headstock
简明释义
n. 主轴箱
英英释义
单词用法
吉他头stock | |
车床头stock | |
连接到头stock | |
调整头stock角度 |
同义词
| 头部 | The head of the guitar is where the tuning pegs are located. | 吉他的头部是调音钉所在的位置。 | |
| 颈部 | 吉他的颈部连接着琴身和头stock。 |
反义词
| 尾座 | The tailstock is used to support the other end of the workpiece. | 尾座用于支撑工件的另一端。 | |
| 底座 | 调整底座可以帮助稳定机器。 |
例句
1.This design mainly aims at the headstock of the CA6140 machine tool.
本设计主要针对CA6140机床的主轴箱设计。
2.Headstock provides two step of feeds.
主轴箱提供了两个步骤饲料。
3.The focal point of this topic is the system design and the back headstock design.
设计的重点是总体设计和后主轴箱设计两部分。
4.Here is the temporary apron that carries the headstock along the ways as it is bored.
这里是临时停机坪,运载沿,因为它是无聊的方式启闭。
5.This let me test a prototype headstock design for a wood turning lathe I'd like to design and build.
这让我测试的车床我想设计和建造木材启闭原型设计。
6.Clutch in headstock makes the lathe more attractive.
在车头离合器使车床更具吸引力。
7.Headstock is constantly oiled during operation.
启闭是在操作过程中不断加油。
8.A crack in the headstock can significantly affect the sound quality of a guitar.
在头部出现裂缝会显著影响吉他的音质。
9.The luthier carefully adjusted the tension of the strings at the headstock to ensure perfect tuning.
制琴师小心翼翼地调整头部的弦张力,以确保完美的调音。
10.The vintage guitar had a beautifully carved headstock that showcased its craftsmanship.
这把复古吉他拥有精美雕刻的头部,展示了其工艺水平。
11.He installed new tuners on the headstock to improve the guitar's tuning stability.
他在头部安装了新的调音器,以提高吉他的调音稳定性。
12.When restringing the guitar, make sure to thread the strings through the headstock correctly.
在换弦时,确保将弦正确穿过头部。
作文
In the world of woodworking and metalworking, precision is paramount. One of the essential components that contribute to this precision is the headstock. The headstock is a critical part of a lathe, which is a machine tool used to shape materials by rotating them against a cutting tool. The primary function of the headstock is to hold the spindle and motor, providing the necessary power and stability for the workpiece being machined. Without a well-designed headstock, the accuracy of the machining process could be compromised, leading to defects and inefficiencies in production.The design of the headstock can vary significantly depending on the type of lathe and its intended use. For instance, in a wood lathe, the headstock may be designed to accommodate larger pieces of wood, while in a metal lathe, it is often more compact to allow for finer control over smaller metal parts. Regardless of its size or shape, the headstock must be robust enough to withstand the forces generated during the machining process.Moreover, the headstock typically houses the drive mechanism, which can be either belt-driven or direct-drive. Belt-driven systems offer flexibility in speed adjustments, allowing the user to select the optimal rotation speed for different materials. On the other hand, direct-drive systems provide consistent torque and speed, which can be beneficial for certain applications. Understanding these differences can help users choose the right lathe for their specific needs.Another important aspect of the headstock is its alignment. Proper alignment of the headstock with the tailstock is crucial for achieving straight and accurate cuts. If the headstock is misaligned, it can lead to uneven wear on tools and inaccurate dimensions in the finished product. Therefore, regular maintenance and calibration of the headstock are essential practices for any machinist or woodworker.In addition to its mechanical functions, the headstock also plays a role in the overall ergonomics of the lathe. A well-placed headstock allows for comfortable operation, reducing strain on the user’s back and arms. This is particularly important in professional settings where operators might spend long hours working on lathes. By ensuring that the headstock is positioned at an appropriate height and angle, manufacturers can enhance user comfort and productivity.In conclusion, the headstock is a vital component of lathe machines that significantly impacts the quality and efficiency of machining operations. Its design, alignment, and ergonomic placement are all crucial factors that contribute to successful woodworking and metalworking projects. As technology advances, we can expect further innovations in headstock design, leading to even greater precision and ease of use for craftsmen and engineers alike.
在木工和金属加工的世界中,精确性至关重要。一个有助于这种精确性的基本组件是headstock。headstock是车床的一个关键部分,车床是一种通过将材料旋转与切削工具接触来成型材料的机床。headstock的主要功能是固定主轴和电动机,为被加工的工件提供必要的动力和稳定性。如果没有设计良好的headstock,加工过程的准确性可能会受到影响,导致缺陷和生产效率低下。headstock的设计可以根据车床的类型及其预期用途而有所不同。例如,在木车床中,headstock可能设计得更大,以适应较大的木材,而在金属车床中,它通常更紧凑,以便对较小的金属零件进行更细致的控制。无论其大小或形状如何,headstock都必须足够坚固,以承受加工过程中产生的力量。此外,headstock通常容纳驱动机制,这可以是皮带驱动或直接驱动。皮带驱动系统在速度调整上提供灵活性,允许用户为不同材料选择最佳旋转速度。另一方面,直接驱动系统提供一致的扭矩和速度,这对于某些应用可能是有益的。了解这些差异可以帮助用户选择适合其特定需求的车床。headstock的另一个重要方面是其对准。headstock与尾座的正确对准对于实现直线和准确的切割至关重要。如果headstock未对准,可能会导致工具磨损不均和成品尺寸不准确。因此,定期维护和校准headstock是任何机械师或木工的基本实践。除了其机械功能外,headstock还在车床的整体人体工程学中发挥作用。合理放置的headstock可以舒适操作,减少用户背部和手臂的压力。这在专业环境中尤其重要,因为操作员可能会花费长时间在车床上工作。通过确保headstock位于适当的高度和角度,制造商可以提高用户的舒适度和生产力。总之,headstock是车床机器的重要组成部分,显著影响加工操作的质量和效率。它的设计、对准和人体工程学位置都是成功进行木工和金属加工项目的关键因素。随着技术的进步,我们可以期待headstock设计的进一步创新,从而为工匠和工程师带来更大的精确性和易用性。
