I6 w圆柱蜗杆 cylindrical worm
Z2 W6 I5 t8 M- @# T圆柱坐标操作器 cylindrical coordinate manipulator) f; C& a D# W& C
圆锥螺旋扭转弹簧 conoid helical-coil compression spring) ~ E5 h- X- U9 J
圆锥滚子 tapered roller
( O2 [7 |" E! }; r6 q! }6 m! Z圆锥滚子轴承 tapered roller bearing
# q* a" w# |, O( v* C( ?7 j0 G圆锥齿轮机构 bevel gears* b1 C3 K; \# o1 v
圆锥角 cone angle7 Q7 L* `8 \" e! B
原动件 driving link
) u0 t/ ~! r: @% V约束 constraint4 g( u; @# E/ E: U- d
约束条件 constraint condition. D: }$ t* V9 l; |% x8 y/ g
约束反力 constraining force. `; E n" ?' r6 X7 `( c
跃度 jerk. R2 X- j& @4 `0 I0 ]! t# v
跃度曲线 jerk diagram3 }' J K8 Y! u0 x5 A, Q
运动倒置 kinematic inversion2 {5 ~ \! T9 N1 c0 Q
运动方案设计 kinematic precept design5 P+ n+ T/ W7 R$ l0 E4 ^; d1 u4 s
运动分析 kinematic analysis1 h k) T) v2 O8 U4 |/ R
运动副 kinematic pair
/ D4 @9 O5 \( z, [运动构件 moving link
9 b' \3 y5 b8 ^8 n9 c运动简图 kinematic sketch
/ h4 t' y o2 E/ V: Y2 y运动链 kinematic chain
9 Y3 a. e! ?3 T8 s; T3 \& {运动失真 undercutting2 Y+ X$ r- h" v$ j" p3 D9 ^# b
运动设计 kinematic design4 q5 Q9 N3 m# B. l4 B1 G
运动周期 cycle of motion. e+ R# F) v, f% |
运动综合 kinematic synthesis1 `. m. T: {5 c y2 R) R: y8 L8 D
运转不均匀系数 coefficient of velocity fluctuation
2 Q7 c0 K7 @, f: Z1 y+ P( }! W运动粘度 kenematic viscosity
/ R5 P9 s& r( n载荷 load $ o& B, b' s( W2 R
载荷 — 变形曲线 load—deformation curve ' I5 B+ m0 d' M, M8 N( ^& i
载荷 — 变形图 load—deformation diagram
: Q/ o5 |* @4 R; H- a窄 V 带 narrow V belt" E q7 ?% E! w" H% J( }# E% R6 a9 i
毡圈密封 felt ring seal
4 P* E/ R' b7 {% w4 ]展成法 generating
: ]" ^3 L+ x; a张紧力 tension
/ O: P* S2 W3 M9 O张紧轮 tension pulley
+ H, ?- v) I- V6 b振动 vibration
! d% R( ?& i; H" h3 L+ b振动力矩 shaking couple- `% m A' _: u: \. v, C
振动频率 frequency of vibration
: A' A4 j5 T+ v0 U9 q3 e4 n/ p7 K8 ]振幅 amplitude of vibration
) L1 ?: D4 E1 o/ Y* c3 {$ g正切机构 tangent mechanism
* x2 C3 h% T F0 ]正向运动学 direct (forward) kinematics9 k* u* H1 M, I3 j5 Y& C
正弦机构 sine generator, scotch yoke
% T3 v* w( j6 N- L6 p8 ?5 f9 t/ c织布机 loom: I0 W N1 O& s8 a% T8 k! v
正应力、法向应力 normal stress
" r* v) l) D! v; e5 V: d制动器 brake3 |% C" [& w- G3 n% E) A7 g
直齿圆柱齿轮 spur gear* \2 P, ?: B) o
直齿锥齿轮 straight bevel gear
( M" p) X7 D3 l( B直角三角形 right triangle
% |7 k* ], ^. p6 g9 G直角坐标操作器 Cartesian coordinate manipulator
+ a4 V# b$ _+ _- b( G+ D7 k- c直径系数 diametral quotient
5 R# C0 b& V" I直径系列 diameter series
v: F% ^& L2 W) {. z4 w直廓环面蜗杆 hindley worm$ @. v* ^. F" s y1 N7 m
直线运动 linear motion* {* h1 C$ G5 X! {* }: v
直轴 straight shaft1 P4 l5 C4 o, J3 R
质量 mass
: M: R) F! h; N质心 center of mass
# a7 g! z7 L. i: q; Q* k执行构件 executive link; working link. F) `2 H" D/ w5 Y
质径积 mass-radius product
: \9 s$ ~3 {9 a# P* G* S2 \智能化设计 intelligent design, ID
4 l- R$ q% u; ]中间平面 mid-plane7 [4 Y$ i. N3 O& ^/ b5 a5 ~
中心距 center distance
) F/ w' ^5 U- q; R中心距变动 center distance change _4 h9 O) {, z2 K3 a
中心轮 central gear
& u1 \. S* n4 t5 W0 K" i% [! M9 U中径 mean diameter/ d& J, V& s9 W' N5 `
终止啮合点 final contact, end of contact9 O6 L3 Z7 o9 G. v
周节 pitch0 r' Y/ I; a4 u; L3 p
周期性速度波动 periodic speed fluctuation( h9 V5 s3 h/ }2 H1 f [- H% E+ o
周转轮系 epicyclic gear train" w* _) M3 b* ^) e8 H) B3 ?9 ~0 v
肘形机构 toggle mechanism
3 l3 J4 \2 [+ l5 w4 k+ ]7 D/ Z. P轴 shaft
1 K0 w, b* n8 W/ R) z1 h轴承盖 bearing cup
9 F& K+ W; \: i轴承合金 bearing alloy
) v+ _/ G- G8 n, [轴承座 bearing block8 b0 r2 N( ^8 C4 f7 l( D" W1 A
轴承高度 bearing height
* J c h: M/ B4 ?1 z/ S轴承宽度 bearing width, h+ p' w( Z# I. R8 l
轴承内径 bearing bore diameter
/ k/ w% g6 J8 O1 h6 R5 H轴承寿命 bearing life4 M. Q$ l4 b: p0 _3 o1 \- q
轴承套圈 bearing ring# K1 H2 H1 P8 G6 E/ ?9 \( y& r
轴承外径 bearing outside diameter
: F, @" R/ F5 l8 a7 y2 g9 |8 L3 w/ u* Y轴颈 journal* q8 `4 D9 h4 H: v
轴瓦、轴承衬 bearing bush
- f9 z: Q/ O) y& K" |轴端挡圈 shaft end ring# F0 Y! x) T( n% _3 O
轴环 shaft collar
4 e# ]6 _% k/ f$ L4 \" g& [' m轴肩 shaft shoulder
' i% ?$ R5 d. h3 x1 m4 n轴角 shaft angle
! O8 G/ Y$ u8 }5 F轴向 axial direction
1 S4 h% S2 A8 \9 u- a6 M" N% ^: y轴向齿廓 axial tooth profile
; s: e/ k4 K% N y/ C" j轴向当量动载荷 dynamic equivalent axial load
' n6 S: x3 v- b1 B2 i轴向当量静载荷 static equivalent axial load
( O# J7 c9 {& C! O- A. E5 Q轴向基本额定动载荷 basic dynamic axial load rating
8 i" t" k$ Q: U轴向基本额定静载荷 basic static axial load rating
! B- k: L# F5 h5 z轴向接触轴承 axial contact bearing
; [2 ^, T/ P! M0 _# e轴向平面 axial plane# V# v9 T/ q4 [9 P+ d- r3 [7 [9 a
轴向游隙 axial internal clearance5 T) l' E3 H* H8 |$ b' T& k; I
轴向载荷 axial load% I# i9 R7 R7 k) }/ _. a
轴向载荷系数 axial load factor( s8 y; b! f( [2 I9 [# }
轴向分力 axial thrust load
: X4 t3 F$ s" g8 n3 h$ x# R主动件 driving link7 K, Y/ ^# H: d8 T! ^- x. {
主动齿轮 driving gear
& @ a5 s) X. a# y主动带轮 driving pulley
' F3 G' n8 f. O/ C' ~( B转动导杆机构 whitworth mechanism
/ P( t/ f. Y" r: W' q转动副 revolute (turning) pair/ ~8 F% [) y6 a! s m. m
转速 swiveling speed rotating speed
0 y+ X) b0 O# x5 u) Q" C转动关节 revolute joint# f/ k8 [/ m/ B, B: |/ r- P0 k- L: `
转轴 revolving shaft
8 `) C- o& w9 R: R转子 rotor9 I" [1 y- f% ^8 s+ k
转子平衡 balance of rotor
, X/ s- K# P' C6 O) K装配条件 assembly condition
5 t/ N2 ]8 ?* b; }; i锥齿轮 bevel gear& D P% \& N) [" P
锥顶 common apex of cone( ]& y# |% A" R8 d& U, d4 K* T; D
锥距 cone distance
' c" A, f0 I. E2 _8 N) X锥轮 bevel pulley; bevel wheel
" E- v3 D1 A3 b& p% V) G锥齿轮的当量直齿轮 equivalent spur gear of the bevel gear
8 S3 ~6 _, Z& }. J锥面包络圆柱蜗杆 milled helicoids worm
& U; h8 O" G: y3 G准双曲面齿轮 hypoid gear
; V9 _2 l, ~* p子程序 subroutine
- F3 e; X9 y. h. Z子机构 sub-mechanism6 t) s4 m" t+ i' j. A2 ~
自动化 automation
7 z \5 {+ M, c8 O& i自锁 self-locking
# ~- L1 _% O3 V2 c自锁条件 condition of self-locking+ {: j: y q( M5 s
自由度 degree of freedom, mobility0 w5 \7 Z- N6 J, g; q. b" F
总重合度 total contact ratio
* h! e. Q. b1 T1 T总反力 resultant force
7 x- H- h& z) y1 d总效率 combined efficiency; overall efficiency
0 D# F; [3 e+ f' p组成原理 theory of constitution
+ e, o- W9 a9 W% A: m组合齿形 composite tooth form( d. B: j/ Q# L7 e2 o4 ^
组合安装 stack mounting9 y- m& ?8 D9 Y, P4 u; R
组合机构 combined mechanism+ M3 f$ W: r- R
阻抗力 resistance& H1 c4 d F6 ]/ h' v
最大盈亏功 maximum difference work between plus and minus work9 r9 s* M. @( H6 t/ X
纵向重合度 overlap contact ratio
7 L' u, j" s1 B- i2 g) r纵坐标 ordinate
+ j) O7 N! H0 Q s: ]) r3 M) X组合机构 combined mechanism
+ o" T, H3 t9 u5 E3 R8 N最少齿数 minimum teeth number
" R" Q/ a! b4 G" Q: v最小向径 minimum radius
% _9 u# V0 A5 Q作用力 applied force
4 f7 S& N, Y: y( W3 j& }# G5 I坐标系 coordinate frame |
发表于 2008-2-21 11:45:15
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