displacement pick-up

简明释义

位移传感器

英英释义

例句

1.The displacement pick-up helps in determining the exact position of the moving parts.

位移传感器有助于确定运动部件的确切位置。

2.During the test, the displacement pick-up recorded an unexpected fluctuation in pressure.

在测试过程中，位移传感器记录到了压力的意外波动。

3.The mechanic explained the importance of the displacement pick-up in measuring engine performance.

机械师解释了位移传感器在测量发动机性能中的重要性。

4.For our project, we decided to use a digital displacement pick-up for better precision.

对于我们的项目，我们决定使用数字位移传感器以获得更好的精度。

5.We need to install a new displacement pick-up to improve the accuracy of our measurements.

我们需要安装一个新的位移传感器以提高测量的准确性。

作文

In the world of automotive engineering, various terms and concepts play a crucial role in understanding vehicle performance. One such term is displacement pick-up, which refers to the ability of an engine to generate power based on its size and design. The displacement of an engine, measured in liters or cubic centimeters, represents the total volume of all the cylinders in the engine. This measurement is significant because it directly influences the amount of air and fuel that can enter the combustion chamber, ultimately affecting the engine's power output and efficiency.When discussing displacement pick-up, it is essential to understand how engine displacement impacts acceleration and overall driving experience. For instance, a larger engine displacement generally allows for more air and fuel to be combusted, leading to higher power levels. This means that vehicles equipped with engines that have a higher displacement often exhibit better acceleration and performance compared to those with smaller engines. However, this increased power comes with trade-offs, such as lower fuel efficiency and potentially higher emissions.Moreover, the concept of displacement pick-up can also be related to the tuning and modification of engines. Car enthusiasts often seek to enhance their vehicles' performance by increasing engine displacement through various means, such as installing a larger engine or modifying existing components to allow for greater airflow. These modifications can lead to significant improvements in horsepower and torque, providing a thrilling driving experience.In addition to performance aspects, displacement pick-up also plays a role in the environmental considerations of modern vehicles. As manufacturers strive to meet stringent emissions regulations, there is a growing trend towards smaller engines with turbocharging technology that can produce similar power levels to larger engines while maintaining better fuel efficiency. This shift highlights the importance of balancing performance with sustainability in today's automotive industry.Furthermore, the understanding of displacement pick-up is not limited to traditional internal combustion engines. In the realm of electric vehicles (EVs), power delivery and acceleration characteristics differ significantly from conventional engines. EVs often provide instant torque, allowing them to achieve impressive acceleration despite having smaller physical dimensions compared to gasoline engines. This unique characteristic challenges the conventional notions of displacement and power output, leading to a re-evaluation of what constitutes effective performance in modern vehicles.In conclusion, the term displacement pick-up encapsulates a vital aspect of engine performance and vehicle dynamics. Understanding this concept helps both automotive professionals and enthusiasts appreciate the intricate balance between engine size, power output, and efficiency. As the automotive landscape continues to evolve with advancements in technology and shifting consumer preferences, the significance of displacement pick-up will remain a critical factor in the design and performance of vehicles. By embracing both traditional and innovative approaches to engine design, the industry can continue to push the boundaries of performance while addressing the pressing challenges of sustainability and environmental impact.

在汽车工程的世界中，各种术语和概念在理解车辆性能方面起着至关重要的作用。其中一个术语是排量提升，它指的是发动机根据其大小和设计产生动力的能力。发动机的排量以升或立方厘米为单位，代表发动机所有气缸的总体积。这个测量值很重要，因为它直接影响进入燃烧室的空气和燃料的数量，最终影响发动机的功率输出和效率。在讨论排量提升时，理解发动机排量如何影响加速和整体驾驶体验至关重要。例如，较大的发动机排量通常允许更多的空气和燃料被燃烧，从而导致更高的功率水平。这意味着配备较高排量发动机的车辆通常表现出比小排量发动机更好的加速和性能。然而，这种增加的功率伴随着权衡，例如较低的燃油效率和潜在的更高排放。此外，排量提升的概念也与发动机的调校和改装相关。汽车爱好者通常通过各种手段寻求提高其车辆的性能，例如安装更大的发动机或修改现有组件以允许更大的气流。这些改装可以显著提高马力和扭矩，提供令人兴奋的驾驶体验。除了性能方面，排量提升在现代车辆的环境考虑中也发挥着作用。随着制造商努力满足严格的排放法规，越来越多的小型发动机与涡轮增压技术的趋势正在兴起，这些小型发动机能够产生与大型发动机相似的功率水平，同时保持更好的燃油效率。这种转变突显了在当今汽车工业中平衡性能与可持续性的重要性。此外，对排量提升的理解不仅限于传统内燃机。在电动汽车（EV）的领域，动力传递和加速特性与传统发动机有显著不同。电动车通常提供瞬时扭矩，使它们能够实现令人印象深刻的加速，尽管其物理尺寸相比汽油发动机较小。这一独特特性挑战了排量和功率输出的传统概念，导致对现代车辆有效性能的重新评估。总之，排量提升这一术语概括了发动机性能和车辆动态的一个重要方面。理解这一概念有助于汽车专业人士和爱好者欣赏发动机大小、功率输出和效率之间复杂的平衡。随着汽车行业在技术进步和消费者偏好变化中的不断发展，排量提升的重要性将继续成为车辆设计和性能的关键因素。通过采用传统和创新的方法来设计发动机，行业能够继续突破性能的界限，同时应对可持续性和环境影响的紧迫挑战。