组合机床论文中英文资料外文翻译文献

中英文资料外文翻译文献

TRANSFER AND UNIT MACHINE

While the specific intention and application for transfer and unit machine vary from one machine type to another, all forms of transfer and unit machine have common benefits. Here are but a few of the more important benefits offered by TRANSFER AND UNIT MACHINE equipment.

The first benefit offered by all forms of transfer and unit machine is improved automation. The operator intervention related to producing workpieces can be reduced or eliminated. Many transfer and unit machine can run unattended during their entire machining cycle, freeing the operator to do other tasks. This gives the transfer and unit machine user several side benefits including reduced operator fatigue, fewer mistakes caused by human error, and consistent and predictable machining time for each workpiece. Since the machine will be running under program control, the skill level required of the transfer and unit machine operator (related to basic machining practice) is also reduced as compared to a machinist producing workpieces with conventional machine tools.

The second major benefit of transfer and unit machine technology is consistent and accurate workpieces. Today's transfer and unit machines boast almost unbelievable accuracy and repeatability specifications. This means that once a program is verified, two, ten, or one thousand identical workpieces can be easily produced with precision and consistency.

rd benefit offered by most forms of transfer and unit machine tools is flexibility. Since these machines are run from programs, running a different workpiece

is almost as easy as loading a different program. Once a program has been verified and executed for one production run, it can be easily recalled the next time the workpiece is to be run. This leads to yet another benefit, fast change over. Since these machines are very easy to set up and run, and since programs can be easily loaded, they allow very short setup time. This is imperative with today's just-in-time (JIT) product requirements.

Motion control - the heart of transfer and unit machine

The most basic function of any transfer and unit machine is automatic, precise, and consistent motion control. Rather than applying completely mechanical devices to cause motion as is required on most conventional machine tools, transfer and unit machines allow motion control in a revolutionary manner2. All forms of transfer and unit machine equipment have two or more directions of motion, called axes. These axes can be precisely and automatically positioned along their lengths of travel. The two most common axis types are linear (driven along a straight path) and rotary (driven along a circular path).

Instead of causing motion by turning cranks and handwheels as is required on conventional machine tools, transfer and unit machines allow motions to be commanded through programmed commands. Generally speaking, the motion type (rapid, linear, and circular), the axes to move, the amount of motion and the motion rate (feedrate) are programmable with almost all transfer and unit machine tools.

A transfer and unit machine command executed within the control tells the drive motor to rotate a precise number of times. The rotation of the drive motor in turn rotates the ball screw. And the ball screw drives the linear axis (slide). A feedback device (linear scale) on the slide allows the control to confirm that the commanded number of rotations has taken place3. Refer to fig.1.

Fig.1

Though a rather crude analogy, the same basic linear motion can be found on a common table vise. As you rotate the vise crank, you rotate a lead screw that, in turn, drives the movable jaw on the vise. By comparison, a linear axis on a transfer and unit machine machine tool is extremely precise. The number of revolutions of the axis drive motor precisely controls the amount of linear motion along the axis.

How axis motion is commanded - understanding coordinate systems

It would be infeasible for the transfer and unit machine user to cause axis motion by trying to tell each axis drive motor how many times to rotate in order to command a given linear motion amount4. (This would be like having to figure out how many turns of the handle on a table vise will cause the movable jaw to move exactly one inch!) Instead, all transfer and unit machine controls allow axis motion to be commanded in a much simpler and more logical way by utilizing some form of coordinate system. The two most popular coordinate systems used with transfer and unit machines are the rectangular coordinate system and the polar coordinate system. By far, the more popular of these two is the rectangular coordinate system.

The program zero point establishes the point of reference for motion commands in a transfer and unit machine program. This allows the programmer to specify movements from a common location. If program zero is chosen wisely, usually coordinates needed for the program can be taken directly from the print.

With this technique, if the programmer wishes the tool to be sent to a position one inch to the right of the program zero point, X1.0 is commanded. If the programmer wishes the tool to move to a position one inch above the program zero point, Y1.0 is commanded. The control will automatically determine how many times to rotate each axis drive motor and ball screw to make the axis reach the commanded destination point . This lets the programmer command axis motion in a very logical manner. Refer to fig.2, 3.

Fig.2

Fig.3

All discussions to this point assume that the absolute mode of programming is used6. The most common transfer and unit machine word used to designate the absolute mode is G90. In the absolute mode, the end points for all motions will be specified from the program zero point. For beginners, this is usually the best and easiest method of specifying end points for motion commands. However, there is another way of specifying end points for axis motion.

In the incremental mode (commonly specified by G91), end points for motions are specified from the tool's current position, not from program zero. With this method of commanding motion, the programmer must always be asking "How far should I move the tool?" While there are times when the incremental mode can be very helpful, generally speaking, this is the more cumbersome and difficult method of specifying motion and beginners should concentrate on using the absolute mode.

Be careful when making motion commands. Beginners have the tendency to

think incrementally. If working in the absolute mode (as beginners should), the programmer should always be asking "To what position should the tool be moved?" This position is relative to program zero, NOT from the tools current position.

Aside from making it very easy to determine the current position for any command, another benefit of working in the absolute mode has to do with mistakes made during motion commands. In the absolute mode, if a motion mistake is made in one command of the program, only one movement will be incorrect. On the other hand, if a mistake is made during incremental movements, all motions from the point of the mistake will also be incorrect.

Assigning program zero

Keep in mind that the transfer and unit machine control must be told the location of the program zero point by one means or another. How this is done varies dramatically from one transfer and unit machine and control to another8. One (older) method is to assign program zero in the program. With this method, the programmer tells the control how far it is from the program zero point to the starting position of the machine. This is commonly done with a G92 (or G50) command at least at the beginning of the program and possibly at the beginning of each tool.

Another, newer and better way to assign program zero is through some form of offset. Refer to fig.4. Commonly machining center control manufacturers call offsets used to assign program zero fixture offsets. Turning center manufacturers commonly call offsets used to assign program zero for each tool geometry offsets.

Fig. 4

Flexible manufacturing cells

A flexible manufacturing cell (FMC) can be considered as a flexible manufacturing subsystem. The following differences exist between the FMC and the FMS:

1.An FMC is not under the direct control of the

central computer. Instead, instructions from the central

computer are passed to the cell controller.

2.The cell is limited in the number of part families it

can manufacture.

The following elements are normally found in an FMC:

?Cell controller

?Programmable logic controller (PLC)

?More than one machine tool

?A materials handling device (robot or pallet)

The FMC executes fixed machining operations with parts flowing sequentially between operations.

High speed machining

The term High Speed Machining (HSM) commonly refers to end milling at high rotational speeds and high surface feeds. For instance, the routing of pockets in aluminum airframe sections with a very high material removal rate1. Over the past 60 years, HSM has been applied to a wide range of metallic and non-metallic workpiece materials, including the production of components with specific surface topography requirements and machining of materials with hardness of 50 HRC and above. With most steel components hardened to approximately 32-42 HRC, machining options currently include: Rough machining and semi-finishing of the material in its soft (annealed) condition heat treatment to achieve the final required hardness = 63 HRC machining of electrodes and Electrical Discharge Machining (EDM) of specific parts of dies and moulds (specifically small radii and deep cavities with limited

accessibility for metal cutting tools) finishing and super-finishing of cylindrical/flat/cavity surfaces with appropriate cemented carbide, cermet, solid carbide, mixed ceramic or polycrystalline cubic boron nitride (PCBN)

For many components, the production process involves a combination of these options and in the case of dies and moulds it also includes time consuming hand finishing. Consequently, production costs can be high and lead times excessive.

It is typical in the die and mould industry to produce one or just a few tools of the same design. The process involves constant changes to the design, and because of these changes there is also a corresponding need for measuring and reverse engineering .

The main criteria is the quality level of the die or mould regarding dimensional, geometric and surface accuracy. If the quality level after machining is poor and if it cannot meet the requirements, there will be a varying need of manual finishing work. This work produces satisfactory surface accuracy, but it always has a negative impact on the dimensional and geometric accuracy.

One of the main aims for the die and mould industry has been, and still is, to reduce or eliminate the need for manual polishing and thus improve the quality and shorten the production costs and lead times.

Main economical and technical factors for the development of HSM

Survival

The ever increasing competition in the marketplace is continually setting new standards. The demands on time and cost efficiency is getting higher and higher. This has forced the development of new processes and production techniques to take place. HSM provides hope and solutions...

Materials

The development of new, more difficult to machine materials has underlined the necessity to find new machining solutions. The aerospace industry has its heat resistant and stainless steel alloys. The automotive industry has different bimetal compositions, Compact Graphite Iron and an ever increasing volume of aluminum3. The die and mould industry mainly has to face the problem of machining high

hardened tool steels, from roughing to finishing.

Quality

The demand for higher component or product quality is the result of ever increasing competition. HSM, if applied correctly, offers a number of solutions in this area. Substitution of manual finishing is one example, which is especially important on dies and moulds or components with a complex 3D geometry.

Processes

The demands on shorter throughput times via fewer setups and simplified flows (logistics) can in most cases, be solved by HSM. A typical target within the die and mould industry is to completely machine fully hardened small sized tools in one setup. Costly and time consuming EDM processes can also be reduced or eliminated with HSM.

Design & development

One of the main tools in today's competition is to sell products on the value of novelty. The average product life cycle on cars today is 4 years, computers and accessories 1.5 years, hand phones 3 months... One of the prerequisites of this development of fast design changes and rapid product development time is the HSM technique.

Complex products

There is an increase of multi-functional surfaces on components, such as new design of turbine blades giving new and optimized functions and features. Earlier designs allowed polishing by hand or with robots (manipulators). Turbine blades with new, more sophisticated designs have to be finished via machining and preferably by HSM . There are also more and more examples of thin walled workpieces that have to be machined (medical equipment, electronics, products for defence, computer parts) Production equipment

The strong development of cutting materials, holding tools, machine tools, controls and especially CAD/CAM features and equipment, has opened possibilities that must be met with new production methods and techniques5.

Definition of HSM

Salomon's theory, "Machining with high cutting speeds..." on which, in 1931,

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参考文献 一、翻译理论与实践相关书目 谢天振主编. 《当代国外翻译理论导读》. 天津：南开大学出版社，2008. Jeremy Munday. 《翻译学导论——理论与实践》Introducing Translation Studies---Theories and Applications. 李德凤等译. 北京：商务印书馆，2007. 包惠南、包昂. 《中国文化与汉英翻译》. 北京：外文出版社, 2004. 包惠南. 《文化语境与语言翻译》. 北京：中国对外翻译出版公司. 2001. 毕继万. 《世界文化史故事大系——英国卷》. 上海：上海外语教育出版社, 2003. 蔡基刚. 《英汉汉英段落翻译与实践》. 上海：复旦大学出版社, 2001. 蔡基刚. 《英汉写作对比研究》. 上海：复旦大学出版社, 2001. 蔡基刚. 《英语写作与抽象名词表达》. 上海：复旦大学出版社, 2003. 曹雪芹、高鄂. 《红楼梦》. 陈定安. 《英汉比较与翻译》. 北京：中国对外翻译出版公司, 1991. 陈福康. 《中国译学理论史稿》（修订本）. 上海：上海外语教育出版社. 2000. 陈生保. 《英汉翻译津指》. 北京：中国对外翻译出版公司. 1998. 陈廷祐. 《英文汉译技巧》. 北京：外语教学与研究出版社. 2001. 陈望道. 《修辞学发凡》. 上海：上海教育出版社, 1979. 陈文伯. 《英汉翻译技法与练习》. 北京：世界知识出版社. 1998. 陈中绳、吴娟. 《英汉新词新义佳译》. 上海：上海翻译出版公司. 1990. 陈忠诚. 《词语翻译丛谈》. 北京：中国对外翻译出版公司, 1983. 程希岚. 《修辞学新编》. 吉林：吉林人民出版社, 1984. 程镇球. 《翻译论文集》. 北京：外语教学与研究出版社. 2002. 程镇球. 《翻译问题探索》. 北京：商务印书馆, 1980. 崔刚. 《广告英语》. 北京：北京理工大学出版社, 1993. 单其昌. 《汉英翻译技巧》. 北京：外语教学与研究出版社. 1990. 单其昌. 《汉英翻译讲评》. 北京：对外贸易教育出版社. 1989. 邓炎昌、刘润清. 《语言与文化——英汉语言文化对比》. 北京：外语教学与研究出版社, 1989. 丁树德. 《英汉汉英翻译教学综合指导》. 天津：天津大学出版社, 1996. 杜承南等，《中国当代翻译百论》. 重庆：重庆大学出版社, 1994. 《翻译通讯》编辑部. 《翻译研究论文集（1894-1948）》. 北京：外语教学与研究出版社. 1984. 《翻译通讯》编辑部. 《翻译研究论文集（1949-1983）》. 北京：外语教学与研究出版社. 1984. . 范勇主编. 《新编汉英翻译教程》. 天津：南开大学出版社. 2006. 方梦之、马秉义（编选）. 《汉译英实践与技巧》. 北京：旅游教育出版社. 1996. 方梦之. 《英语汉译实践与技巧》. 天津：天津科技翻译出版公司. 1994. 方梦之主编. 《译学辞典》. 上海：上海外语教育出版社. 2004. 冯翠华. 《英语修辞大全》，北京：外语教学与研究出版社, 1995. 冯庆华. 《文体与翻译》. 上海：上海外语教育出版社, 2002. 冯庆华主编. 《文体翻译论》. 上海：上海外语教育出版社. 2002. 冯胜利. 《汉语的韵律、词法与句法》. 北京：北京大学出版社, 1997. 冯志杰. 《汉英科技翻译指要》. 北京：中国对外翻译出版公司. 1998. 耿占春. 《隐喻》. 北京：东方出版社, 1993.

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