喜歡這套資料就充值下載吧。。。資源目錄里展示的都可在線預覽哦。。。下載后都有,,請放心下載,,文件全都包含在內(nèi),,【有疑問咨詢QQ:1064457796 或 1304139763】
===========================================喜歡這套資料就充值下載吧。。。資源目錄里展示的都可在線預覽哦。。。下載后都有,,請放心下載,,文件全都包含在內(nèi),,【有疑問咨詢QQ:1064457796 或 1304139763】
===========================================
徐州工程學院
畢業(yè)設計(論文)任務書
機電工程 學院 機械設計制造及其自動化 專業(yè)
設計(論文)題目 電梯曳引機與控制系統(tǒng)設計
學 生 姓 名 黃 九
班 級 04機本4
起 止 日 期 2月25—— 6月2號
指 導 教 師 李 志
教研室主任 李 志
發(fā)任務書日期 2008 年 2 月 25 日
1.畢業(yè)設計的背景:
針對即將畢業(yè)走進社會的四年學習做一次檢驗。本課題主要是針對電氣
控制,機械加工,機械設計方面做了詳細的檢驗。滿足了對機械設計制造
及其自動化專業(yè)的學習內(nèi)容的檢測。通過本次設計,讓我們對以后的設計
有了直觀的認識,為以后的工作打下了基礎。設計的內(nèi)容具體是關于四層
客乘電梯的設計和運做。
2.畢業(yè)設計(論文)的內(nèi)容和要求:
畢業(yè)設計內(nèi)容應中心突出,內(nèi)容充實,論據(jù)充分,論證有力,數(shù)據(jù)可靠
結構層次分明,圖表清晰,格式規(guī)范,文字流暢,字跡工整,結論正確。
論文中的圖或表要給予解釋,統(tǒng)一標上編號和圖題。安排于相應位置。若
同類圖表數(shù)量過多,可作為附錄列于論文后面。凡手繪圖形一律用碳素筆
在硫酸紙或復印紙上眷描,并標上圖號,圖題,然后貼附于論文適當位置
或附錄中,要求圖面整潔,比例適當。
3.主要參考文獻:
[1]唐金松 《簡明機械設手冊》 上??茖W技術出版社
[2]邱宣懷 《機械設計》 高等教育出版社
[3]單輝祖 《材料力學》 國防工業(yè)出版社
[4]李益明 《機械制造工藝設計簡明手冊》 機械工業(yè)出版社
[5]楊黎明 《零件設計手冊》 國防工業(yè)出版社
4.畢業(yè)設計(論文)進度計劃(以周為單位):
起 止 日 期
工 作 內(nèi) 容
備 注
第1,2周
第3,4周
第5,6周
第7,8周
第9,10周
第11,12周
第13,14周
第15,16周
進行相關調(diào)研,了解產(chǎn)品,確定設計方案。
根據(jù)方案和要求進行有關計算,確定主要部件尺寸。
繪制電梯系統(tǒng)圖及曳引機總裝圖。
根據(jù)設計的曳引機總裝圖,繪制知道老師指定的零件圖。
編制該零件的加工工藝規(guī)程并繪制加工工藝卡片
進行控制部分的設計,繪制電氣接線圖及PLC程序圖。
對程序圖做深入研究,寫出程序的運做梯形圖。
編寫設計說明書,準備答辯。
教研室審查意見:
室主任
年 月 日
學院審查意見:
教學院長
年 月 日
徐州工程學院
畢業(yè)設計(論文)開題報告
課 題 名 稱: 電梯曳引機與控制系統(tǒng)設計
學 生 姓 名: 黃 九 學號: 20040601423
指 導 教 師: 李 志 職稱:
所 在 學 院: 機電工程學院
專 業(yè) 名 稱: 機械設計制造及其自動化
徐州工程學院
2008 年 03月 02日
說 明
1.根據(jù)《徐州工程學院畢業(yè)設計(論文)管理規(guī)定》,學生必須撰寫《畢業(yè)設計(論文)開題報告》,由指導教師簽署意見、教研室審查,學院教學院長批準后實施。
2.開題報告是畢業(yè)設計(論文)答辯委員會對學生答辯資格審查的依據(jù)材料之一。學生應當在畢業(yè)設計(論文)工作前期內(nèi)完成,開題報告不合格者不得參加答辯。
3.畢業(yè)設計開題報告各項內(nèi)容要實事求是,逐條認真填寫。其中的文字表達要明確、嚴謹,語言通順,外來語要同時用原文和中文表達。第一次出現(xiàn)縮寫詞,須注出全稱。
4.本報告中,由學生本人撰寫的對課題和研究工作的分析及描述,沒有經(jīng)過整理歸納,缺乏個人見解僅僅從網(wǎng)上下載材料拼湊而成的開題報告按不合格論。
5. 課題類型填:工程設計類;理論研究類;應用(實驗)研究類;軟件設計類;其它。
6、課題來源填:教師科研;社會生產(chǎn)實踐;教學;其它
課題
名稱
電梯曳引機與控制系統(tǒng)設計
課題來源
社會生產(chǎn)實踐
課題類型
工程設計類
選題的背景及意義
針對即將畢業(yè)走進社會的四年學習做一次檢驗。本課題主要是針對電氣控制,機械加工,機械設計方面做了詳細的檢驗。滿足了對機械設計制造及其自動化專業(yè)的學習內(nèi)容的檢測。通過本次設計,讓我們對以后的設計有了直觀的認識,為以后的工作打下了基礎。設計的內(nèi)容具體是關于四層客乘電梯的設計和運做。
研究內(nèi)容擬解決的主要問題
電梯曳引機的選擇,包括電機的選擇,聯(lián)軸器的選擇,減速器的選擇。
曳引機的設計重點是減速器的選擇和箱體零件的設計和加工。減速器選擇的是蝸桿減速器,軸承是調(diào)心滾子軸承,聯(lián)軸器選擇的是彈性柱銷聯(lián)軸器。PLC控制程序設計是考慮到電梯的上升和下降邏輯,以及樓層顯示,運作時的加速和減速。
研究方法技術路線
本課題主要采用以下研究方法及技術路線:
1、 認識研究對象。這包括:了解電梯的過去、現(xiàn)在及將來,從歷史角度對其發(fā)展有一定的認識;了解壓電梯主要有那些著名的生產(chǎn)廠家及其所生產(chǎn)的產(chǎn)品型號,與自己所選課題進行分析比較,在感性上對其有一大概的認識。
2、 查閱優(yōu)秀本科、研究生相關課題論文,汲取成功論文寫作的研究方法與所采用的技術路線,進行消化吸收。
3、 要明確研究內(nèi)容及設計要求。首先弄清電梯曳引機裝置的結構組成及工作原理,并對其作運動學分析,對曳引機的運動特性定性、定量分析計算。
4、 在運動學分析基礎上,認識到了曳引機的工作特性,我們就可以根據(jù)設計說明書上的已知條件及曳引機的設計要求和各機構進行參數(shù)進行參數(shù)計算。
研究的總體安排和進度計劃
本論文計劃共用16周的時間來完成。分為以下幾個階段:
1、中英文翻譯。(一周)
2、課題工作計劃的制定和資料的搜集。包括各階段所用時間、工作進度、最初的說明書,和與該課題相關的資料的收集。(兩周)
3、曳引機的方案確定。(一周)
4、曳引機的運動學分析。(兩周)
5、曳引機參數(shù)的確定。 (兩周)
6、主參數(shù)的分析計算。(兩周)
7、控制部分的程序設計。(一周)
8、繪零件圖、裝配圖。(一周)
9、對圖中出現(xiàn)的錯誤進行修改。 (一周)
10、編寫設計說明書。(兩周)
11、準備答辯。(一周)
主要參考
文獻
[1]唐金松 《簡明機械設手冊》 上??茖W技術出版社
[2]邱宣懷 《機械設計》 高等教育出版社
[3]單輝祖 《材料力學》 國防工業(yè)出版社
[4]李益明 《機械制造工藝設計簡明手冊》 機械工業(yè)出版社
[5]楊黎明 《零件設計手冊》 國防工業(yè)出版社
[6]孟少農(nóng) 《機械加工工藝手冊》 機械工業(yè)出版社
[7] 《機械工程標準手冊》 中國標準出版社
[8]劉家仁 《機械設計師手冊》 機械工業(yè)出版社
[9]謝鐵邦 《互換性與技術測量》 華中科技大學出版社
[10] 《起重機設計手冊》 機械工業(yè)出版社
[11]齊治國 《建筑卷揚機設計》 機械工業(yè)出版社
[12]李秧耕 《電梯基本原理及安裝維修全書》 機械工業(yè)出版社
[13]胡漢才 《單片機原理及其接口技術》 清華大學出版社
[14] 《電梯安全技術》 上海市紡織工業(yè)出版社
[15]GB7588-1995 《電梯制造與安裝安全規(guī)范》
指導教師
意 見
指導教師簽名:
年 月 日
教研室意見
學院意見
教研室主任簽名:
年 月 日
教學院長簽名:
年 月 日
徐州工程學院08屆本科畢業(yè)論文
摘 要
本次設計是以三菱FX2n為核心的電梯控制系統(tǒng)的硬件組成及軟件設計,采用PLC來控制轎箱提升電機的起、停和正、反轉(zhuǎn)。這里主要是對電梯曳引機的參數(shù)進行設計、計算、(包括電動機、減速器、軸、軸承、聯(lián)軸器、制動器)以及工藝的編排和相關圖形的繪制,另外對PLC控制系統(tǒng)的設計,主要是PLC控制電路圖、程序流程圖以及PLC編程。
其中對曳引機的設計重點是減速器的選擇和箱體零件的設計和加工。減速器選擇的是蝸桿減速器,軸承是調(diào)心滾子軸承,聯(lián)軸器選擇的是彈性柱銷聯(lián)軸器。PLC控制程序設計是考慮到電梯的上升和下降邏輯,以及樓層顯示,運作時的加速和減速。
現(xiàn)在電梯都采用傳統(tǒng)的繼電器群的控制方法,由于所用的繼電器較多,控制柜體積龐大,控制系統(tǒng)成本高,而且眾多繼電器的動作會產(chǎn)生較大的噪音,污染環(huán)境。采用PLC配合接口進行控制,可將傳統(tǒng)的繼電器控制邏輯變?yōu)橛嬎銠C程序控制邏輯,去掉所有用于邏輯控制的中間繼電器,使電梯系統(tǒng)的成本和噪音大大降低,控制柜的體積也可大大縮小。
關鍵詞:PLC ;曳引機 ;電動機 ;減速器 ;聯(lián)軸器 ;制動器
Abstract
This design is take FX2n as the core elevator control system hardware composition and the software design, uses the PLC integrated circuit to control the sedan box to promote the electrical machinery, to stop with, the reverse. Here mainly is carries on the design, the computation to the elevator tractor parameter, (including electric motor, reduction gear, axis, bearing, shaft coupling, brake) as well as the craft arrangement and the correlation graph plan, moreover to the PLC integrated circuit control system design, mainly is the PLC integrated circuit control circuit diagram, the program flow diagram as well as the PLC integrated circuit programming.
The most important of this design is changed huge parts of contents. The new version increases plenty of new technical contents and new calculation method.PLC integrated circuit control system design. Besides a few parts are changed according to the Chinse lift situations, this revised version is basically compliant
Now the elevator all uses the method of traditional the relay group control, because of many relay have been used, control the cabinet volume huge, the cost of control system is high, most of the multitudinous relay movement have the big noise, the pollution environment. Uses the PLC integrated circuit coordination connection to carry on the control, may become the traditional black-white control logic the computer program control logic, removes all uses in the logical control intermediate relay, causes the cost of the elevator system and the noise reduces greatly, controls the cabinet the volume also to be possible to reduce greatly.
Key words:PLC integrated circuit;Tractor;Electricmotor;Reduction gear;Shaft coupling;Brake
目錄
1緒論……………………………………………………………………………………………1
1.1電梯的起源…………………………………………………………………………………1
1.2電梯的種類…………………………………………………………………………………1
1.2.1按用途分類………………………………………………………………………………1
1.2.2按速度分類………………………………………………………………………………2
1.2.3按拖動電動機類型分類…………………………………………………………………2
1.2.4按驅(qū)動方式分類…………………………………………………………………………2
1.2.5按控制方式分類…………………………………………………………………………3
1.3電梯主要組成及結構……………………………………………………………………3
1.3.1曳引機構的組成…………………………………………………………………………4
1.3.2曳引機構的減速器………………………………………………………………………5
2有關參數(shù)的計算………………………………………………………………………………7
2.1曳引機的確定……………………………………………………………………………7
2.1.1選擇曳引機………………………………………………………………………………8
2.1.2曳引機容量的計算………………………………………………………………………8
2.1.3曳引力計算………………………………………………………………………………8
2.2減速器設計…………………………………………………………………………………9
2.2.1常用減速器的型式及其應用……………………………………………………………9
2.2.2減速器的基本構造……………………………………………………………………10
2.2.3蝸桿減速器設計………………………………………………………………………12
2.3軸的設計與計算…………………………………………………………………………16
2.3.1軸的分類………………………………………………………………………………16
2.3.2軸的常用材料…………………………………………………………………………16
2.3.3軸的結構設計…………………………………………………………………………16
2.3.4軸的強度計算…………………………………………………………………………16
2.4軸承的設計與計算………………………………………………………………………20
2.5聯(lián)軸器的設計與計算……………………………………………………………………22
2.5.1聯(lián)軸器選擇應考慮的問題 ………………… ………………………………………22
2.5.2聯(lián)軸器的理論轉(zhuǎn)矩……………………………………………………………………22
2.5.3主要尺寸計算…………………………………………………………………………23
2.6制動器的設計與計算……………………………………………………………………23
2.7工藝………………………………………………………………………………………24
2.7.1零件的分析……………………………………………………………………………24
2.7.2工藝規(guī)程設計…………………………………………………………………………26
3 PLC 電梯控制系統(tǒng)的設計………………………………………………………………29
3.1 PLC 系統(tǒng)概述…………………………………………………………………………29
3.1.1 PLC 的定義………………………………………………………………………29
3.1.2 PLC 的特點…………………………………………………………………………30
3.1.3PLC 與繼電器控制系統(tǒng)的比較………………………………………………………32
3.1.4 PLC 的基本結構………………………………………………………………………33
3.1.5 PLC 的工作原理………………………………………………………………………35
3.2 PLC 控制系統(tǒng)的設計分析………………………………………………………………37
3.2.1 PLC 控制系統(tǒng)的設計基本原則………………………………………………………37
3.2.2PLC 控制系統(tǒng)的設計的主要內(nèi)容……………………………………………………38
3.2.3.PLC 控制系統(tǒng)程序設計的步驟……………………………………………………39
3.3 電梯PLC控制系統(tǒng)的設計……………………………………………………………40
3.3.1電梯的運行過程…………………………………………………………………40
3.3.2選擇 PLC…………………………………………………………………………41
3.3.3PLC 規(guī)模的估算……………………………………………………………………42
3.3.4PLC 輸入輸出模塊的選擇……………………………………………………………43
3.3.5PLC 的選擇……………………………………………………………………………44
4結論……………………………………………………………………………………………46
5參考文獻………………………………………………………………………………………47
6翻譯……………………………………………………………………………………………48
6.1外文資料……………………………………………………………………………………48
6.2譯文………………………………………………………………………………………54
7致謝…………………………………………………………………………………………59
4
徐州工程學院08屆本科畢業(yè)論文
6.翻譯:
6.1外文資料
Plc Introduction Programmable controller is the first in the late 1960s in the United States, then called Plc programmable logic.controller .(ProgrammableLogicController) is used to replace relays. For the implementation of the logical judgement, timing, sequence number, and other control functions. The concept is presented Plc General Motors Corporation. Plc and the basic design is the computer functional improvements, flexible, generic and other advantages and relay control system simple and easy to operate, such as the advantages of cheap prices combined controller hardware is standard and overall. According to the practical application of target software in order to control the content of the user procedures memory controller, the controller and connecting the accused convenient target.
In the mid-1970s, the Plc has been widely used as a central processing unit microprocessor, import export module and the external circuits are used, large-scale integrated circuits even when the Plc is no longer the only logical (IC) judgement functions also have data processing, PID conditioning and data communications functions. International Electrotechnical Commission (IEC) standards promulgated programmable controller for programmable controller draft made the following definition :
programmable controller is a digital electronic computers operating system, specifically for applications in the industrial design environment. It used programmable memory, used to implement logic in their internal storage operations, sequence control, timing, counting and arithmetic operations, such as operating instructions, and through digital and analog input and output, the control of various types of machinery or production processes.
Programmable controller and related peripherals, and industrial control systems easily linked to form a whole, to expand its functional design. Programmable controller for the user, is a non-contact equipment, the procedures can be changed to change production processes. The programmable controller has become a powerful tool for factory automation, widely popular replication. Programmable controller is user-oriented industries dedicated control computer, with many distinctive features.
First, high reliability, anti-interference capability;
Second programming visual, simple;
Third, adaptability good;
Fourth functional improvements, strong functional interface
1. Subject content and application scope
This national standard specifies the technical requirements and quality requirements for the lift traction machines with rated speed less than 25m/s.
This national standard is applicable to traction machines designed for passenger lift, sickbed lift and freight lift. It's inapplicable to the traction machines designed for dumbwaiter lift and all kinds of lifts with rated speed not less than 2.5m/s. The other traction machines designed for all kinds of lifts with rated speed not less than 2.5m/s can make reference from this national standard for enforcement. ?
2. Normative references?
GB 3768 Determination of sound power levels of noise - Simple method
GB 7025 Major parameter of lift, version and dimension of car, shaft and machine room
GB 7588 Safety Rules for the Construction and Installation of Lifts
GB 10058 Specifications for lifts
GB 10085 Basic parameters of single enveloping worm gear
GB 10089 Cylindrical worm, worm wheel accuracy
GB 12974 General Technical Specifications for AC Lift Motor
GB 11368 Cleanliness of gear assembly
GB 191 Packaging - Pictorial markings for handling of goods?
3.Terminology?
Rated speed of traction machine
It's the linear speed of the pitch diameter of traction wheel, corresponding to the rated speed of car. ?
Rated load of traction machine?
When the traction ratio is 1:1 and the balance coefficient is 0.40, it means the rated load of the car in the tangential traction of the traction wheel.
National Standard of the People’s Republic of China
?GBT 10058-1997
?Specifications for Lifts
?Foreword
?The national standard is the amendment to the original Specifications for Lifts GB 10058-88, main content of which are as the following:
?1) In chapter “ whole performance”, the regulations of classification are canceled, which include acceleration and redarded speed of vertical vibration, acceleration and redarded speed of horizontal vibration, as well as indicators of noise and leveling accuracy.
2) For improving operation efficiency of the lifts, the requirements to open time and close time of passenger lifts are added in the national standard.
3) In chapter “reliability”, the regulation of classification of reliability indicator is canceled; examining requests to control cabinet which is considered as commodity component are added in the national standard.
4) In Appendix A, specific regulations are made to technical documents kept in manufacturer after sale of lifts.
?The standard will replace GB 10058-88 since the effective date.?
Appendix A is a standard appendix.
The standard is proposed by Ministry of Construction of the People’s Republic of China.?
The standard is under the jurisdiction of China Lift Standardization Technical Committee.
This standard is drafted by Institute of Construction Mechanization of China Academy of Building Research, Beijing Schindler Elevator Co., Ltd in China, Tianjin Otis Elevator Co., Ltd in China, and Guangzhou Elevator Industry Co., Ltd.?
The standard is mainly prepared by Kerong Peng, Guozhen Zhang, Xiaohui Xi and Xizhi Yang.?
The standard was firstly issued in 1988 and firstly revised in 1997. ?
1?????? Scope?
The standard formulates technical specifications of passenger lifts and freight lifts, inspection provisions, indication marks, package, transportation and storage.
The standard is applicable to power-actuated traction-type or compulsory-type passenger lifts and freight lifts whose rated speed is not higher than 2.5m/s;
?The standard is inapplicable to hydraulic lifts and dumbwaiter lifts.
?2 Normative References
?The articles included in the following standards become the articles of the national standard by quotation. The listed editions are efficient while the standard is published. All standards will be revised, so all parties who use the following standards should consider the latest edition as possible.
?
GB 2828-87 In-batch Check Counting Sampling Process and Sample Table(suitable for continuous batch)
GB 7588-1995 Safety Code for Manufacturing and Installation of Lifts (eqv EN 81-1: 1985)
In this code, Chapter 1, Chapter 2, Chapter 3, Chapter 4, Section 7.2.1 (partial), Section 8.17.1, Section 9.1.2b), Section 9.9.6.2 (partial), Section 12.6 (partial), Section 13.1.1.3, Section 15.2.3.2 (partial), Section 16.2a)6) (partial), Appendix C, Appendix E, Appendix G, Appendix M and Appendix ZA are recommendatory; the rest are obligatory.
This code is the revised version of GB 7588-1995 Safety Rules for the Construction and Installation of Lifts (equivalent to EN81-1: 1985) on the base of EN81-1: 1998 Safety Rules for the Construction and Installation of Lifts issued by European Committee for Standardization (CEN). This revised version is equivalent to EN81-1:1998 in the fields of technical contents and article numbering.
Compared with EN81-1:1985, EN81-1:1998 changed huge parts of contents. The new version increases plenty of new technical contents and new calculation method. Besides a few parts are changed according to the Chinse lift situations, this revised version is basically compliant to the contents of EN81-1:1998. ?
In the revised version, the following major technical contents are changed:
1. GB 7588-1995 version has a concise and definite application scope, so this revised version reserve the application scope of GB 7588-1995. For the purpose of presenting the definiteness, the revised version adds sickbed lift, deletes the application scope of EN81- 1:1998.
2. This revised version makes the following changes from the quoted terms and conditions of EN81-1:1998.
(1) If the international standards or overseas advanced standards listed in "Quoted Codes" of EN81-1:1998 have already equivalently adopted as Chinese national standards (GB) or industry standard, then this quoted terms and conditions are directly named as the corresponding Chinese code number.
(2) The code name that is not included in the Quoted Codes and make no mention in EN81-1:1998 has some content involved in the Chinese code, so it is also listed in the Quoted Codes of this code. For instance, in Clause :16.2a)6), the original text "use CENELEC symbols" is listed in Chinese national standard GB/T 4728, Graphical Symbols for Electrical Diagrams. And Clause 9.1.2c) is listed in the Chinese national standard GB 8903, Wire Ropes for Lifts.
(3) The foreign code name listed in EN81-1:1998 but not inverted into Chinese national standards, we directly refer the foreign code name. For instance, ENl2015 Electromagnetic Compatibility - Product Family Standard for Lifts, Escalators and Passenger Conveyors - Emission, EN12016 Electromagnetic Compatibility - Product Family Standard for Lifts, Escalators and Passenger Conveyors– Immunity. ?
3. In order to coordinate with other Chinese lift standards, the nomenclatures that are the same as those listed in the Terminology of Lifts, Escalators and Moving Walks of EN81-1:1998 and GB/T 7024 are not included any more, and only exclusive nomenclatures are reserved. In addition, "overhaul trapdoor" and "shaft emergency door" are added. ?
4. According to the national situation of China, partial contents of EN81-1:1998 have been amended or adjusted.
(1) Added: for instance, Clause 5.1.2 adds "excluding sightseeing lifts"; and Clause 7.1 and Clause 8.6.3 add "this interstice shall not be greater than 8mm for freight lifts"; Clause 5.6.1 adds "in exceptional cases, in order to meet the position requirement to install lift parts in the foundation pit, the interstice shall be as small as possible".
(2) Deleted: for instance, Clause 9.8.2.1 deletes " instant-type safety tong with buffer function" and other relevant contents; Clause 10.3.4 deletes " energy-storage buffer with buffering restoration" and other relevant contents.
(3) Adjusted contents: Clause 8.2.1 and 8.2.2 adjusts the available car area; Clause 9.8.2.1 adjusts the velocity interval of instant-type and inching-type safety tong; D2j) of Appendix D adjusts "rated speed" into "overhaul speed"; F5.3.1 adjusts the testing contents of "energy-storage buffer with buffering function" into the testing method of "linear energy-storage buffer".
The safety criterions stated in this code and all the requirements of the appendices offer a uniform technical base and safety requirements for constructing, installing and examining the passenger lifts and freight lifts. Pre-delivery inspection, periodic inspection as well as momentous retrofit or post-accident inspection shall not exceed the scope of this code.
Appendix A, B, C, D, F, H, J, K, L and N are standard appendixes; Appendix C, E, G, M, ZA are suggestive appendices.
This code takes effects from January 1, 2004 and substitute GB 7588-1995 in the meanwhile. From the execution date, the transition period of this code is 1 year; upon expiration of transition, GB 7588-1995 is to repeal.?
This code is brought forwards by China Machinery Industry Federation.
This code is governed by China Elevator Standardization Technical Committee. ?
This code is drafted by the Institute of Building Mechanization of China Academy of Building Research.
Drafting organization members: China Schindler Elevators Co., Ltd., Tianjin OTIS Elevators Co., Ltd., Shanghai Mitsubishi Elevators Co., Ltd., Guangzhou Hitachi Elevators Co., Ltd., Suzhou Schindler Elevators Co., Ltd., Shenyang Toshiba Elevators Co., Ltd., Hangzhou Xizi OTIS Elevators Co., Ltd., Kone Elevators Co., Ltd., Guangzhou Guangri Elevator Industry Co., Ltd., ThyssenKrupp Elevator Co., Ltd., Shanghai Toshiba Elevator Co., Ltd., Shanghai Yungtay Engineering Co., Ltd. , Guangzhou OTIS Elevators Co., Ltd., Huasheng Fujitec Elevator Co., Ltd., Suzhou Suzhou Jiangnan Elevator (Group) Co., Ltd.. ?
Main drafters: Gu Xi, Kong Hong, Zhang Guangjian, Wan Zhongpei, Ye Danyang, Zhu Jian, Xu Wengang, Jin Laisheng, Ma Lingyun, Huang Qijun, Yang Xizhi, Yan Jianzhong, Wang Weifeng, Lin Manqing, Chen Luya
6.2譯文
PLC簡介 可編程控制器是60年代末在美國首先出現(xiàn)的,當時叫可編程邏輯控制器PLC(ProgrammableLogicController),目的是用來取代繼電器。以執(zhí)行邏輯判斷、計時、計數(shù)等順序控制功能。提出PLC概念的是美國通用汽車公司。PLC的基本設計思想是把計算機功能完善、靈活、通用等優(yōu)點和繼電器控制系統(tǒng)的簡單易懂、操作方便、價格便宜等優(yōu)點結合起來,控制器的硬件是標準的、通用的。根據(jù)實際應用對象,將控制內(nèi)容編成軟件寫入控制器的用戶程序存儲器內(nèi),使控制器和被控對象連接方便。
70年代中期以后,PLC已廣泛地使用微處理器作為中央處理器,輸入輸出模塊和外圍電路也都采用了中、大規(guī)模甚至超大規(guī)模的集成電路,這時的PLC已不再是僅有邏輯(Logic)判斷功能,還同時具有數(shù)據(jù)處理、PID調(diào)節(jié)和數(shù)據(jù)通信功能。國際電工委員會(IEC)頒布的可編程控制器標準草案中對可編程控制器作了如下的定義:可編程控制器是一種數(shù)字運算操作的電子系統(tǒng),專為在工業(yè)環(huán)境下應用而設計。它采用了可編程序的存儲器,用來在其內(nèi)部存儲執(zhí)行邏輯運算,順序控制、定時、計數(shù)和算術運算等操作的指令,并通過數(shù)字式和模擬式的輸入和輸出,控制各種類型的機械或生產(chǎn)過程??删幊炭刂破骷捌溆嘘P外圍設備,易于與工業(yè)控制系統(tǒng)聯(lián)成一個整體,易于擴充其功能的設計。
可編程控制器對用戶來說,是一種無觸點設備,改變程序即可改變生產(chǎn)工藝。目前,可編程控制器已成為工廠自動化的強有力工具,得到了廣泛的普及推廣應用。
可編程控制器是面向用戶的專用工業(yè)控制計算機,具有許多明顯的特點。
①可靠性高,抗干擾能力強;
②編程直觀、簡單;
③適應性好;
④功能完善,接口功能強。
1 主題內(nèi)容與適用范圍
本標準規(guī)定了額定速度小于25 m/s的電梯曳引機技術要求和質(zhì)量要求。
本標準適用于乘客電梯、病床電梯、載貨電梯用曳引機。不適用于雜物電梯和額定速度不小于2. 5 m/s的各類電梯用的曳引機。額定速度小于2. 5 m/s的各類電梯用的其他曳引機可參照執(zhí)行。
2 引用標準
GB 3768 噪聲源聲功率的測定簡易法
GB 7025 電梯主參數(shù)及轎廂、井道、機房的型式與尺寸
GB 7588 電梯制造與安裝安全規(guī)范
GB 10058 電梯技術條件
GB 10085 圓柱蝸桿傳動基本參數(shù)
GB 10089 圓柱蝸桿、蝸輪精度
GB 12974 交流電梯電動機通用技術條件
GB 11368 齒輪傳動裝置清潔度
GB 191 包裝儲運圖示標志
3 術語
曳引機額定速度 rated speed of traction machine
對應于轎廂額定速度的曳引輪節(jié)徑上的線速度。
曳引機額定載重量 rated load of traction machine
當曳引比為1:1、平衡系數(shù)為0.40時,曳引輪切向曳引的轎廂額定載重量。
電梯技術條件
GBT 10058-1997
國家技術監(jiān)督局1997-12-26批準 1998-10-01實施
1 范圍
本標準規(guī)定了乘客電梯及載貨電梯的技術要求、檢驗規(guī)則、標志、包裝、運輸與貯存等。
本標準適用于額定速度不大于2.5m/s的電力驅(qū)動的曳引式或強制式的乘客電梯和載貨電梯。
本標準不適用于液壓電梯和雜物電梯。?
2 引用標準
下列標準所包含的條文,通過在本標準中引用而構成為本標準的條文。本標準出版時,所示版本均為有效。所有標準都會被修訂,使用本標準的各方應探討使用下列標準最新版本的可能性。
GB 2828—87 逐批檢查計數(shù)抽樣程序及抽樣表(適用于連續(xù)批的檢查)
GB 7588—1995 電梯制造與安裝安全規(guī)范 (eqv EN 81—1:1985)
GB 8903—88 電梯用鋼絲繩 (eqv ISO 4344:1983)
GB/T 10059—1997 電梯試驗方法
GB 10060—93 電梯安裝驗收規(guī)范
GB/T 13435—92 電梯曳引機
JG/T 5072.1一1996 電梯T型導軌 (eqv ISO 7465:1983)
?
3 技術要求
3.1 基本要求
3.1.1 電梯及其所有零部件應設計正確、結構合理、遵守機械、電氣及建筑方面的通用技術要求。
3.1.2 制造電梯的材料應具有足夠的強度和合適的性能。
3.1.3 電梯整機和零部件應具有良好的維修和保養(yǎng),處于正常的工作狀態(tài)。
3.1.4 需要潤滑的零部件應裝有符合要求的潤滑裝置;
3.2 電梯工作條件
a)海拔高度不超過1 000m;
b)機房內(nèi)的空氣溫度應保持在5~40℃之間;
c)運行地點的最濕月月平均最高相對濕度為90%,同時該月月平均最低溫度不高于25℃;
d)供電電壓相對于額定電壓的波動應在土7%的范圍內(nèi);
e)環(huán)境空氣中不應含有腐蝕性和易燃性氣體及導電塵埃存在。
3.3 整機性能
3.3.1 當電源為額定頻率和額定電壓、電梯轎廂在50%額定載重量時,向下運行至行程中段(除去加速和減速段)時的速度,不得大于額定速度的105%,且不得小于額定速度的92%。
3.3.2 乘客電梯起動加速度和制動減速度最大值均不應大于1.5m/s2。
3.3.3 當乘客電梯額定速度(v)為1.0m/s
收藏