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2019年南布路文明施工组织设计.doc

Manipulator is now use d as a industrial robots in use, t he control obj ectives often appear often i n in dustrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mecha nical pr oce ssi ng, and other industries . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot t o get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr om oting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic contr ol technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big an d succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industria l PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipula tor development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s ch ool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 importa nce 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 m aterials 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
目录
第一章 编制说明.------------------------------------------ 1
第一节 编制依据.--------------------------------------------------- 1 第二节 适用范围和说明.--------------------------------------------- 1
第二章 工程概况. ------------------------------------------2
第三章 文明施工设计. --------------------------------------4
第一节 文明施工平面设计.------------------------------------------- 4 第二节 文明施工立面设计.------------------------------------------- 4
第四章 文明施工管理. -------------------------------------8
第一节 施工区管理.------------------------------------------------9 第二节 生活区管理. ------------------------------------------------10 第三节 食堂管理. --------------------------------------------------11 第四节 厕所管理. --------------------------------------------------11
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, howev er the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the soft ware writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n t hree way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of har dware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s be g un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
第一章 编制说明
第一节 编制依据
1、深圳市鹏之艺建筑设计有限公司设计的深圳市大工业区南布路二期 市政工程道路、污水排水、照明等专业设计图纸。 2、深圳市大工业区南布路二期市政工程招标文件。 3、广东省、深圳市建筑施工技术、质量安全文明方面的有关规定和要 求。 4、本工程的特点、施工现场环境、自然条件等。 5、本公司制定的有关管理制度。 6、我公司现有的文明管理方面经验资料。 7、国家有关施工噪音规定。
第二节 适用范围和说明
本施工方案适用于深圳市大工业区南布路二期市政工程内容,主要适 用本工程涉及的文明施工内容。 1、施工现场场外的文明施工内容; 2、施工现场场内的文明施工内容; 3、施工过程中的文明施工的落实及宣传、管理。
第二章 工程概况
(一)建设概况
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 is now use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industries . Es pecially at high or ve ry l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ng s great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . No w turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd ro bot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 ma ss production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or positio n 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 ar m 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
深圳市大工业区南布路二期市政工程位于龙岗坪山街道办附 近,黄果坜村南侧,连接黄果坜桥以及三洋湖工业区。 1、工程名称:深圳市大工业区南布路二期市政工程 2、建设单位:深圳市大工业区 3、设计单位:深圳市鹏之艺建筑设计有限公司 4、结构类型:市政道路 5、建筑规模:道路全长 585.59 米 6、震设防烈度:7 度 7、建筑类型:公共服务设施建设 8、施工范围:承包人施工范围(具体详施工总承包协议书)。
(二)工程概况 本工程是集道路、排水、照明于一体的道路修建、改造工程。整 个项目分三段,第一段为改造现状道路(起点坐标为 X=35290.768,Y=145377.201 , 终 点 坐 标 为 X=35661.540 , Y=145197.458 ) ; 第 二 段 道 路 ( 起 点 坐 标 为 X=35661.540 , Y=145197.456,终点坐标为 X=35731.207,Y=145170.601)和第三 段道路(起点坐标为 X=35894.198,Y=145166.989,终点坐标为 X=35797.718,Y=145165.018)为新建道路。
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and ( 3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In t erms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore micropr ocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invent ed t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively co ntrol is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control sy stem i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
第三章 文明施工设计
第一节 文明施工平面设计
本工程场地处于位于龙岗坪山街道办附近,黄果坜村南侧,连接 黄果坜桥以及三洋湖工业区,由于该工程位于居住区,工程施工对居 民的出行和生活有一定的影响。所以按上述施工平面我公司作综合考 虑,施工现场在文明施工方面作精心组织设计,创建本工程作“文明 施工工地”,在文明施工平面作以下部署: 1、内外出入口对污染土泥的车辆作快速清洗,防止车辆带泥上市政道 路。 2、场内施工场地全部硬地化,做到不积水、不积泥,具体要求见文明 施工立面设计。 3、场内施工区与宿舍区分区设置,做到安全、文明施工。 4、施工场地围墙的具体设置说明见立面设计。
第二节 文明施工立面设计
立面设计以简洁明快为原则,通过调整建筑施工形体和色彩搭配 关系,力求树立建筑施工文明的视觉形象,文明施工作以下部署: 一、围墙大门立体设计: 1、围墙采用 M5 水泥砂浆、75#红砖 18 厚砌筑,高为 2.4 米,间距 3 米设置砼附墙柱,柱断面为 300×300,高度同围墙,外面与砖墙面平, 内侧为附墙式,内外墙柱抹灰及粉刷防水油漆,围墙门口外侧为各单 位(即:建设单位、设计单位、监理单位、施工单位、质检单位、安
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 is now use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industries . Es pecially at high or ve ry l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ng s great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . No w turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd ro bot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 ma ss production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or positio n 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 ar m 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
监单位)的名称,作竖排粉刷喷于墙上,距离作适当的调整,剩余墙 段作安全、文明施工的宣传标语,字体要有艺术感,颜色为红色,字 体要工整、字距要统一,要配合建筑工程视觉形象,做到美观适当、 一目了然。 2、工地大门:采用钢板门,大门配小门一个,门扇材料采用方通钢钢 材焊接,外面用钢板材料封面,钢板门高度为 1.8 米,宽度为 10 米, 表面涂刷兰色防水油漆,上喷“深圳市福盈盛建筑工程有限公司”红 色字样,门头挂企业标牌,门柱临街拟镶金字,左门柱字为“科学管 理,文明施工”,右门柱为“安全第一,质量为本”字体为隶书。 二、门岗:大门口内侧设置铝合金门卫岗亭,门岗正面挂有门卫制度 牌,安全、文明保卫制度牌及门卫值班牌,对来访人员实行来访登记 制度。值班门卫统一穿着保卫制服,服装整洁,风纪端正,礼貌待人。 三、“一图五牌”的设置:大门入口内侧紧靠围墙明显处架设高于围 墙的“一图五牌”,即:“工程概况”牌、“组织网络”牌、“安全纪律”牌、“防 火须知”牌、“文明施工管理”牌和“施工现场平面布置图”。图面要求蓝 底白字铝边,字体为仿宋体,字体书写正确规范,工整美观,牌面经 常保持整洁完好。各标牌均专门定制。一图五牌内容如下:
(一)工程概况
工程名称:深圳市大工业区南布路二期市政工程 建设单位:深圳市大工业区 设计单位:深圳市鹏之艺建筑设计有限公司 监理单位:深圳市中侨物业监理有限公司
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and ( 3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In t erms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore micropr ocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invent ed t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively co ntrol is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control sy stem i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
开工日期:2009 年 6 月 2 日 施工许可证批准文号:深建施许字 施工单位:深圳市福盈盛建设工程有限公司 质监单位:深圳市工程质量监督站 安监单位:深圳市施工安全监督站 建筑规模:道路全长 585.59 米 工程总造价:160 万元 竣工日期:2009 年 11 月 24 日
(二)组织网络
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 is now use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industries . Es pecially at high or ve ry l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ng s great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . No w turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd ro bot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 ma ss production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or positio n 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 ar m 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
(三)安全纪律
1、进入现场必须戴好安全帽,系好帽带,并正确使用个人防护用品。 2、凡 2.0 米以上的悬空、高处作业无安全设施的必须系好安全带,扣 好保险带。 3、高处作业时不往下或向上乱抛材料和工具等物体。 4、各种电动机械设备,必须有漏电保护装置和可靠的安全接地方可使 用。 5、未经有关人员批准不准任意拆除安全设施的安全装置。 6、未经教育不得上岗,无证不得操作,非操作人员严禁进入危险区域。
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and ( 3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In t erms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore micropr ocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invent ed t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively co ntrol is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control sy stem i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
7、井字架吊篮、料斗不得乘人。 8、酒后不准上班操作。 9、穿拖鞋、高跟鞋、赤脚或赤膊不准进入施工现场。 10、穿硬底鞋不准进行登高作业。
(四)防火须知
1、不准在宿舍和施工现场明火燃烧杂物和废纸等,现场熬制沥青时应 有防火措施,并指定专人负责。 2、不准在宿舍、仓库、办公室内开小灶,不准使用电饭煲,电炉,如 需使用应由行政办公室指定统一地点,但严禁使用电炉。 3、不准在宿舍、办公室内乱抛烟头、火柴棒,不准躺在床上吸烟,吸 烟者应备烟缸,烟头和火柴必须丢入烟缸。 4、不准在宿舍、办公室内乱接电源,非专职电工不准乱接熔丝,不准 以其它金属代替保险丝。 5、宿舍内照明不准使用 60W 以上灯泡,灯泡离地高度不低于 2.5 米, 离开帐子等物品不少于 50 厘米。 6、不准将易燃品、易燃物带入宿舍。 7、食堂、炉灶、浴室烧火人员不准离开岗位,清理炉灶余灰,不准随 便乱倒。 8、不准将火种带入仓库和施工危险区域,木工间及木制品场地。 9、不准在施工区和公安局规定的禁区内燃放鞭炮和烟花。 10、电焊、气焊人员应严格执行操作规程,执行用火证制度,不准在 易燃易爆物品附近气焊。
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 is now use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industries . Es pecially at high or ve ry l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ng s great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . No w turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd ro bot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 ma ss production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or positio n 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 ar m 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
第四章 文明施工管理
一、文明施工总目标: 本工程文明施工总目标为“深圳市文明施工工地”。
二、指导思想: 由于本工程地处居民住宅区,为把对周围居民的生活、学习造
成的影响降低到最低程度,因此在施工中把文明施工管理将作为管理 工作的重点之一来抓。明确文明施工是一项综合性基础管理工作,是 施工现代化的一个重要标志,也是施工企业的一项综合性基础管理工 作。我公司希望通过抓好文明施工促进、带动和完善企业整体管理, 增强企业“内功”,提高整体素质,提高企业声誉。 三、组织机构:
本公司文明施工实行公司、项目部二级管理,各级均建立文明施 工领导小组和管理制度。公司文明施工领导小组由公司总经理、主管 生产副总经理、总工程师及安全监督部、工程技术部、资产管理部负 责人组成;总经理是公司文明施工管理第一责任人,主管生产副经理 是公司文明施工管理直接责任人,安全监督部是公司文明施工管理的 主要部门。项目部文明施工领导小组由项目经理、主管文明施工副经 理、项目总工程师、安全监督部长、安全员组成:项目经理为文明施 工第一责任人,主管文明施工项目副经理是项目文明施工的直接责任 人。现场文明施工实行分区管理和班组管理相结合。现场划分施工、 办公和生活三大责任区,各责任区再划分若干责任小区,各大小责任 区设专人负责。各作业班组的班组长对班组作业区的文明施工负责。
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and ( 3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In t erms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore micropr ocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invent ed t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively co ntrol is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control sy stem i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
第一节 施工区管理
(一)环境管理的责任区
1、为创造舒适的工作环境,养成良好的文明施工作风,保证职工身体 健康,施工区域和生活区应有明确划分,把施工区和生活区分成若干 片,分片包干,建立责任区,从道路交通、消防器材、材料堆放到垃 圾、厕所、厨房、宿舍、火炉、吸烟等都有专人负责,做到责任落实 到人(名单上墙),使文明施工、环境卫生工作保持经常化、制度化。
(二)环境管理措施
1、施工现场要天天打扫,保持整洁卫生,场地平整,各类物品堆放整 齐,道路平坦畅通,无堆放物、无散落物,做到无积水、无黑臭、无 垃圾,有排水措施。 2、施工现场严禁大小便,发现有随地大小便现象要对责任区负责人进 行处罚。施工区、生活区有明确划分,设置标志牌,标牌上注明责任 人姓名和管理范围。 3、卫生区的平面图应按比例绘制,并注明责任区编号和负责人姓名。
(三)环境定期检查记录
施工现场的嘈音要定期进行检测。发现问题,及时改正。
第二节 生活区管理
(一)宿舍管理规定
1、职工宿舍要有卫生管理制度,实行室长负责制,规定一周内每天卫 生值日名单并写于黑板上,做到天天有人打扫,保持室内窗明地净, 通风良好。
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 is now use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industries . Es pecially at high or ve ry l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ng s great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . No w turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid development of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd ro bot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiquitous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 ma ss production and us e on t he pr oduction line, whi ch is programmed roboti c arm. As the first generation of manipulat or positio n 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 ar m 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
2、宿舍内各类物品应堆放整齐,不到处乱放,做到整齐美观。 3、宿舍内保持清洁卫生,清扫出的垃圾倒在指定的垃圾站堆放,并及 时清理。 4、生活废水应有污水池,做到卫生区内无污水、无污物,废水不得乱 倒乱流。 5、未经许可一律禁止使用电炉及其他用电加热器具。
(二)办公室管理规定
1、办公室的卫生由办公室全体人员轮流值班,负责打扫,排出值班表。 2、值班人员负责打扫卫生、文具应摆放整齐,文明用语。 3、未经许可一律禁止使用电炉及其他电加热器具。
第三节 食堂管理
根据《食品卫生法》规定,依据食堂规模的大小,入伙人数的多 少,应当有相应的食品原料处理、加工、储存等场所及必要的上下水 道等卫生设施。要做到防尘、防蝇,与污染源应保持一定的距离。食 堂内外每天做到清洗打扫,并保持内外环境的整洁。用餐人员登记入 册,餐票用餐,做到不漏不欠不浪费,炊管人员注意个人卫生,要严 格执行《食堂卫生管理制度》。
第四节 厕所管理
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and ( 3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industrial automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In t erms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore micropr ocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invent ed t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively co ntrol is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control sy stem i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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 use d as a industrial robots in use, t he control obj ectives often appear often i n industrial a utomation. I ndustrial aut omation te chnol ogy has gradually matured, as mature a technology li ne ha s bee n rapi d devel opme nt in industrial automati on as a separate s ubj ect. Ma nipulator appli cation began t o filter into wel ding , logisti cs, mechanical pr oce ssi ng, and other industrie s . Es pecially at high or very l ow temperature s, full of pois onous gas es, hig h radiation ca se, robot in similar cir cumstances showed great use als o bri ngs great conveni ence to the staff. Precisely be cause of this robot to get people's attenti on began t o be a hig h degre e of devel opme nt. La bor rates, w orking conditions, la bor i ntensiv e aspects of pr omoting development. Bot h at home a nd a broa d to deve lop t he PLC (programmabl e logi c controller) is in vari ous special circumsta nce s and under s pe cial conditions set for mechani cal devi ces . Now turne d on the development of the mi croele ctronics a utomatic control technology a nd the rapid deve lopment of the trains, the succe ss of PLC hardware software and simulati on contr ol win big and succe ssful development, now conti nue s to develop as a factory a utomation standards. Beca use robots are g ood devel opme nt of the technology makes a good optimization of pr oductive ca pital, a nd robot s how s this uni que a dvantages, such as : has g ood compat ibilit y, wide availability, hardware is com plete, and programming t hat can be mastered in a s hort time, s o in the context of industrial PLC applicati ons be came ubiqui tous. Ma nipulator in ma ny devel ope d country agri cultur e and i ndustry ha s bee n applied, such a s the use of mechani cal harve sting large areas of farmland, repeate d operations on the hig h-spe ed line that us es a roboti c arm, and so on. Toda y, the high level of automation combined with re strictions on the ma nipulator development level is slightly low er than t he inter national. The desig n is mainly arm wel ding ma chi ne by PLC A utomation control. T his of design let desig ners on in s chool by learn of has a must of consol idation, understand has s ome usually didn't opport unities aw arene ss in w orld ra nge withi n some lea ding level of know ledge has ha s must aware ness, hope de signer s ca n in yihou of desig n in the can succes s of usi ng in t his de sign i n the pr ocee ds of experience 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 r obotic 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 envi ronment, but ca n still s ucces sfully complete like wel ding , painti ng, delivery as well a s for materials simple moveme nts. Se co nd 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
1、施工现场要按规定设置厕所,厕所的合理设置方案,厕所设置要离 食堂一定距离,屋顶墙壁要严密,门窗齐全有效,便槽内必须铺设瓷 砖。厕所要有专人管理,应有化粪池,严禁将粪便直接排入下水道或 河流沟渠中。 2、厕所定期清扫制度:厕所设专人天天冲洗打扫,做到无垃圾及明显 臭味,并应有洗手水源,市区工地厕所要有水冲设施保持厕所清洁卫 生。 3、厕所灭蝇措施:厕所按规定采取冲水或加盖措施,定期打药或撒白 灰粉
manipulat or control mode a nd programmable contr ollers i ntroducti on 2. 1 Sele ct dis cus sion with ma nipulator contr ol 2.1. 1 cla ssification of control r elays and di screte ele ctronic circuit can control ol d industri al equipme nt, but al so mor e common. M ainly the se two re latively cheap a nd you ca n me et the old -fashi one d, sim ple (or simpl e) industrial e qui pment. So he can s ee them now, however the se two control modes (relay and dis crete ele ctroni c cir cuits) are the se fatal flaws: (1) cannot a dapt to t he complex logi c control, (2) only for the current proje ct, the l ack of compati bility and (3) not reforming the system with e qui pment impr ovements . Spring for t he devel opme nt of China's m oder n industria l automati on technology t he s ubsta ntial increase i n the level of industrial a utomation, completed t he perfect relay of the computer too m uch. In terms of controlli ng the computer showe d his tw o great advantage s: (1) each of the har dware can be installe d on one or m ore microprocess ors; (2) the officia l desig ner of the software writi ng content contr ol is all a bout. Now in several ways i n the context of industrial automati on can ofte n be s een i n three way s: (1) Programmable Logica l Controller (referred to as I PC); (2) Distributed Contr ol System (DCS for short), and (3) the Programmabl e Logi cal Controll er (PLC for s hort). 2. 1.2 PLC a nd the IPC and DCS contrast contrast 1, e ach of the three te chnol ogies of origins a nd development re quireme nts for fast data proce ssi ng makes it invented t he compute r. The men br ought i n terms of hardware there, usi ng a high lev el of standardizati on, can use more compati bility tools, is a ri ch software resource s, es peci ally the need for immedia cy in operational systems. S o the computer ca n effectively control is used t o control and meet its s peed, on t he virtual model, real -time and in computationa l requir ements. Di stributed system started with a control system for industrial aut omatic instrument used t o control, w hereas now it is succe ssfully dev eloped int o industrial control computer use d as a ce ntral collect ion and di stribution system and tra nsition of distri bute d control system i n anal ogue handli ng, loop contr ol, ha s beg un to reflect t he us e of a hug e advantage. T hough distributed sy stem has great adva ntages in l oop reg ulation, but only as a means of continuous pr oce ss 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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