SONOTEC稱重傳感器優(yōu)點在于能完成測量工作
SONOTEC稱重傳感器強制測量完成
BURSTER - 在裝載小區(qū)設計的藝術中技藝。
負載單元 - 測量力的機械矢量的方法(F)
稱重傳感器由一個彈簧元件和一個用于測量這種變形的裝置組成,該彈簧元件經歷了由于測量的力而產生的彈性和線性變形。測量小變形有多種方法。目標總是將機械參數(shù)“變形”映射到電參數(shù)“電壓”上。
不同的傳感器元件及其zui常見的設計。
如何為您的應用程序做出正確的選擇。
彈簧元件 - 中心組件
彈簧元件的目的是吸收要測量的力并將其轉換為均勻的應變范圍。彈簧材料的彈性特性用于間接測量力。應變計測量彈簧元件表面的應變。應變計由金屬箔制成,并卷在基底上。從該金屬箔上蝕刻曲折的電阻圖案。
LOAD CELLS - 在任何情況下都是準確的
稱重傳感器必須應對大范圍的機械條件。例如,他們可能不得不適應狹小的空間,提供特別快速的讀數(shù),承受離軸負載,處理沖擊載荷或跟蹤頻繁的載荷變化。這就是為什么在傳感器中使用不同形狀的測量元件,每個測量元件都具有其使用領域的特定優(yōu)勢。
應變計 - 將力轉化為信號
使用復雜的過程將應變計應用于彈簧元件的表面。在爆破器中,這顯然是以zui大的精度和zui高的質量完成的,以確保它們與彈簧元件一樣受到變形。當應變儀變形時,它們會改變它們的長度和導體橫截面。兩者的效果是增加電阻。這種膨脹或壓縮以及由此產生的力在電阻上作為電阻的變化進行測量。
顯示所有稱重傳感器
- 一切都在它的位置
每個測量元件的設計都涉及在傳感器上提供可以應用應變儀的合適位置。這個位置必須提供足夠的空間來容納應變計,以便它們產生一個規(guī)定的應變并表現(xiàn)出線性和可重復的行為。
SONOTEC稱重傳感器優(yōu)點在于能完成測量工作
BURSTER - SKILLED IN THE ART OF LOAD CELL DESIGN.
LOAD CELLS - THE WAY TO MEASURE THE MECHANICAL VECTOR QUANTITY OF FORCE (F)
Load cells consist of a spring element, which experiences elastic and linear deformation as a result of the force being measured, and a device for measuring this deformation. There are various ways of measuring small deformations. The aim is always to map the mechanical parameter “deformation” onto the electrical parameter “voltage”.
The different sensor elements and their most common designs.
How to make the right choice for your application.
SPRING ELEMENT - the central component
The purpose of the spring element is to absorb the force to be measured and convert it into a uniform strain range. The elastic properties of the spring materials are used to measure the force indirectly. Strain gauges measure the strain on the surface of the spring element. Strain gauges are made of a metal foil rolled onto a substrate. A meandering resistive pattern is etched from this metal foil.
LOAD CELLS - accurate in every situation
Load cells have to cope with a huge range of mechanical conditions. For instance they may have to fit into tight spaces, deliver exceptionally fast readings, withstand off-axis loads, deal with impact loads or track frequent load changes. This is why differently shaped measuring elements are used in the sensors, each possessing specific advantages for their area of use.
STRAIN GAUGES - transform force into signal
Complicated processes are used to apply strain gauges to the surface of the spring element. At burster this is obviously done with the greatest precision and maximum quality, to ensure they are subject to the same deformation as the spring element. When the strain gauges are deformed, they change their length and conductor cross-section. The effect of both is to increase the electrical resistance. This expansion or compression, and hence the force, is measured electrically as a change in resistance.
Show all load cells
PRECISION - everything in its place
The design of every measuring element is concerned with providing on the sensor a suitable location on which the strain gauges can be applied. This location must provide enough space to accommodate the strain gauges so that they produce a strain as specified and exhibit absoluy linear and reproducible behaviour.
SONOTEC稱重傳感器優(yōu)點在于能完成測量工作