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圓帶 round belt
# a+ Z ~5 i6 p* H圓帶傳動(dòng) round belt drive
# ]- K: w. x1 T圓弧齒厚 circular thickness
2 M8 ~$ _; f! G1 N4 R/ H圓弧圓柱蝸桿 hollow flank worm
2 p6 Q: g% L4 Y% m. n X3 p圓角半徑 fillet radius& \& W/ m4 Q* o
圓盤摩擦離合器 disc friction clutch, W) o8 ]$ t2 L$ ^ [6 C# \
圓盤制動(dòng)器 disc brake
7 m' n/ q6 S) x; h: @7 Q原動(dòng)機(jī) prime mover2 o6 V" b/ [- ?) \
原始機(jī)構(gòu) original mechanism- a n8 v9 d+ v/ P3 w# }: N
圓形齒輪 circular gear6 L( V+ f) U# c: _( G
圓柱滾子 cylindrical roller8 T9 ?/ _, S. x H
圓柱滾子軸承 cylindrical roller bearing- m" R# `) ^/ u5 @: ~2 n6 @4 ^. }" ?8 `
圓柱副 cylindric pair
* e" W; n% U" t1 ~6 N圓柱式凸輪步進(jìn)運(yùn)動(dòng)機(jī)構(gòu) barrel (cylindric) cam
2 @% ?# p% U# p圓柱螺旋拉伸彈簧 cylindroid helical-coil extension spring; E: F1 I9 ]# _, A" i0 W b; h; e
圓柱螺旋扭轉(zhuǎn)彈簧 cylindroid helical-coil torsion spring# V: g4 Z7 q. W4 A% G
圓柱螺旋壓縮彈簧 cylindroid helical-coil compression spring1 G B# A! Y$ e. k
圓柱凸輪 cylindrical cam4 i; O' Q7 Z' J) s
圓柱蝸桿 cylindrical worm2 v5 ?2 D) m1 [% \ v" B
圓柱坐標(biāo)操作器 cylindrical coordinate manipulator
+ Y& ~: U; b3 M- U4 b; t圓錐螺旋扭轉(zhuǎn)彈簧 conoid helical-coil compression spring
P6 ~- b0 U; l' }% S5 ?$ i圓錐滾子 tapered roller: ]2 G/ o" w/ p% x% `3 Y
圓錐滾子軸承 tapered roller bearing
1 y7 z0 i- ^+ ~: B% ]- u1 V! \圓錐齒輪機(jī)構(gòu) bevel gears
4 E9 B! u! r" Y& G% a& m/ {圓錐角 cone angle
4 C/ p- w d5 @1 \! u原動(dòng)件 driving link
6 [4 Z& N4 c1 P約束 constraint
# T! R3 i3 G! X: E [約束條件 constraint condition( y) E. C) p: c0 |/ @8 y U1 a$ x) A
約束反力 constraining force
0 I" b! i' Y' L1 d/ k+ E G! W' M, `4 U躍度 jerk: X5 F% ~' U; v, u' g5 J# p
躍度曲線 jerk diagram9 o& q2 S5 I) F5 b& Y- s8 }
運(yùn)動(dòng)倒置 kinematic inversion6 |- C6 b _( u8 f
運(yùn)動(dòng)方案設(shè)計(jì) kinematic precept design
! K9 w- ^. M+ {3 H, k) |運(yùn)動(dòng)分析 kinematic analysis
; k% f& D8 W( C& ]9 J! W6 n運(yùn)動(dòng)副 kinematic pair: v' g+ T6 c. V& ^
運(yùn)動(dòng)構(gòu)件 moving link
# u7 f1 }2 y+ H1 u: J9 w. t運(yùn)動(dòng)簡(jiǎn)圖 kinematic sketch; O" u: A) j+ ]2 v0 x9 s
運(yùn)動(dòng)鏈 kinematic chain
. `4 |7 A3 D4 r( K& m$ o0 y/ r% _運(yùn)動(dòng)失真 undercutting! ?" d* K$ e8 K% w% H4 d) h/ {" W
運(yùn)動(dòng)設(shè)計(jì) kinematic design6 r& P0 G2 T q; u3 w% w
運(yùn)動(dòng)周期 cycle of motion
" }+ S( ^( R- y7 s/ Q0 M; m1 P運(yùn)動(dòng)綜合 kinematic synthesis
3 t9 J0 x$ u2 J* \; A6 b- m運(yùn)轉(zhuǎn)不均勻系數(shù) coefficient of velocity fluctuation6 `% Y* ~* c/ `5 h2 c' y& y
運(yùn)動(dòng)粘度 kenematic viscosity- Z% C4 }2 k* N8 D
載荷 load
# x2 J N# b* _8 M- y/ ?載荷 — 變形曲線 load—deformation curve
* E- q. ~) T% A: G& l, e載荷 — 變形圖 load—deformation diagram
7 M4 j7 Q. S& n窄 V 帶 narrow V belt: f( D; I) q: R+ g5 G4 c: a9 e
氈圈密封 felt ring seal
1 e, q# d5 o7 m; c展成法 generating
+ Q$ V2 Y2 U) B* _: U1 z4 o$ v/ A張緊力 tension
7 ~2 Z4 @8 |* M8 G1 C張緊輪 tension pulley5 ]4 N+ l& ^2 ]
振動(dòng) vibration4 F6 _7 ~: F7 p/ J9 O% u& T2 h" x1 m
振動(dòng)力矩 shaking couple7 N; v3 K0 e7 Y7 a
振動(dòng)頻率 frequency of vibration
5 R; c$ n& \2 Q振幅 amplitude of vibration! d. N8 d" F( Z# ~! {- F" Z2 L8 ~
正切機(jī)構(gòu) tangent mechanism& ^6 G4 G) o7 }) R: J- S
正向運(yùn)動(dòng)學(xué) direct (forward) kinematics1 J; K5 n% D5 k8 r; F3 J; n* O
正弦機(jī)構(gòu) sine generator, scotch yoke' z7 h, j- M3 |# h% A" m
織布機(jī) loom
3 V4 u* B ~7 G1 `, t( Q正應(yīng)力,、法向應(yīng)力 normal stress1 Z% g+ Y W) g& }+ j1 R
制動(dòng)器 brake
8 y5 J. C: ?0 [直齒圓柱齒輪 spur gear' n* R2 p. X: z+ y
直齒錐齒輪 straight bevel gear2 P& Q4 `" }8 q& ?8 e6 P7 Z
直角三角形 right triangle
8 b9 ^: C( g( Q直角坐標(biāo)操作器 Cartesian coordinate manipulator
|! w& R) m- O" {) W直徑系數(shù) diametral quotient
" T7 v5 n; g$ U" G% S5 ^; ]3 T6 b7 \直徑系列 diameter series* O D2 [, c( q z; I# l1 u
直廓環(huán)面蝸桿 hindley worm, Z) Y" y5 i+ O# E% r
直線運(yùn)動(dòng) linear motion
$ E6 v: p B1 r直軸 straight shaft
: [' m4 ?# f( w. q# Y質(zhì)量 mass5 f+ A) R- i9 C. g* Y X7 d
質(zhì)心 center of mass/ g# e0 M# L# J
執(zhí)行構(gòu)件 executive link; working link
/ c N, d, A5 r* m3 ^質(zhì)徑積 mass-radius product
6 f& d( c) K8 L7 P5 N1 s智能化設(shè)計(jì) intelligent design, ID# W$ F" {8 O9 r+ x4 Q8 g% \* `
中間平面 mid-plane6 T9 Q9 }; d/ K/ d& W- T H
中心距 center distance
+ e' a+ M% f4 W K中心距變動(dòng) center distance change
( L/ _! K3 s3 ?! }# V7 p6 L% K中心輪 central gear
* G2 [# C1 [' ]( _7 L- C' ^中徑 mean diameter$ g8 A& J W% A$ D ~8 ] c
終止嚙合點(diǎn) final contact, end of contact
" e, ~5 o) b0 V! l& {' S周節(jié) pitch
% @& u6 n, d4 @周期性速度波動(dòng) periodic speed fluctuation
( M8 |$ w+ o, \) W$ F周轉(zhuǎn)輪系 epicyclic gear train
9 I1 j/ [ W! f8 n& n肘形機(jī)構(gòu) toggle mechanism. G: s: J2 I/ \
軸 shaft
( ?$ |$ L( T" s" E, h, B) t+ { k! ^軸承蓋 bearing cup
+ f% J. F" k# ?6 B軸承合金 bearing alloy1 o; v5 p1 {8 p( Z: M
軸承座 bearing block
2 m9 _% t2 K; P7 n/ S軸承高度 bearing height* {1 B2 ]& |* `! h) F- G2 u" S W
軸承寬度 bearing width
1 x, e; E. l, h, I軸承內(nèi)徑 bearing bore diameter! X- c O9 N7 h& v K' D" @
軸承壽命 bearing life
$ j6 M. S# A0 ^( a5 ~- a軸承套圈 bearing ring- w% B1 j& a9 o1 T5 Y# r1 p K$ E! y
軸承外徑 bearing outside diameter. v/ u+ B2 e( T, \5 N
軸頸 journal
6 _; A1 [2 q7 u軸瓦,、軸承襯 bearing bush% b% l- {( I2 t! f/ O! |
軸端擋圈 shaft end ring% G& |' D* j8 M" g R
軸環(huán) shaft collar. K/ x6 K; P. P) X# l# D
軸肩 shaft shoulder
% x/ \/ {) N' |9 V+ @% W) h軸角 shaft angle, k; y8 u9 a0 ]3 a4 o
軸向 axial direction+ m4 x2 B( i) f- S$ `2 x
軸向齒廓 axial tooth profile1 D+ E$ m3 E6 \ x$ q% o
軸向當(dāng)量動(dòng)載荷 dynamic equivalent axial load
1 _$ A3 ~8 m3 ?: Z. F5 c) ]軸向當(dāng)量靜載荷 static equivalent axial load; A; f% _9 Q! w( S3 c6 i
軸向基本額定動(dòng)載荷 basic dynamic axial load rating& n) r8 K8 e2 L
軸向基本額定靜載荷 basic static axial load rating! d0 A- L$ Q; o8 T8 [: N
軸向接觸軸承 axial contact bearing
. u% _: n. n0 g6 F軸向平面 axial plane _8 x/ A9 [% c& u$ p
軸向游隙 axial internal clearance
2 a6 q1 C8 Z& Q0 f/ l S: _! S軸向載荷 axial load9 ?; Q' e: D! h
軸向載荷系數(shù) axial load factor
9 d- J: Q- G$ I2 j9 T軸向分力 axial thrust load6 X) x- S9 [" s- e6 M- l
主動(dòng)件 driving link) U" K" _* q* w- J }9 y8 K
主動(dòng)齒輪 driving gear- b& Q2 F% g) Q/ Y4 _
主動(dòng)帶輪 driving pulley
! H! L1 c! ~: I- a0 {7 E轉(zhuǎn)動(dòng)導(dǎo)桿機(jī)構(gòu) whitworth mechanism
/ j4 @* u/ b3 h1 p" E" L4 f轉(zhuǎn)動(dòng)副 revolute (turning) pair) v% ^8 {' e# g7 l$ V/ X, ?
轉(zhuǎn)速 swiveling speed rotating speed7 Z; r3 ]) x# U1 J- Z
轉(zhuǎn)動(dòng)關(guān)節(jié) revolute joint
/ |7 q1 L: K3 g( m# c! |, H3 t" w轉(zhuǎn)軸 revolving shaft6 y2 j/ q4 _# a+ p+ {# l/ d
轉(zhuǎn)子 rotor# K/ r, u+ F! M, U* s: G
轉(zhuǎn)子平衡 balance of rotor
9 N- |2 b4 b; x% J: t7 ?裝配條件 assembly condition
( Q+ x0 V- j- z! ~# \* S錐齒輪 bevel gear4 S& b& d1 M B6 G$ j
錐頂 common apex of cone6 a. C. j# U9 g c) N
錐距 cone distance
4 @ Y+ c# c2 k+ G0 q: J# ^ m錐輪 bevel pulley; bevel wheel% Q4 u0 @8 f& w8 D: k
錐齒輪的當(dāng)量直齒輪 equivalent spur gear of the bevel gear5 r- L0 ^* b6 T. ~( K& M9 @
錐面包絡(luò)圓柱蝸桿 milled helicoids worm
# ~: Q N( |; k準(zhǔn)雙曲面齒輪 hypoid gear
) B1 Q. W6 _6 \4 z# Y7 r0 Y- Q# h子程序 subroutine
% x5 j. z: z. a, ]. A1 l7 A, a* r子機(jī)構(gòu) sub-mechanism" Q5 `. J& m/ T$ o, F
自動(dòng)化 automation% @* u( k; r$ O7 y
自鎖 self-locking
: d R; W( n! q) E* B7 Z$ l: U1 a自鎖條件 condition of self-locking
! l" y" V) |$ \6 v8 l2 I- u自由度 degree of freedom, mobility
+ L5 w% f4 V! X6 `+ M! ~ l總重合度 total contact ratio* l9 a: \7 J( o7 L2 ?7 K
總反力 resultant force" [2 Z9 g( B+ A9 R$ C
總效率 combined efficiency; overall efficiency& W/ c3 |4 C0 A! e3 K
組成原理 theory of constitution
% r( F' q+ j, i3 Q |; z% g1 @* \組合齒形 composite tooth form
' d$ i# K9 }) J4 g組合安裝 stack mounting
" r1 [4 I b& n8 Z) j* D4 {$ ~0 c組合機(jī)構(gòu) combined mechanism/ u; t) e4 ^, s1 q9 l+ C6 Q: Y$ m
阻抗力 resistance5 E! S/ U) \& G5 p7 R/ X, X
最大盈虧功 maximum difference work between plus and minus work
0 F4 k' z. K! e2 H縱向重合度 overlap contact ratio
8 g# ]' N# f" s' H" [& }縱坐標(biāo) ordinate; j+ b4 M! p- G) |
組合機(jī)構(gòu) combined mechanism
0 [7 C, R) l6 [5 r% D& K/ V+ ~5 ~7 [最少齒數(shù) minimum teeth number
: G2 p: v$ L* i Z ?2 u- q最小向徑 minimum radius# e, q" e. P; H; A W8 A% r" \: K
作用力 applied force
, i# f2 ]0 c7 i, a' G1 y% [% i) R坐標(biāo)系 coordinate frame |
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發(fā)表于 2008-2-21 11:45:15
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問題專業(yè),,描述清楚
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