网站导航   4000-006-150  
小站教育
2024年1-4月雅思口语题库
学生选择在小站备考:30天 522643名,今日申请226人    备考咨询 >>

【小站出品】雅思阅读机经真题解析-Radio Automation

2016年10月25日10:18 来源:小站教育作者:小站雅思编辑
参与(1) 阅读(33324)
摘要:小站雅思名师讲堂从今天开始和大家分享一系列雅思阅读机经真题,是烤鸭在剑桥雅思之余的良好调剂品。烤鸭们可以先自己试着做一做,做完之后可以对下答案,再看看小站名师的悉心讲解。本篇阅读的标题:Radio Automation

小站独家,雅思阅读机经真题解析。一切患有雅思阅读刷题强迫症的烤鸭,请看这里。小站精心整理了一批雅思阅读机经真题。如果你的剑桥雅思阅读已是烂熟于心,那么这一系列的雅思阅读机经真题真的很适合你,搭配上绝对原创的讲解,还有全文的中文翻译,这等阅读大餐,还等什么!

【小站出品】雅思阅读机经真题解析-Radio Automation图1

Today they are everywhere. Production lines controlled by computers and operated by robots. There's no chatter of assembly workers, just the whirr and click of machines. In the mid-1940s, the workerless factory was still the stuff of science fiction. There were no computers to speak of and electronics was primitive. Yet hidden away in the English countryside was a highly automated production line called ECME, which could turn out 1500 radio receivers a day with almost no help from human hands.

A

John Sargrove, the visionary engineer who developed the technology, was way ahead of his time. For more than a decade, Sargrove had been trying to figure out how to make cheaper radios. Automating the manufacturing process would help. But radios didn't lend themselves to such methods: there were too many parts to fit together and too many wires to solder. Even a simple receiver might have 30 separate components and 80 hand-soldered connections. At every stage, things had to be tested and inspected. Making radios required highly skilled labor-and lots of it.

B

In 1944, Sargrove came up with the answer. His solution was to dispense with most of the fiddly bits by inventing a primitive chip-a slab of Bakelite with all the receiver's electrical components and connections embedded in it. This was something that could be made by machines, and he designed those too. At the end of the war, Sargrove built an automatic production line, which he called ECME (electronic circuit-making equipment), in a small factory in Effingham, Surrey.

ECME Line

C

An operator sat at one end of each ECME line, feeding in the plates. She didn't need much skill, only quick hands. From now on, everything was controlled by electronic switches and relays. First stop was the sandbluster, which roughened the surface of the plastic so that molten metal would stick to it. The plates were then cleaned to remove any traces of grit. The machine automatically checked that the surface was rough enough before sending the plate to the spraying section. There, eight nozzles rotated into position and sprayed molten zinc over both sides of the plate. Again, the nozzles only began to spray when a plate was in place. The plate whizzed on. The next stop was the milling machine, which ground away the surface layer of metal to leave the circuit and other components in the grooves and recesses. Now the plate was a composite of metal and plastic. It sped on to be lacquered and have its circuits tested. By the time it emerged from the end of the line, robot hands had fitted it with sockets to attach components such as valves and loudspeakers. When ECME was working flat out, the whole process took 20 seconds.

D

ECME was astonishingly advanced. Electronic eyes, photocells that generated a small current when a panel arrived, triggered each step in the operation, so avoiding excessive wear and tear on the machinery The plates were automatically tested at each stage as they moved along the conveyor. And if more than two plates in succession were duds, the machines were automatically adjusted-or If necessary halted. In a conventional factory, workers would test faulty- circuits and repair them. But Sargrove's assembly line produced circuits so cheaply they Just threw away the faulty ones. Sargrove's circuit board was even more astonishing for the time. It predated the more familiar printed circuit, with wiring printed on aboard, yet was more sophisticated. Its built-in components made it more like a modem chip.

E

When Sargrove unveiled his invention at a meeting of the British Institution of Radio Engineers in February 1947, the assembled engineers were impressed. So was the man from The Times. ECME, he reported the following day, "produces almost without human labour, a complete radio receiving set. This new method of production can be equally well applied to television and other forms of electronic apparatus."

F

The receivers had many advantages over their predecessors. Wit components they were more robust. Robots didn't make the sorts of mistakes human assembly workers sometimes did. "Wiring mistakes just cannot happen/ wrote Sargrove. No wires also meant the radios were lighter and cheaper to ship abroad. And with no soldered wires to come unstuck, the radios were more reliable. Sargrove pointed out that the circuit boards didn't have to be flat. They could be curved, opening up the prospect of building the electronics into the cabinet of Bakelite radios.

G

Sargrove was all for introducing this type of automation to other products. It could be used to make more complex electronic equipment than radios, he argued. And even if only part of a manufacturing process were automated, the savings would be substantial. But while his invention was brilliant, his timing was bad. ECME was too advanced for its own good. It was only competitive on huge production runs because each new job meant retooling the machines. But disruption was frequent. Sophisticated as it was, ECME still depended on old-fashioned electromechanical relays and valves-which failed with monotonous regularity. The state of Britain's economy added to Sargrove's troubles. Production was dogged by power cuts and post-war shortages of materials. Sargrove's financial backers began to get cold feet.

H

There was another problem Sargrove hadn't foreseen. One of ECME's biggest advantages-the savings on the cost of labour-also accelerated its downfall. Sargrove's factory had two ECME production lines to produce the two circuits needed for each radio. Between them these did what a thousand assembly workers would otherwise have done. Human hands were needed only to feed the raw material in at one end and plug the valves into their sockets and fit the loudspeakers at the other. After that, the only job left was to fit the pair of Bakelite panels into a radio cabinet and check that it worked.

I

Sargrove saw automation as the way to solve post-war labor shortages. With somewhat Utopian idealism, he imagined his new technology would free people from boring, repetitive jobs on the production line and allow them to do more interesting work. "Don't get the idea that we are out to rob people of their jobs,' he told the Daily Mirror. “Our task is to liberate men and women from being slaves of machines."

J

The workers saw things differently. They viewed automation in the same light as the everlasting light bulb or the suit that never wears out-as a threat to people's livelihoods. If automation spread, they wouldn't be released to do more exciting jobs. They'd be released to join the dole queue. Financial backing for ECME fizzled out. The money dried up. And Britain lost its lead in a technology that would transform industry just a few years later.

Question 1-7

Summary

The following diagram explains the process of ECME:

Complete the following chart of the paragraphs of Reading Passage, using no more than two words from the Reading Passage for each answer. Write your answers in boxes 1-7 on your answer sheet.

Question 8-11

Summary

Complete the following summary of the paragraphs of Reading Passage, using no more than two words from the Reading Passage for each answer. Write your answers in boxes 8-11 on your answer sheet.

Sargrove had been dedicated to create a___8___radio by automation of manufacture. The old version of radio had a large number of independent___9___After this innovation made, wireless-style radios became___10___and inexpensive to export oversea. As the Sargrove saw it, the real benefit of ECME's radio was that it reduced___11___of manual work .which can be easily copied to other industries of manufacturing electronic devices.

Question 12-13

Choose the correct letter, A, B, C or D.

Write your answers in boxes 12-13 on your answer sheet.

12 What were workers attitude towards ECME Model initially?

A anxious

B welcoming

C boring

D inspiring

13 What is the main idea of this passage?

A approach to reduce the price of radio

B a new generation of fully popular products and successful business

C an application of the automation in the early stage

D ECME technology can be applied in many product fields

篇章结构

体裁说明文

题目收音机自动化---集成电路的先驱

结构Paragraph 1: 在电子技术极其落后的1940s, 英国出现了收音机自动化生产线---ECME.

A段:收音机并不特别适合用自动化流程生产。

B段:Sargrove是如何解决收音机不适合自动化生产的问题,从而导致ECME诞生的。

C段:ECME生产线的各道工序介绍。

D段:ECME生产线的先进之处(自动启动生产线、自动检测、比printed circuit更早更先进)

E段:各界对于ECME生产线的评价。

F段:ECME生产出来的收音机相对于之前收音机的几项优点。

G段:虽然ECME生产线可以被改造用于生产其他产品,但是它还是受很多因素制约的(包括改造成本、配件的不可靠、当时英国经济现状)。

H段:ECME可以节约大量的劳动力,但是这却成了它失败的另一条原因。

I段:Sargrove认为ECME有助于解决劳动力短缺的问题,并将劳动力从无聊重复的工作中解放出来。

J段:工人们认为ECME会不利于工人的就业。

(转第二页)

特别申明:本文来自于小站教育【雅思阅读】专栏,转载请以超链接形式标注本文出处,并附上此申明,否则将追究法律责任。
看完仍有疑问?想要更详细的答案?
备考问题一键咨询提分方案
获取专业解答

相关文章

雅思考官Simon写作大小作文9分范文合集(全部100+篇... 【口语完整题库】2018年1-4月雅思口语话题及参考范文p... 雅思考试到底多少分才算高分呢 雅思小作文范文之雅思图表作文范文 2018年1-4月雅思口语题库part2话题范文汇总(输出... 2017年5-8月雅思口语话题题库稳定版 实时更新配范文 5月雅思口语Part2多版本范文:Describe a g...

专题推荐

小站教育雅思官方群

群号:664063828

「扫二维码 加入群聊」
加入
雅思关键词
版权申明| 隐私保护| 意见反馈| 联系我们| 关于我们| 网站地图| 最新资讯
© 2011-2024 ZHAN.com All Rights Reserved. 沪ICP备13042692号-23 举报电话:4000-006-150
沪公网安备 31010602002658号
增值电信业务经营许可证:沪B2-20180682