Linear Wire Displacement Sensor is applied to the front lifting crane of containers

Linear Wire Displacement Sensor is applied to the front lifting crane of containers

What is a container reachstacker? A container reachstacker, also known as a reachstacker or front loader, is a type of crane designed for the loading and unloading of containers. It is a mobile machinery used specifically for stacking 20-foot and 40-foot international containers. Reachstackers are primarily used for stacking containers and horizontal transport within ports,…

What is an Absolute Linear Wire Displacement Sensor?

What is an Absolute Linear Wire Displacement Sensor?

A Linear Wire Displacement Sensor, also known as a cable displacement sensor or capacitive wire displacement sensor, is a device used to measure the distance or position change of an object in a linear direction. Its structure typically includes a sensor head, wire (cable), spring, encoder, and connecting cable. The absolute Linear Wire Displacement Sensor…

How to install Linear Wire Displacement Sensor

How to install Linear Wire Displacement Sensor

1.Preparation Select the Appropriate Linear Wire Displacement Sensor: Choose the suitable Linear Wire Displacement Sensor based on your measurement requirements, including measurement range, accuracy, and output signal type (digital or analog, or dual output). If you have any doubts about the selection, you can contact our customer service on the right side to help you choose…

The application of Linear Wire Displacement Sensor  in  Hydraulic gate opening measurement

The application of Linear Wire Displacement Sensor in Hydraulic gate opening measurement

1. What is Hydraulic Gate Opening? Hydraulic gate opening refers to the degree of opening of a gate and its proportional relationship to the water flow capacity through the gate. It directly determines the water flow rate passing through the gate. In hydraulic engineering, adjusting the relative opening of the gate controls water release from…

Linear Wire Displacement Sensor is applied to AGV forklifts

Linear Wire Displacement Sensor is applied to AGV forklifts

AGV forklifts (Automated Guided Vehicle forklifts) are intelligent logistics handling equipment. They utilize built-in navigation systems and sensors (such as laser, infrared, ultrasonic, etc.) to perceive the surrounding environment. These sensors help match pre-set landmarks, magnetic markers, walls, and other features to determine their location and create maps. Under computer monitoring, AGV forklifts can travel along…

What is an Angular Displacement Sensor & its uses

What is an Angular Displacement Sensor & its uses

Angular position sensors, also known as rotary position sensors, are designed to measure rotary displacement. They are available with various technologies and have different application measuring ranges. Some angular position sensors, like the one on Briter Encoder, are programmable.  Angular position sensors can be contacting or non-contacting, and the measurement ranges can be single-turn or…

Exploring the Technology of Miniature Absolute Rotary Encoders

Exploring the Technology of Miniature Absolute Rotary Encoders

When it comes to industrial automation, precision and reliability are paramount. Miniature rotary encoders are used for accurate positioning in activities like operation of packaging machinery, and navigation of automated guided vehicles (AGVs). Accurate position feedback is crucial for better results.  Miniature absolute rotary encoders are particularly effective in providing accurate readings.   Among rotary…

IP68 waterproof and dustproof encoder
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IP68 waterproof and dustproof encoder

IP68 waterproof and dustproof encoder Introduction and principles 1. Introduction to IP68 Protection Rating IP68 is an international standard used to assess the dust and water resistance levels of electronic devices. In an IP68 encoder, IP stands for Ingress Protection rating, where the number 6 indicates the highest level of protection against dust, and the number…

The main differences between single-turn and multi-turn absolute value encoders lie in how they handle position information

The main differences between single-turn and multi-turn absolute value encoders lie in how they handle position information

The main differences between single-turn and multi-turn absolute value encoders lie in how they handle position information Single-turn absolute value encoders and multi-turn absolute value encoders are two common types of position encoders used to encode input position information into vector representations, each operating with distinct principles. Single-Turn Absolute Value Encoder:The single-turn absolute value encoder…

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