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PW-WI-OPR-002A-会议管理作业指引-20101002

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Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Industrial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of t his robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a sp ects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimization of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood com patibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designer s on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld r a nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back sever al ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

文件批核记录(修订发行与首次发行制订批准权限相同) 制订者: 麦丽敏 职位:总经办专员 日期:2010-9-2 审核者: 谢会新 职位:专案管理 日期:2010-9-18 批准者: 向贵生 职位: 总经理 日期:2010-9-30 发文 编号 DCC 印章

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文件修改记录 单号 N/A 版本 A 首次制订 修改描述 制订人 麦丽敏 批准人 向贵生 生效日期 10-09-30

1 目的
对公司各种会议准备、通知、召开、记录、跟踪等环节实施闭环管理,做到会议简洁、有效,提高工 作效率,避免会而不议、议而不决、决而不行。

2 适用范围
适用于本公司召开的各类会议,包括早会、公司及部门级例会、现场会议等管理与控制。

3 引用文件和资料
m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovements. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high leve l of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operatio nal systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he virtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o cont rol, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of conti nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programm able Logi cal Controller (that is

Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Indust rial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of this robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a spects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimizatio n of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood compatibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designers on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld ra nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back several ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

3.1 3.2

《内部沟通控制程序》 《记录控制程序》

4 术语和定义
4.1 无。

5

职责
5.1 5.2 各部门负责依本指引实施会议管理,包括会议准备、会议通知、跟进等管理; 会议主席:负责主持会议,并控制会议进度,审批会议记录;会议主席不能参加会议时,应授权 其它会议主持人员。 5.3 5.4 会议记录人员负责提出会议记录给主席审批,发放会议记录,跟催会议记录落实事项. 与会人员:按时与会,并遵守本制度。

6 作业指引内容
6.1 总则: 6.1.1 6.1.2 6.1.3 6.2 会议分定期会议和临时会议两种,其管理流程如附件所述。 人力资源部负责组织各职能部门制订《工作例会管理制度》 (如附录) ,作为工作例会召开的 依据,以实现工作例会惯例化,提高会议效率、确保会议效果。 为提高效率,所有会议确认及会议议定事项均需要在会议外提前进行,在会上只是报告结果 (只有跨部门的在会议上讨论, 并争取在会议前沟通协调到位) , 即带着结果来、 带着任务走。 工作例会管理:各职能部门负责按策划的时间和周期召开工作会议: 会议前的准备: 6.2.1.1 各部门应对部门工作例会制订相关管理制度,确定例会的与会时间、人员、议程、议题 并确定相关记录格式,以便所有与会者提前进行准备。 6.2.1.2 所有与会人员必须按规定的议题、 内容和格式准备相关资料和信息, 以便在会议上提报。 准备工作的充分、有效与否是直接决定会议效率的关键,各与会人员必须高度重视,避 免将报告会变成讨论会。 6.2.1.3 会议召开前 4 小时内,会议召集人或会议主席负责通知文员提前安排和确定会议室。 6.2.2 会议通知: 6.2.2.1 工作例会按规定的频度召开,并按 6.4 指定的会议记录者,至少于会前 30 分钟由会议 记录人员发出会议通知,提醒与会人员按时到会。 6.2.2.2 临时会议提前指定会议记录者,由会议记录者提前发出《会议通知/签到表》给各与会 人员回签,并跟催与会人员准时与会,会签《会议通知/签到表》并形成会议记录。 6.2.2.3 开会前 30 分钟,文员/会议记录员,需对会议室的桌椅、照明、电脑/投影仪、白板、水 性笔、板擦等设备完好性进行确认;并进行简单的清洁工作; 6.2.2.4 开会前 5 分钟,文员/会议记录员,需对会议室的桌椅、照明、电脑/投影仪、白板、水 性笔、板擦、空调等设备完好性进行确认,并进行简单的清洁工作。 6.2.3 召开会议: 6.2.3.1 会议开始前,与会人员需先在《会议签到表》上签字,主持人按规定的时间按时开始、 并控制会议进度,尽可能做到按时结束以提高会议效率。 6.2.3.2 上次会议跟踪:在正式发出会议通知前,会议记录人员必须负责上次会议跟踪落实情况
m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovement s. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high level of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operational systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he vi rtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o control, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of cont i nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programmable Logi cal Controller (that is

6.2.1

Manipulator is now used as a industrial robot s in use, the control objectives often appear often in industrial automati on. Industrial automation technol ogy has gradually matured, as mature a technol ogy line has be en rapid deve lopme nt in industrial automation as a separate subje ct. Mani pulator appli cation began to filter into welding, logistics, mechani cal processi ng, a nd other i ndustries . Es peci ally at hig h or v ery low temperatures , full of poi sonous gase s, hig h radiati on case , robot in similar circumstances s how ed great use a lso bring s great conve nience t o the staff. Precisely be caus e of thi s robot to get pe opl e's attenti on beg an to be a high degree of devel opme nt. Labor rates, working conditions, l abor i ntensive as pects of promoti ng devel opme nt. Both at home a nd a broad t o devel op t he PLC (programmabl e logi c controller) is i n various s pecia l circumstances a nd under special conditi ons set for mechani cal devi ces. Now turne d on the development of the microe le ctroni cs a utomatic contr ol technology and the rapid development of the trains, t he s uccess of PLC har dware s oftware and simul ation control wi n big a nd succe ssful development, now continues to devel op as a factory a utomation standards . Beca use robots are good development of the technology makes a g ood optimization of productive ca pit al, and robot s how s this uni que advantage s, such as: has good com patibi lity, wide availa bility, hardware is complete, and programming that can be mastered in a short tim e, so in the context of industrial PLC applicati ons became ubiquitous. Ma nipulator in many developed country agriculture and industry has be en applied, such as the use of mechani cal harvesti ng large areas of farmland, repeate d operations on the high -s peed li ne that use s a robotic arm, a nd so on. Today, the hig h level of a utomation com bine d with re strictions on the manipulator development level is slig htly lower t han t he inter national. The de sign is mai nly arm weldi ng machine by PLC A utomation control. T his of desig n let de signers on i n s chool by learn of ha s a must of consoli dation, understand ha s s ome usually didn't opportunities aw arene ss i n worl d rang e withi n s ome lea ding l evel of k nowle dge has has m ust aware ness , hope de signers ca n in yihou of des ign i n the ca n s uccess of using i n thi s design in t he pr oceeds of experi ence 1. 2 manipulator i n both at home and a broad of research profile automati on me cha nical arm resear ch began Yu 2 0th cent ury medi um -term, after years with with computer a nd a utomation te chnology of development, M akes mecha nical arm on the Grand stage of ind ustrial automati on a nd shi ne, gra dually be came an industrial evaluati on standar ds, a nd its importance ca n be s een. Now original robotic arm spent most of mass producti on and use on the producti on line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not ba ck several generations that can dete ct the external environme nt, but ca n still succe ssfully complete like welding, painti ng, delivery as well as for materials sim ple movements . Second ge neration mechani cal arms are equipped wit h sensors a nd mani pulat ors have the environment there i s a certain am ount of "sense", when the me cha nical arm is to use the program a s a basis. Difference is that t he robot

公司作业指引
begand

文件编号: PW-WI-OPR-002 版本: 页码 3 页数 10

标题:

会议管理作业指引

A

的检查,并在会议正式开始前 5 分钟内完成跟踪情况报告,并详细记录在前次会议记录 之“跟进结果”栏(不得以“OK”或“完成”等简单记录) 。 6.2.3.3 与会人员与会议记录者必须记录会议的主要内容,包括会议名称、召开时间、地点、参 加人员、主持人员、记录人员、主要议事内容、决定事项、决定事项的落实计划(包括 责任人、实施时间) 、执行情况记录(包括检查人员、检查结果、检查日期)等。 6.2.3.4 会议主持人员应控制会场纪律,确保会议效率,原则上要求做到按时进行,按时结束; 会议主持人需控制会议进度及每个人报告的时间,所有会议总时长应控制在 1 小时内, 超过一小时会议自行中断,下次再议(特殊情况例外) 。 6.2.3.5 会议结束后,会议记录人员需确保当天之内将《会议记录》以纸面或电子档的形式发给 会议主席,会议主席需对会议记录内容进行确认后方可会签、准予发放与会人员。 6.2.3.6 会议记录发放后,会议决议事项及其实施责任人,需按规定的完成时间组织会议决议的 落实事项,并随时确认落实进展。如因特殊情况会延误落实时,需口头向会议主持人提 出并修改会议记录之落实时间(需进行修改签名) 。 6.2.4 会议纪律: 6.2.4.1 准时与会:所有人员必须按规定时间至少提前 2 分钟到达会议现场,不得缺勤、迟到或 中途退场(经会议主席批准的情况除外) 。对于未经会议主席提前批准并许可的缺勤及 超过 15 分钟的迟到,每次向公司员工福利基金捐款 10 元/人/次。 6.2.4.2 所有与会人员迟到 15 分钟(含)以下者在会议室站立 5 分钟再坐下议事。 6.2.4.3 主持人须在会议前和相关人员拟定好会议议程等,不能毫无准备地召开例会。 6.2.4.4 集中精力开好会议,严禁在会议期间处理与会议无关的工作;所有参加例会的人员应将 手机设置在无声或振动状态下。 对于在会议期间处理与会议无关或扰乱会议正常秩序者 每人每次罚 10 元作为公司公用基金。保持 6.2.4.5 会场秩序,与会议无关人员严禁出入会场; 6.2.4.6 爱护公物,讲究卫生,保持安静。 6.2.4.7 会议结束后,各与会人员须自行将凳子归回原处,使用的设备关闭电源和归回原处,确 认是否有 U 盘等物遗留,最后离开者(原则上为会议记录人员)关灯关门、关空调; 6.2.4.8 各部门不得擅自挪用会议室办公设备及桌椅, 如果需要借用必须事先与制造部文员协商 6.2.5 会议跟进与落实: 6.2.5.1 各部门在收到会议记录后,应按规定的期限进行落实。落实的方法包括但不限于以下几 种形式:
m anipulat or control mode and pr ogrammable controll ers introduction 2.1 Sele ct di scussi on wit h manipulator contr ol 2.1 .1 cla ssification of control relay s and dis crete ele ctroni c cir cuit ca n control old i ndustrial equipme nt, but also mor e common. Mai nly the se two relatively chea p and you can mee t the old -fashi one d, simpl e (or simple) industrial equi pment. S o he can s ee them now, however thes e two control m ode s (relay and di screte ele ctronic circuit s) are these fatal flaws: (1) cannot ada pt to the compl ex logic contr ol, (2) only for the curre nt proje ct, the la ck of compati bility and (3) not reforming the system with e qui pment improveme nts. S pring for the development of China' s moder n industri al automati on technology the substantial i ncrea se in t he level of industria l automation, complete d the perfect relay of the computer too mu ch. In terms of controll ing the computer s howe d his two great adva ntages: (1) each of the har dware can be installe d on one or more micr opr oces sors ; (2) the official de signer of the software writi ng content control i s all about. Now i n several ways i n the c ontext of industria l automati on ca n often be see n in t hree ways: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 、 ” 大 一 点 重 两 “ 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logical Controller (referred to as I PC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logi cal Controll er (PLC for s hort). 2.1 .2 PLC a nd the IPC a nd D CS contrast contrast 1, ea ch of the three te chnologi es of origi ns and dev elopment requirements for fast data proce ssi ng makes it invented t he compute r. The me n br ought i n terms of hardw are there, using a high level of standar dizati on, can use more compati bility tools, is a ri ch s oftware resources , especially t he nee d for immediacy i n operational systems. So t he computer can effect ively contr ol is used t o control and meet its s peed, on t he virtual model, real -time and in computational re quireme nts. Di stributed system started wit h a control system for industrial automati c instr ument used to control, w hereas now it is s ucces sfully devel ope d into i ndustrial contr ol com puter used a s a central colle ct ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handling, loop control, has begun to reflect the us e of a huge a dvantage. T hough distributed system ha s great advantages i n loop reg ulation, but only a s a means of conti nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged , micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programm able Logi cal Controller (that is

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Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Indust rial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of this robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a spects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimizatio n of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood compatibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designers on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld ra nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back several ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

6.2.5.1.1 仅需将会议内容口头或以公告的形式传达给所有相关人员; 6.2.5.1.2 依《文件和资料控制程序》规定修订文件并执行文件传阅或指导 6.2.5.1.3 直接落实会议的决议事项,并跟进落实进度和结果。 6.2.5.1.4 其它会议记录中要求的落实方法 6.2.5.2 会议主持人应指定一名人员(原则上由会议记录者)对会议决议事项按计划落实情况进 行追踪确认,并将确认结果明确、清晰记录于会议记录追踪栏中,并记录追踪人、追踪 日期等详细信息,会议记录人需每周定期签字确认追踪结果。 6.2.5.3 原则上,会议记录的决议事项必须于下次会议召开前进行落实。 6.2.5.4 决议落实的时间超出当次会议周期的,由会议追踪人员记录在《长期工作任务跟踪表》 实施每周、每月进行持续跟踪,直至有证据表明完全落实为止。 (此表每周五由总经办 跟踪、责任会议记录人员定期更新发出一次,完成状态的绿色背景表示) 6.3 会议室管理

6.3.1 会议室使用 6.3.1.1 二楼大会议室主要用于公司行政会议、 全员培训、 接待重要来客来访、 其他重要活动等。 6.3.1.2 一楼小会议室主要用于面试、业务洽谈、工作沟通等活动。 6.3.2 为了避免公共会室使用冲突,开会、会见、面试应讲究效率,以免耽误其他安排。 6.3.3 会议室管理 6.3.3.1 人力资源负责公共会室的综合管理。 6.3.3.2 一楼小会议室及二楼大会议室人力资源负责使用管理, 各部门使用会议室可以提前向负 责人提出申请,也可在会议室外悬挂“会议室预定看板” ,至少提前 2 小时进行登记, 再由负责人协调安排。 6.3.3.3 当提出正式申请时,申请内容包括:使用部门、使用事由、使用时限、人员范围及人数 (如有高层或来客需注明) 、设施应用等。 6.4 定期会议(例会)管理规定

6.4.1 管理规则:各职能部门设定必需的定期召开的工作例会,各部门根据自身职能策划工作例会主 题,如经营月会,品质周会、CFT 周会、项目周会、生产例会、质量交流会,技术交流会等。 6.4.1.1 6.4.1.2 6.4.1.3 6.4.1.4 6.4.1.5 6.4.1.6 6.4.1.7 6.4.1.8 各部门根据日常管理决定例会频率和固定召开时间与地点。 各部门根据内部分工策划固定的会议内容和程序。 部门工作例会参与人员应是部门全体人员或骨干。 会议的准备:所有会议主持人和与会人员都应分别做好有关准备工作,包括但不限于: 前期工作汇报总结提纲、提案; 发言要点; 后期工作计划草案; 决议决定草案。

6.4.2 提高会议成效的要领 6.4.2.1 6.4.2.2 要严格遵守会议的开始时间 要在开头就议题的要旨做一番简洁的说明

m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovement s. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high level of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operational systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he vi rtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o control, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of cont i nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programmable Logi cal Controller (that is

Manipulator is now used as a industrial robot s in use, the control objectives often appear often in industrial automati on. Industrial automation technol ogy has gradually matured, as mature a technol ogy line has be en rapid deve lopme nt in industrial automation as a separate subje ct. Mani pulator appli cation began to filter into welding, logistics, mechani cal processi ng, a nd other i ndustries . Es peci ally at hig h or v ery low temperatures , full of poi sonous gase s, hig h radiati on case , robot in similar circumstances s how ed great use a lso bring s great conve nience t o the staff. Precisely be caus e of thi s robot to get pe opl e's attenti on beg an to be a high degree of devel opme nt. Labor rates, working conditions, l abor i ntensive as pects of promoti ng devel opme nt. Both at home a nd a broad t o devel op t he PLC (programmabl e logi c controller) is i n various s pecia l circumstances a nd under special conditi ons set for mechani cal devi ces. Now turne d on the development of the microe le ctroni cs a utomatic contr ol technology and the rapid development of the trains, t he s uccess of PLC har dware s oftware and simul ation control wi n big a nd succe ssful development, now continues to devel op as a factory a utomation standards . Beca use robots are good development of the technology makes a g ood optimization of productive ca pit al, and robot s how s this uni que advantage s, such as: has good com patibi lity, wide availa bility, hardware is complete, and programming that can be mastered in a short tim e, so in the context of industrial PLC applicati ons became ubiquitous. Ma nipulator in many developed country agriculture and industry has be en applied, such as the use of mechani cal harvesti ng large areas of farmland, repeate d operations on the high -s peed li ne that use s a robotic arm, a nd so on. Today, the hig h level of a utomation com bine d with re strictions on the manipulator development level is slig htly lower t han t he inter national. The de sign is mai nly arm weldi ng machine by PLC A utomation control. T his of desig n let de signers on i n s chool by learn of ha s a must of consoli dation, understand ha s s ome usually didn't opportunities aw arene ss i n worl d rang e withi n s ome lea ding l evel of k nowle dge has has m ust aware ness , hope de signers ca n in yihou of des ign i n the ca n s uccess of using i n thi s design in t he pr oceeds of experi ence 1. 2 manipulator i n both at home and a broad of research profile automati on me cha nical arm resear ch began Yu 2 0th cent ury medi um -term, after years with with computer a nd a utomation te chnology of development, M akes mecha nical arm on the Grand stage of ind ustrial automati on a nd shi ne, gra dually be came an industrial evaluati on standar ds, a nd its importance ca n be s een. Now original robotic arm spent most of mass producti on and use on the producti on line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not ba ck several generations that can dete ct the external environme nt, but ca n still succe ssfully complete like welding, painti ng, delivery as well as for materials sim ple movements . Second ge neration mechani cal arms are equipped wit h sensors a nd mani pulat ors have the environment there i s a certain am ount of "sense", when the me cha nical arm is to use the program a s a basis. Difference is that t he robot

公司作业指引
begand

文件编号: PW-WI-OPR-002 版本: 页码 5 页数 10

标题:

会议管理作业指引
6.4.2.3 6.4.2.4 6.4.2.5 6.4.2.6 要遵守例行的程序 应当引导在预定时间内做出结论

A

在必须延长会议时间时,应取得大家的同意,并决定延长的时间 应把决议付诸实行的程序理出,加以确认

6.4.3 会议禁忌事项 6.4.3.1 6.4.3.2 6.4.3.3 6.4.3.4 6.4.3.5 长篇大论滔滔不绝 自始至终一言不发 采用不正确的资料 打断他人的发言 中途离席

6.4.4 会议注意事项 6.4.4.1 所有与会人员必须提前做好会议准备,按时与会,不能按时与会时,需至少提前半小时 知会会议主持人) 。非特殊情况,不得迟到和缺席; 6.4.4.2 会议过程中,与会人员需做到要认真听取,并作好有关记录;开展脑力风暴,积极发表 自己对问题的看法和建议。 6.4.4.3 会议主持人员应控制会场纪律,确保会议效率,做到按时进行,按时结束;会议主持人 需控制会议进度,一般应将会议时间控制在半小时内,最好不要超过一小时。 6.4.4.4 会议记录由指定的人员(或代理记录人员) 、按指定的格式,详细记录会议要点,并按 规定的时间做成正式记录交会议主持人确认。 6.4.4.5 经会议主持人确认通过的会议记录,由会议记录人员实施会议追踪,记录追踪结果,并 于下次会议报告。 追踪过程中,若相关部门未实施、 未配合, 需及时向会议主持人报告。 6.5 职能部门内部例会管理规定: 6.5.1 各部门应根据工作需要不定期召开临时会议,原则上职能部门应保证每月 1-2 次,各生产车 间每周 1 次,由各部门主管(组长)主持,主要议题如下: 6.5.1.1 参会者提前到达会场并签到。 6.5.1.2 会议主持人传达公司指令,下达工作指标、提出工作要求。 6.5.1.3 根据本部门存在问题,强调有关工作程序、*嗉吐伞⒁侨菀潜怼⒐ぷ魈鹊取 6.5.1.4 部门异常情况研讨并就解决方案达成共识。

6.5.2 各部门(车间)例会应做书面记录,以备人资部及总经理核查。 6.5.3 各部门例会执行情况将列入对各部门主管(组长)绩效考评范畴。
m anipulat or control mode and pr ogrammable controll ers introduction 2.1 Sele ct di scussi on wit h manipulator contr ol 2.1 .1 cla ssification of control relay s and dis crete ele ctroni c cir cuit ca n control old i ndustrial equipme nt, but also mor e common. Mai nly the se two relatively chea p and you can mee t the old -fashi one d, simpl e (or simple) industrial equi pment. S o he can s ee them now, however thes e two control m ode s (relay and di screte ele ctronic circuit s) are these fatal flaws: (1) cannot ada pt to the compl ex logic contr ol, (2) only for the curre nt proje ct, the la ck of compati bility and (3) not reforming the system with e qui pment improveme nts. S pring for the development of China' s moder n industri al automati on technology the substantial i ncrea se in t he level of industria l automation, complete d the perfect relay of the computer too mu ch. In terms of controll ing the computer s howe d his two great adva ntages: (1) each of the har dware can be installe d on one or more micr opr oces sors ; (2) the official de signer of the software writi ng content control i s all about. Now i n several ways i n the c ontext of industria l automati on ca n often be see n in t hree ways: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 、 ” 大 一 点 重 两 “ 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logical Controller (referred to as I PC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logi cal Controll er (PLC for s hort). 2.1 .2 PLC a nd the IPC a nd D CS contrast contrast 1, ea ch of the three te chnologi es of origi ns and dev elopment requirements for fast data proce ssi ng makes it invented t he compute r. The me n br ought i n terms of hardw are there, using a high level of standar dizati on, can use more compati bility tools, is a ri ch s oftware resources , especially t he nee d for immediacy i n operational systems. So t he computer can effect ively contr ol is used t o control and meet its s peed, on t he virtual model, real -time and in computational re quireme nts. Di stributed system started wit h a control system for industrial automati c instr ument used to control, w hereas now it is s ucces sfully devel ope d into i ndustrial contr ol com puter used a s a central colle ct ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handling, loop control, has begun to reflect the us e of a huge a dvantage. T hough distributed system ha s great advantages i n loop reg ulation, but only a s a means of conti nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged , micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programm able Logi cal Controller (that is

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Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Indust rial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of this robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a spects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimizatio n of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood compatibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designers on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld ra nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back several ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

6.5.4 部门例会违纪处罚可参考以上公司行政例会处罚办法。 6.5.5 培训亦可参考以上处罚办法。 6.6 要素 会议频度 会议地点 会议主持 会议目的 输入资料 会议议程 二楼大会议室。 总经理或其授权人员。 总结部门上月经营业绩,特别关注财务、业务指标及管理 KPI 的实现情况。 各部门月报(需要结合 KPI 和部门瓶颈问题、改进重点) 。 各部门在会议前充分准备并确认好所有关联事项, 对于未达预定目标之 KPI 需要提前充分分析 原因并采取有效之改进措施,每个部门报告的时间不超过 10 分钟、总经办 10 分钟,整个会议 时间目标在 1 小时内、最长不超过 75 分钟(超过此时间自然停止) ,会议结束后总经办安排与 会人员就餐沟通。 ① 确认上月会议记录实施情况 ② 营销部报告上月工作达成情况及下月工作计划 ③ PMC 报告上月工作达成情况及下月工作计划 ④ 品控报告上月工作达成情况及下月工作计划 ⑤ 生产报告上月工作达成情况及下月工作计划 ⑥ 财务报告上月工作达成情况及下月工作计划 ⑦ 人力资源及行政报告上月工作达成情况及下月工作计划。 ⑧ 总经办总结发言及下月工作计划。 ⑨ 各部门必须统计的 KPI 见方针目标管理相关文件规定。 部门负责人(主管及以上人员) 总经办专员。 会议记录 员工大会(约束条件:仅在总人数 400 人以下主持召开) 规定 每月一次(经营会议后第一个周五早上 7:50-8:00,特殊情况临时调整,要求 10 分钟结束) 公司蓝球场 总经理或其授权人员。 总结公司经营业绩和*期主要工作方向,肯定成绩,激励全体人员。 临场发挥 1、上月公司主要经营业绩(肯定成绩、激励全员) ,上月主要存在的问题和希望改进的方向、 措施、重点。 2、下月的公司级主要工作及主要 KPI 指标,员工激励及相关内容 3、会议结束后有秩序散会 公司全员 总经办专员 通告 品质周会 每周三下午 3:00-4:00 60 分钟 60 分钟 CFT 周会 每周二下午 3:30-4:30 45 分钟 专案周会 每周六上午 10:00-11:45 公司级例会管理规定: 6.6.1 经营会议 规定 每月一次,次月 7 号下午 3:00-4:15(特殊情况临时调整)

参加人员 记录人员 记录 6.6.2 要素 会议频度 会议地点 会议主持 会议目的 输入资料 会议议程

参加人员 记录人员 会议记录 6.6.3 要素 会议时间

周会:分为品质周会和 CFT 周会、专案周会三种形式,召开时间可根据情况临时调整。

m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovement s. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high level of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operational systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he vi rtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o control, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of cont i nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programmable Logi cal Controller (that is

Manipulator is now used as a industrial robot s in use, the control objectives often appear often in industrial automati on. Industrial automation technol ogy has gradually matured, as mature a technol ogy line has be en rapid deve lopme nt in industrial automation as a separate subje ct. Mani pulator appli cation began to filter into welding, logistics, mechani cal processi ng, a nd other i ndustries . Es peci ally at hig h or v ery low temperatures , full of poi sonous gase s, hig h radiati on case , robot in similar circumstances s how ed great use a lso bring s great conve nience t o the staff. Precisely be caus e of thi s robot to get pe opl e's attenti on beg an to be a high degree of devel opme nt. Labor rates, working conditions, l abor i ntensive as pects of promoti ng devel opme nt. Both at home a nd a broad t o devel op t he PLC (programmabl e logi c controller) is i n various s pecia l circumstances a nd under special conditi ons set for mechani cal devi ces. Now turne d on the development of the microe le ctroni cs a utomatic contr ol technology and the rapid development of the trains, t he s uccess of PLC har dware s oftware and simul ation control wi n big a nd succe ssful development, now continues to devel op as a factory a utomation standards . Beca use robots are good development of the technology makes a g ood optimization of productive ca pit al, and robot s how s this uni que advantage s, such as: has good com patibi lity, wide availa bility, hardware is complete, and programming that can be mastered in a short tim e, so in the context of industrial PLC applicati ons became ubiquitous. Ma nipulator in many developed country agriculture and industry has be en applied, such as the use of mechani cal harvesti ng large areas of farmland, repeate d operations on the high -s peed li ne that use s a robotic arm, a nd so on. Today, the hig h level of a utomation com bine d with re strictions on the manipulator development level is slig htly lower t han t he inter national. The de sign is mai nly arm weldi ng machine by PLC A utomation control. T his of desig n let de signers on i n s chool by learn of ha s a must of consoli dation, understand ha s s ome usually didn't opportunities aw arene ss i n worl d rang e withi n s ome lea ding l evel of k nowle dge has has m ust aware ness , hope de signers ca n in yihou of des ign i n the ca n s uccess of using i n thi s design in t he pr oceeds of experi ence 1. 2 manipulator i n both at home and a broad of research profile automati on me cha nical arm resear ch began Yu 2 0th cent ury medi um -term, after years with with computer a nd a utomation te chnology of development, M akes mecha nical arm on the Grand stage of ind ustrial automati on a nd shi ne, gra dually be came an industrial evaluati on standar ds, a nd its importance ca n be s een. Now original robotic arm spent most of mass producti on and use on the producti on line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not ba ck several generations that can dete ct the external environme nt, but ca n still succe ssfully complete like welding, painti ng, delivery as well as for materials sim ple movements . Second ge neration mechani cal arms are equipped wit h sensors a nd mani pulat ors have the environment there i s a certain am ount of "sense", when the me cha nical arm is to use the program a s a basis. Difference is that t he robot

公司作业指引
begand

文件编号: PW-WI-OPR-002 版本: 页码 7 页数 10

标题:

会议管理作业指引
会议地点 会议主持 会议目的 输入资料 会议议程 二楼会议室 品质负责人或其授权人员 品质实绩确认、 问题检讨及下 周工作计划 品质周报 1、上周会议记录确认 2、本周品质实绩 3、下周工作目标/计划及重点 部门主管/工程师及以上人员 品质文员或其代理人 会议记录 二楼会议室 营销主管或其授权人员 客户需求实绩确认、 问题检讨 及下周计划 CFT 周报/客户需求跟进表 1、上周会议记录确认 2、本周 CFT 实绩 3、下周工作目标/计划及重点 部门负责人 总经办专员或其代理人 会议记录 规定 每天一次,于每天下午 14:00-15:00 进行(60 分钟内结束) 。 二楼会议室。 PMC 主管及 CFT 负责人轮流主持(每月轮流一次)

A
二楼会议室

专案负责人或其授权人员 项目管理进度、效果确认、问 题检讨及下周计划 项目计划及报告 1、上周会议记录确认 2、本周项目管理进度及实绩 3、下周工作目标/计划及重点 总经理/专案管理/专案成员 总经办专员或其代理人 会议记录

参加人员 记录人员 记录形式 6.6.4 要素 会议频度 会议地点 会议主持 会议目的 输入资料 会议议程 参加人员 记录人员 记录形式 要素

CFT 日例会。

确认前一天人员、设备及工装夹具、检具、主辅物料、作业及检验工艺、工作环境及质量、交 期、 新订单、 成本达成及异常情况, 同时确定第二天的生产计划、 加班安排 (精确到人和机台) 。 见以下规定 见以下规定 生产部(主管、经理)品质部(QE、QC 负责、负责人)PMC(主管)营销部(主管、CFT 负责人)技术主管、专案管理。 总经办专员或其代理人 CFT 日例会会议记录 议题及关注点 昨天会议记录落实情况(未落实纳入《长期工作任务跟踪表》) 当天主要辞职/自离人员(关注是否需要补充) 当天到职人员及岗位、人数 主要请假人员及协调(关注职务代理人及培训) 明天工作需协调人员(关注培训) *一周内可能新增人员需求 今日设备故障(关注现象/处理进度及结果/对产品的影响) 故障涉及产品处理情况 今天设备到位情况 明天生产设备是否满足协调情况(关注瓶颈工序设备) *一周内可能新增设备需求 研发 批量

每日生产例会的主要输入资料及议程: 部门 全体 生产 品质 技术 PMC 其它

人员

设备

PMC 生产

m anipulat or control mode and pr ogrammable controll ers introduction 2.1 Sele ct di scussi on wit h manipulator contr ol 2.1 .1 cla ssification of control relay s and dis crete ele ctroni c cir cuit ca n control old i ndustrial equipme nt, but also mor e common. Mai nly the se two relatively chea p and you can mee t the old -fashi one d, simpl e (or simple) industrial equi pment. S o he can s ee them now, however thes e two control m ode s (relay and di screte ele ctronic circuit s) are these fatal flaws: (1) cannot ada pt to the compl ex logic contr ol, (2) only for the curre nt proje ct, the la ck of compati bility and (3) not reforming the system with e qui pment improveme nts. S pring for the development of China' s moder n industri al automati on technology the substantial i ncrea se in t he level of industria l automation, complete d the perfect relay of the computer too mu ch. In terms of controll ing the computer s howe d his two great adva ntages: (1) each of the har dware can be installe d on one or more micr opr oces sors ; (2) the official de signer of the software writi ng content control i s all about. Now i n several ways i n the c ontext of industria l automati on ca n often be see n in t hree ways: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 、 ” 大 一 点 重 两 “ 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logical Controller (referred to as I PC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logi cal Controll er (PLC for s hort). 2.1 .2 PLC a nd the IPC a nd D CS contrast contrast 1, ea ch of the three te chnologi es of origi ns and dev elopment requirements for fast data proce ssi ng makes it invented t he compute r. The me n br ought i n terms of hardw are there, using a high level of standar dizati on, can use more compati bility tools, is a ri ch s oftware resources , especially t he nee d for immediacy i n operational systems. So t he computer can effect ively contr ol is used t o control and meet its s peed, on t he virtual model, real -time and in computational re quireme nts. Di stributed system started wit h a control system for industrial automati c instr ument used to control, w hereas now it is s ucces sfully devel ope d into i ndustrial contr ol com puter used a s a central colle ct ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handling, loop control, has begun to reflect the us e of a huge a dvantage. T hough distributed system ha s great advantages i n loop reg ulation, but only a s a means of conti nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged , micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programm able Logi cal Controller (that

is

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Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Indust rial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of this robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a spects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimizatio n of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood compatibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designers on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld ra nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back several ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

工装夹具的需求及协调(关注特殊工装夹具) 检具的需求及协调(关注特殊检具) 昨天、今天紧缺物料到位及协调处理情况 物料 PMC/ 生产 明天生产所需物料确认(关注瓶颈物料) *一周内紧急物料情况(关注未来需求) 外协安排计划及情况 技术 生产 品质 全体 今日生产工艺存在的问题及解决情况 明日生产机型工艺(包括生产及检验工艺,设备及工装夹具识别)情况 明日生产外协工艺情况 明日生产工艺培训计划 今天有无重大环境异常及处理(关注 5S/照明/粉尘/噪音/漏水等) 重大安全异常及处理 主要进料(含外协)检验异常及处理情况 质量 品质 生产 主要过程问题首检、巡查问题及在线、在库处理 主要出货检查(含外协进料)问题及处理情况 今天发生的主要客户投诉(含外单客户)及处理情况(包括库存处理) 其它品质要求及异常处理 加班、通宵计划(如有)安排及应对策略(包括人员协调及检验支持) 昨天计划、机台利用率达成情况、未达原因、影响交期与否及调配情况 生产 交货 计划 营销 CFT PMC 生产 明天计划、累计及资源瓶颈及影响交期与否、调配情况(人机料法环) *一周内急需解决的问题及建议 今天交货安排及达成、问题及解决 明天预定交货计划及问题 全月生产交货可能问题提出(助力销售额) 是否可如期交货,未达原因? 今天新接订单及订料情况 技术 其它 需要上下级、部门之间传达沟通事项(关注跨部门/纪律/体系建设等) 全体 EI 工程及其它指示传达 重大 ECN 变更和其它异常

工艺

环境

6.6.5 早、晚会: 6.6.5.1 所有早会必须在 5 分钟内结束, (需执行 5 分钟即时停止制度)防止早会时间过长造成员 工站多过久虚脱等情况发生。 6.6.5.2 早会组织人及其上级可随时听取早会,并听取早会效果,包括是否知晓早会内容、是否理 解早会内容、是否按规定落实和执行等。 ) 要素 会议时间 会议地点 会议主持 会议目的 输入资料 会议议程 班组班前早会(必须) 7:55-8:00 各车间及工作场所 班(组)长 总结昨日工作, 安排今天工作 无书面资料 1、 昨日质量及进度总结 2、 问题汇总及改进要求 3、 今天工作要求及注意点 4、 其它传达及沟通事项 集体早会(必须) 7:55-8:00 各车间及工作场所 班(组)长 总结上周工作, 安排本周工作 无书面资料 1、 上周质量及进度总结 2、 上周问题汇总/改进要求 3、 本周工作要求及注意点 4、 其它传达及沟通事项 晚会-交接班会(非必须) 下班后 5 分钟 各车间及工作场所 班(组)长 总结今日工作,安排夜班工作 无书面资料 1、 白班的质量及进度总结 2、 白班问题汇总/改进要求 3、 夜班工作要求及注意点 4、 其它传达及沟通事项

m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovement s. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high level of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operational systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he vi rtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o control, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of cont i nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programmable Logi cal Controller (that is

Manipulator is now used as a industrial robot s in use, the control objectives often appear often in industrial automati on. Industrial automation technol ogy has gradually matured, as mature a technol ogy line has be en rapid deve lopme nt in industrial automation as a separate subje ct. Mani pulator appli cation began to filter into welding, logistics, mechani cal processi ng, a nd other i ndustries . Es peci ally at hig h or v ery low temperatures , full of poi sonous gase s, hig h radiati on case , robot in similar circumstances s how ed great use a lso bring s great conve nience t o the staff. Precisely be caus e of thi s robot to get pe opl e's attenti on beg an to be a high degree of devel opme nt. Labor rates, working conditions, l abor i ntensive as pects of promoti ng devel opme nt. Both at home a nd a broad t o devel op t he PLC (programmabl e logi c controller) is i n various s pecia l circumstances a nd under special conditi ons set for mechani cal devi ces. Now turne d on the development of the microe le ctroni cs a utomatic contr ol technology and the rapid development of the trains, t he s uccess of PLC har dware s oftware and simul ation control wi n big a nd succe ssful development, now continues to devel op as a factory a utomation standards . Beca use robots are good development of the technology makes a g ood optimization of productive ca pit al, and robot s how s this uni que advantage s, such as: has good com patibi lity, wide availa bility, hardware is complete, and programming that can be mastered in a short tim e, so in the context of industrial PLC applicati ons became ubiquitous. Ma nipulator in many developed country agriculture and industry has be en applied, such as the use of mechani cal harvesti ng large areas of farmland, repeate d operations on the high -s peed li ne that use s a robotic arm, a nd so on. Today, the hig h level of a utomation com bine d with re strictions on the manipulator development level is slig htly lower t han t he inter national. The de sign is mai nly arm weldi ng machine by PLC A utomation control. T his of desig n let de signers on i n s chool by learn of ha s a must of consoli dation, understand ha s s ome usually didn't opportunities aw arene ss i n worl d rang e withi n s ome lea ding l evel of k nowle dge has has m ust aware ness , hope de signers ca n in yihou of des ign i n the ca n s uccess of using i n thi s design in t he pr oceeds of experi ence 1. 2 manipulator i n both at home and a broad of research profile automati on me cha nical arm resear ch began Yu 2 0th cent ury medi um -term, after years with with computer a nd a utomation te chnology of development, M akes mecha nical arm on the Grand stage of ind ustrial automati on a nd shi ne, gra dually be came an industrial evaluati on standar ds, a nd its importance ca n be s een. Now original robotic arm spent most of mass producti on and use on the producti on line, which is programmed robotic arm. As the first generation of manipulator position control systems main features, although not ba ck several generations that can dete ct the external environme nt, but ca n still succe ssfully complete like welding, painti ng, delivery as well as for materials sim ple movements . Second ge neration mechani cal arms are equipped wit h sensors a nd mani pulat ors have the environment there i s a certain am ount of "sense", when the me cha nical arm is to use the program a s a basis. Difference is that t he robot

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会议管理作业指引
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A

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6.7 特殊管理: 6.7.1 客户特殊要求:无 6.7.2 特殊管理流程:不适用 6.8 记录管理:依《记录控制程序》实施;

7 支持文件和记录
7.1 支持文件 No.
1 2

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文件名称
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文件等级
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当前版本

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7.2

支持记录 No.
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记录编号

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会议通知/签到表 长期工作任务跟进表 品质周例会会议记录 CFT 周例会会议记录 会议记录(通用/临时会议)

保管部门
人力资源 总经办 品控部 营销部 总经办

保存期限

索引方法

8

流程图
8.1 会议管理流程图
会议沟通策划 程序/方式/周期等 短期追踪会议记录 结束 长期任务跟踪 会议记录 召开会议 制定会议沟通规则 会前准备 会议签到

9 附件:其它会议相关规定
会议主持 会议频度 会议名称 会议形式 主要会议内容 参加人员

m anipulat or control mode and pr ogrammable controll ers introduction 2.1 Sele ct di scussi on wit h manipulator contr ol 2.1 .1 cla ssification of control relay s and dis crete ele ctroni c cir cuit ca n control old i ndustrial equipme nt, but also mor e common. Mai nly the se two relatively chea p and you can mee t the old -fashi one d, simpl e (or simple) industrial equi pment. S o he can s ee them now, however thes e two control m ode s (relay and di screte ele ctronic circuit s) are these fatal flaws: (1) cannot ada pt to the compl ex logic contr ol, (2) only for the curre nt proje ct, the la ck of compati bility and (3) not reforming the system with e qui pment improveme nts. S pring for the development of China' s moder n industri al automati on technology the substantial i ncrea se in t he level of industria l automation, complete d the perfect relay of the computer too mu ch. In terms of controll ing the computer s howe d his two great adva ntages: (1) each of the har dware can be installe d on one or more micr opr oces sors ; (2) the official de signer of the software writi ng content control i s all about. Now i n several ways i n the c ontext of industria l automati on ca n often be see n in t hree ways: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 、 ” 大 一 点 重 两 “ 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logical Controller (referred to as I PC); (2) Distributed Control System (DCS for short), and (3) the Programmable Logi cal Controll er (PLC for s hort). 2.1 .2 PLC a nd the IPC a nd D CS contrast contrast 1, ea ch of the three te chnologi es of origi ns and dev elopment requirements for fast data proce ssi ng makes it invented t he compute r. The me n br ought i n terms of hardw are there, using a high level of standar dizati on, can use more compati bility tools, is a ri ch s oftware resources , especially t he nee d for immediacy i n operational systems. So t he computer can effect ively contr ol is used t o control and meet its s peed, on t he virtual model, real -time and in computational re quireme nts. Di stributed system started wit h a control system for industrial automati c instr ument used to control, w hereas now it is s ucces sfully devel ope d into i ndustrial contr ol com puter used a s a central colle ct ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handling, loop control, has begun to reflect the us e of a huge a dvantage. T hough distributed system ha s great advantages i n loop reg ulation, but only a s a means of conti nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged , micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programm able Logi cal Controller (that

is

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Manipulator i s now used a s a industrial robots i n us e, the control obje ctives ofte n appear often in i ndustrial aut omation. Indust rial aut omation te chnol ogy has gradually mat ured, a s mature a te chnol ogy line has been rapid devel opme nt in i ndustrial aut omation a s a s eparate s ubje ct. M anipulator appli cation bega n to filter int o wel ding, l ogistics, mecha nical processi ng, a nd other i ndustries. E specially at high or very low tem peratures , full of pois onous gases, high ra diation cas e, robot in similar circumsta nce s s howe d great us e als o bri ngs great conve nience to t he staff. Preci sely beca use of this robot to get people's attenti on began t o be a high degree of devel opme nt. La bor rates, worki ng conditions, la bor i ntensive a spects of promoti ng devel opme nt. Both at home a nd abroa d to develop the PLC (programmabl e logi c controll er) is in vari ous spe cial circumsta nce s and under special conditions set for mechani cal devi ces . Now tur ned on t he dev elopment of the microel ectronics aut omatic control te chnol ogy and the rapid devel opme nt of the trains, the succe ss of PLC hardware s oftware and simulati on control wi n big a nd succes sful dev elopment, now continue s to develop as a factory a utomation standards. Beca use r obots are g ood devel opme nt of the technology makes a good optimizatio n of productive ca pital, and robot shows this unique a dvantages, such a s: has g ood compatibility, wi de avail abilit y, hardware i s complete, and programming t hat ca n be mastered in a s hort time, so i n the context of industrial PLC a ppli cations became ubi quit ous . Ma nipulator i n many developed country agri cult ure and industry has bee n a pplie d, s uch as t he use of mecha nica l harvesti ng large area s of farmland, repeate d operations on t he hig h-spe ed li ne that uses a roboti c arm, a nd so on. Today, t he high lev el of aut omation com bine d wit h restricti ons on the ma nipulator development lev el is slightly lower tha n the inter national. T he de sign i s mainly arm weldi ng machine by PLC A utomation contr ol. T his of desig n let designers on in school by learn of has a must of consoli dation, under stand has some us ually didn't opport unitie s awareness i n w orld ra nge withi n s ome lea ding lev el of knowle dge ha s ha s must aw arenes s, hope de signer s ca n in yihou of desig n in the can succe ss of usi ng in t his design in t he pr oce eds of experie nce 1.2 manipulat or in both at home and abr oad of resear ch profile aut omation me cha nica l arm research began Y u 20th cent ury medium -term, after years with with computer and automati on te chnology of development, M akes mechani cal arm on t he Grand stage of industri al automati on and s hine , gradually be came an i ndustrial evaluati on sta ndar ds, a nd its importance ca n be seen. Now origi nal robotic arm s pent most of mass production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or position control sy stems main features, alt hough not back several ge nerations that can detect the exter nal environment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se cond ge neration me cha nical arm s are equipped wit h se nsor s and ma nipulators have the e nvironme nt there is a cert ain amount of "sens e", whe n the mecha nical arm is to use the program as a basis . Difference i s that the robot begand

公司领导、 各 职能部门负 1 责人或其授 权人员

会议召开者认 为有必要通过 召开会议来解 决工作问题时 会议召开人员 临时工 作会议 口头会议 (临时)

就每项专题工作进行召开会议,了解有 关情况,进行原因分析和改进措施制订, 落实计划及落实安排等;

会议召集 人认为有 必要出席 的人员 生产 / 品控 / 技术/工程 部、采购需 抽席人员 供应链管 理小组全 体成员 工程/品质 部 / 技术 / 生 产代表 PMC、 品质 部、技术代 表 审核组成

项目负责人、 认为必要时, 特 2 品质经理或 其授权人员 别是重大质量 问题发生或客 户投诉发生时 采购部负责 3 人或其授权 人员 技术主管或 4 其授权人员 每季度下月第 一周

专题改善 会议

口头会议 (临时)

质量问题、确认情况、初步处理情况及 进展、原因分析、改进措施及改进计划 的制订与落实安排等

供应商管 理工作会

口头会议 (例会)

前期供应链工作计划落实情况总结,下 月供应链管理工作会议安排

灵活确定

结构工艺 评审会

口头会议 (临时)

新品转产或批量生产型号存在结构、工 艺问题及其改进措施、改进计划

生产经理或 5 其授权人

下月第一周

工时损失 检讨会

口头会议 (例会)

检讨生产停线造成的原则(含物料供应 不及与仪器、设备、工装夹具故障等)

6

审核组长

依审核计划实 施

内审首次/ 末次会议

口头会议 (临时)

员/受审核 依《内部审核控制程序》规定实施 部门负责 人、陪审人 员

人力资源部 7 负责人或其 授权人 依管理评审计 划实施 工作汇报会 管理评审 例会 每周/月 任何一天 员工沟通

口头会议 (临时)

就公司规章制度、质量目标、被调查者 对公司的一些意见和建议等,依《沟通 控制程序》实施

人力资源 部授权人 员、全体员 工 部门负责 人

8

总经理

口头会议 (例会) 口头会议 (例会)

依《管理评审控制程序》规定实施 汇报上周工作计划达成情况、异常、问 题及措施,目标完成情况等

9

下级/上级

m anipulat or control mode and pr ogrammable contr ollers i ntroducti on 2.1 Sel ect discus sion with ma nipulator control 2. 1.1 clas sification of contr ol relays a nd dis crete ele ctronic circuit ca n control old industrial equipme nt, but als o more common. M ainly t hese tw o relatively chea p a nd y ou can meet the ol d-fas hioned, simple (or simpl e) industrial e qui pment. So he ca n s ee them now, how ever thes e two control modes (relay and dis crete ele ctronic circuits) are the se fatal flaws: (1) ca nnot ada pt to t he complex l ogic control, (2) only for the current proje ct, the lack of compatibility and ( 3) not reforming t he system wit h e qui pment impr ovement s. Spring for the devel opment of China's modern i ndustrial a utomation technology t he s ubsta ntial increas e in t he level of industrial aut omation, com pleted t he perfect relay of the computer too much. I n terms of controlli ng the com put er showed his tw o great a dvantages: (1) each of the hardw are ca n be installed on one or mor e microprocess ors; (2) the official desig ner of t he s oftware writing content contr ol is all about. Now in several ways in t he context of i ndustrial a utomation ca n ofte n be see n in three way s: (1) 。 转 好 定 稳 势 形 产 生 安 域 领 行 个 动 推 降 下 继 量 总 保 故 事 上 以 较 制 遏 , 管 监 节 环 等 作 殊 特 和 区 地 ”、 大 一 点 重 “两 化 强 续 持 ; 任 责 体 主 业 企 实 落 面 全 Programmable Logi cal Controll er (referred to as I PC); (2) Distri bute d Control System (DCS for short), and (3) the Pr ogrammable Logical Controller (PLC for short). 2.1. 2 PLC a nd the IPC a nd D CS contrast contrast 1 , each of t he three te chnol ogies of origi ns a nd development re quireme nts for fast da ta proce ssi ng makes it inve nted the compute r. T he men brought in terms of har dware there, using a high level of sta ndar dization, can use mor e compatibility tool s, is a rich software re sources, especially t he need for imme diacy i n operational systems . So t he computer ca n effectively control i s used to control a nd meet its speed, on t he vi rtua l model, real -time and in computational requirement s. Distri bute d system started with a control system for i ndustrial a utomatic i nstrume nt used t o control, wherea s now it is succe ssfully developed into i ndustrial control computer use d as a ce ntra l colle ction and di stribution system and transition of distr ibute d control system in anal ogue handli ng, loop control, has begun to refle ct the use of a huge adva ntage. Thoug h di stributed system has great a dvantages i n loop r egulation, but only a s a means of cont i nuous process control. Optimization of PLC is the corre sponding relay needs w as born, its mai n us e in the w ork or der control, early primary is repla ced relay t his hulking sy stem, focused on the switch controlli ng the runni ng or der of functions. Marke d by the micr opr oce ssor i n the early 19 70 of the 20t h ce ntury emerged, micro-el ectronics technology ha s devel ope d rapi dly, people s oon microe lectronics proces sing te chnology w ill be use d in the Programmable Logi cal Controller (that is




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