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安规---必须记好这些" N8 S/ P( W3 P5 K, o+ j
load test and short-circuit test 负载试验(短路试验) - A& v. I- m- r# Q4 W" s
plugging 反接制动与反向 + l. o& D3 Z; D& {
intermittent periodic duty 反复短时工作制 3 g; K# J1 d% B& r
feedback control 反馈控制
+ `1 L/ w( v3 |1 R) Mfeedback loop 反馈回路
/ D: Q9 Y* w+ @8 e0 Yluminous intensity 发光强度
, P, k1 x M0 v& w$ d5 y5 rdistributed capacitance 分布电容
" ^0 _7 y1 W( p1 @5 p8 N2 @& tsplit phase motor 分相电动机
. g% ^- V7 L! V/ ^" o. i9 \fractional horsepower motor 分马力电动机 2 H+ D) G1 m! c L
nonlinear control system 非线性控制系统 ! h2 [' |7 u: l& a- w$ P3 x
nonlinear (circuit) element 非线性(电路)元件 + o; y3 P+ ~9 z4 C2 z# Z
nonlinearity 非线性 9 |5 u# Q' p4 r* f
second class load 二级负荷
! [4 R* o9 y: y& O# Z4 z4 ?rated condition 额定工况 . D g) b/ G D$ {4 @, w& g6 E
rated value 额定值
; y/ V- x& K: a& `4 `, d% oshort-time duty 短时工作制
) F: D6 f9 a* k x) G: fshort circuit current 短路电流 ' o. g3 {) Q# _9 ~( {1 a
short circuit 短路 & f4 L& U2 J; L& [: _, D9 T
series resonance 串联谐振
4 {, {# I7 v/ X* ctransducer 传感器(变换器)
: K% O* n: r4 V& P4 tmagnetic core 磁心
$ J- ~5 J7 f& z$ t( [" {magnetization curve 磁化曲线 " Z1 m3 E; c; H6 [$ X5 z K
magnetic field 磁场 * e/ Z) ~! j2 g3 F. H
magnetic field strength 磁场强度 7 \1 G% R- J: N# F( B6 e+ _
magnetic saturation 磁饱和
5 W0 ~; N( \' C. `: hmagnetic hysteresis loop 磁滞回线 9 e# x0 B% C8 P1 f3 B; } u/ k0 G
magnetic flux 磁通量
" s4 v8 o- v5 _magnetic flux density 磁通密度 q9 w8 @+ Y' S" S, G, m
superconductor 超导体
; G. q: C2 k- t9 k' z' V: Q7 Muninterrupted duty 长期工作制 # `6 a( m% ?0 N( \7 P9 b8 `5 X
programmed control 程序控制 0 }2 X- O: g7 L2 C
stepping motor 步进电动机 ! M; q h p9 R5 _; ]: q, A, z" p
parallel resonance 并联谐振
$ \) J" K( M! \) q( M9 _3 Xdifferentiation protection 差动保护
, ]0 A9 t' `+ m9 |( @8 Itachogenerator 测速发电机 9 p" O; f1 J% r
protective circuit 保护电路 $ b8 U6 E% @" ~: S: y2 b! ]( E
open loop control 闭环控制 j( T$ n( {/ e+ }
apparent power 表现功率 - O) v/ O- }7 A9 S+ M& p, t& O: r+ f
comparator 比较器
0 ]2 T7 j2 [% {& w' n$ G' znominal value 标称值 & ^5 ~6 W1 A* G/ I! Y6 }3 P
speed governing by frequency convertion 变频调速
( N6 b& W: L1 G, u6 Xspeed governing by pole changing 变极调速
" G" i5 {8 ~% O5 `. C# nampere-turns 安匝
9 s# E5 f- I# @/ z8 m) N% bsafety voltage 安全电压 7 i) [4 d$ b% A4 |& {# _' ~
semiconductor devices 半导体器件
; U$ M& L: c. t2 ithyristor 半导体开关元件
) c6 C( E0 _$ Jsemiconductor 半导体
% D( r1 e3 y2 q; Z$ f) i r(absolute)magnetic permeability (绝对)磁导率
; N; U. ], h9 d: T- ecurrent rating (of cable) [电缆的]载流量
4 i9 a1 l# y' c3 Wbreaking capacity (of a switching device or a fuse) [开关电器的或熔断器的]分断能力
$ n6 }6 `' ^$ Mauxiliary circuit(of a switching device) [开关电器的]辅助电路 3 I k3 d, C+ n( q- A- Z4 p* T
alternating component (of a pulsating voltage or current) [脉动电压或电流的]交流分量 1 C" D' M6 F. y! N# G
direct component(of a pulsating voltage or current) 脉动电压或电流的]直流分量 # S/ l6 y' R; d2 ]5 x1 z
TTL circuitPI TTL电路
4 k2 z! x" ]5 EPI regulatorPID 调节器 3 v! W/ F4 Q4 r% O
PID regulatorPD 调节器
0 |) f5 k* l- U5 ^ m- BPD regulator 调节器
0 `' M( C$ T# e4 J2 D8 \main circuit 主电路 4 a6 f$ n/ e' ?8 ^, K9 S
neutral point 中性点
- g3 D, }! [% p) Ymedium frequency 中频 ' f) @. G2 Y( [- S; W) g8 D
active power 有功功率
# Q* K/ \0 I3 b- I0 J: yactive element 有源元件 1 d b4 d4 a& c+ V
first class load 一级负荷
2 z c+ @ S& W- M* thard magnetic material 硬磁材料 s9 Z/ u. z+ F4 {% @2 \
direct control 直接控制 % b! ^# _% k/ q/ t1 I( B
direct coupling 直接耦合
3 [% n6 F% b) e. z/ Fremote control 遥控 ' L! ]9 I6 C1 G, R' p/ c
sine wave 正弦波 1 {. G, o' ?+ j/ _, _1 k2 a
rectiffication 整流
9 R( o5 G0 ?, O8 L9 nilluminance 照度
8 h7 o1 k% j( P3 c6 Foperational amplifier 运算放大器
- y9 x. E( j' A5 J' b6 {load rate 用电负荷率 , S* M( m% l; d1 X7 u
piezoelectric effect 压电效应 ; E% V3 @+ k0 E7 D
selector 选择器
& D1 N4 q& Q4 noxidation stability 氧化稳定性
1 _- M9 e7 g! l8 R9 o& ^couplingMOS 耦合
8 M, D, D4 s( F; u% u7 V4 A. p6 K' ~MOS circuit 电路 $ \/ |7 a7 j4 ~/ [
linear control system 线性控制系统 ' H& r0 r. n& e
linear(circuit)element 线性(电路)元件 ( F# T# D4 f6 j) B0 m. R1 l2 L
linearity 线性 4 a$ f3 D4 a* O' \1 @$ P3 t: F2 y
gas protection 瓦斯保护 8 E2 M3 n: N' l. {2 u
reactive power 无功功率 9 c9 y3 J7 A/ N
passive element 无源元件 # h. Y2 E4 G n( E. B# F
eddy current 涡流 & t) j- P: b/ P: _; h
synchronous speed 同步转速
. E' {; f. H" {8 t @+ Zon-load factor 通电持续率
# j$ C5 Y* g$ {7 j$ r ]: }micromotor 微电机
0 D( f; B5 s& v+ w+ j; M* Mdifferentiator 微分电路
% |: E+ T# m9 e3 G1 ~' H$ D- Oregulated power supply 稳压电源 ! X& ^6 Y% x$ g& B# c) i
voltage stabilizing circuit 稳压电路 # b' T. `! i9 P2 O8 j4 Q5 m* B$ q$ M
sequential order of the phases,phase sequence 相序
% D, C; A, \2 Vphase 相位(位相,相角) & f" T2 E) d; y' _6 d; e4 L" `
phase displacement 相位移
0 {$ J& t O) R3 O% u# ?( |1 rtemperature rise 温升
& }+ r P8 |; Q: z( `# r! vconnection diagram of windings 绕组联结圈
8 y* R$ ]* c1 e D* m% X; s* ewinding 绕组 * q [0 C- h; R7 A+ Z$ I5 p
servo system 随动系统 ( _. y/ q1 g: |& u7 t
detuning 失调
, x5 |- ^! }2 ^9 w8 idistortion 失真 5 W; m! w' c- c2 r: l
digital integrated circuit 数字集成电路
5 `- k$ H0 C% y& B6 K& G. z s2 Kdigital display 数字显示 2 |. r3 O7 a O1 R/ G) G7 k
digital quantity 数字量
1 s- l$ v* ]# pcapacitive reactance 容抗 8 c+ c6 w8 O+ p
third class load 三级负荷 3 C( L. ?) Z) a% e- U+ \
three-phase and three-wire sysyem 三相三线制 - e4 @8 G X/ \) _' S% `% J. _
three-phase and four-wire system 三相四线制
5 v H6 V, F, @3 w7 Tsoft magnetic material 软磁材料
6 U( E( w J( f( I. k0 S- Qthermo-electric effect 热电效应 / a5 @ Y7 @ `% _
thermal stability 热稳定性
( q6 X2 m) G6 A5 xthermistor 热敏电阻 8 ^! I8 l) t$ m, b- [1 E% X* I
servomotor 伺服电动机 " T8 [3 o: ]8 e
servo mechanism 伺服机构 t( U9 W& b4 H/ I Q% b( M
output 输出 . v n7 ^7 B! M
input 输入
+ F* ~/ Q7 t# i1 Tflashover,arc-over 闪络
( ?7 Z9 s: b7 q: ~D filp flop D触发器
/ X3 C0 @8 {3 A' J3 m' oDTL circuit DTL电路
2 p7 o5 a3 R! c/ } ologic circuit 逻辑电路 : L- E; X7 e \! t2 H% V. _
excitation 励磁(激磁) : | G M$ z1 c& U, ]* l# A U9 J
contravariant 逆变
6 [! |* g& J) {3 Nbus,busbar 母线(汇流排)
2 _, ^: c( ?5 k7 C: z2 d2 Kcontinuous control 连续控制
' H" X0 B* e$ M* E3 h5 x2 K+ wcontinuous system 连续系统 3 T3 L" _% O3 W% |& U. }2 V
interlock 连锁 - X- a# J, n3 |0 x
connection symbol 联结组标号 ) {$ H( g0 q- C0 s1 h! q
torque motor 力矩电动机
2 h' c8 L4 B( V- n- N' D. e3 Ranalog quantity 模拟量 2 y! ? T1 r; H$ q& M
potential drop of internal resistance 内阻压降 ! }9 Y7 Z- r" q
whirling speeds 临界转速
, Y. u0 W# k& |+ ?9 ~+ m; Vfull load 满载
) `4 t0 l5 v1 p$ I2 Z: O/ mpulsating current 脉动电流 : ^1 }0 g I- J4 l$ H- N8 O& a
pulsating voltage 脉动电压 " }( ]+ [# A. ]2 u
pulser,pulse generator 脉冲发生器 9 _6 r6 ]6 l4 \3 J
puncture test 耐压试验
! E/ k& |, m0 kideal inductor 理想电感器 1 W5 ]8 F8 t- L) u
ideal resistor 理想电阻器 ' h# L; N5 \0 I h _' x" B+ B& w
ideal voltage source 理想电压源
3 g4 P7 g A' }" O0 iideal capacitor 理想电容器 . e5 a7 s* |8 T% l4 I
ideal current source 理想电流源 " K- l! [" X' G, O; u
ideal amplifier 理想放大器 # s% A2 ]! D) o! M8 u5 i# o! l9 C: A: l
ideal transformer 理想变压器 # M" P( O! t F+ a N
temperature classification,thermal stability classification 耐热等级 - A; @1 R% X9 b9 _& E
filtering,filtration 滤波 1 z* E4 S% z7 a( y* e) r
discrete system 离散系统
/ Z9 F m' }, |. J. i9 } uzero-sequence protection 零序保护 / A. d4 |3 \1 e$ { U) L
load,charge 负载(负荷) " v4 C, V) l m6 g0 b1 s
inductosyn 感应同步器 0 U) ]: c. m% V9 t3 ?+ k
induced voltage 感应电压 ; Y% U1 v, I- S' e& G
inductive reactance 感抗 4 |3 K* [, n- E
high frepuency 高频
/ ~! y8 R$ h' h% H0 E! C0 rphotoelectric effect 光电效应
/ e2 T$ r* @# N/ m4 Y$ J$ wovercurrent protection 过电流保护
3 X, _" G5 w+ K O0 ]overvoltage protection 过电压保护
, z* Y) C3 a. x9 b7 F |mains frequency 工频
! d" ^9 q: C$ e; V+ H! kpower factor 功率因数 4 T9 Z0 f& j# z- @ s$ Q
constant control system 恒值控制系统
* p5 M% ^/ i" o) Yphasing 核相(定相) + j: N% A/ u' l3 v! N. {
glow discharge 辉光放电 0 h, L! B9 \7 e$ e7 a
fundamental wave 基波 3 L9 p) z2 s0 d& x- \
integrator 积分电路 5 N- Q) v- b7 ]
mutual induction 互感应
) ]' m7 ?, u4 c7 b6 vcommutation 换向 $ k2 H5 [1 n. L8 `
change-over switching 换接
* _( o; E, Y2 O$ T/ I: N0 Mparasitic capacitance 寄生电容
/ [' v, B5 v3 P Rdetector 检测装置
8 w9 B+ M- a* A) a1 `" y qrelay protection 继电保护 # ^# K7 t( g2 V
skin effect 集肤效应
' T5 A5 V1 Z' f# j) \- `4 \* @coercive force 矫顽力
* V# z! k5 b$ F% D+ I( ydemodulation 解调 . E# U+ R7 m! ~! G
dielectric loss 介质损耗 3 U, Y. i% S6 M
contact voltage 接触电压 " x! L7 _& X7 d: S, T" Y F
contact resistance 接触电阻
% ~+ Q. g4 u) T3 y4 Searth fault 接地故障
* {* g5 j2 s6 [. hground device 接地装置
& w9 b1 C: r; a3 f7 p& Rresistance of an earthed conductor,earthing resistance 接地电阻
! E% m" H7 r( D) G4 ^, h* o. Pcut-off 截止 6 j! N% c( b, P- S2 K4 K. V; l
partial discharge 局部放电 " l/ f, F: i1 }& K" l0 P; [
insulation resistance 绝缘电阻 ( D& ^( a9 L; K9 b9 N9 f
absorptance(absorption ratio) of insulation resistance 绝缘电阻的吸收比 6 h* q3 M1 E2 F& W. u
step vlotage 跨步电压
. z' r- T) N! t- w' q/ i% p8 b$ C: rprogrammable logic controllers 可编程序控制器 j0 S f b: T& F+ r) G
no-load test 空载试验 ; {) A( ~' K; o6 I
noload operation 空载运行
2 V6 n3 U9 S+ H* h! xopen-circuit voltage 开路电压
% z- `8 F( l& Gopen loop control 开环控制 + o/ C0 R; ?/ L+ _: r% N! h. x7 F
diamagnetism 抗磁性
# u0 a! w/ k2 f. {1 n. y. ]control circuit 控制电器 ) l- m) b3 S$ G& e. d% E, q) k$ ]
shielded cable 屏蔽电缆 % [4 Z9 E0 d! z. Q8 P1 ^) Y
gas chromatograph test 气相色谱试验 " g( U5 w* ^- o# j8 z" c
gas conduction 气体导电
0 }1 {7 {% k. p, qair gap 气隙 * G% P/ B! y( B; D: v& F
signal circuit 信号电路
& O q; W3 ]4 d% [* g' p& T( hsmall-power motor 小功率电动机 4 `+ U$ X/ q; f' p1 Q* n$ G, s
resonance 谐振
2 d/ N+ m8 A+ j1 [3 ~9 Sharmonic 谐波
/ H/ K- u+ j! Z* oimpedance 阻抗 9 i: R$ ?. C" E3 ^. M5 `
optimum control 最优控制 . B6 H+ n9 g: u3 n
autonomous control 自治调节
; F, }1 J, z, X% Csynchro,selsyn 自整角机
8 H) O" a. s( E6 V) z4 j% Lautomatic reclosing equipment 自动重合闸
. W# f5 s# E/ L8 rautomatic protection device 自动保护装置 # B6 F5 Z# C1 E9 U& I3 G! J* A
automatic control 自动控制 6 B& s) d& Y! k$ b
automatic control system 自动控制系统 & D3 @+ x; m C1 ]( l
automatic regulating system 自动调节系统 9 j1 J, B$ g/ c2 q/ b
slip 转差率 # P6 x+ M, b5 ]! x( v( `, M7 ^- r
electric circuit 电路 & Y% p0 K! G: Q# h& z- @
electric current 电流
5 R* u5 M, [, ~3 f! W6 Nbridge 电桥
8 x3 u, g7 S. q# zarmature reaction 电枢反应
' O v+ U2 y3 b- a7 Qvoltage,electric potential difference 电压(电位差)
5 W+ c, p4 i3 G, v+ J1 n" {, yelectric corona,corona,corona discharge 电晕(放电)
8 m. i# Z& ^7 F. I: j6 w7 f4 upower supply 电源 % x* M; ?% J* U( {. r
electric field 电场 4 H/ m; B2 S8 L. o; w7 d' c2 K. _
electromagnetic wave 电磁波
8 M& Z" J& h9 B4 I' xelectromagnetic induction 电磁感应
& X' ]5 X1 \8 Y6 J4 F4 x1 s3 _3 u& pelectromotive force 电动势 7 v5 S) ?/ r7 Q
inductor 电感线圈 7 ^( @: ^5 W. Z0 w- u; s. ]0 T @0 O
electric arc 电弧
& S/ E3 \6 S Q/ v9 B+ z6 delectric spark 电火花 ; m3 v- t, i" t: o
electrolytic corrosion 电解腐蚀
' `4 E$ K9 b4 @4 Odielectric 电介质
6 J/ u( C& d! S9 z1 kreactance 电抗 4 `8 t& M0 e+ {* N. f
clearance 电气间隙
: B5 {8 d- k* H8 nelectronic approach switch 电子接近开关
9 k; Y% z6 ?. H+ `conductance 电导 . C) L- m& Q+ H! H2 j
equivalent electric circuit 等效电路
# Q* H8 }0 L' `2 I+ [earth,ground 地 ( U( {/ @; D7 ^' x1 D
speed regulation,speed governing 调速
' D* m A- }, [2 w3 Rspeed governing system 调速系统
, Z7 H: Y) @' `2 P& m' M/ U' Urange of speed regulation 调速范围 , Z) T: s& P; ]# o& L# l
speed governing by voltage regulation 调压调速
9 g7 ?8 {* I5 W, h: C( P) Wmodulation 调制
) @. ^5 M: Q# g/ G6 X$ x1 eamplitude modulation 调幅
5 |1 W1 `5 n- T. E7 R/ Ffrequency modulation 调频 / l6 }2 J; x t" i$ I, a
2、IEC试验室产品) o6 j B3 U5 r2 j( b+ M+ a
Abrasion test 磨损测试设备
1 b- ?. |6 ^; Z, T) E$ NApparatus for burning test (vertical and horizontal) 水平垂直燃烧测试设备
+ }! Y4 X8 k, T$ l. m/ ?3 lApparatus for production testing of hand tools for live working 手动测试工具 $ S Y; q4 I5 ]& H, V' Y1 j
Apparatus for winding a flexible pipe 软管弯折试验设备
5 G# [; j' g* s$ M; j" J5 ]Appliance couplers test equipment (various) 各类测试连接器
( a, d- J' y3 F4 ?7 Z0 ^Automatic & manual production test equipment - for final control 自动 /手动产品测试设备 - 出厂控制 8 [7 f: `* y. A. E/ M
Ball-pressure test apparatus 球压测试装置
. `# R, Q. f! M8 R8 J3 lBending equipment for conduits 管路弯折设备 0 M( f; q1 ~; _0 H/ J
Bump test 冲击测试
+ W( i; f: e0 n! q* \' ?1 l* i3 J& MBurning test, horiz. 燃烧测试(水平) 9 F# q0 u! N2 w& V/ C, O# p
Cable test apparatus (various) 各类线缆测试
O0 {1 V3 R# R- LDraining current measuring equipment 损耗电流测试设备
# r* e9 l: m! ~' Y% h# @Drip proof test(special) 淋浴测试
' X7 |2 e9 l8 `4 J. {2 ]8 KDrop test 跌落测试 , O# v. u% q9 a# T
Dust chamber 防尘箱 : S7 ?1 \+ T6 H7 \/ L& P6 I
Dynamometers 功率计
5 |& W- ~5 e; w4 _* bEarth bond resistance tester Earthing resistance test appliance 接地电阻测试设备
. @$ M7 Z$ w! ?: B' C9 ?7 c! r+ aElectric resistance of non-metallic materials 非金属材料的电阻测试 3 ]( r. `5 ^) H9 G
Gauges and similar mechanical checking devices 量规或类似测试装置 8 k" ?% X! S$ p; P2 k/ u
Electrode arrangements 测试电极装置 1 `/ A! i( `& M. U1 P9 Z9 L
Flexing test equipment 弯折试验 . X- E1 V: }6 f6 i" w% `
Fume cupboard (protective cabinet) 防护罩
4 }9 G: B# a8 {4 v" OFlexing test apparatus for cables 线缆弯折试验装置
4 C" `: F- E( _7 E* x5 ?: sFlame hoods 燃烧罩 8 {) V( O! M$ m9 p- C/ V( S, _- J6 E( X
Endurance test appliance for plugs 插头寿命测试 ) I o) j& T) F# P9 T+ o4 J/ h& n
Equipment for testing refrigerators 冰箱测试设备
# g. P/ G4 A9 N& }; t. HEndurance test appliance 寿命测试 , w, X/ j' C2 @9 R/ J/ ~0 [
Gauges for appliance inlets Gauges for finished lamps 灯具量规
/ a w$ V9 t( U) z; J' q( KGauges for lampholders 灯座量规 p. E! F3 E* S* Y* y2 S2 z
Hot wire ignition test 热丝引燃测试 B' |* Z1 {) V, y& z
Hipot testers Hot mandrel test apparatus 高压机
m% x" A3 l8 \; D3 L5 vHigh voltage test appliance 耐压测试 3 m$ T. N2 U6 {& ^ @. C; A
High frequency spark generator 高频火花发生器
6 n- D9 W1 l$ z1 a* GHigh current transformers 高电流变送器 2 R; G! i8 U4 d# i) Z
High current arc ignition test 大电流起弧测试 ) F5 U; M& F3 p; [( M6 N+ k6 _
Heating tests 高温测试
9 w% }4 c G) K+ a/ [ `4 BHeating cabinets 高温试验箱 3 N( z0 P. Z& ~0 r
Hand held shower 手持花洒
2 k5 b9 Y; A- @Ground continuity testers 接地电阻测试
; W0 _: z1 o5 t* i; RGauges for plugs and sockets 插头插座量规
2 Q( b& A- {* t& mHumidity chambers 横湿箱 / \/ P# H# U7 z/ o6 _5 d+ ~+ p
Gauges for starters 发动机量规 % }$ r5 f, Q1 }, t- ]1 E
Impact balls 冲击球 / ^# T% o3 `$ X- @/ [
Glass vessel for microwave oven testing 微波炉测试的玻璃容器
; N- b. t# s. f6 A3 z. ]- @Impact hammers 冲击锤 7 ^5 d3 \2 b6 U, t% S/ b
Glow-wire test apparatus 灼热丝测试设备
' d/ ?! N+ I# v- f$ \Impact weight apparatus Inductive loads 电感负载 9 w8 C: T5 C( G
Jet nozzles 喷嘴 4 k) k. L l( t( Z6 L
Lampholder testing apparatus (various) 各类灯座测试设备 5 x$ f: s; A% h2 S8 m0 n5 M
Kit bunsen burner/ needle flame test 燃烧测试套件 (本申 / 针焰)
4 A% d* w! ~! W. K7 PLeakage current test appliance 泄露电流测试设备 5 {. m( r$ E1 \8 ~( z8 V
Laboratory power supply with isolation and regulation 可控分离实验室电源
- D9 ]3 y; w) Q0 T( {0 hLoading weights (various) 各类负重
8 H+ X3 y$ \' w, ]Laboratory stablized power supply unit 稳压源
) ]% F" F! @/ d; _Luminaries testing equipment (various) 照明测试设备 3 M$ I8 A6 ]$ [+ P% `7 E. d
Measuring equipment for testing switches and socket-outlets (with DPM) 测试开关和插头插座测试设备
9 f3 `1 h& J+ j( y0 E5 b- h2 [6 z% R, aMegohmeter 兆欧表
9 N) c/ M6 C5 ]3 EMechanical resistance testing apparatus for el. Irons Mechanismus for burning tests (vert. And horiz.) 水平或垂直燃烧机架
2 Q5 L% {7 Y: H" w' v0 T$ aNeedle flame burners 针焰燃烧工具 ! g* w; @4 D2 W$ R
Needle flame miniature burner 微型针焰燃烧工具 3 A2 }! D. C6 f* R2 P r6 n/ a
Surge test circuit 浪涌测试 # e; E2 N1 E; T' {
Needle flame tester 针焰测试 k, u3 k' J1 Y% V' l
Resistance loads 电阻负载 0 u+ E+ p. w) Y* D$ W1 N) J$ p# p
Scratch test equipment 刮擦测试设备
) \# [+ |1 c, K2 ?Power sources 电源
# |) i, e/ p. x3 a- a/ \! tProbe for measuring surface temperature 表面温度探头
) t l9 }3 l& J8 f; d5 J+ VPendulum hammer 摆锤 ; c" C4 I1 N5 o( ^1 v. `1 V8 t' r* `
Plugs for endurance tests of socket-outlets 插头插座寿命测试
7 n; P# H0 y4 QNeedle flame thermometer 针焰温度表 ' _# G( ^% j* y/ I
Plugs and socket test equipment (various) 各类插头插座设备
2 p9 }$ p* c# ]2 x6 MSplash testing apparatus 溅水测试
8 y7 {) x6 X! L2 `Pendulum impact test apparatus 摆锤冲击测试
1 s; }# ^& I) k) ESpray apparatus, tubes 喷水测试 ( |) o4 w; |; p5 o! {; {
Solderability test apparatus 可焊性的测试设备 / D9 v) x% z8 `# [, [0 c) X
Standard test enclosure 标准测试附件
4 w$ z+ }( k6 FTemperature during operation, measuring equipment 温度测试 . i+ }1 t$ L+ U: a1 n& J& l
Thermocouples 热电偶 : e, M$ ^/ R8 t% S0 g0 k& N
Temperature measurement 温度测试 2 ?1 B3 V6 b( s+ `: F0 f
Test apparatus for IP tests IP 测试 3 O# ?/ c$ H& {7 f6 N2 y5 E3 ?5 k& H
Torque test equipment 扭力测试 9 n8 W0 V* W* t+ q N
Test finger nail 测试指甲
8 |( I; k' \: xTest panes for hob elements 燃气炉测试盘
w" B1 ^) U+ [Test fingers 测试指
, @$ v4 z! Q5 z0 m; ^Torsion apparatus 扭转测试 ) k0 n$ M X# J0 f
Test hook 测试钩
1 W+ H6 ~% `5 [. m( ?" }Tracking index apparatus 漏电起痕测试仪 " s: N* C7 P4 u- h
Test knifes 测试刀模
1 w7 C+ @: H; [& I! {& DWater evaporator 水蒸发器 + V, g5 m0 s: t! Q: s
Test pin 测试真
! f+ I- p) f/ HTumbling barrel 滚筒试验装置 ; l* D9 C' n+ o6 u. O
Test probe 测试探头 0 q" B+ T% E1 |3 j( J* F
Variacs Vessel for testing induction hotplates 测试热传导的容器 ( x' ]; g O3 T/ F/ V, W
3、设备修理
) ]5 K2 _8 D; x' ]" d0 Mcorrective maintenance 改善修理
/ _; r t3 G I$ h' j6 @1 Q, zback repair rate 返修率 , v* D2 F+ @ a
stepped(sizing) repair 分级修理 6 L1 d, ?" n/ Z" I a5 Z
decentralized maintenance system 分散修理制
+ M, J$ l3 ^. X3 [6 f9 f( Ewaste and ungraded product and back repair loss 废次品及返修损失
7 {' F0 t! A' [, B& k: T, i1 Runscheduled maintenance time 非预定维修时间 # K d# P& g! Z* d# X
periodic repair task 定期修理作业
( t3 G" u$ T/ d& W$ v6 ?% V: Aperiodic repair 定期维修法
2 r& t+ ?" H. Q1 S {5 Vlocation accuracy 定位精度 & m/ \) x% [( m4 W, r2 o: R2 N
transmission accuracy 传动精度
& b8 Z% h7 [$ s3 Z/ q( i1 |revision of overhaul plan 大修计划修改
% ]5 u1 E7 |& i, e% |assesment of overhaul plan 大修计划考核
9 v) ~3 V6 x1 Y1 roverhaul planning 大修计划编制 2 A- R( \1 {3 v* H! O
basis of overhaul plan 大修计划依据 - g2 j& A' T/ l& `
fulfilment rate of overhaul plan 大修计划完成率 8 |9 o; I% R. i, I/ @3 A
implementation of overhaul plan 大修计划实施
" ^8 y" h" ]$ ? B& W3 ]% X* O9 Hoverhaul cost 大修费用
; z3 \& M; V8 W! e# v2 A/ R6 foverhaul cost 大修成本构成
# ^0 c$ P. e9 Q1 H* A; _: }overhaul cost analysis 大修成本分析 / S. ?+ c1 `2 S$ w" M
fulfilment rate of overhaul cost 大修成本完成率
. L) \% k) g1 D# @overhaul guarantee 大修保修
4 X# I! ~7 L5 Z/ O! C, p- C! {( [. ~interval between overhauls, overhaul cycle 大修周期
2 i! D; H+ o9 p5 p# Eguarantee system of overhaul quality 大修质量保证体系 & H0 J2 A( `- v* G& N" P/ g& M0 `
overhaul quality evaluation 大修理质量评定
G" ^: r) l9 }) v' N b' u. Uoverhaul quality control 大修理质量控制
* \7 j; P. H; }" y) Yoverhaul,capital repair 大修 0 V+ C1 b1 M, A. X9 u R
assembly repair 部件修理法 # r7 M6 Y4 ~/ ^# U
partial repair 部分修理法
v {/ ` _; e- ocompensation method 补偿法 & o' r X" i3 W& K/ c
production program of spqre parts 备件生产计划 1 f$ D% E( a7 E/ S& T
stand-by or redundancy system 备份或冗余系统 ( O# c" z+ b3 ^4 k" J/ C
standard-size repair method 标准尺寸修理法 ' l0 E" q3 B1 R4 H2 }4 l+ ~
“eight steps”method 八步法
: e' R; F5 X8 h$ V$ G3 xrepeat location accuracy 重复定位精度
% _1 O8 v- F$ Z" F9 t' Bmiddle repair 中修 7 u! J$ P( f2 a6 \" p" {
system with maintainable standby parts 有可维修备份的系统
8 ^5 f$ S0 L! p8 P3 dremote maintenance 远距离维修 ! z' e9 y r2 c) W$ O) t0 M
preventive maintenance 预防维修 - i0 E! m8 m: }- l/ V. H* T
scheduled maintenance time 预定维修时间 + C7 m K( ?: B% y8 ]- }9 r
predictive maintenance 预知维修(状态监测维修) , N/ n( C( n( y3 K
quality system 质量体系
, G9 [: g5 w- Y' Kquality 质量
0 E: z- B0 ^% a: E) V. wdeferred maintenance 逾期维修
0 D/ Q3 P& J3 ~+ \network planning 网络计划
: X& n% ]4 p! @' Cmaintenance skill training 维修技术培训
- H6 Q* h+ S* M5 ]" Zmaintenance interval, uptime 维修间隔(正常运行时间) 7 t9 \4 U2 n8 I) _) X
economic analysis of maintenance activities 维修活动的经济分析
! k u3 O' i. z* I/ I0 [- D xmaintenance worker 维修工人 d7 z$ _3 S- m! c
maintenance protection 维修防护
$ |% Y- V% g, y9 `1 b4 g! {2 Jmaintenance shop 维修车间
5 S& z# Q' A) D9 G& Amaintenance prevention 维修预防
& e2 { g* Z1 N- |, {& d8 Smaintenance cycle 维修周期
) S2 c% J6 T8 y: K+ E5 y8 d" E8 F* Amaintenance time 维修时间 1 u4 S* ?0 G1 d; R* d
synchronous repair 同步修理法 # I2 \# q: q% D2 [9 z8 M# a
repair downtime 停修时间
% D9 l$ @3 Y" t; P1 o. j; fitem repair 项修(项目修理) 2 F8 s* z: Q& B: e& @
repair on commission 外委修理
8 `1 p! F. t: R4 F(TPM) total production maintenance system 全员参加的生产维修制 7 R. W9 Q1 Q+ i, D
controlled maintenance 受控维修 0 p# M' q+ v* e+ ]
life cycle maintenance 寿命周期维修
$ S9 z& z7 D- f' bhot repair 热修
" [4 l6 |$ b" _- c4 grepair schedule of equipment 设备修理计划 , H4 _, _) T% B& ^; D
acceptance check for equipment repair 设备修理验收 - R1 p3 y8 J$ r) a
quarterly repair schedule of equipment 设备季度修理计划 6 N4 F. Q" ?6 `& \3 G+ }
technical check of equipment 设备技术考核
1 {" Q; z W+ P- A3 F+ r' N7 s# w. Jequipment overhaul plan 设备大修计划
- K2 J. Q, q. `4 A8 umonthly repair schedule of equipment 设备月度修理计划 ! \* e. ~% g. z3 u% @
equipment maintenance plan 设备维修计划
( D4 u/ A. Y3 B( A- T& e' ], Pthree essential factors of equipment maintenance 设备维修三要素
1 Q; c/ t& h: j6 a5 Iitem repair plan of equipment 设备项修计划
/ ^; R, z5 ^* [5 h: H% j/ Eannual repair schedule of equipment 设备年度修理计划
; u. ?& [+ |7 G* g$ j& i4 k/ @! Pbreakdown maintenance 事后修理
' R/ V3 y5 O8 q% z3 @first-aid repair 抢修
" z3 ?0 G7 A# T! w2 ?accuracy of machine tool after overhaul 大修机床精度
* [9 V" l! ?% W6 ~; S" x8 B8 U: c4 M3 J$ \rolling (circulation) plan 滚动计划 . s# I. J( K# x; X+ _2 t
MIS maintenance 管理信息系统维修
) A3 K6 R+ r, i$ ^% Uprocess capacity index 工程能力指数
' ^9 e8 U4 M; \. x* w Cworking accuracy 工作精度
E; O: S3 z+ q# y6 A3 Q* P }( ?recovery repair 恢复性修理
5 u! T9 q$ G4 [* Urotational accuracy of machine tool 机床旋转精度 * o- j: F5 Y" m; I1 |
machine repair shop 机修车间(分厂)
( K$ A N' s6 z$ X' }maintenance mechanic 机修技工
$ S# @+ \3 f$ W; A' Bmechanical repair method 机械修复法 5 f6 A0 ?+ d8 Z" E8 I% S( P$ S* p
instantaneous efficiency of machinery 机械的瞬时效率
& V [1 c: d& x- T# ~5 binterchange method 互换法 4 D3 I9 t( l1 M8 ?8 G4 x
inspection 检验
# a; ]$ G& Z6 }/ w- G9 }; V Bcentralized maintenance system 集中修理制 & V# G8 c9 w/ d; F
geometric accuracy 几何精度
X* ~; @0 ~ H% w% wseasonal repair 季节性修理
- i# {7 I% ^% F$ z6 J. Srepair out of plan 计划外修理
# L+ Q2 K3 V' u/ A/ W, `: wscheduled maintenance 计划维修 / g) W& p8 W# {% O. p
planned preventive maintenance system 计划预修制
4 H. G& m( o4 Z( fplanned repair 计划修理
+ W9 e- k0 Z- v5 u6 {# J, l$ Kcontact accuracy 接触精度
# `0 @. F. n- h& o7 Cemergency repair task 紧急修理作业 9 J9 b- w0 w% V$ ]9 d5 T( a0 Y
machining and fitting method on the spot 就地加工修配法
A, L; X7 {8 O# v! P4 Gprecision index 精度指数
1 Z* o7 \/ i# W, Faccuracy standard 精度标准
: a' ]' l K ]precision retaining ability 精度保持性 : h: N$ ~, l7 U! J8 l6 C6 w
precision reserve 精度储备
) b! Z1 m. N7 ~* P* y" r* m0 A, gfine repair 精修
( @8 t7 r9 N6 B9 n7 e( t9 hfine repair mechanic 精修技工
( {0 f, R4 C4 J% g. Reconomic accuracy 经济精度 ' M; v5 | y, N% y: V- I
balancing precision grade 平衡精度等级 8 p# H- m( o& F8 F9 t7 V) J9 a
mean time to repair(MTTR), mean repair time 平均修理时间
2 s# M0 P) H: I# _$ ?minor repair 小修 ) i2 Q# C" j# |5 c* k
fitting method 修配法
( O4 R+ e7 A: G/ C4 `+ ?repair link 修配环
. F: n3 J, ~6 w! v8 w* Krepair specification 修理任务书
1 m ^; Y; a: c: w& V2 ?% X, E0 h: Yrepair rasks dispatch 修理施工调度 . V R# V: }+ b5 A8 g$ _4 q3 F- C
repair time, shutdown time 修理时间 * v7 Y$ i2 e9 s1 r8 y
downtime quota for equipment repair 修理停歇时间定额 9 Y! r X: M/ |; j
repair facilities 修理用设备
" e% v3 v t9 ]( l; v* Q3 @repair quality 修理质量 , A& Y/ u% R) M" S* L4 d: i+ o0 \
repair quality index 修理质量指标
' m5 ` y. \( S. X4 Lrepair quality plan 修理质量计划
$ b/ ` ^, f' _8 ~) L9 H; hrepair quality assessment 修理质量考核
5 M+ W: _5 u7 z$ h9 Orepair symbols 修理标识
0 R$ q! Z3 [" x8 |5 E- Trepair cost assessment 修理成本考核 . N. O7 K' l7 S+ u9 E: s
repair size 修理尺寸
- I* J9 P4 ^: V. A- n. u4 `repair quota 修理定额 % W3 h, W; q3 W: S4 M
repair cost quota 修理费用定额 ; l' y1 b. D, ]+ T
repair scheme 修理方案
, B: D6 |8 m o W/ T" |repair manhour quota 修理工时定额 * H/ U y% E! G
repair manhours assessment 修理工时考核
! f% h: u; x" drepair technology 修理工艺 ' B9 z5 | r2 u( ~
maintenance engineering truck 修理工程车
* P$ v, M _/ M; `) ?maintenance tool 修理工具
* L. V& j# }# k. s2 G8 m$ ?repair time limit assessment 修理工期考核 4 W+ B( a+ G2 Q1 M+ J
repair assessment 修理考核
9 R& b) w4 c4 J! Y( d$ l, N5 vinspection before repair 修前预检 ' m M* V4 q8 S) u
measuring and drawing before repair 修前测绘
o: b, A% m F# |* ~( O3 Einquiry before repair 修前访问
; Q" \2 c1 g% Y9 ~0 i3 t$ tservice after repair 修后服务 5 {/ \6 k# Z* u% e0 y9 ]9 s3 ~
optimum repair cycle 最优修理周期 : u7 B& O6 J6 n) L6 F- g9 y
assembly accuracy 装配精度
- e9 |! p; t; P' I! \electric repair shop 电修车间(分厂) ( u/ z* u) `" t/ b4 s
maintenance electrician 电修技工
2 j7 }1 q1 U5 ?. {" e, k/ brepair cost accounting for single equipment 单台设备修理费用核算 / |' ]4 h6 K1 C; g9 t" Z
adjustment method 调整法
0 u+ E/ ]8 s% S7 \adjusting link 调整环
/ V1 \7 X$ D9 w# D6 Y- G4、设备管理: ]& ?8 }, [: w& S
probability 概率(几率) - _/ W p# N5 w \3 D0 e, e$ R
variance 方差 j! Q: @. A$ Q% q% L0 b
decentralized maintenance 分散维修 ; C, Y2 K0 z& }1 j* ^* L4 u7 u* x
dynamic test 动态试验
4 g9 C: Z4 x8 c6 O. }power facilities management 动力设备设施管理
( M8 U7 g" x) }+ j9 \5 [6 R; gduct-proof and protective equipment management 除尘、防护设备管理
( ^. T9 V* M3 L! ^3 l. G7 W* osampling investigation 抽样调查
' \$ c2 i8 h4 r8 Edomestic production management of imported spare parts 备件国产化管理
' ~ ]2 ?) q3 V2 E5 G7 @2 g, |! t+ j. Hstandard deviation 标准偏差 ; I1 S h, g* O* H' D; H
budget of installation 安装预算
: X, f! y$ W" u3 @, vmachine contracting system 包机制 , e" x( J" {2 Z( O# P5 h/ Y
regulation of check and lubrication before on shift 班前检查与润滑制度 ) j+ ]7 F! J6 [3 |$ w$ a
shift relief system [设备]交接班制度 ' b/ F' o/ S7 D
《Equipment Management Regulation》 《设备管理条例》(《条例》) 《
9 S7 j9 C- l2 I, ^repair [设备]修理 8 K; X) c9 [7 t8 d9 @) `
maintenance (and repair) [设备]维修 9 J0 h4 c% t/ n1 R; r" M$ a3 y" V
key-point investigation 重点调查 . o0 @- S/ p" h; N
management of key-point equipment 重点设备管理 5 ^4 A+ |7 ^- q0 H3 x
key-point equipment 重点设备 ) U3 w* p3 X5 N# ~5 J' { W! `
liability accident 责任事故 ! r0 L5 G# p6 z; m
exponential distribution 指数分布
) e% V* G/ O, u2 yhistogram 直方图 2 L: C6 \5 ~# x8 a2 J2 `; N
prepayment and collection 预付与托收承付
4 M! d8 Y& ?0 |1 y3 ~prophylactic test 预防性试验
2 S$ p4 y5 A" Q% P- Q; kprevention first 预防为主 % m" K1 G8 [" K. | ^* o+ U, g7 l, u
orthogonal design 正交设计法(正交试验法)
1 ^& W. g6 g$ ~6 H% |- N `, hnormal distribution 正态分布
8 g1 U0 F: f( ]! x/ _& ~transportation vehicle management system 运输车辆管理制度
4 p# O& ]3 X; q2 d7 H$ zthree guarantees of quality 质量“三包” ! h2 |( P1 c& l' l2 @
accident due to quality 质量事故
. S/ o# S3 X# N7 m, B5 y9 @! |management regulation of pressure vessel 压力容器管理制度
. u, a) K3 r s0 K& e6 x3 K; Dmean time to failure 无故障运行时间 7 D$ F! @4 B) W* c# ^, ^
Weibull distribution 威布尔分布
* Z, U" p2 G% ^) Gidle equipment management 闲置设备管理制度 / v B2 N. \1 b" n; J! u. {
idle plant 闲置设备 $ t0 R4 q- \* s* R
statistical analysis 统计分析
8 s+ n# ] v" q( k) qmaintainability 维修性
5 h8 o g# s& f- F3 kmaintenance information management 维修信息管理 " X6 l( x9 b" N' p
combination of service and planned maintenance 维护与计划检修相结合 : x" G1 r3 Y; V) T' ^( y
random event 随机事件
& k; }. m8 h' x8 _5 Lnumerical control (NC) equipment management 数控设备管理
, c. E6 s8 r, Q+ Othree-level service system 三级保养制 3 G2 S% k# j% K# Y: z8 f7 B
mathematical expectation 数学期望 1 a1 b8 S, O: S5 J) V+ }. J1 A6 Q
mathematical model 数学模型 4 t7 P; U0 G* N% J" [; a4 [+ w' |( [
mathematical statistics 数理统计 ' R$ M! C0 \( S# D* h
technical facilities in production 生产技术装备
3 @ x% n( d- jproduction equipment 生产设备
# c$ Q+ p% m2 alife cycle cost (LCC) 寿命周期费用 3 A$ s% j4 T9 l9 X* q
mangement regulation of lubricant warehouse 润滑油库管理制度 # B3 p3 p3 Z$ }: R: q" Y/ p' [
commodity inspection 商检(商品检验)
" q6 Q% t( l0 E' L) dcombination of design, manufacturing and operation 设计、制造与使用相结合
" P* ~3 G, H7 v& J0 j. R6 d2 G3 qinvestigation on plant 设备调研 : E9 p9 x- ` g$ O9 C F4 C
reliability reliability theory 设备的可靠性与可靠度 8 V4 b; t( i6 t' q) p
energy saving property of plant 设备的节能性
+ _( P" L% p( H9 }3 ?9 V" _( cfacility inspection and appraise through comparison for plant 设备的检查评比
$ {" X0 S9 h3 N( Y* f2 eplant check system 设备点检制度
. K g3 O# p, o8 O4 j/ V% X% Ienvironmental protection property of plant 设备的环保性 4 K) H2 R: }$ H1 ]; m
complete set of plant 设备的成套性 * q% n) n$ a' K C/ P+ i7 x
safety of plant 设备的安全性 / B* t' a( g) X- N/ g$ l
productivity of plant 设备的生产率 7 D6 `9 r( Q5 P/ k- M0 H
durability of plant 设备的耐用性 " a4 `( r) _. w$ d4 u- j
flexibility of plant 设备的灵活性 8 A3 d7 I: C- B- P. d
equipment condition monitoring and diagnostic technology manage 设备状态监测与诊断技术管理
- U/ h: j( x& M( Jequipment condition management systen 设备状态管理制度 2 ?! z( R3 a2 b2 V8 I- i8 q7 f
total plant management 设备综合管理
' Q4 N7 m: i8 X2 C' f, zdynamic management system of plant assets 设备资产动态管理制度
' n- Y, [' G" v; [6 _plant leasing 设备租赁 * }; P/ C. o1 ^
preparation system before equipment repair 设备修前准备制度 `6 a0 K) h# d6 C
man-hours quota for equipment repair 设备修理工时定额
# {+ L+ z# D; A, Hexpense quota for equipment repair 设备修理费用定额
l& w& N1 Y P' K9 P+ w! D' Zmaterial quota for equipment repair 设备修理材料定额 / f$ ^, E+ f3 w* u; E" `
acceptance regulation of equipment repair quality 设备修理质量验收制度 3 D; C& U& S' G% L4 W
equipment model 设备型号 - G( o# E* c. h/ r
type of equipment 设备型式
- p: p6 e$ E* K1 t7 Deconomical life of equipment 设备经济寿命
, M6 V" V- B% A. F/ r" {* uoperation and business management system 设备经营管理制度 - Z" \$ Y) K% E; `
technical document of plant 设备技术档案 9 ^5 `1 a! B0 E: I
technical conditions of equipment 设备技术状况
4 e' R& V% A+ E1 o) |technical condition management of plant 设备技术状态管理
0 A5 _3 J! f, Z4 t }2 }management system for technical document and file of plant 设备技术资料管理制度 ' g" g/ W9 l- z H
technical properties of plant 设备技术性能 / I4 r) [) N% y/ m) n8 |! }/ w) Q
technical life of equipment 设备技术寿命
. [+ r8 D' \! z6 ]$ T$ M5 U9 c1 lspecialized cooperation of plant maintenance 设备检修专业化协作
8 U: z# n' ]3 v3 gplanning and management regulation of plant maintenance 设备检修计划管理制度 # [' Y2 O3 a2 Q: v8 F \1 a- z) c# R
plant maintenance plan 设备检修计划 ) U" I/ o- A6 Y
plant maintenance specification 设备检修规程 - x) o) J$ d8 H2 [6 z
plant maintenance quality 设备检修质量
/ e$ M( [ `/ p% k2 I b( pdesign and construction of equipment foundation 设备基础设计与施工
/ s4 ~* i( U6 t) W! V' {6 ] Fmanagement of equipment order contract 设备合同管理
; E2 r& u [9 p0 Vfeasibility studies of plant project 设备规划可行性分析
& s9 b& J1 G" l a( B# I" Oinvestment plan of plant 设备规划
: [4 }0 J9 E9 p0 l% N2 {/ ]+ _$ x# hperformance of plant 设备功能(效能) 8 w4 P7 X0 i0 m/ r) p
operational capability of plant 设备工作能力 Y. J+ G6 Z1 J' ~
examination and check systems of plant management 设备管理考核制度 " R! H4 I, O+ w7 N4 ?2 C
economic responsibility regulation of plant management 设备管理经济责任制度
0 W1 x }/ h: y( npost standard of plant management 设备管理岗位标准 ' }$ N! \* {# L* t5 G4 M
plant management systems 设备管理制度
( b* {9 |2 Y, ]9 zdowntime quota for equipment repair 设备管理停歇时间定额(停歇天数)
6 `7 U# U, I- K( @! H9 Wplant engineering modernization 设备管理现代化 # V v' _. n: P% K8 S' r! e9 }7 M
plant management, plant enginerring 设备管理
1 a$ @- W( u9 N0 nfixed plant assets management systems 设备固定资产管理制度
8 L/ `. K5 I, B/ Gequipment failure 设备故障
+ d! R' M& D6 ~. V b7 Lplant renewal management 设备更新管理制度 ' n0 k) ^0 ]5 ^
plant renewal 设备更新 $ }7 g4 B4 |2 ~9 g, K
plant replacement 设备更换 / H( D. N; g& t
post responsibility of plant management 设备岗位责任 9 L6 U: w" F" A* ^* D( E. R
equipment modification management system 设备改造管理制度
3 r8 A% p2 R/ X( f( n3 dplant reconstruction, plant modernization 设备改造
: M0 T0 t4 n' Eclassified management of plant 设备分级管理 # { c; r3 v. `8 }
operation regulation with fixed qualified operator and fixed eq 设备定人定机、凭证操作规定
+ P8 H' v5 ^2 W3 _& |3 v3 [) l. N“five disciplines”of plant operation 设备操作的“五项纪律”
3 }' P5 d7 f6 U$ U* m" @operation specification of equipment 设备操作规程 5 N2 g9 d0 R: X$ U+ A+ w7 s
management regulation of equipment spare parts 设备备品配件管理制度
# U3 ]: P* j. v4 j; M1 \# Dmanagement regulation of equipment spare parts inventory 设备备件库房管理制度
6 G+ b' N3 b! {/ S/ ~. jto quote plant price 设备报价
. e; l* U' P% K8 c5 l* S Pdiscard of plant 设备报废 ' ?# M! Z! O3 H( m) K; X9 ^6 I
equipment installation management 设备安装管理 4 b( Q: i0 D) C7 ]( a! r6 \
equipment installation 设备安装
3 g$ }0 D6 F, p6 ?: y utours system to inspect plant 设备巡回检查制度
6 F G& m d5 L# ^: H$ X: g6 mto enquire plant price 设备询价 9 C$ M% `4 y$ L! \- h
plant model selection 设备选型 4 Q4 o6 ?7 }% C( s
acceptance check and reception systems of plant 设备验收交接制度
7 M4 k0 j5 [- Mstatistic-reporting system of plant 设备统计报表制度 8 U9 Z4 i9 ?9 d7 a9 N
technical document and date for plant maintenance 设备维修技术资料
+ J5 z0 i# B, W3 x. O( n# zmanagement regulation of plant maintenance technology 设备维修技术管理制度
+ B/ X" |( R/ P- Q3 P3 @9 e- |% u ^equipment maintenance quota 设备维修定额
; t o# E6 y7 |2 k. y7 M' [equipment service specification 设备维护规程
3 {+ p2 f* Z+ o2 D) A! m" b% wunit account of plant 设备台帐
# y4 i- e" a: K/ M+ uequipment perfectness norm 设备完好标准 2 q5 ?# G3 S* f
plant in good condition 设备完好 ' q0 Y2 B4 v; e# f, y
claims for equipment 设备索赔 0 |0 W& E a$ e/ u
specifications of usage 设备使用规程
7 ~! U& n' A, X7 xinformation feedback management in initial operation period of pl 设备使用初期信息反馈管理 # J- {, b* E% Y L" ?: r
management regulation for operation and service of equipment 设备使用与维护管理制度
. L, G1 u z! Rlife-cycle management of plant 设备全过程管理 7 B) ^2 d' V6 \: i8 y" ?
life of equipment 设备寿命 8 J+ `0 E+ H6 I$ K; `7 D/ K1 ]
lubrication management regulation of plant 设备润滑管理制度
# \2 d7 v' C& o4 |2 m7 e“five fixation” of lubrication 设备润滑“五定”
4 z$ A9 l, [, R/ E0 X9 c$ w) Laccident management regulation of plant 设备事故管理制度
* E1 {; q$ N/ I& k- e" athree do not let pass of plant accident 设备事故“三不放过” 5 a# b( X' r& s9 P
plant accident 设备事故
" B7 @; I- A4 dregion responsibility system of plant maintenance 设备区域维修负责制 6 M" ^1 W4 h' z
fore period and later period management of plant 设备前期管理和后期管理 - K2 T# _7 {7 ^, I5 A
regulation of fore period management of plant 设备前期管理规定
# y% N3 d# s3 p+ H f& x, Wwear compensation for plant 设备磨损补偿 9 o( C- x- L7 w: ~, I
plant ageing 设备老化
" d# N- V, N ^6 ]arithmetic mean 算术平均值(均值) " s# t' G4 I4 P# p1 t2 I- h4 m
coercionary service system 强制保养制
j( t/ ?. x$ Jeffect coefficient of investment 投资效果系数
9 h1 U1 L: }5 ^% [economic management system of plant 设备经济管理制度
: a1 `2 b5 j1 f7 T7 Q; qexcellence selection activity in plant management 设备管理评优活动
o: \' P4 {2 w: ?! l3 A% nPareto chart 排列图(帕累托图)
$ A c+ t8 k Z2 v9 |- Z$ G5 xload test 负荷试验
! A- b% q$ w1 m8 U$ I; ^ rbreakdown time 故障停机时间
; m1 h5 v) Q+ N9 I7 Vtechnological adaptability 工艺适应性 7 A8 U: b# y6 f( A$ N) {
supervision of engineering facilities 工程设备监理 + c! C3 j2 `7 y: g* _7 b2 {' i
management of proccess-control-point equipment 工序控制点设备管理
. ^. e# |5 i5 H: [5 fcontract change and cancellation 合同变更与解除
1 t: d8 }$ @7 J$ Pcombined maintenance 混合维修
5 I: b- n3 V* B5 e+ e6 {* Q3 Hregression analysis 回归分析 3 j) B# @4 z& i' S0 Q
interval between inspections 检查间隔期
8 M4 [' j N* p5 Z1 isocialization of maintenance 检修社会化 " Q: L2 h8 _' M1 m* `. X: K5 {; ]
centralized maintenance 集中维修
: x% r4 ]: l) V' P2 q" |. s7 Ttechnical advancement 技术先进性
9 x9 x y* d# I. c, gcombination of technical management and economic management 技术管理与经济管理相结合
' t5 R- u+ C6 \0 J( L" M7 `4 zcomputer-aided plant management 计算机辅助设备管理 ; _. k* \) c* {! t ?
P) planned preventive maintenance system 计划预修制度(ЛЛ ( G+ o: Y. E. r3 E5 n3 s( W
FOB of imported equipment 进口设备离岸价
1 }% N" |+ _, S3 Iimported equipment management 进口设备管理 7 E% g7 G/ K* _7 o. X3 x
CIF of imported equipment 进口设备到岸价
( x5 R3 U& c$ x- o yprecise,large scale,rare plant 精、大、稀设备
; Y) ]( O) A0 J" J4 G, J" c8 O, cmanagement of precise,large scale,rare equipment 精、大、稀设备管理
7 `& N3 t# S4 N# u# Y1 {3 _“five fixed” of precise,large scale,rare,critical equipme 精、大、稀、关键设备的“五定”
8 f0 ?2 L7 i% J: meconomy 经济性 - k& `+ B9 p( |
static test 静态试验 , e! w: d3 W( U. g6 l3 [
open-case inspection 开箱检查 1 v1 ^% J9 t5 _4 A5 j% }7 _
average deviation 平均偏差 3 c( o" B3 M' n# O7 h$ j
mean waiting time,MWT 平均等待时间
$ E- A5 y" L g$ W$ p% M5 z drepair cycle 修理周期 6 T( p$ H) m0 `2 y
structure of repair cycle 修理周期结构
* D$ p$ N b- h1 C% K0 l" \* O- ]7 {combination of repair, modernization and renewal 修理、改造与更新相结合
1 Q0 n+ v+ C, e$ L, t* B8 g5 z* Ucomplexity coefficient of repair 修理复杂系数
. Z2 ^* r( e( Z) m7 Y- ^4 C+ ztime between repairs 修理间隔期
7 p8 x; x/ J- u* t# b; |( Vleased equipment management system 租赁设备管理制度
+ S. A% [/ Z1 M$ w) ^1 o7 a. X0 }time value of fund 资金的时间价值
; M( ]0 S! w2 q: r2 {6 f/ Onatural accident 自然事故 7 U: \( L( e5 u% J. c8 m
self-made equipment 自制设备 ^& N, y. b* s+ X; Q( K
management system for selfmade equipment 自制设备管理制度
- i& k3 I* z6 }( j1 M9 eself-made spare parts management system 自制备件管理制度 . o$ M$ W c3 r) K
combination of professional management and mass management 专业管理与群众管理相结合
* w8 a$ S8 H) F/ V5 _transfer of facility 转让设备(设备调剂) ) {/ d3 U4 {6 A9 u, u
typical investigation 典型调查 , A. A `. e7 |; g! }; v* k" c
areal (departmental) repair center 地区(部门)修理中心 ' E; |( z! x; M8 a3 I
recovery ratio of used oil 废油回收率 6 Y4 t8 z) i2 k7 z- H ]
perfectness ratio of power plant 动力设备完好率 0 D+ w2 ~ R8 n! u1 A1 e; f
fulfillment ratio of periodic service 定期保养完成率 8 U' t. Y0 q' s* I2 m
mean downtime(days) due to overhaul 大修理平均停歇天数
' z7 z6 w1 k6 {$ @% w" r/ Kperfectness ratio of key-point equipments 重点设备完好率 , A+ c6 c* e. z+ Y5 t
qualification ratio under first acceptance check 一次交验合格率
. a, M W) w: z1 U. ^5 `availability of plant in use 在用设备可利用率 , n/ G( r% T7 Y. l
utilization ratio of installed equipments 已安装设备利用率
K" ^# l+ L9 X8 m1 n$ cannual profit ratio per 10000 yuan fixed assets 万元固定资产年创利润率 ' G5 x) P" x3 I: ~
maintenance expense for 1000 yuan production value 万元产值占用维修费用 8 `# i6 M% ~2 R' h$ P a( C/ p7 W
installation ratio of owned equipments 实有设备安装率 1 L3 V' {+ J% `# n0 R
comprehensive utilization ratio of plant 设备综合利用率 - U) t+ r1 M8 Z* k! X" w! z0 V
added value rate of plant assets 设备资产增值率
: A* U3 a3 L& h; U& e! j; Ncapital investment recovery period of plant 设备资产投资回收期
# A- p# C8 C& n* G- y( p# a' R2 B* Hnewness degree of plant 设备新度 1 p! |1 w4 ?0 A @
profit ratio vs net book value of plant 设备净资产创利润率
: J$ v3 h& z; i2 V/ P( |, a( xutilization ratio of planned time of plant 设备计划台时利用率 . b6 w6 x8 A2 h7 }0 R6 P
constitution ratio of plant 设备构成比 3 Z2 W# ~4 j% a6 w
load rate of plant 设备负荷率
# F8 _$ H) d, A) o; @! xback repair rate 设备返修率 4 R, ~. k8 e/ M/ X9 n% S+ r& S
utilization ratio of institutional time of plant 设备制度台时利用率 ; j( i5 b+ p I" B9 a* N" T1 ^ k
idelness ratio of plant 设备闲置率 . Q& J, n. n* U3 b. U
plant capital investment recovery ratio 设备投资回收报率
3 ^! W2 K" h. @7 I: ncapital investment recovery period of plant 设备投资产出比
: {& z5 ?/ g/ o+ B+ X# \perfectness ratio of plant 设备完好率 4 T; [8 m$ ^" \/ E: |
plant daily service fulfillment ratio 设备日常保养完成率
9 y9 T5 R; g; N! M) j% mincident frequency 设备事故频率
9 s t9 D) |$ gutilization ratio 设备利用率 & }" W Q/ J7 V5 y+ M
down time ratio to accident (failure) 事故[故障]停机率 7 b, y+ R5 A- V) ~8 l
fulfillment ratio of cleaning and oil change plan 清洗换油计划完成率
; s' n7 x, w9 _3 Q+ A, T/ z) Umean repair cost per complexity coefficient of repair 每个修理复杂系数平均大修理成本
; d& Y- h9 G9 O. ?maintenance expense per repair complexity coefficient 每个复杂系数占用维修费用
+ v' m$ M6 i/ k, x! {) Lindustrial increase value ratio per 10000 yuan fixed assets 每万元固定资产创工业增加值率 : O6 |- B. y+ W6 V* g
failure intensity 故障强度
. z2 R) W4 d7 c8 F8 \failure frequency 故障频率 - E' k6 Z; W; [) u% S( B. B
perfectness ratio of critical equipments 关键设备完好率
% w$ i5 h+ T: ^2 D7 d8 Hperfectness raito of precise,large scale and rare equipments 精大稀设备完好率 % U& X; E: a; y i# i; H
availability 可利用率(有效利用率)
8 I9 H5 }0 f# R) t2 O; omean down time,MDT 平均停机时间 - \- Y7 B/ y( h1 F
mean time between failture 平均故障间隔期,平均无故障工作时间
5 _* E1 C8 ~1 R' z( Pfulfillment ratio of repair plan 修理计划完成率 |
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