外文翻译-五种基本机械加工技术

五种基本机械加工技术

加工金属的五个基本技术包括钻，镗，车，刨，铣，磨。五项基本技术的变化是采用以满足特殊情况。

钻孔切割旋转另一方面演习，是指一个圆洞组成，涉及到一个已经钻孔或由一个旋转，偏移，单点工具手段芯孔精加工。在一些无聊的机器，工具和工作运转平稳，对他人，情况恰恰相反。

车床，车床，是为俗称，是所有机床的父亲。对被加工金属片的旋转和刀具是反对的先进。我们将讨论在本文稍后的段落中的车床的结构和功能。

刨机床与金属是一个过程，类似于用一只手刨木机。本质区别在于一个事实，即刀具在一个固定的位置，而这项工作仍然是前后移动的下方。刨床通常是件大型设备，有时大到足以处理的表面加工15至20英尺宽的两倍。一个成型机不同于在那举行的固定工件和刀具刨来回旅行。

铣削加工包括通过将接触到一个旋转的切割工具，它具有多种先进的边缘有一块金属。也有各项工作铣削机种设计多种类型。所产生的形状铣床一些非常简单，如圆盘锯槽和生产平面上。其他形状较为复杂，可能包括一系列的平面和曲面多种组合，这取决于给予切削工具的边缘形状和刀具的移动路径。

成型磨削包括通过使接触到它的旋转砂轮的作品。这一过程通常是用于最后的收尾来关闭一个已经热零件尺寸处理，使其很辛苦。这是正确的，因为磨削可能因热处理造成的扭曲。近年来，磨也发现增加了重型金属切除手术中的应用。

车床：该车床是车间里最有用的和通用的机器之一，是开展加工业务的各种能力。该车床的主要部件是一个车头和车尾两端床，一个工具，它们之间的职位，而持有刀具。在跨幻灯片，使它能够跨越马鞍或sidewards工具员额站以及运输沿线，根据样的工作是做什么。普通车床中心可容纳上的工具后一次只能有一个工具，而是一种六角车床是持有旋转炮塔五个或更多的工具的能力。车床的床必须非常牢固，防止在压力下扭曲或弯曲机。

主轴箱采用了驾驶和齿轮机构，持有和工件主轴并使其旋转的速度在很大程度上取决于它的工件直径。一个大直径栏应自然旋转速度比一个非常薄的吧;工具的切割速度是最重要的。在空心主轴和尾座鼻锥中心举行工作抓紧他们之间。

供稿从车头轴驱动工具员额仅马鞍，向前或向后，在一个固定的和统一的速度。这使得运营商能够做出准确的削减，并给予工作的好成绩。齿轮之间的主轴和进给轴控制轴的旋转速度，因此，向前或向后的工具员额运动。齿轮其中运营商将选择取决于他是切割金属型和金属量他已经切断。对于一个切深或粗加工的刀具向前运动应该比一个收尾切少。

中心不是每对车床工作合适。操作者可以取代各类夹头，占据着下巴之间，或由前板的工作，根据工作和切割操作的特殊形状。他会用卡盘，例如，举行一小段的工作，或工作，钻，镗孔或螺纹切割。

该工具在整个过程中鞍后横向运动的工具，使贯穿工件的面，给它一个平面上。对于螺纹切削，操作人员从事铅螺杆，长螺旋轴沿着它在床前并与主轴旋转。领头的螺杆驱动器沿运输的工具后转发在正确的速度，这保证了螺杆上的螺纹的螺距是完全正确的。操作者可以选择不同的齿轮速度，这将改变主轴和铅螺杆速度的比例，因此，改变该线程的音调。作者：车头扭转杆使他扭转运输运动等带来的工具回到它原来的位置。

Five Basic Machining Techniques

1 The five basic techniques of machining metal include drilling and boring, turning, planing, milling, and

grinding. Variations of the five basic techniques are employed to meet special situations.

2 Drilling consists of cutting a round hole by means of rotating drill, on the other hand , involves the finishing of a hole already drilled or cored by means of a rotating, offset,

single-point tool. On some boring machines, the tool is stationary and the work revolves; on others, the reverse is true.

3 The lathe, as the turning machine is commonly called, is the father of all machine tools. The piece of metal to be machined is rotated and the cutting tool is advanced against it. We will discuss the structure and functions of lathe in later paragraphs of this article.

4 Planing metal with a machine tool is a process similar to planing wood with a hand plane. The essential difference lies in the fact that the cutting tool remains in a fixed position while the work is moved back and forth beneath it. Planers are usually large pieces of equipment; sometimes large enough to handle the

machining of surfaces 15 to 20 feet wide and twice as long. A shaper differs from a planer in that the workpiece is held stationary and the cutting tool travels back and forth.

5 Milling consists of machining a piece of metal by bringing it into contact with a rotating cutting tool which has multiple cutting-edges. There are many types of milling machines designed for various kind of work. Some of the shapes produced by milling machines are extremely simple, like the slots and flat surfaces produced by circular saws. Other shapes are more complex and may consist of a variety of combinations of flat and curved surfaces, depending on the shape given to the cutting-edges of the tool and on the travel path of the tool.

6 Grinding consists of shaping a piece of work by bringing it into contact with a rotating abrasive wheel. The process is often used for the final finishing to close dimensions of a part that has been heat-treated to make it very hard. This is because grinding can correct distortions that may have resulted from heat treatment. In recent years, grinding has also found increased application in heavy-duty metal removal operations.

7 The Lathe：The lathe is one of the most useful and versatile machines in the workshop, and is capable of carrying out a wide